. . LIBRARY . .

Connecticut
Agricultural College.

VOL iA.X5..0

CLASS NO. Q..J). Q

r - !) I

COST yj? VjM^

DATE J.JJL:, 1.. 19 /-^.

Digitized by tine Internet Archive

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DEPARTMENT OF THE INTERIOR

MONOGRAPHvS

OF THE

United States Geological Survey

VOLUME LIV

WASHINGTON

GOVERNMENT PRINTING OFFICE
1915

UNITED STATES GEOLOGICAL SURVEY

GEORGE OTIS SMITH, Director

THE

MESOzoic AND cenozok; echinodermata

OF THE UNITED STATES

BY

WILLIAM BULLOCK CLARK

AND

MAYVILLE W. TWITCHELL

WASHINGTON

GOVERNMENT PRINTING OFFICE
1915

li X 5 0

CONTENTS.

Page.
7
Preface ;

Part I. — The Mesozoic Echinodermata, by William Bullock Clark 9

Introduction

Geologic and geographic range 9

Bibliography

Triassic Echinodermata 21

Crinoidea ^'■

Pentacrinidis -■'■

Encrinidae ■ ^^

Stelleroidea - ^^

Amphiuridae ^"J

Echinoidea ^^

Cidaridse — ^

Jurassic Echinodermata ^ -^

Crinoidea ^^

Pentacrinidse ^°

Stelleroidea - ^^

Asteriidas "°

OpMolepidid;<? ""

Echinoidea ^^

Cidarida; 3°

Hemicidaridse ^'■

Diadematidse '^■'

Pedinidse ^^

Pygasterid» ^^

Cassidulidre ""^

Cretaceous Echinodermata ■^'^

Crinoidea '^^

Pentacrinidse "'■'

UintacrinidiP ^^

Marsupitidii? ^"

Bourgueticrinida' ■^"

Stelleroidea *'-

Astropectinida=. *^

Pentagonasteridse ' '^'-

Atheneidae ■*-■

Pentacerotidaj ^^

Ophiolepidid^ '*■'

Echinoidea ^^

Cidaridaj ■*■*

SaleniidfB ■ "*"

Hemicidarida^ ^^

Orthopsida> ^*

Diadematidaj ™

Diplopodiidae r °°

Cyphosomatidae ^°

Triplechinida; ^^

Pygasteridae ""

Cly peastridio " '

Echinoneidae " '

Nucleolitidai ^^

Cassidulidae ' ^

Echinocorythida? °'-

Spatangidae ""

3

4 ' CONTENTS.

Page.

Part II. — The Cenozoic Echinodermata, by William. Bullock Clark and Matville W. Twitchell... 101

Introduction 101

Geologic and geographic range 101

Bibliography 105

Eocene Echinodermata 112

Crinoidea , 112

Antedonidfe 112

Stelleroidea 112

Asteriidse 112

Echinoidea 113

Cidaridae 113

Arbaciidfe 117

Cyphosomatidw 118

Triplecliinidiie 118

Fibulai-iidiie 119

Laganidee 122

Scutellid^e 124

Clypeastrida? 136

Cassidulidae 140

Spatangida? 150

Oligocene Echinodermata 157

■ Echinoidea 157

Cidaridae 157

Arbaciidse 158

Cypho.somatidaf 159

Triplechinid'e 159

Fibulariida? 160

Laganidse 160

Nucleolitidse > 165

Cassidulidae 170

Spatangida? 174

SynaptidK 177

Miocene Echinodermata 178

Stelleroidea 178

Asteriidse 178

Ophiodermatida? 178

Amphiuridae 178

Echinoidea 179

Cidarida; 179

Arbaciidae 180

Triplechinidae 181

Fibulariidre 182

Scutellidae 183

Clypeastridfe 209

Cassidulidae 211

Spatangidae 212

Pliocene Echinodermata 216

Echinoidea 21 6

Strongylocentrotidae 216

Scuteiiidfe 216

Clypeastridae 218

Cassidulidae 220

Spatangidfe 221

Pleistocene Echinodermata 222

Stelleroidea 222

Asteriidse 222

Echinoidea 222

Triplechinid* - 222

Strongylocentrotidae 223

ScutelUda; 223

Spatangidae 227

Index --- 337

ILLUSTRATIONS.

Page.

Plates I-CVII. Mesozoic and Cenozoic Echinodermata 228-336

CVIII. A, Astrodapsis tumidus Kemond in matrix, Santa Margarita formation (upper Miocene),
Nacimiento River, San Luis Obispo County, Cal.; B, Dendraster gibbsii (Remond) in upper
Miocene (?) beds, K. W. Jones rancli. Kings County, 20 miles southeast of Coalinga, Cal 336

5

PREFACE.

The study of the Mesozoic and Cenozoic Echinodermata of the United States was commenced
by the senior author of this paper under the ausjjices of the United States Geological Survey in
the autumn of 1890 and has been continued with frequent interruptions to the present time.
During recent years he has had associated with liim, in the study of the Cenozoic forms, Dr. M. W.
Twitchell, formerly a graduate student at Johns Hopkins University and now assistant State
geologist of New Jersey, who has confined his investigations cliiefly to the Clypeastrina and
Asternata. Several papers containing results of tliis study have been prepared by the senior
author, the most important being one entitled "The Mesozoic Echinodermata of the United
States," which was published in 1893 as Bulletin 97 of the United States Geological Survey.
Other contributions have appeared from time to time as the work has proceeded.

Few American paleontologists have investigated the Echinodermata, and no one of them has
hitherto attempted a general systematic study of the Mesozoic and Cenozoic representatives of
this group. Much confusion has therefore existed as to the specific and generic relations of many
of the forms, and their geologic distribution has been in much doubt. Some of the forms are
very numerous, and because of their wide geographic and i-estricted geologic range are valuable
in determining questions of correlation. The revision presented in this contribution should
therefore be of some value in stratigrapliic geology.

No attempt has been made by the authors to modify mateiiallj' the recent classifications of
the Echinodermata, which are based on exhaustive study of far greater and much more repre-
sentative materials than those afforded by American deposits. The authors have followed very
closely in theh major classification that of F. A. Bather in "The Echinodermata," in Lancaster's
"Treatise on zoology," and in their generic usage that of P. M. Duncan in his "Eevision of the
genera and great groups of the Echinoidea."

Many courtesies have been extended to the writers in connection ^ith this study, and all the
large collections of the country have been put at their disposal. Among the more extensive
collections used have been those of the United States Geological Sui-vey, United States National
Museum, Academy of Natural Sciences of Pliiladelphia, American Museum of Natural His-
tory, Wagner Free Institute of Science, Museum of Comparative Zoology of Harvard College,
Peabody Museum of Yale University, Cincinnati Society of Natural History, Walker Museum,
Carnegie Museum, Field Museum, Boston Society of Natural History, Johns Hopkins Uni-
versity, Wilhams College, University of CaHfornia, Leiand Stanford Junior University, Amherst
College, Maryland Geological Survey, New Jersey Geological Survey, Texas Geological Survey,
Alabama Geological Survey, P. de Loriol, and Robert T. Jackson.

The authors desire particularly to express then- appreciation for valuable personal aid
rendered by numerous paleontologists, among whom should be especially mentioned T. W.
Stanton, of the United States Geological Survey; J. W. Gregory, of the University of Glasgow;
W. H. Dall, of the United States National Museum; Robert T. Hill, formerly of the United
States Geological Survey; Frank Springer, of the United States National Museum; John C.
Merriam, of the University of CaUfornia; and Ralph Arnold, until lately of the United States
Geological Survey.

Most of the illustrations have been made under the direction of J. L. Ridgway, of the United
States Geological Survey. Many of the earlier drawings from Bulletin 97 (The Mesozoic Echino-
dermata of the United States), made by C. R. Keyes and H. C. Hunter, are incorporated in
this volume.

THE MESOZOIC AND CENOZOIC ECHINODERMATA
OF THE UNITED STATES.

By William Bullock Clark and Mayville W. Twitchell.

PART I.— THE MESOZOIC ECHINODERMATA.

By William Bullock Clark.

INTRODUCTION.

GEOLOGIC AND GEOGRAPHIC RANGE.

The remains of Echinodermata are found in Mesozoic deposits at nearly all horizons and
at ^videly separated localities but are much more numerous and characteristic in Cretaceous
than in Triassic and Jurassic strata. In several of the Cretaceous fonnations they are among
the most valuable diagnostic fossils, and at a few localities they occur in vast numbers.

Comparatively few Triassic forms have been found. The most common are crinoid stems
representing the genera Isocrinus and Encrinus, the fonner appearing in the Lower Triassic of
Idaho, the Middle Triassic of Nevada, and the Upper Triassic of California, and the latter being
confined to the Upper Triassic of California. The echinoids are represented by two species of
Cidaris, which are confined to the Upper Triassic of California. In addition to these a few
indistinct casts, among them a small, poorly preserved starfish, which has been questionably
assigned to the genus Aspidura, have been found in the Lower Triassic of Idaho.

The Jurassic echinoderms are somewhat more numerous and varied, although they form no
considerable proportion of the known American fossil Echinodermata. The most common
forms belong to the genus Pentacrinus, column joints having been found in Nebraska, South
Dakota, Wj^oming, Colorado, Idaho, LTtah, and California. The asteroids are represented by
both the OphiuridiB and the Stelleridfe, specimens having been found in Wyoming, South
Dakota, and Utah. The echinoids are much more fully represented than in the Triassic. Sev-
eral genera have been recognized, among them Cidaris, Hemicidaris, Pseudodiadema, Stom-
echinus, Holectypus, and Pygurus. Most of the specimens are poorly preserved and are in few
places numerous. The first four genera occur only in California, being found in both the Lower
and Middle Jurassic. One species of Holectypus occurs in Texas and another in Montana.
Pygurus has been found only in Texas.

The Cretaceous echinoderms are very numerous in certain areas. A great variety of types
is represented and much of the material is splendidly preserved. Many of the species are nar-
rowly limited in geologic range and are therefore important as type fossils.

The crinoids are represented by Uintacrinus, Marsupites, Pentacrinus, and Rliizocrinus,
the first named having afforded a great number of remarkable specimens in the Niobrara chalk
of Kansas. Springer has made this material the subject of an elaborate monograph, and most
of the great museums of the world contain beautiful specunens from the now famous locality
in Kansas.

10 MESOZOIC AND CENOZOIC ECHINODEEMATA OF THE UNITED STATES.

The stelleroids contain representatives of both the Ophiuroidea and the Asteroidea, the
genera Ophioglypha, Astropecten, Goniaster, Pentagonaster, and Pentaceros being found. The
material comes from widely separated areas in New Jersey, Texas, and Wyoming.

The echinoids are very numerous, both the regular and irregular types being well repre-
sented. Both the Lower and Upper Cretaceous deposits of Texas contain many species and vast
numbers of individuals at several horizons; and the Upper Cretaceous of the Atlantic and eastern
Gulf coasts, particularly in New Jersey, North Carolina, Alabama, and Mississippi, although
fully characterized by its echinoid fauna, affords many forms. The western interior and
Pacific coast Cretaceous contains a much smaller representation of echinoid types.

Among the Lower Cretaceous genera represented, more particularly in Texas, are: Cidaris,
Salenia, Hypodiadema, Goniopygus, Pseudodiadema, Diplopodia, Cyphosoma, Holectypus,
Pja-ina, Enallaster, and Hemiaster. Outside of Texas very few Lower Cretaceous echinoids
have been recognized. The Horsetown formation of California contains a few forms.

The Upper Cretaceous of Texas contains a large echinoid fauna and some of the genera
possess many species. They are: Cidaris, Leiocidaris, Leptarbacia, Orthopsis, Heterodiadema,
Cottaldia, Diplopodia, Cyphosoma, Micropsis, Holectypus, Echinobrissus, Cassidulus, Anan-
chytes, Cardiaster, Holaster, and Plemiaster.

The LTpper Cretaceous of the Atlantic and Gulf coasts has afforded representatives of the
following genera: Cidaris, Salenia, Pseudodiadema, Coptosoma, Psammechinus, Echinobrissus,
Trematopygus, Botriopygus, Cassidulus (many species of which have been recognized), Catopy-
gus, Echi]ianthus, Ananchytes, Cardiaster, Hemiaster, and Linthia. Much the larger number
of Atlantic coast forms have been found in the New Jersey Cretaceous, especially in the Vincen-
town sand of the Rancocas group, which is regarded as probably of Danian age. The western
interior and Pacific coast areas contain few representatives of the echinoids, most of the species
belonging to the genus Hemiaster.

The absence of species identical with those of other continents and particularly of Europe
renders impossible a detailed correlation of American and foreign horizons on the basis of their
echinoderm faunas. However, genera represented in the main divisions of the Mesozoic in
ii.merica are with scarcely an exception similar to those typical of the same divisions elsewhere.

The accompanying tables show the stratigraphic positions of the more important American
Mesozoic formations, the geologic distribution of the Mesozoic Echinodermata of the United
States, and the stratigraphic distribution ot the Cretaceous Echinodermata of Texas.

INTKODUCTION.

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12

MESOZOIC AND CENOZOIC ECHINODERMATA OF THE UNITED STATES.

Geologic distribution of the Mesozoic Eckijiodermata of the United States.

Crinoidea:

Dicyclica —

Inadunata —

Dendrocrinoidea —
Pentacrinidae—

Isocriniis smithi Clark

Isocrinus californicus Clark

Isocrinus sp

Isocrinus knighti Sprinjier

Pentacrinus asteriscus Meek & Hayden .

Pentacrinus whitei Clark

Pentacrinus shastensis Clark

Pentacrinus tehamaensis Clark

Pentacrinus bryani Gabb

Encrinidfe —

Encrinus hyatti Clark

Uintacrinldfe —

Uintacrinus socialis Orinnell

Marsupitldip —

Marsupites americanus Springer

Flexibilia —
Pinnata —

BourguetiicrinidEe—

Rbizocrinus alabamensis de Loriol

Rhizocrinus cylindricus Weller

Stelleroidea:
Asteroidea —

Phanerozonia —

Astro pec tinince —

Astropecten (?) montanus Douglas

Pentagonasterid:T? —

Pentagonaster brow-ni Weller

Atheneidte—

Goniaster maramillata Gabb

Pentaoerotido' —

Penta?eros asperulus Clark

Cryptozonia —

AstcriidiP—

Asterias (?) dubium Whitfield

Ophiuroidea —
Zygophiurn? —

Opbiolepidida? —

Ophioglypha utahensis Clark

Ophioglvpba texana Clark

Ophioglypha bridgerensis (Meek)

Amphiurida? —

Aspidura (?) idahoensis Clark

Ecbinoidea:

Regularia endobranehiata—
Cidaroidea —

Cidarida?—

Cidaris shastensis Clark

Cidaris dilleri Clark

Cidaris californicus Clark

Cidaris taylorensis Clark

Cidaris plixmasensis Clark

Cidaris tehamaensis Clark

Cidaris texanus Clark . . . :

Cidaris walcotti Clark

Cidaris splendens Morton

(■?) Cidaris dixiensis Cragin

Cidaris nahalakensis de Loriol

Leiocidaris hemigranosus (Shumard) . . .
Regularia ectobranchiata —
Diademoidea —
Calvcina—

Saleniidre—

Salenia texana Credner

Salenia tumidula Clark

Salenia bellula Clark

Arbacina —

HemicidaiidtP —

Heraicidaris iuturaescens Clark

Hypodiadema elegans Clark

Goniopvgus zitteli Clark

"Leptarbacia argutus Clark

Diademina —

Orthopsodpe —

Orthopsis planulata Clark

Orthopsis occidentalis Cragin

Diadematidre —

Pseudodiadema emersoni Clark

Pseudodiadema texanum (Roemcr) —
Pseudodiadema diatretum (Morton) . . .

Heterodiadema ornatum Clark

Cottaldia rotula Clark

Hemipedina charltoni Cragin

Diplopodiida^ —

Diplopodia taffi Cratiin

Diplopodia streeru^itzi Cragin

Pedinidce —

Stomechinus hyatti Clark

Cyphosomatidfo —

Cvphosoma hilli Clark

CVphosoma texanum Roemer

Cyphosoma volanum Cragin

Triassic.

Jurassic.

Lower
Creta-
ceous.

Upper
Creta-
ceous.

X
X

X
X

X
X
X

X
X

X
X
X

INTRODUCTION.
Geologic distribution of the Meiozoic Echinodennata of the United States — Continued.

13

Triassic.

Jurassic

Lower
Creta-
ceous.

Upper
Creta-
ceous.

Echinoidea— Continued,

Regular ia ectobranchiata — Continued.
Diademoidea— Continued.
Diademina— Continued.

Cyphosomatida}— Continued.

C'optosoma speciosum Clark

Coptosonia mortoni (de Loriol)

Micropsis lineatus Clark

Echinina —

Triplechinidse —

Psainraeeliinus cingulatus Clark

Pedinopsis symmetrica (Cragin)

Pedinopsis pondi Clark

Irregularia —

Gnathostomata —
Holect.vpina—
Pygasteridai —

Holectypus pealei Clark

Holectypus cragini Clark

Holectypus plana tus Roemer

Clypeastrina —
Clypeastridje —

Echinanthus mortonis (Michelin)

(?) Scutellaster eretaceus Cragin

Atelostomata —
Asternata —

Echinoneidfe —

Pyriua parryi Hall

Nucle'olitida?—

Rotriopygus alabamensis Clark

Echinobrissus angustatus Clark

Echinobrissus expansus Clark

Echinobrissus te.xanus Clark

Trematopygus cruciferus (Morton)

Cassidulidae—

Pygurus sp

Pygurus (?) geometricus (Morton)

Catopygus o\iformis Conrad

C^atopygus pusillus Clark

Catopygus williamsi Clark

Catopygus sp

Cassid'ulus florealis (Morton)

(I^assidulus ai-quoreus Morton

Cassidulus micrococcus Gabb

Cassidulus subquadratus Conrad

Cassidulus subconicus Clark

Cassidulus porrectus Clark

Cassidulus stantoni Clark

C'assidulus intermedins Slocum

Cassidulus hemisphericus Slocum

Cassidulus conoideus Clark

Cassidulus abrnptus Conrad

(?) Cassidulus subangulatus (Emmons)

Sternata—

Ecbinocorythidpe —

A nanchy tes ovalis Clark

Ananchytes texana Cragin

Cardiaster einctus (Morton)

Cardiaster smocki Clark

Cardiaster curtus Clark

Holastv simplex Shumard

Spatangida? —

Enallaster texanus (Roemer)

Enallaster obliquatus Clark

Heraiaster elegans Shumard

Hemiaster whitei Clark

Hemiaster be.xari Clark

Hemiaster comanchei Clark

Hemiaster dalli Clark

Hemiaster cahini Clark

Hemiaster parastatus (Morton)

Hemiaster Stella (Morton)

Hemiaster ungula (Morton)

Hemiaster texanus Roemer

Hemiaster humphreysanus Meek and Hayden .

Hemiaster califomicus Clark

Hemiaster beecheri Clark

Hemiaster lacunosus Slocum

Hemiaster kiimmeli Clark

Hemiaster welleri Clark

Linthia tumidula Clark

Linthia variabilis Slocum

X
X
X
X
X

X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X

X
X
X
X
X
X

X
X
X
X
X
X
X
X
X
X
X
X
X
X

39800°— 15-

14

MESOZOIC AND CENOZOIC ECHINODERMATA OF THE UNITED STATES.
Stratigraphic distribution of the Cretaceous Echinodermata of Texas.

Trinity.

Fredericks-
burg.

Washita.

Austin.

Taylor.

Ophiogly pha te.xana Clark

Cidaris texanus Clark

Cidaris dixieusis Cragin

Leiocidaris hemigranosus (Shumard).

Salenia texana Credner

Hyfiodiadema elegans Clark

C.oniopygiis zittoli Clark

Leptarbacia argiitus Clark

Orthopsis planulata Clark

Orthopsis occidentalis CragLn

Pseudocliadema texanura {Roemer>..

Heterodiadema ornatum Clark

Cottaldia rotula Clark

Hemipedina charltoni Cragin

Diplopodia taffi Cragin

Diplopodia steeruvitzi Cragin

Cyposma hilli Clark

Cyphosoma volanum Cragin

if icropsis lineatiis Clark

Pedinopsis symmetrica (Cragin)

PedinopsLS popdi Clark

Holectypus planatns Roemer

Pyrina parn Hall

Echinobrissus augustatus Clark

Echinobrissus texanus Clark

Ananchy tes texana Cragin

Holastef simplex Shumard

Enallaster texanus ( Roemer)

Enallaster obliquatiis Clark

Heraiaster elegans Shumard

Hemiaster wliitei Clark

Hemiaster bexari Clark

Hemiaster comanchei Clark

Hemiaster dalli Clark

Hemiaster cavini Clark

Hemiaster texanus Roemer

X

x'

X
X

X
X
X

X
X

X
X
X

BIBLIOGRAPHY.

1S29.

Morton, S. G., Note (containing a notice of some fossils recently discovered in New Jersey): Acad. Nat. Sci. Philadel-
phia Jour., Ist ser., vol. 6, pp. 120-129, 1829.

1830.

Morton, S. G., Sjmopsis of the organic remains of the Ferruginous Sand formation of the United States, with geological
remarks: Am. Jour. Sci., 1st ser., vol. 17, pp. 274-295, 1830; also, vol. 18, pp. 243-250, Pis. I-III, 1830.

Additional observations on the geology and organic remains of New Jersey and Delaware: Acad. Nat. Sci.

Philadelphia Jour., 1st ser., vol. 6, pp. 189-204, 1830.

1833.

Morton, S. G., Supplement to the "Synopsis of the organic remains of the Ferruginous Sand formation of the United

States," contained in volumes 17 and 18 of this journal: Am. Jovu-. Sci., Ist ser., vol. 23, pp. 288-294, 1833; vol. 24,

pp. 128-132, Pis. V, VIII, IX, X, 1833.

1834.

Morton, S. G., Synopsis of the organic remains of the Cretaceous group of the United States, 98 pp., 19 pis., Philadelphia:

1834.

1835.

Agassiz, L., Prodrome d'une monographie des Radiares ou Echinodermes (1834): Neuchatel Soc. sci. nat. Mem. 1, pp.

168-199, 1835.
Desmoulins, C, Etudes surles ^chinides, Tabl. synon., p. 236, 1837.

1840.

Agassiz, L., Catalogus systematicus ectyporum Echinodermatum fossilium musei Neocomensis, 20 pp., 1840.

Lea, I., Notice of the Oolitic formation in America, with descriptions of some of its organic remains: Philos. Soc. Trans.,

2d ser., vol. 7, pp. 251-260, Pis. VIII-X, 1840.
Ntst, H., and Galeotte, H. G., Description de quelques fossiles du calcaire jurassique de Tehuacan au Mexique: Acad.

sci. Bruxelles, Bull. 7, pt. 2, pp. 212-221, 2 pis., 1840.
DE Lamarck, J. B., Histou-e naturelle des animaux sans vertfebres, 2d ed., vol. 3, 1840. (1st ed. 1816.)

1841.

Morton, S.G., Descriptions of two new species of fossils from the Lower Cretaceous strata of New Jersey: Acad. Nat.
Sci. Philadelphia Proc, vol. 1, pp. 131, 132, 1841.

INTRODUCTION. 15

1842.

Morton, S. G., Description of some new species of organic remains of the Cretaceous group of the United States: Acad.

Nat. Sci. Philadelphia Jour., Istser., vol. 8, pp. 207-215, 216-227, 1842.
d'Orbignt, a., Voyage dans I'Ami^riquemeridionale, Paleontologie ; text in vol. 3; plates in vol. 8, 1842.
Coquilles et 6chinodermes fossiles de Colombie, recueilles par M. Boussingault, 1842.

1844.

FoRBE.s, E. D., On the fossil shells collected by Mr. Lyell from the Cretaceous formations of New Jersey: Geol. Soc.
London Proc, vol. 4, pp. 307-310, 1844.

1846-47.

Agassiz, L., and Desor, E., Catalogue raisonn6 des families, des genres, et des especes de la classe des echinodermes:
Ann. sci. nat. (zool.), 3d ser., vol. 6, pp. 305-374, 1846; vol. 7, pp. 129-168, 1847; vol. 8, pp. 5-35, 355-381, 1847.

1848.

Bronn, H. G., Index palseontologicus, 2 vols., 2,361 pp., 1848.

1849.

RoEMER, F., Texas, mit besonderer Riicksicht auf Deutsche Auswanderung und die physischen Verhaltnisse des
Landes nach eigener Beobachtung geschildert; mit einem naturwissenschaftlichen Anhange und einer topogra-
phisch-geognostischen Karte von Texas, 1849.

1850.

d'Orbigny, a., Prodrome de paleontologie; Terrains cr^tacfe (Senonien); Echinodermes, vol. 2, pp. 268-275, 1850.
Conrad, T. A., Description of one new Cretaceous and seven new Eocene fossils: Acad. Nat. Sci. Philadelphia Jour.,

2d ser., vol. 2, pp. 39-41, 18.50.
MicHELiN, Hardouin, Notice sur deux espfeces d'^cMnides fossiles: Rev. etmag. zoologie, 2d ser., vol. 2, p. 240, 1850.
Ravenel, E., On the Recent Squalidae of the coast of South Carolina, and catalogue of the Recent and fossil echino-

derms of South Carolina: Am. Assoc. Adv. Sci. Proc, vol. 3, pp. 1.59-160, 1850.

1851.

Bayle and Coquand, M^moire sur les fo.ssiles secondaires recueillis dans le Chili par JI. Ignace Domeyko: Soc. g^ol.

France M6m., vol. 2, No. 4, pp. 1-47, Pis. I-VII, 1851.
Bronn, H. G., Lethsea geognostica, 3 vols, and Atlas, 1851-18.56.

1852.

RoEMER, F., Die Kreidebildungen von Texas und ihre organischen Einschlusse, 1852. •

18.53.

d'Archiac, C. a., et Haimb, J., Fossiles nummulitique de I'lnde, p. 214, 1853.

Shumard, B. F., Paleontology of the exploration of the Red River of Louisiana in the year 1852: Rept. of Capt. R. B.

Marcy, U. S. Army, pp. 199-211, 1853.
Giebel, C. G., Beitrag zur Palaeontologie des Texanischen Kreidegebirges : Naturwiss. Ver. iu Halle Jahresb. fiir

1852, pp. 358-375, Pis. VI, VII, 1853.

1853-1856.

d'Orbigny, A., Paleontologie franfaise; Description des animaux invert^br^s; Terrains cr^tac^s (Echinides), vol. 6,
1858-1860.

1854.

d'Orbigny, A., Note rectificative sur divers genres d'^chinoi'des: Revue et mag. zool., 2d ser., vol. 6, pp. 16-28, 1854.

1855.

Schiel, James, List and description of organic remains collected during the exploration of the Central Pacific Railroad
line, 1853-.54: Pacific Railroad Repts., vol. 2, pp. 108-109, Pis. I-IV, 1855.

^857.

Hall, James, Geology and paleontology of the boundary: United States and Mexico Boundary Survey Rept., vol. I,
pt. 2, pp. 101-174, 1857.

Meek, F. B., and Hayden, F. V., Description of new species and genera of fossils, collected by Dr. F. V. Hayden in
Nebraska Territory, under the direction of Lieut. G. K. Warren, topographical engineer, U. S. Army: with some
remarks on the Tertiary and Cretaceous formations of the Northwest, and the parallelism of the latter ^vith those
of other portions of,the United States and Territories: Acad. Nat. Sci. Philadelphia Proc, vol. 9, pp. 117-148, 1857.

16 MESOZOIC AND CENOZOIC ECHINODERMATA OP THE tiNITED STATES.

1858.

Marcou, Jules, Geology of North America, 1858.

Desor, E., S}'nopsis des 6chiiiide.s fossiles, Genfeve, Paris, and Weisbaden, 1858.

Meek, F. B., and Hayden, F. V., Descriptions of new organic remains collected in Nebraska Territory in the year 1857
by Dr. F. V. Ilayden, geologist to the exploring expedition under the command of Lieut. G. K. Warren, topo-
graphical engineer U. S. Army; together with some remarks on the geology of the Black Hills and portions of the
surrounding country: Acad. Nat. Sci. Philadelphia Proc, vol. 10, pp. 41-59, 1858.

1859.

Gabb, W. M., Catalogue of the invertebrate fossils of the Cretaceous formation of the United States, with references:
Acad. Nat. Sci. Philadelphia Pamph., 19 pp., 1859.

1860.

Shumard, B. F., Observations upon the Cretaceous strata of Texas: St. Louis Acad. Nat. Sci. Trans., vol. 1, pp. 582-
590, 1860.

■ Descriptions of new Cretaceous fossils of Texas: St. Louis Acad. Nat. Sci. Trans., vol. 1, pp. 590-610, 1860.

Conrad, T. A., Descriptions of new species of Cretaceous and Eocene fossils of Mississippi and Alabama: Acad. Nat.
Sci. Philadelphia Jour., 2d ser., vol. 4, pp. 27.5-298, 1860.

Gabb, W. M., Descriptions of new species of American Tertiary and Cretaceous fossils: Acad. Nat. Sci. Philadelphia
Jour., 2d ser., vol. 4, pp. 375^16, 1860.

Description of new species of Cassidulus from the Cretaceous formations of Alabama: Acad. Nat. Sci. Phila-
delphia Proc, vol. 12, p. 519, 1^60.

Philippi, R. a., Viaje al desierto de Atacama (German and other translations), 1860.

1862-1867.

CoTTEAU, G., Paleontologie fran^aise; description des animaux invertebr^s; Terrains cr^tac^s (Echinides), vol. 7,

1862-1867.
DujARDiN, F., and Hupe, H., Histoire naturelle des zoophytes ^chinodermes, p. 584, 1862.

1864.

Meek, F. B., Check list of the invertebrate fossils of North America: Smithsonian Misc. Coll., vol. 7 (177), 1864.

1865.

Meek, F. B., and Hayden, F. V., Paleontology of the Upper Missouri: Smithsonian Contrib., vol. 14 (172), 1865.
Conrad, T. A., Catalogue of the Eocene Annulata, Foraminifera, Echlnodermata, and Cirripediaof the United States:
Acad. Nat. Sci. Philadelphia Proc, pp. 73-75, 1865.

1866.

Conrad, T. A., Check list of the invertebrate fossils of North America; Eocene and OUgoeene: Smithsonian Misc.
Coll'., vol. 7 (200), pp. 1-41, 1866.

1868.

Cook, G. H., Common and characteristic fossils of the three marl beds: Geology of New Jersey, pp. 374-377, 1868.
Conrad, T. A., Synopsis of the invertebrate fossils of the Cretaceous formation of New Jersey: Geology of New Jersey,
App. A, pp. 721-731, 1868.

1^69.

Gabb, W. M., Paleontology of California; Descriptions of Cretaceous fossils from Mexico: Geol. Survey California,
Paleontology, vol. 2, sec. 3, pp. 255-276, 1869.

1870.

Credneh, H., Die Kreide von New Jersey: Deutsche geol. Gesell. Zeitschr., vol. 22, pp. 191-251, 1870.

1871.

Marsh, O. C, On the geology of the eastern Uintah Mountains: Am. Jour. Sci., 3d ser., vol. 1, pp. 191-198, 1871.

1872-1874.

Agassiz, a., Revision of the Echini: Mus. Comp. Zool. lllus. Cat. No. 7, 770 pp., 87 pis., 7 maps, 1872-1874.

1873.

Meek, F. B., U. S. Geol. and Geog. Survey Terr., Pal. Rept. for 1872, pt. 2, pp. 429-518, 1873.

INTKODUCTION. 17

1875.

White, C. A., U. S. Geog. Surveys W. 100th Mer., Rept. Paleontology, vol. 4, pt. 1, 1875.

Credner, G. R., Ceratites fastigatus und Salenia texana; Zeitschr. ftir gesam. Naturwiss., vol. 46, pp. 105-116, pi. v,

figs. 1-6, 1875.

1876.

Grinnell, G. B., On a new crinoid from the Cretaceous formation of the West: Am. Jour. Sci., Sdser., vol. 12, pp. 81-

83, 1876.
Gabb, W. M., Note on the discovery of representatives of three orders of fossils new to the Cretaceous formation of

North America: Acad. Nat. Sci. Philadelphia Proc, vol. 28, pp. 178, 179, 1876.
Notes on American Cretaceous fossils, with descriptions of some new species: Acad. Nat. Sci. Philadelphia

Proc, vol. 28, pp. 276-324, 1876.
Description of a collection of fossils made by Dr. Antonio Raimondi in Peru: Acad. Nat. Sci. Philadelphia

Jour., 2d ser., vol. 8, pp. 262-336, 1876.
DE LoRioL, P., Note sur quelques espfeces nouvelles appartenant k la classe des 6chinodermes: Soc. phys. hist. iiat.

Genfeve Mem., vol. 24, pp. 659-673, 1876.
Meek, F. B., Note on the new genus Uintacrinus Grinnell: U. S. Geol. and Geog. Survey Terr. Bull., vol. 2, no. 4,

pp. 375-378, 1876.
• Report on the paleontological collections of the expedition: Expl. across Great Basin of Utah, by Simpson,

App. J, pp. 339-375, Pis. I-V, 1876.
— Invertebrate Cretaceous and Tertiary fossils of the upper Missouri country: U. S. Geol. and Geog. Survey Terr.

Final Kept., vol. 9, 629 pp., 45 pis., 1876.

1877.

Hague, Arnold, and Emmons, S. F., Descriptive geology: U. S. Geol. Expl. 40th Par. Final Rept., vol. 2, 890 pp.,

26 pis., 1877.
Whitfield, R. P., Preliminary report on the paleontology of the Black Hills: U. S. Geog. and Geol. Survey Rocky

Mtn. Region Final Rept., 1877.
Hall, James, and Whitfield, R. P., U. S. Geol. Expl. 40th Par. Final Rept., Paleontology, vol. 4, pt. 2, pp. 199-

302, 1877.

1878.

ScHLiJTEE, C, Ueber einige astylide Crinoiden: Deutsche geol. Gesell. Zeitschr., vol. 30, pp. 28-66, Pis. I-IV, 1878.
King, C, U. S. Geol. Expl. 40th Par. Final Rept., vol. 1, Systematic geology, 803 pp., 28 pis., 1878.

1879.

Peale, a. C, Jura-Trias section of southeastern Idaho and western Wyoming: U. S. Geol. and Geog. Survey Terr.

Bull., vol. 5, no. 1, pp. 119-123, 1880.

1880.

Whitfield, R. P., Paleontology of the Black Hills of Dakota (in Report on the geology and resources of the Black Hills
of Dakota): U. S. Geog. and Geol. Survey Rocky Mtn. Region Final Rept., 1880.

1881.

Steinmann, G., Zur Kenntniss der Jura- und Kreideformation von Caracoles (Bolivia): Neues Jahrb., Beilage

Band 1, pp. 239-301, Pis. IX-XIV, 1881.
Ueber Tithon und Kreide in den periianischen Anden: Neues Jahrb., 1881, vol. 2, pp. 130-153, Pis. VI-VIII.

1882.

DE LoRioL, p.. Description of a new species of Bourgueticrinus: Cincinnati Soc. Nat. Hist. Jour., vol. 5, p. 118,

PI. V, figs. 1, lb, 1882.

1883.

Agassiz, a.. Report on the Echini: Mus. Comp. Zoology Mem., vol. 10, No. 1, 126 pp., 1883.
PoMEL, A., Classification raethodique et genera des 6chinides vivantes et fossiles, Alzer, 1883.

White, C. A., Contributions to invertebrate paleontology No. 2; Cretaceous fossils of the Western States and Terri-
tories: U. S. Geol. and Geog. Survey Terr. Twelfth Ann. Rept., for 1878, pt. 1, pp. 5-39, Pis. XI-XVIII, 1883.

■ 1884.
Carpenter, P. H. Report upon the Crinoidea: Challenger Repts., Zoology, vol. 11, pt. 2, 442 pp., 62 pis., 1884.

1887.

Hill, R. T., The Texas section of the American Cretaceous: Am. Jour. Sci., 3d ser., vol. 33, pp. 287-309, 1887.

DE LoRiOL, P., Notes pour servir k I'^tude des echinodermes: Recueil zool. Suisse, vol. 4, pp. 365-407, Pis. XV-XVIII,

1887.
ScHLiJTER, C, Ueber die regularen Echiniden der Kreide Nord-Amerika's unter Vorlegung einer neuen Salenia:

Niederrhein. Gesell. ftir Natur- und Heilkunde zu Bonn Sitzungsber., pp. 38^2, 1887.

18 MESOZOIC AND CENOZOIC ECHINODEEMATA OF THE UNITED STATES.

1888,

RoEMER, F., Macraster, eine neue Spatangoiden-Gattung aus der Kreide von Texas: Neues Jahrb., 1888, vol. 1,

pp. 191-195.
• — Ueber eine durch die Haufigkeit Hippuriten-artiger C'hamiden ausgezeichtnete Fauna der Oberturonen

Kreide von Texas: Pal. Abhandl. von Dames und Kayser, vol. 4, pp. 281-296, Pis. XXI-XXIII, 1888.
White, C. A., Contributions to the paleontology of Brazil; comprising descriptions of Cretaceous invertebrate fossils

mainly from the Provinces of Sergipe, Pernambuco, Para, and Bahia: Museo nac. Rio de Janeiro Archives, vol. 7,

pp. 1-273, Pis. I-XXVII, 1888.

1890.

CoTTEAU, M., Note sur quelques echinides du terrain cretace du Mexique: Soc. geol. France Bull., 3d ser., vol. 18,
pp. 292-299, Pis. I, II, 1890.

1891.

Clark, W. B., A revision of the Cretaceous Echinoidea of North America: Johns Hopkins Univ. Circ, vol. 10,

No. 87, pp. 75-77, 1891.
Duncan, P. M., Revision of genera and great groups of the Echinoidea: Linn. Soc. Jour., Zoology, vol. 23, pp. 1-

311, 1891.
DuMBLE, E. T., Notes on the geology of the valley of the middle Rio Grande : Geol. Soc. America Bull., vol. 3, pp. 319-

330, 1892.
Gregory, J. W., The relations of the American and European echinoid faunas: CJeol. Soc. America Bull., vol. 3, pp.

101-108, 1892.

1893.

Aguilera, J. G., and Ordonez, Ezequiel, Datos para la geologia de Mexico, 87 pp., 1893.

Clark, W. B., The Mesozoic Echinodermata of the United States, a preliminary list: Johns Hopkins Univ. Circ,
vol. 12, No. 103, pp. 51, 52, 1893.

• The Mesozoic Echinodermata of the United States: U. S. Geol. Survey Bull. 97, 207 pp., 50 pis., 1893.

A preliminary report on the Cretaceous and Tertiary formations of New Jersey, etc . : Geol. Survey New Jersey,

Ann. Rept. for 1892, pp. 167-229, 1893.

Craigin, F. W., A contribution to the invertebrate paleontology of the Texas Cretaceous: Geol. Survey Texas Fourth
Ann. Rept., pp. 139-294, Pis. XXIV-XLVI, 1893.

Hill, R. T., Paleontology of the Cretaceous formations of Texas; The invertebrate paleontology of the Trinity divi-
sion: Biol. Soc. Washington Proc, vol. 8, pp. 9-40, Pis. I-VIII, 1893.

WiLLisTON, S. W., The Niobrara Cretaceous of western Kansas: Kansas Acad. Sci. Trans., vol. 13, pp. 107-111, 2
pis., 1893.

1894.

Bather, F. A., Echinoderma: Zool. Record for 1893, pp. 1-107, 1894.

Cragin, F. W., The Choctaw and Grayson terranes of the Arietina: Colorado Coll. Studies, vol. 5, pp. 40-48, 1894.

Descriptions of invertebrate fossils from the Comanche series in Texas, Kansas, and Indian Territory: Colorado

Coll. Studies, vol. 5, pp. 49-68, 1894.
Smith, J. P., Age of the auriferous slates of the Sierra Nevada: Geol. Soc. America BuU., vol. 5, pp. 243-258.
WiLLisTON, S. W., and Hill, B. H., Notes on Uintacrinus socialis Grinnell: Kansas Univ. Quait., vol. 3, pp. 19-21 and

diagram, 1894.

1895.

Bather, F. A., Echinoderma: Zool. Record for 1894, pp. 1-55, 1895.

Cragin, F. W., A new Cretaceous genus of Clypeastridae: Am. Geologist, vol. 15, pp. 90, 91, 1895.
DuMBLB, E. T., The Cretaceous of western Texas and Coahuila, Mexico: Geol. Soc. America Bull., vol. 6, pp. 375-
388, 1895.

1896.

Bather, F. A., Echinoderma: Zool. Record for 1895, vol. 32, pp. 1-70, 1896.

Uintacrinus; a morphological study: Zool. Soc. London Proc. for 1895, pp. 974-1004, Pis. LIV-LVI, 1896.

1897.

Aguilera, J. G., Sinopsis de geologia mexicana: Inst. geol. Mexico Bol. 4, 5, and 6, pp. 187-250, 1897.

Clark, W. B., Upper Cretaceous formations of New Jersey, Delawai'e, and Mai'yland: Geol. Soc. America Bull., vol. 8,

pp. 31.5-318, Pis. XL-L, 1897.
Williston, S. W., The Kansas Niobrara Cretaceous: Kansas Univ. Geol. Survey, vol. 2, pp. 242, 243, 1897.

INTKODTJCTIOH'. 19

1898.

Bather, F. A., Echinoderma: Zool. Record for 1897, vol. 34, pp. 1-135, 1898.

Clark, W. B., Report upon the Upper Cretaceous formations: New Jersey Geol. Survey Ann. Rept. for 1897, pp. 161-

210, 1898.
Hill, R. T., and Vaughan, T. W., Geology of the Edwards Plateau and Rio Grande plain adjacent to Austin and San

Antonio, Tex. with reference to the occurrence of underground waters: U. S. Geol. Siu'vey Eighteenth Ann.

Rept., pt. 2, pp. 193-321, Pis. XXI-LXIV, 24 figs., 1898.
Logan, W. N., The invertebrates of the Benton, Niobrara, and Fort Pierre groups: Kansas Univ. Geol. Survey, vol. 4,

pt. 1, pp. 431-518, 1898.
Weed, W. H., and Pirsson, L. V., Geology and mineral resources of the Judith Mountains of Montana: U. S. Geol.

Survey Eighteenth Ann. Rept., pt. 3, pp. 437-616, Pis. LIX-LXXXVII, 25 figs., 1898.

1899.

Bather, F. A., Echinoderma: Zool. Record tor 1898, vol. 35, pp. 1-73, 1899.

BosE, Emilio, Geologia de los alrededores de Orizaba: Inst. geol. Mexico Bol. 13, pp. 1-52, 1899.

Darton, N. H., Jurassic formations of the Black Hills, S. Dak.: Geol. Soc. America Bull., vol. 10, pp. 383-396,

Pis. XLII-XLIV, 1899.

Springer, Frank, Notice of a new discovery concerning Uintacrinus: Am. Geologist, vol. 24, p. 92, 1899.

Stanton, T. W., Mesozoic fossils of the Yellowstone National Park: U. S. Geol. Survey Mon. 32, pt. 2, pp. 600-

640, 1899.

1900.

Bather, F. A., Echinoderma: Zool. Record for 1S99, vol. 36, pp. 1-101, 1900.

A treatise on zoology, pt. 3, The Echinodermata, 1900.

Beecher, C. E., On a large slab of Uintacrinus from Kansas: Am. Jour. Sci., 4th ser., vol. 9, pp. 267-268, Pis. Ill, IV,

1900.
Holmes, J. A., The deep well at Wilmington, N. C: Science, new ser., vol. 11, pp. 128-130, 1900.
Knight, W. C, A preliminary report on the artesian basins of Wyoming: Wyoming Exper. Sta. Bull. 45, pp. 105-251,

Pis. I-XIV, 1900.

Jurassic rocks of southeastern Wyoming: Geol. Soc. America Bull., vol. 11, pp. 377-388, PL XXIII, 1900.

Logan, W. N., The stratigraphy and invertebrate faunas of the Jurassic formation in the Freezeout Hills of Wyoming:

Kansas Univ. Quart., vol. 9, pp. 109-134, Pis. XXV-XXXI, 1900.
Springer, F., LTintaciinus; its structure and relations: Mus. Comp. Zool. Mem., vol. 25, No. 1, 90 pp., 8 pis., 3 figs., 1900.
Vaughan, T. W., Reconnaissance in the Rio Grande coal fields of Texas: U. S. Geol. Survey Bull. 164, 100 pp., 11 pis.,

1900.
Villareal, F., Paleontologia sudamericana; Echinodermata: Revist. cienc. Lima, vol. 3, pp. 129-132, 1900.

1901.

Bather, F. A., Echinoderma: Zool. Record for 1900, pp. 1-153, 1901.

Darton, N. H., Preliminary description of the geology and water resources of the southern half of the Black Hills and
adjacent regions in South Dakota and Wyoming: U. S. Geol. Survey Twenty-first Ann. Rept., pt. 4, pp. 489-599,
Pis. LVIII-CXII, 28 figs., 1901.

Hill, R. T., Geogi'aphy and geology of the Black and Grand prairies, Texas, with detailed descriptions of the Creta-
ceous formations and special reference to artesian waters: U. S. Geol. Survey Twenty-first Ann. Rept., pt. 7, pp.
86-386, Pis. XIV-LIV, 56 figs., 1901.

Lindgren, W., Trias in northeastern Oregon: Science, new ser., vol. 13, pp. 270, 271, 1901.

1902.

Bather, F. A., Echinoderma: Zool. Record for 1901, vol. 38, pp. 1-99, 1902.

Anderson, F. M., Cretaceous deposits of the Pacific coast: California Acad. Proc, 3d ser.. Geology, vol. 2, No. 1, 154

pp., 12 pis., 1902.
H[ovey], E. 0., A remarkable slab of fossil crinoids: Am. Mus. Nat. Hist. Jour., vol. 2, pp. 11-14, 1 pi., 1 fig., 1902.

1903.

Bather, F. A., Echinoderma: Zool. Record for 1902, vol. 39, pp. 1-88, 1903.

Dougla.ss, E., Astropecten (?) montanus — a new starfish from Fort Benton — and some geological notes: Carnegie Mus.

Pub. 20, Carnegie Mus. Ann., vol. 2, pp. 5-8, 1 fig., 1903.
Whiteaves, J. L., On some additional fossils from the Vancouver Cretaceous, with a rcAdsed li,st of the species tliere

found; Mesozoic fossils: Geol. Survey Canada, vol. 1, pt. 5, pp. 309-415, Pis. XL-LI, 1903.

1904.

Bather, F. A., Echinoderma: Zool. Record for 1903, vol. 40. pp. 1-105, 1904.

Whiteave.s, J. F., Uintacrinus and Hemiaster in the Vancouver Cretaceous: Am. Jour. Sci., 4th ser., vol. 18, pp. 287-

289, 1904.
Schuchert, Charles, A noteworthy crinoid: Smithsonian Misc. Coll., vol. 45, p. 4.50, PI. CIII, 1904.

20 MESOZOIC AND CENOZOIC ECHINODEEMATA OF THE UNITED STATES.

1905.

Bather, F. A., Echinoderma: Zool. Record for 1904, vol. 41, pp. 1-96, 1905.

Cragin, F. W., Paleontology of the Malone Jurassic formation of Texas: U. S. Geol. Sur\'ey Bull. 266, 172 pp., 29 pis.,

1905.
Johnson, C. W. , Annotated list of the types of invertebrate Cretaceous fossils in the collection of the Academy of Natural

Sciences, Philadelphia: Acad. Nat. Sci. Philadelphia Proc, vol. 57, pp. 4-28, 1905.
Welleb, Stuakt, a fossil starfish from the Cretaceous of Wyoming: Jour. Geology, vol. 13, pp. 257, 258, fig. 1, 1905.

1906.

Grant, M., Echinoderma: Zool. Record for 1905, pp. 1-92, 1906.

1907.

Weller, Stuart, A report on the Cretaceous paleontology of New Jersey; Echinodermata: Geol. Survey New Jersey,
pp. 275-305, Pis. VI-XVIII, 1907.

1909.

Bassler, R. S., Some noteworthy accessions to the division of invertebrate paleontology in the National Museum:

Smithsonian Misc. Coll., vol. 52, pp. 267-269, Pis. XVII, XVIII, 1909.
Lambert, J., and Thiery, P., Essai de nomenclature raisonn^e des echinides, 1909.
Slocum, a. W., Newechinoids from the Ripley group of Mississippi : Field Mus. Nat. Hist. Pub. 134, Geol. ser., vol. 4,

No. 1, pp. 1-16, Pis. I-III, 1909.
Springer, Frank, A new American Jurassic crinoid: U. S. Nat. Mus. Proc, vol. 36, pp. 179-190, PI. IV, 1909.

1910.

Clark, W. B., and Twitchell, M. W., Geological distribution of the Mesozoic and Cenozoic Echinodermata of the
United States: Geol. Soc. America Bull., vol. 20, 1908, pp. 686-688, 1910.

1911.

Springer, Frank, Some new American crinoids: Mus. Comp. Zool. Mem., vol. 25, No. 3, pp. 117-161, Pis. I-VI,
1911.

Note. — A number of contributions have appeared during the progress of this report through the press, the results
of which can not be fully incorporated in the following pages, although footnotes concerning some of them have been
inserted. Among the more important of these publications are:

Jackson, R. T., Phylogeny of the Echini, with a revision of Paleozoic species: Boston Soc. Nat. Hist. Mem., vol. 7,
491 pp., 76 pis., 258 figs., 1912.

Jackson proposes the generic name Centrechinus to replace Diadema, thus changing the names of family and
order to which the genus belongs.
Smith, J. P., The Middle Triassic marine invertebrate fannies of North America: U. S. Geol. Survey Prof. Paper 83,
254 pp., 99 pis., 1914.

Smith refers to Pentacrinus cf. P. asteriscus Meek and Hayden, in material from the Pit shale of California.

TRIASSIC ECHINODERMATA. .
Class CKINOIDEA.
Subclass DICYCLICA.
Order INADUNATA.
Suborder DENDROCRINOIDEA.
Family PENTACRINID^.
Genus ISOCRINUS von Meyer.
IsocRiNtJS SMiTHi Clark, n. sp.
Plate I, figures la-b.

Determinative characters. — Column composed of small moderately thick pentagonal joints,
with sharp reentering angles on the large specimens. Column perforated by small canal.

Dimensions. — Column: Diameter of joint ^ to 2 millimeters; length of joint J to 1 milli-
meter.

Description. — The joints are generally separated and more or less weathered, being found
in great numbers on many leached surfaces of limestone. The largest and best-preserved speci-
mens are moderately thick and show sharp reentering angles. The crenulated ridges are gen-
erally so badly weathered that their characters are obscured, but they are broadly petaloid
with rather sharp angles at their outer extremities. All the Lower Triassic forms are assigned
to this species. Some minor differences appear among the specimens examined, however, and
more than one species may be represented.

Locality. — One mile west of Paris, Bear Lake County, Idaho.

Geologic horizon. — Columbites zone, Thaynes limestone, Lower Triassic, 150 feet above
strata with Meekoceras fauna, but below beds containing typical Lower Triassic forms.

Collections. — U^ S. National Museum (31184); Leland Stanford Junior University.

IsocKiNUS CALiFORNicus Clark, n. sp.

Plate I, figures 2a-c

Determinative cTiaracters. — Column composed of medium-sized rather thin pentagonal joints,
with sharp reentering angles. The crenulated ridges are. rather narrowly petaloid, and each
area is sharply terminated at its outer extremity. Colimin perforated by large canal.

Dimensions. — Column: Diameter of joint 2 to 5 millimeters; length of joint J to 1 milli-
meter.

Description. — Several specimens of isolated column joints of Isocrinus from the Upper Trias-
sic rocks of California, which may or may not belong to a single species, have been examined by
the author. Differences in the size of the joints and the sharpness of the reentering angles
appear, but they may be due to difference in age of the individuals represented or by the differ-
ent positions of the joints on the stem. In the absence of more satisfactory criteria, therefore, all
the Upper Triassic Pentacrini examined have been referred to this species. The majority of
specimens studied are not of large size, although considerably larger than /. smithi of the Lower
Triassic. Most of them show deep reentering angles. The crenulated ridges are obscure in
many specimens, but where well preserved are rather narrowly petaloid, and each area is sharply
terminated at its outer extremity. A large well-marked canal perforates the column.

21

22 MESOZOIC AND CENOZOIC ECHINODEEMATA OF THE UNITED STATES.

Locality. — Two and one-half miles west of Rountl Mountain, Shasta County (type), and at
Rush Creek, Plumas County, Cal.

Geologic horizon. — "Cedar formation," Upper Triassic.

Collections. — U. S. National Museum (31185); Leland Stanford Junior UniTersity.

ISOCRINUS Sp.

Pcntacnnus astrriscus (f) Hall and 'Whitfield, 1877, U. S. Geol. Expl. 40th Par. Final Rept. vol. 4, pp. 280, 281, PI. VI,
fig. l(i.

Hall and Wliitfield examineil several column joints of supposed Pentacrinus collected by
Arnold Hague of the 40th Parallel Survey "in limestone of supposed Triassic age, -associated
with Sfiriferina homfrayi and Terehratula humboldtensis Gabb, near Dun Glen Pass, Pahute
Range, Nevada," which they doubtfully referred to P. asteriscus Meek and Hayden of the Juras-
sic of the Rocky Mountain region. They note certain differences "in the more obtuse points of
the star, and the filling up of the angles between the points, and also in the broader form of the
elliptical figures on the articulating surfaces of the disks." They state that although these fea-
tures are not constant the form is larger than P. asteriscus, and that better material would doubt-
less show it to be another species. It is evident that this form can not be safely referred to the
Jurassic species P. asteriscus, but as the author has not had access to further material it is simply
referred to the genus Isocrinus without specific description. The limestones at Dun Glen Pass
were correlated with the base of the Star Peak formation, and more recent work has confirmed
this determination. ' The Star Peak formation is of both !Middle and Upper Triassic age.

Locality. — Dun Glen Pass, Pahute Range, Nevada.

Geologic horizon. — Limestone of Dun Glen Pass, Middle Triassic.

Collection. — U. S. National Museum.

Family ENCRINID^.

Genus ENCRINUS C. F. Schulze.

Encrinus hyatti Clark, n. sp.

Plate I, figures 3a-b.

Determinative characters. — Column composed of large, thin, round to oval joints. Surfaces
of joints covered with fine, bifurcating striations, producing a close suture. Column perforated
with canal of rather small size.

Dimensions. — Column: Diameter of joint 5 to 10 millimeters; length of joint 1 to 3 milli-
meters.

Description. — Several specimens of casts of the column joints of Encrmus have been exam-
ined by the author from a single Upper Triassic locality in California. The column itself is
wanting in every specimen, but the cast of the "close surface" is very perfect, much more so than
the cast of the outer surface, which in all specimens has lost its distinctive features. Most of the
casts show a somewhat oval outline, which may be due to compression, as the stems of most of
the species belonging to this genus are round.

The joints surpass considerably in size those of aiiy other crinoid form in the American
Mesozoic. The round to oval shape of the "close surface" of the specimens and the fine bifur-
cating striations thereon are highly distinctive, enabling the relations of the form to be readily
determined even in small fragments. All the specimens evidently belong to the same species.
A rather small canal is present.

Locality. — Oscar tunnel, 2i miles southeast of Longville, Plumas County, Cal.

Geologic horizon. — "Cedar formation," Upper Ti'iassic.

Collection.~1J. S. National Museum (31186).

• Duruig the progress of this report tlircugh the press a paper by J. P. Smilh (The Middle Triassic marine invertebrate faunas of North
America: U. S. Geol. Survey Prof. Paper S3, 1914) has appeared, in which he says (p. 14S): "A species identical with that of Dun Glen, Nev.,
occurs iu the Pit shale of California, associated with a poor fauna characteristic of the Middle Triassic." It is referred to Pentacrinus cf.
P. asteriscus Meek and Hayden.

TEIASSIC ECHINODEEMATA, 23

Class STELLEROIDEA.

Subclass OPHIUKOIDEA.

Order ZYGOPHIUR^.

Family AMPHIURID.E.

Genus ASPIDUBA Agassiz.

AspiDURA ( ?) iDAHOENSis Clark, n. sp.

Plate I, figure 4.

Determinative characters. — Casts of small forms, with short arms. Very poorly preserved.

Dimensions. — Diameter of disk 5 to 7 millimeters; length of arms 10 to 25 millimeters.

Description. — Three individuals of this species, all in a very imperfect state of preservation,
have been examined. They occur as partial casts of the disk and rays. The characteristics of
none of the plates can be seen. The general outlme of the disk and rays remains constant in all
the specimens, which evidently belong to the same species.

Locality. — One and one-half miles west of Paris, in the fiLrst canyon north of Paris Canyon,
Bear County, Idaho.

Geologic horizon. — Thaynes limestone. Lower Triassic.

Collection.— V. S. National Museum (31187).

Class ECHINOIDEA.

Subclass REGULARIA ENDOBRANCHIATA.

Order CIDAROIDEA.

Family CIDARID.E.

Genus CIDARIS Leske.

CiDARIS SHASTENSIS Clark, n. Sp.

Plate I, figure 5.

Determinative characters. — Test apparently large. Interambulacral areas wide. Tubercles
large, circular, with depressed areolas ; miliary space large.

Dimensions. — Width of fragment 10 millimeters; height of fragment 6 millimeters.

Description. — The single fragmentary interambulacral plate found indicates that this species
possessed a test of considerable size. The interambulacral areas are wide, the tubercles large,
circular, and mth depressed areolas. The miliary space is large. The plate is probably from
near the ambitus. The broken tubercle renders it impossible to say whether the mamelon was
perforated or not. There is no trace of the plates of the ambulacral area.

Related forms. — Species is shown by the wide miliary space to be cjuite distinct from C. dil-
leri. It is evidently a new species.

Locality. — Two and one-half miles west of Round Mountain, Shasta County, Cal.

Geologic horizon. — "Cedar formation," Upper Triassic.

Collection. — U. S. National Museum (31188).

CiDARis DiLLEEi Clark, n. sp.

Plate I, figure 6.

Determinative characters. — Test apparently of medium size; ambulacral areas narrow, flexu-
ous, with two rows of granules between the poriferous avenues; interambulacral areas of mod-
erate width. Tubercles of medium size with oval areolas ; boss crcnulatcd ; mamelon perforated ;
miliary space naiTow.

24 MESOZOIC AND CENOZOIC ECHINODERMATA OF THE UNITED STATES.

Dimensions. — Test : probable diameter about 35 millimetere ; probable height about 25 milM-
nieters: size of iuterambulacral jjlate near ambitus: Width 8 millimeters; height 6 millimeters.

Description. — The portion of the test studied in the single specimen of this species thus far
found is in the form of a cast of the exterior of three interambulacral plates with their adjacent
ambulacral plates on either side. The casts afford a very perfect mold of the more important
features of these plates, which are apparently below the ambitus, in this respect differing from
the specimen of C. shastensis, which comes apparently from nearer the ambitus.

The test was probably of medium size. The ambulacral areas are narrow, strongly flexuous,
with two rows of small granules between the poriferous avenues. The interambulacral areas are
of moderate width, being largely occupied by the tubercles, which are of medium size. The
areolas are oval, the boss crenulated and the mamelon perforated. The miliary space is very
narrow, very few granules being found on the area.

Related forms. — Form is shown by its snaall miliary areas to be quite distinct from C.
shastensis. It is evidently a. distinct species.

Locality. — Two and a half mUes west of Round Mountain, Shasta County, Cal.

Geologic horizon. — "Cedar formation," Upper Triassic.

Collection. — U. S. National Museum (31189).

JURASSIC ECHINODERMATA.

Class CRINOIDEA.

Subclass DICYCLICA.

Order INADUNATA.

Suborder DENDROCRINOIDEA.

Family PENTACRINID^.

Genus ISOCRINUS von Meyer.

IsocRiNus KNiGHTi Springer.

Plate II, figures 1-13; Plate III, figures la-d.

7 Pentacrinites ash'riscus Meek and Hayden, 1865, Paleontology Upper Missouri: Smithsonian Contr., vol. 14 (172),

p. 67, text tig. (not PI. Ill, figs. 2a-b).
Pentacriniis asteriscus Knight, 1900, Geol. Soc. America Bull., vol. 11, p. 386.
"i Penlacrinus asteriscus Logan, 1900, Kansas Univ. Quart., vol. 9, p. 119, PI. XXV, figs. 4-7.
Isocrinus hnighti Springer, 1909, U. S. Nat. Mus. Proc, vol. 36, pp. 179-190, PI. IV, figs. 1-13.

Determinative characters. — Springer describes the species as follows:

Specimens of moderate size.

Stem smooth, long, slightly increasing in diameter distally; pentagonal with straight sides, except at the proximal
end, where for the first few immature internodes the younger joints are stellate. Internodals about 14, but varying
from 12 to 17 in the mature parts; distinctly crenulated at the margins; nodals not enlarged, scarcely distinguishable
from the others except by the cirrus sockets; these are rather shallow, not extending to the hjrpozygal, or infranodal
joint, but usually encroaching upon the supranodal, in which case the apposed faces of these two joints are more or less
indented, producing a marked stellate outline. Conformably to this structure the cirri are directed upward. Inter-
articular pores extending to the fifth internode. Cirri in whorls of five; round, long, and slender, composed of 40
joints or more; the proximal ones relatively short and broad — about one-third as long as wide — tapering rapidly to
about half their breadth, and doubling in length in the first 8 or 10 joints, beyond which they continue uniformly about
as long as wide to the end; terminal claw not preserved. Angles of stem interradial; cirri radial; axial canal iu stem
small, obtusely pentagonal, and apparently interradial in position.

Cup forming a low cone, without any downward projection or basals or radials. Infrabasals well defined, fillin"
half the diameter of the column facet and entirely covered by the proximal columnal. Basals large, smooth, visible
in pentagonal outline, and in full contact exteriorly b\ their lateral faces; they form a closed ring, not protuberant
but flush with the plane of the radials, and about equal to them in height. Radials forming also a ring continuous with
basals. PrLmibrachs two, united by articulation apparently bifascial. Arms simple, or bifurcating once from the
sixteenth to the thirtieth IIBr, thus varying from 10 to 20; they are long, slender, with strongly oblique articulatiii"
faces, and they extend to upward of 90 brachials. Syzygies at IIBr 3 -f 4, and beyond throughout the arm at intervals
of about 5 to 10 brachials. Pinnules long, rounded, composed of elongate joints, 15 or more in the distal pinnules,
but the number in the proximal ones not observable. Disk unknown.

Dimensions. — Height of crown 65 millimeters; length of cirrus of 40 joints 32 milUmeters;
length of longest stem preserved 140 millimeters; diameter of stem at second internode 2 milli-
meters; diameter of stem at tenth internode 2.5 millimeters.

Description. — The first complete crown of this species was obtained by the late W. C. Ivnight,
of the University of Wyoming, in 1S99, in the course of his investigations of the Morrison forma-
tion near Medicine Bow, Wyo. He found one very complete specimen and numerous stems and
fragments of arms on several small slabs of argillaceous Umestone that lay in the debris. He
referred the crown to Pentacrlnus asteriscus. Some additional material obtained the following
year has afforded several additional crowns. All the specimens were fuially placed for study
in the hands of Spriirger, who finds reasons for beheving that the form belongs to Isociinus and
not Pentaciinus. '

1 A new American Jurassic crinoid: U. S. Nat. Mus. Proc, Tol. 36, pp. 179-190, PI. IV, 1909.

25

26 MESOZOIC AND CENOZOIC ECHINODEEMATA OF THE UNITED STATES.

Springer in describing this species makes the following interesting comparison with recent
species:

The stem has a considerable resemblance to that of /. dccorus, except in the disposition of the cirri. It must have
been quite long, as the longest portion, preserved to a distance of 140 millimeters, shows little sign of any rounding. It
is rather more pentagonal for equivalent distances. The cirri are very long and slender; the taper near the base from
short and wide joints to long, narrow, and equal ones is quite marked. The most perfect one has 44 joints, and this
was probably near the maximum. The interesting thing about the cirri, however, is the fact that they are directed
upward instead of downward or outward. In consequence the sockets do not extend to the infranodal (hj-pozygal)
joint, but slope upward toward the supranodal, the lower margin of which is often incised by them. This is more or
less the case in the genus Metacrinus, but is not usual in the recent species of Isocrinus, most of which have the cirri
directed downward, though in some, as /. asteria and /. icyville-lhomsoni, the socket is confined to the nodal joint, and
the cirri are given off about horizontally.

The basals, as shown by the five specimens figured and three others, are quite uniform in their form and propor-
tions. They form with the radials a low funnel, with smooth or slightly rounded sides, and without protuberance or
projection of any kind. They are connected exteriorly by their lateral faces, giving a pentagonal outline and forming
a closed ring [PI. II, fig. 3a], as in the type for which Forbes proposed the genus Cainocrinus, instead of appearing as
mere triangular points separated from each other by the radials and tending more or less to project downward over the
proximal column joints, as in more recent species.

The bifurcation of the arms so far beyond the axillary IBr is an unusual feature, occurring in the largest specimen
at the twenty-seventh to the thirtieth brachial [Pl.II, fig. 1], and in other specimens from the sixteenth to the twenty-
third. I know of no pentacrinoid in which arm division takes place so high up; nor in fact any inadunate crinoid, the
nearest approach to it being found in the Carboniferous genus Poteriocrinus. There is little tendency of the arms to
spread out, but they are long and slender, tending rather to lie in a bundle. The general aspect of calyx and arms is
somewhat like that of I.naresianus, which it also resembles in the number and regularity of the syzygies, which is
unusual in the Pentacrinidse. I can trace them in two arms of specimen A [PL II, fig. 1] part way, and in one to the
end, and can distinguish them in the distal portion of some other arms. Beginning at IIBr 3 + 4, they occur at inter-
vals of mostly about 10 brachials, but sometimes 4, 5. or 6. I give a figure of the pair next to the last, being about
brachials 79 -t- 80 of that arm [PI. II, fig. la].

Related forms. — Springer states that the stem joints of /. Tcnighti —

are uniformly different from the much larger ones on which P. asteriscus was founded, and from the Utah specimen
referred by Dr. White to P. asteriscus ' but afterwards separated from it by Dr. W. B. Clark under the name Pinta-
crinus lohilei, because of its alternating joints. Clark's camparison was made chiefly with the Red Buttes specimen of
P. asteriscus (?), but the separation is doubtless well founded, nevertheless, as the character on which he bases it is
clear in his specimen, and cannot be shown in the type of P. astcriseiis. The difference between the stem of our species
and that of P. whitei is similar to that between the recent /. dccorus and I. parrx, which is fairly constant.

The most nearly related European species that I know of is de Loriol's "Pentacrinus" beaugrandi from the Upper
Jurassic, Portlandian stage, near Boulogne-sur-Mer, France.- This was the only Crinoid known to the author from
the Portlandian stage, and it is the species which he originally proposed to separate from the other Pentacrinidse on
account of having a closed ring of basals, under the name Picteticrinus. In this he found himself anticipated by the
Cainocrinus of Forbes, and in the work last cited, page 281, he abandoned the distinction, and referred the species to
Pentacrinus (sensu P. H. C. ). It has similar large basals, but the arms branch lower down, the stem is more sharply
stellate in corresponding portions, and the cirri much more delicate. The stem is preserved to the fourth internode,
which has 8 internodals, whereas ours has 14 at the same stage.

Pentacrinus (Cainocrinus) andrex Desor ^ is similar to the French species, but with shorter basals and shorter
internodes.

Localities.— Medicine Bow (type) and Red Buttes, Wyo.

Geologic horizon. — Sundance formation (Shirley stage of Knight), Upper Jurassic.

Collection. — U. S. National Museum (682) .

Genus PENTACRINUS Blumenbach.

Pentacrinus asteriscus Meek and Hayden.
Plate III, figure 2.
Pentacrinus asteriscus Meek and Hayden, 1858, Acad. Nat. Sci. Philadelphia Proc, vol. 10, p. 49.
Pentacrinus asteriscus Meek and Hayden, 1860, Acad. Nat. Sci. Philadelphia Proc, vol. 12, p. 419.
Pentacrinus asteriscus Meek, 1864, Smithsonian Misc. Coll., vol. 7 (177), p. 27.

Pentacrinites asteriscus Meek and Hayden, 1865, Paleontology Upper Missouri, Smithsonian Contr., vol. 14 (172), p. 67,
PI. Ill, figs. 2a, 2b.

1 U. S. Geol. Survey Bull. 97, p. 27, 1S93.

2 Mon. «tage Jur. Boulogne-sur-Mer, p. 298, PI. XXVI, flgs. 23-25, 1875; Paleontologie frangaise, Crinoides, vol. 11, pt. 2, p. 278, PI. CLXXXI,
figs. 1-3.

3 De Loriol, Crin. toss, de la Suisse, p. 112.

JURASSIC ECHINODEEMATA. 27

Pentacrinites asteriseiis 'Wliitfield, 1880, Paleontology of Black Hills of Dakota: U. S. Geog. and Geol. Survey Kocky

Mtn. Region, p. 345, PI. Ill, figs. 1, 2.
Pentacrinns asteriscus Peale, 1880, U. S. Geol. and Geog. Survey Terr. Bull., vol. 5, No. 1, p. 120.
Pentacrinus asteriscus Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 51.
Pentacrinus asteriscus Clark, 1893, U. S. Geol. Survey Bull. 97, pp. 26, 27, PL II, figs. 2a-d.
Pentacrinus asteriscus Weed and PLrsson, 1898, U. S. Geol. Survey Eighteenth Ann. Kept., pt. 3, p. 478.
Pentacrinus asteriscus Stanton, 1899, U. S. Geol. Survey Mon., vol. 32, pt. 2, p. 608.
Pentacrinus asteriscus Knight, 1900, Wyoming Exper. Sta. Bull. 45, PI. IV, fig. 2.
Pentacrinus askriscus Darton, 1901, U. S. Geol. Survey Twenty-first Ann. Kept., pt. 4, p. 521.

Determinative characters. — Columns composed of medium-sized pentagonal joints with
moderately deep reentering angles; crenulated ridge of suture strongly petaloidal; column per-
forated by canal of medium size.

Dimensions. — Column: Diameter of joint 2 to 5 millimeters.

Description. — First described by Meek and Hayden from several column joints found in the
Black Hills. When they redescribed and figured the species in 1865 they combined with- the
earHer forms certain smaller column joints found at Red Buttes on North Platte River, figures
of which were given in the text, but these have been recently doubtfully referred by Springer to
Isocrinus knighti. Meek and Hayden in this later pubHcation state that their "description
appUes more particularly to the largest-sized specimens" from the Black Hills and that the two
figures on their Plate III represent these forms, which must therefore be regarded as the type
of the species.

Many similar isolated column joints have been found widely scattered throughout the
Rocky Mountain region by different geologists and most of them are regarded by the author as
belonging to this species. Since it has been clearly demonstrated that the column joints vary
in the different portions of the stem of nearly all crinoids it is evident that several different
species and possibly even different genera may be represented among these forms.

The specimens referred to this species are of moderate size, clearly pentagonal, and with
moderately deep reentering angles, the points of the rays being sharp, and the suture joints
apparently uniting to form a compact column.

Hall and Whitfield referred doubtfully to Pentacrinites asteriscus Meek and Hayden certain
specimens collected by Hayden in Nevada from "Hmestones of supposed Triassic age." There
is much doubt as to this form, but it evidently does not belong to P. asteriscus.

Related forms. — The species presents some points of difference from P. whitei, which has
been generally regarded as belonging to it. Its column joints are generally somewhat smaller,
are not alternating, do not have as deep reentering angles, and its rays ai-e somewhat sharper.
The crenulation of its petaloid area is also somewhat different. This species is somewhat similar
to Pentacrinus shastensis of the Pacific coast, but the latter is of slightly different form and gen-
erally has shallower reentering angles.

Localities. — South and southwest base of Black Hills, South Dakota (type), and Red Buttes,
Wyo. ; South Dakota, Idaho, and Colorado (Meek) ; southeastern Idaho and western Wyoming
(Peale); Black Hills, South Dakota (Whitfield); Sundance formation (Upper Jurassic), Black
HiUs, South Dakota (Darton).

Geologic horizon. — Jurassic.

Collection. — U. S. National Museum (220) ; University of Kansas.

Pentacrinus whitei Clark.

Plate III, figures 3a-c.

Pentacrinus asteriscus Wiite, 1875, U. S. Geog. Surveys W. 100th Mer. Kept., vol. 4, pt. 1, p. 162, PI. XIII, figs. 6a-b.
Pentacrinus whitei Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 51.
Pentacrinus whitei Clark, 1893, U. S. Geol. Survey Bull. 97, pp. 27, 28, PI. Ill, figs. 2a-d.
Pentacrinus ivhitei Springer, 1909, U. S. Nat. Mus. Proc, vol. 36, p. 188.

Determinative bharacters. — Column composed of large, thin, alternating, pentagonal joints
with deep reentering angles; crenulated ridges of suture with strong pentaloid arrangement;
column perforated by canal of medium size.

28 MESOZOIC AND CENOZOIC ECHINODEBMATA OF THE UNITED STATES.

Dimensions. — Column: Diameter of joint 5 to 8 millimeters; height of joint ] to H
milUmetei-s.

Description. — C. A. White describes and figures certain specimens as Pentacrinus asteriscus
Meek and Hayden that evidently belong to a different species. Springer, who has examined the
same material, is likewise of the opinion that the separation of the foi-ms from P. asteriscus is
well fomided. The name P. wJiitei was proposed by the author in honor of the distinguished
geologist who did so much to advance our knowledge of western Amierican Mesozoic geology and
paleontology.

The column joints are relatively thin, with rounded edges, and alternate with each other, so
that the coliunn does not appear compactly formed when viewed from the side. A distinct
petaloid arrangement of the crenulated ridge is exliibited in all the forms.

Related forms. — The species is apparently closely related to P. asteriscus, from which it is
separated by its generally larger alternating joints, deeper reentering angles, and less compact
column.

Localities. — Salt Creek (type) and Diamond Valley, Utah (White).

Geologic horizon. — Jurassic.

Collection. — U. S. National Museum (8588) .

Pentacrinus shastensis Clark, n. sp.

Plate III, figure 4.

Determinative characters. — Column composed of rather large pentagonal joints, with promi-
nent reentering angles. The crenulated ridges of the suture have a rounded petaloid arrange-
ment. Column perforated by a rather large canal.

Dimensions. — Column: Diameter of joint 6 to 9 millimeters; thickness of joint 1 to IJ milli-
meters.

Description. — A number of casts of column joints of a Pentacrinus of medium size have been
found in a very compact sandstone. They show very clearly the shape and exterior markings
of the joints, which have very pronounced reentermg angles and sharp long rays. In one of the
best preserved specimens the crenulated edges of the suture present a prominent petaloid arrange-
ment. This is not distinguishable in most of the specimeiis, which are too poorly preserved to
show the finer details. Two of the specimens are casts of several combined joints in which the
side characters of the column are clearly shown. The column is perforated by a rather large
canal.

Belated forms. — The species is somewhat similar to P. asteriscus Meek and Hayden, but is
larger and of somewhat different form.

Localities. — One-haK mile north of Holcombs stage station, 4 miles north of Buzzards Roost,
and about 2^ miles west of Buzzards Eoost (type), Shasta County, Cal.

Geologic horizon. — Jurassic.

Collection.— U. S. National Museum (31190).

Class STELLEROIDEA.
Subclass ASTEROIDEA.
Order CRYPTOZONIA.

Family ASTERIIDiE.

Genus ASTEBIAS lirmseus.

AsTERiAs? DUBiuM Whitfield.
Plate III, figure 6.

Asterias^ dubium Whitfield, 1877, Preliminary report on the paleontology of the Black Hills, p. 15.
Asterias'! dubium Wliitfield, 1880, Paleontology of the Black Hills of Dakota, pp. 344, 345, PI. Ill, fig. 3.
Asterias dubium Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 51.
Asterias? dubium Clark, 1893, U. S. Geol. Survey Bull. 97, pp. 31, 32, PI. V, fig. 2.
Asterias dubium Logan, 1900, Kansas Univ. Quart., vol. 9, pp. 130, 131, PI. XXV, fig. 4.

JUKASSIC ECHINODEEMATA. 29

Determinative characters. — Imperfectly preserved forms of small size, with slender flexuous
arms, apparently covered superiorly with longitudinal rows of plates.

Dimensions.— Diameter of disk 10 to 12 millimeters; length of arms 15 to 28 milluneters.
Description. — This interesting but doubtful form is thus characterized by Whitfield:

The specimens are not in condition to afford a full description of their specific characters. They are of small size,
the rays being from three-fourths of an inch to IJ inches long, measuring from the center of the body. The rays are
slender and flexuous, most of them being more or less curved in their direction and elevated along the middle, as shown
on a gutta-percha cast taken in a natural mold of a group of three individuals. The upper surface is subangular, and in
structure they are apparently composed of small uniform plates, placed in longitudinal rows. The center of the body
or disk is marked by an obscurely pentangular depression on the upper surface. None of the specimens show the under
side of the body or rays, so that the characters of these parts are entirely unknown.

The species appears to have Iseen somewhat abundant, judging from the condition in which tliey are grouped on
the sandstone, and, although the specimens are obscure and too imperfect for positive determination and description
it has been thought best to designate them by names, as they will undoulitedly prove a characteristic form over a cer-
tain region and of a limited horizon. The sandstone is marked by the layers in which they are found Ijy ripple or wave
marks, having a width of about 3 inches, and indicates a near proximity to a shore line over the area where they were
obtained , and that the indi\dduals are probaljly stranded specimens. A single very imperfect impression of a lamelli-
branchiate shell is seen on the same fragments of rock, but too imperfect for determination.

Related forms. — This doubtful species scarcely admits of comparison with other forms.
There is nothing from American Jurassic strata with which it can be closely associated.

Localities. — East side of Spearfish Creek near its junction mth the Redwator, Black Hills,
South Dakota (tjiio); Freezeout Hills, Wyoming (Logan).

Geologic horizon. — In red sandstones of Jurassic age 70 feet above the " Red Bods " (Wliitfield
type) ; in a thin stratum of sandstone in the Jurassic bluish shale, No. 15 of the section (Loo-an)
Jurassic.

Collections. — U. S. National Museum (325); Kansas University Museum.

Subclass OPHIUROIDEA.
Order ZYGOPHIURJE.
Family OPHIOLEPIDID^.

Genus OPHIOGLYPHA liyman.

Ophiogltpha utahensis Clark, n. sp.

Plate III, figure 5.

Determinative characters. — Dorsal or aboral surface of disk composed of numerous small
imbricating plates wAth five pairs of "ratlial shields." Doi-sal arm plates vnihv than high near
the disk, gradually becoming longer toward the extremity of the arms. Narrow lateral arm
plates shown on several of the arms.

Dimensions. — Diameter of disk 8 millimeters; length of arm 10 millimeters (not entire)-
width of arm near disk \\ milUmeters.

Description. — The only specimen of this species contains two individuals on the same slab
together with a few fragments of arm plates. The aboral surface of the disk of one indivitlual
and several of the arms are in a good state of preservation. Th^ surface of the disk is covered
with a very large number of nearly equal sized imbricating plates of rounded form with the excep-
tion of the "radial shi.4ds," which are larger and elongate and stand in pairs at tho head of the
arms. The arms are long, but all the outer extremities are broken, so that the full length can not
be determined. The dorsal arm plates are wider than high near the disk, but gradually lengthen
as the distance from the disk increases until they become longer than wide. The lateral arm
plates are preserved in places and appear as narrow plates more or less detached from the arms.
The spines are not clearly shown.

Locality. — San Rafael River 10 miles below Castledale, Utah.

Geologic horizon. — Jurassic.

Collection. — U. S. National Museum (22839).
39800°— 15 3

30 MESOZOIC AND CENOZOIC ECHINODEEMATA OF THE UNITED STATES.

Class ECHINOIDEA.

Subclass REGUT.ARIA ENDOBRANCHIATA.
Order CIDAROIDEA.

Family CIDARIDjE.

Genus CIDARIS Leske.

CiDARis CALiFOENicus Clark.

Plate IV, figures la-c.

Cidaris calif ornicus Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 51.
Cidaris califomicus Clark, 1893, U. S. Geol. Survey Bull. 97, p. 36, PI. VI, figs. la-b.

Determinative characters. — Test unknown. Spines large, club-shaped, with rows of large
granules that coalesce to form longitudiaal ridges which extend from neck to pomt of spine.

Dimensions. — Largest spine: Length 22 millimeters; breadth in thickest part 5 millimeters.

Description. — This species is based on detached spines, four or five specimens of which are
found in material from Taylorsville, Cal. They are distinctive in every way and can not be
mistaken, even in fragments. The specimens examined are casts but are so well preserved that
impressions in gutta-percha, from which the drawings were made, show the characters com-
pletely. Each spme has a short narrow neck, beyond which it rapidly increases in size so as to
give a club-shaped outhne to the middle and upper portions. Rows of longitudinal granules
cover the surface from the neck to the point of the spine, presenting the appearance of long
serrated ridges.

Related forms. — Separated from C. taylorensis by its club-shaped form and surface char-
acters.

Locality. — TaylorsviUe, Plumas County, Cal.

Geologic horizon. — Mormon sandstone. Middle Jurassic.

Collection, — U. S. National Museum (.30184).

Cidaris taylorensis Clark.

Plate IV, figures 2a-b.

Cidaris taylorensis Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 51.
Cidaris taylorensis Clark, 1893, U. S. Geol. Survey Bull. 97, p. 35, PL VI, figs. 2a-b.

Determinative characters. — Test small. Interambulacra wide. Tubercles large, with cir-
cular areolas, much depressed marginally; boss crenulated; mamelon perforated. Miliary
space narrow. Spines long, cylindrical, covered with small granules arranged in longitudinal
rows.

Dimensions. — Test small but undetermined. Largest spine: Length 30 millimeters (?);
width in broadest portion 5 millimeters.

Description. — The fragments of this form, although they permit determmation of but few of
the important characters, warrant specific description from the fact that they are totally distinct
from the only other representative of Cidaris from the Jurassic rocks of America. The small
fragments of the interambulacrum and the spine occur together and doubtless formed part
of the same individual. The interambulacral plates, of which only portions are preserved
on the specimen figured, indicate a form of no great size. The tubercles are large, with depressed
areolas surrounded by a circle of large granules. The boss is crenulated and the mamelon per-
forated. The miliary space is apparently narrow, the tubercles of adjacent plates in the same
column bemg nearly confluent.

The spine is long, gently tapering toward the base in the portion preserved, and covered
with longitudinal rows of small granules.

Related forms. — As the Jurassic strata of North America afford few fossil Echmodermata as
compared with the Cretaceous, there are not many American types with which the present form

JUEASSIC ECHINODEKMATA. 31

may be compared. C. californicus is not known by its test and comparisons are limited to the
spines. In C. taylorensis the spines are long and cylindrical, while in C. californicus they are
short and thick set, and have a totally different surface decoration. C. taylorensis differs from
C. flumasensis in its smaller miliary space and ch'cular aroolas.

Locality. — TaylorsviUe, Plumas County, Cal.

Geologic horizon. — Hardgrave sandstone. Lower Jurassic.

Collection. —V. S. National Museum (.30183).

CiDARis PLUMASENSis Clark, n. sp.
Plate IV, figure 3.

Determinative characters. — Test medium size. Ambulacra narrow. Interambulacra wide.
Tubercles large with oval depressed areolas, crenulated boss, and perforated mamelon. Miliary
space covered with coarse granules.

Dimensions. — Height of largest ambulacral plate 10 millimeters ; width 14 miUhneters.

Description. — Fragments of casts of the test of this species are fovmd on a single slab of
sandstone. The most perfect unpression is of three interambulacral plates with adjacent ambu-
lacral plates. It is evidently part of the test of a form of medium size. The ambulacra are
narrow but the impression of the plates is obscure. The interambulacral plates are much better
preserved and show large tubercles with oval areolas, somewhat depressed. The boss is crenu-
lated and the mamelon perforated. The miliary space is rather wide and is covered with coarse
granules.

Locality. — TaylorsviUe, Plumas County, Cal.

Geologic horizon. — Hardgrave sandstone. Lower Jurassic.

Collection.— V. S. National Museum (31191).

Subclass REGULARIA ECTOBRANCHIATA.

Order DIADBMOIBEA.

Suborder ARBACINA.

FamUy HEMICIDARID^.

Genus HEMICIDARIS Agassiz.

Hemicidaris intumescens Clark.

Plate IV, figures 4a-i.

Hemicidaris intumescens Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 51.
Hemicidaris intumescens Clark, 1893, U. S. Geol. Survey Bull. 97, pp. 44, 45, PI. XII, figs. la-i.

Determinative characters. — Test spheroidal, upper surface inflated, lower surface flat. Am-
bulacra moderately broad, increasing in width from the apical system to the peristome. The
tubercles at the peristome are nearly equal m size to those of the interambulacral areas, but
become greatly reduced in passing from the ambitus to the apical system. Interambulacra
rather wide, with two rows of large tubercles. Miliary space wide, covered with numerous
granules. Peristome moderately wide, with deep incisions.

Dimensions. — Diameter 18 millimeters; height 12 millimeters.

Description. — The very perfectly preserved molds of the species permit the taking in gutta-
percha of all the details of form and structure. As the only re])resentative of the genus in
American deposits it possesses considerable interest. The test is of moderate size, with a con-
vex and shghtly inflated upper surface and nearly flat lower surface. The slightly flexuous
ambulacra broaden from the region of the apical disk toward the ambitus aiid slightly contract
again before the peristome is reached. The tubercles are prominent in the lower part of the
column, where several pairs attain a size nearly equal to those of the interambulacra. Minute
perforated granules succeed them above and continue as a double row to the apical system. The

32 MESOZOIC AND CENOZOIC ECHINODEKMATA OF THE UNITED STATES.

poriferous zones are slightly flexuous, ami the small pores are uniserially arranged, although
somewhat increased in the vicinity of the peristome.

The interambulacra are three to four times the width of the ambulacra at the ambitus. The
two rows of medium-sized tubercles occupy the center of the plates; the areola is circular and
shghtty elevated; the boss deeply crenulated, and the mamelon distinctty perforated. There
are about eight primary tubercles in each row. The apical system is rather large, although not
sufhciently well jjreserved to admit of a determination of the individual plates.

The peristome is small and occupies scarcely one-half of the diameter of the test. It is
deeply notched, the lobes being nearly equal in size.

Related forms. — The present species of Hemicidaris is the only representative of the genus
known from American deposits. A comparison with European species fails to identify it with
any described form.

Locality. — Taylorsville, Plumas County, Cal.

Geolocfic liorizon. — Mormon sandstone, Middle Jurassic.

Collection. ^U. S. National Museum (.30187 and 30188).

Suborder DIADEMINA.
Family DIADEMATIDiE.

Genus PSEUDODIADEMA Desor.
PSEUDODIADEMA EMERSONI Clark.

Plate V, figures la-e.
Pseudodiadeinaemersoni Clark, 189.3, U. S. Geol. Survey Bull. 97, pp. 45, 46, PI. XII, figs. 2a-e.

Determinative characters. — Test circular, depressed. Ambulacra ' straight and prominent;
poriferous zones narrow; pores uniserial. Interambulacra not quite twice the width of the
ambulacra with two rows of large tubercles, eight or nine in each row. Peristome wide.

Dimensions. — Diameter 15 millimeters; height 7 millimeters.

Description. — The beautiful^ preserved molds of this interesting form were collected by
Hyatt from the Jurassic beds of Taylorsville, Cal. The gutta-percha casts from which the draw-
ings were made represent very perfectly all the details of structure. The test is nearly circular,
the prominent ambulacra are rather more than one-half the width of the interambulacra, and
support two rows of primary tubercles somewhat smaller than the interambulacral tubercles.
There are nine or ten in each row. Between the tubercles are numerous granules that are
arranged in an undulating Hne between the rows and along the margin. They nearly disappear
between the tubercles of the same scries. Toward the apical system the tubercles are greatly
reduced in size. The pores are uniserial, there being three or four opposite each ambulacral
plate.

The interambulacra bear two rows of primary tubercles, eight or nine in each, that are only
slightly larger than those of the ambulacral areas. They increase from the peristome to the
ambitus, after which they rapidly decrease in size. The areolas are nearly confluent above and
below, broader than long, and rise into prominent bosses that are not dee])ty crenulated. The
mamelon is distinctly perforated. The miliary space is covered with granules of different sizes.
There are no secondary tubercles developed near the peristome. The lower surface is flat, the
peristome large and deeply notched ; the ambulacral lobes larger than the interambulacral. The
apical system is not preserved. This species is named in honor of B. K. Emerson, of Amherst
CoUege, from whom the writer received his first instruction in geology and ])aleontology.

Related forms. — The species is unique, l)eing the only Pseudotliadema in the Jurassic of
America and being only veiy doubtfully identical with any European form. It resembles P.
baileyi from England in many particulars but is less depressed, has more rounded sides, and more
numerous granules in the miliary space.

Locality. — Taylorsville, Plumas County, Cal.

Geologic horizon. — Mormon sandstone, Middle Jurassic.

Collection. — U. S. National Museum (30186).

JURASSIC ECHINODERMATA. 33

Family PEDINIDvE.

Genus STOMECHINUS Desor.

Stomechinus hyatti Clark.

Plate V, figures 2a-e.

Stomechinus hyatti Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 51.
Stomechinus hyatti Clark, 1893, U. S. Geol. Survey Bull. 97, p. 56, PI. XXIII, figs. la-e.

Determinative characters. — Test high, circumference circular. Ambulacra with four rows
of small primary tubercles; poriferous zones ^vide, triserial. Interambulacra with eight or ten
rows of tubercles that diniinish in number toward apical sj'stem and peristome, with a depression
along the line of the central suture.

Dimensions. — Diameter 25 millimeters; height 25 millimeters.

Description. — Only the cast of a portion of the exterior of a single specimen of this interest-
ing Jurassic form is jireserved. The test is high, and the circumference circular or sUghtly sub-
pentagonal. The sides rise abruptly from the margin.

The ambulacra are about one-half the width of the interambulacra and preserve a nearly
uniform width throughout. There are four rows of tubercles that increase gradually in size
from above downward. A depression appears along the hne of the central suture. The porif-
erous zones are wide; the pore pairs are placed in obUque ranks of three, and each rank is
separated from that next to it by two small tubercles.

The interambulacra are about twice the width of the ambulacra and the plates of the former
are but sUghtly higher than those of the latter. Each plate is covered at the widest part of the
area with an irregular row of four or five tubercles that are of about the same size as those of the
ambulacra. The tubercles are uncrenulated and imperforate. A wide depression extends
along the medial Une of each interambulacral area, according with the position of the central
suture.

The regions of the apical disk and peristome are largely wanting, but a deep incision sho^vn
upon the margin of the latter indicates that it is distinctly lobed throughout.

Related forms. — The American species shows some points of identity with StomecJiinus nudus
Wright of England but is more elevated, has a less sharp marginal angle, and has a more regular
arrangement of the tubercles.

Locality. — Taylorsville, Plumas County, Cal. .

Geologic horizon. — iformon sandstone, Middle Jurassic. . /i

Collection.— U. S. National Museum (30185). j

Subclass IRREGULARIA.

Order GNATHOSTOMATA.

Suborder HOLECTYPINA.

Family PYGASTERID.E.

Genus HOLECTYPUS Desor.

HoLECTYPUs PEALEi Clark, n. sp.

Plate V, figures 3a-b.

Determinative characters. — Test subcircular, subcorneal. Ambulacra rather narrow, nearly
straight; poriferous zones distinct. Interambulacra prominent with large plates. Apical system
imperfect.

Dimensions. — Diameter 15 to 25 millimeters; height 10 to 15 millimeters.

Description. — Several casts of a typical Holectypus from the Jurassic beds of Yellowstone
River were collected by Peale in Montana many j^ears ago but were never described. More
recently a still more perfect specimen was obtained by W. H. Weed from the Yellowstone
National Park, and this is made the type of the species. The specimens .show the characteristic
features of both the ambulacra and interambulacra, but the adoral and aboral regions are poorly
preserved, as a result of which the characters of the apical system, peristome and periproct are

34 . MESOZOIC AND CENOZOIC ECHINODERMATA OF THE UNITED STATES.

unknown. The ambulacra are very distinct, the poriferous zones showing clearly. The ambu-
lacra are narrow, increasing in wdth gradually' to the ambitus. The interambulacra stand out
prominently, the sutures between the plates being clearly indicated.

Locality. — North of Berry Creek, Yellowstone National Park, Wyo.

Geologic 'h.orizo7i. — Jurassic.

Collection. — U. S. National Museum (31192).

HoLECTYPUS CRAGiNi Clark, n. sp.
Plate V, figure 4.
Holectypus ? sp. Cragin, 1905, U. S. Geol. Survey Bull. 266, p. 35.

Determinative characters. — Test subcircular, subconical. Ambulacra narrow, straight, with
several rows of tubei'cles ; poriferous zones straight and narrow. Interambulacra wide. Apical
system imperfect.

Dimensions. — Diameter 28 milUmeters; height 15 nulhmeters.

Description. — ^The fragmentary specimen referred to by Cragin is an unquestioned Holec-
typus and presents many of the diagnostic characters of that genus. It is not unhke H. plariatxis
in general outhne, but its much earher geologic position renders it necessary to place it in an iiide-
jjendent species. The test is much damaged, so that its essential specific characters can not be
determined. The outlines of the ambulacra and interambulacra can be seen, but the individual
plates are mth cUfhculty distinguished. The ambitus is relativelj' sharp, indicating a flat under-
surface. The tubercles in this species are evidently small and cover the greater portion of the
plates. The apical sj^stem is small but the individual plates can not be distinguished.

Belated forms. — ^This species is wholly unhke H. peaJi in form and is evidently a chfferent
species.

Locality. — Malone Mountain, Texas.

Geologic liorizon. — Malone formation. Upper Jurassic.

Collection.— \] . S. National Museum (31193).

Order ATELOSTOMATA.

Suborder ASTERNATA.

Family CASSIDULID^.

Genus PYGTTBTJS Agassiz.

Pygukus sp.

Pygurus sp. Cragin, 1905, U. S. Geol. Survey Bull. 266, p. 36.

Description. — Cragin describes the form as foUows:

Among the specimens submitted by Dr. Stanton is a fragment of the test of a sea urchin of the genus Pygurus. It
includes the main part of the aboral half of an ambulacrum. The genus is clearly determined by the form of the
ambulacrum and the form and arrangement of the pores, as well as by the character of the tubercles and by the dis-
coidal form of the test, the latter form being indicated by the flatness of the part preserved. The ambulacrum has the
biconcave outline that characterizes the upper part of that of Pygurus. The pores of the outer row are very long and
slitlike, widened slightly toward the outer end, and subhorizontal to more or less oblique; those of the inner row more
ringent, compressed dotlike or hyphen-like, and oblique, their width being considerably less and their length consid-
erably more than that of any of the circumtubercular courts on the neighboring part of the ambulacrum. The ambu-
lacral plates are exceedingly narrow; the imperforate part of each, in the widest part of the ambulacrum, being about
10 times as long (transverse) as wide (parallel to the course of the ambulacrum) and ornamented ^vith 1 to 3 small
perforated tubercles, each of which is set in a round, depressed court. The distinction of these tubercles is irregular,
but they are so few and so feebly developed on the inner ends of the plates as to give the ambulacrum the aspect of
ha\-ing a median plain zone, to which the seams between the plates give a transversely striated appearance.

Measurements. — Maximum width of ambulacrum 16, of which the two pore belts each occupy 3.5 and the imper-
forate tract 9 millimeters; length and width of each imperforate part of an ambulacral plate in broadest part of the
ambulacrum, respectively, 4.5 and 0.43 millimeters; length of outer slitlike pores in broadest part of ambulacrum 2
millimeters, which is about one-fourth of the width of a semiambulacrum.

Occurrence. —AVest side of Malone Mountain, about 2 miles southwest of Malone station, in No. 25 of Dr. Stanton's
Malone Mountain section; with Gryphxa mexicana, Pleuromya ineonstans, Pinna quadrifrons, etc.

Geologic h orizon . — Jurassic .
Collection. — U. S. National Museum.

CRETACEOUS ECHINODERMATA.

Class CRINOIDEA.

Subclass DICYCLICA.

Order INADTJNATA.

Suborder BENDROCRINOIDEA.

Family PENTACRINID^.

Genus PENTACRINUS Bltimenbach.

Pentacrinus tehamaensis Clark, n. sp.

Plate VI, figure 1.

Determinative characters. — Column composed of small and medium sized pentagonal joints,
some with and some without sharp reentei-ing angles. Crenulated ridges petaloid. Column
perforated by a small canal.

Dimensions. — Column: Diameter of joint 3 to 6 millimeters; thickness of joint J to 1
milhmeter.

Description. — Numerous isolated fragments of Pentacrinus columns have been found in
the California Cretaceous. The larger joints are of medium size. Many very small joints are
found with the larger ones and probably belong to the same species. The crenulations are dis-
tinct and form five well-marked petaloid areas on the upper and lower surfaces of the joints.
The column is perforated by a small central canal.

Localities. —Shelton's ranch, 5 miles north of Paskenta, Tehama County (type), and Texas
Springs, Cal.

Geologic horizon. — Knoxville formation, Lower Cretaceous, and beds doubtfully assigned to
the lower part of the Chico formation. Upper Cretaceous.

Collection. — U. S. National Museum (31194).

Pentacrinus bkyani Gabb.

Plate VI, figures 2a-b.

PentacrinushryaniGskib, 1876, Acad. Nat. Sci. Philadelpliia, Proc, vol. 28, p. 178, PL V, figs. 1, la, lb.
Pentacrinus hryani Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 51.
Pentacrinus hryani Clark, 1893, U. S. Geol. Survey Bull. 97, pp. 28, 29, PI. Ill, figs. 3a-b.
Pentacrinus 6n/am" Johnson, 1905, Acad. Nat. Sci. Philadelphia Proc, vol. 57, p. 6.

Pentacrinus bryani Weller, 1907, Cretaceouspaleontologyof New Jersey: Geol. Survey New Jersey, pp. 276-277, PI. VI,
figs. 8, 9.

Determinative characters. — Column composed of moderately large, rather thick, pentagonal
joints, with sharp reentering angles. The crenulated ridges are broadly petaloid and each area
is rounded at its outer extremity. Column perforated by canal of medium size.

Dimensions. — Column: Diameter of joint 6 millimeters; thickness of joint 1 millimeter.

Description. — Two small fragments of the stem of this form were described by Gabb in 1876.
As the first representative of this family reported from the American Cretaceous it j^ossesses
considerable interest. The column is composed of moderately large, thick joints, that reach
about 6 millimeters in diameter and about one-fifth of that in thickness. The broad, rounded
ridges at the salient angles of the pentagonal outhne form a nearly unbroken line, and tlie furrow
at the reentering angles is alternately depressed and elevated in successive joints. The edge

35

36 MESOZOIC AND CENOZOIC ECHINODEEMATA OF THE UNITED STATES.

of each jouit is slightly rounded. The crenulated surfaces form five broad petaloid areas dis-
tinctly rounded at the outer extremities and unite near the inner edge of the reentering angles
to form a double fiat-topped ridge that reaches to the central canal, around which there is like-
wise a slight elevation. The crenulations are clearly visible on the outer surface of the column.
The column is perforated b}'' a central canal of medium size.

Related forms. — ^This species is quite unlike other species of American Pentacrinidse and is
distinguished from Pentacrinus tehamaensis Clark of the Pacific coast by its deeper reentering
angles.

Locality. — Vincentown, N. J.

Geologic Tiorizon. — Vincentown sand of Rancocas group, Upper Cretaceous.

Collections. — ^Academy of Natural Sciences of Philadelphia (1458) ; Johns Hopkins University.

FamUy UINTACRINIDiE.

Genus TJINTACBINTJS GrinneU.

UiNTACRiNUS sociALis GrinneU.

Plate VI, figures 3a-h; Plate VII, figures la-c.

Uintacrinus socialis GrinneU, 1876, Am. Jour. Sci., 3d ser., vol. 12, pp. 81-83, PI. IV, figs. l-2b.

Uintaerinus socialis Meek, 1876, U. S. Geol. and Geog. Survey Terr. Bull., vol. 2, No. 4, pp. 375-378, figs. A-B.

Uintacrinus socialis Clark. 1893, U. S. Geol. Survey Bull. 97, pp. 21-24, Pis. I, II.

Uintacrinus socialis Williston and Hill, 1894, Kansas Univ. Quart., vol. 3, No. 1, pp. 19-21 and diagram.

Uintacrinus socialis Bather, 1896, Zool. Sec. London Proc. for 1895, pp. 974-1004, Pis. LIV-LVI, 13 figs.

Uintacrinus socialis Logan, 1898, Kansas Univ. Geol. Survey, vol. 4, pp. 481-483, Pis. XXI, CXII.

Uintacrinus socialis Beecher, 1900, Am. Jour. Sci., 4th ser., vol. 9, pp. 267-268, Pis. Ill, IV.

Uintacrinus socialis Springer, 1900, Mus. Comp. Zool. Mem., vol. 25, No. 1, pp. 1-89, Pis. I-VIII.

Uintacrinus socialis Schuchert. 1904, Smithsonian Misc. Coll., vol. 45, p. 450, PL CIII.

Uintacrinus socialis Bassler, 1909, Smithsonian Misc. Coll., vol. 52, pp. 267, 269, Pis. XVII, XVIII.

Determinative cJiaracters. — Calyx globose; composed of very thin, usuaUj^ rather fiat,
although sometimes decidedly convex plates, joined together by a very loose suture; faces at
times marked by faint, irregular, vertical grooves. Column wanting. Base or apical system
probably dicyclic, composed of centrale surrounded by circlet of basals (B) or circlet of infra-
basals (IB) and basals (B) as the case may be. Encircling the base and alternating with the
basals are five abutting radials (R) either heptagonal or hexagonal in form. Succeeding the
radials are two primary brachials (IBr) the second (IBr2) axillary and generally pentagonal in
form; separatetl by interbrachials (iBr) which may vary in number from 3 or 4 to 23. Branch-
ing from the axillary brachial are the secundibrachs (IIBr) or distichals, generally the first
eight of which are fixed, entering into the composition of the dorsal cup. Between the secundi-
brachs are intersecundibrachs (illB) or the interdistichals, which with the lower pinnulars
and the interpinnulars of all areas are fixed. The normal order of succession of pimiulars is
IIBr2 outer TIBr4 inner IIBrS outer IIBr7 imier IIBrS outer, beyond which each brachial bears
a pinnule on alternate sides except where there is a syzygy, when only the epizygal is pinnule-
bearing. Ventral disk or tegmen composed of plates skin covered with small calcareous plates
or spicules. Mouth excentric, the ambulacra diverging from point near margin of disk. Anus
central, large and conical.

Dimensions. — Width of calyx 6.25 to 75 millimetei-s ; medium-sized specimen 40 milUmeters;
length of arms 100 centimeters.

Description. — The writer of this paper gave in 1893 a more extended description of Vintcu-
crinus socialis than his predecessors had done and was able for the first time to show the struc-
ture of the base, which was fairly well preserved on a smgle specimen. The small amount of
material at his disposal rendered it impossible to detect some important structural features
observed by later writers who had access to more abundant and better preserved specimens.

S. W. Williston and B.H.Hill described better specimens of Uintacrinus socialis iound hj
E. E. Schlosson in Logan County, Kans. Williston pointed out that these were the fii-st speci-

CRETACEOUS ECHINODEKMATA. 37

mens found in place and unweathered. He says that the long arms were so entangled as to make
it very difficult to trace them to their extremity.

The collection by H. T. Martin of a large number of specimens of Uintacrinus socialis from
Williston's locality in western Kansas furnished several museums, among them the British
Museum and the Peabody Museum of Yale University, with new and valuable material. The
material acquired by the British Museum was very thoroughly studied in 1895 by F. A. Bather,
whose morphologic study of this species added much to what was previously known. A large
slab acquired by Yale Univereity was described by C. E. Beecher in 1900.

The complete description of ZKntacrinus socialis and the true interpretation of its structm-e
and relations were not made until 1901, when Springer obtained from western Kansas, through
the intelligent collecting of H. T. Martin, a large and finely preserved lot of specimens, far more
than had come into the possession of any of his predecessors. With his wide and accurate knowl-
edge of the crinoids he has been able to add more than any of his predecessors to a knowledge of
this interesting form and in addition to the discovery of dicyclic as well as monocycUc individuals,
was also able to find a number of specimens with well-preserved tegmens so that for the first
time a knowledge of the structm-e of the ventral surface of Uintacrinus was secured. The fol-
lowing description is largely based on Sprmger's elaborate discussion of this form.

The calyx is globose with 10 long simple arms bearing pinnules. The test must have been
flexible. The calyx plates are thin, frequently convex and joined together by loose sutures, the
faces of which are at times slightly grooved. The calyx is without column or stalk and belongs
to the class of free forms.

The basis is composed of a centrale, sm-rounded by either a circlet of basals or a circlet of
infrabasals, which are in turn surrounded by the basals. The centrale in the first form has its
angles radially directed and in the second interradially directed. The form is, however, proba-
bly dicyclic. The infrabasal circlet is not complete in all specimens, some havmg only 4, 3, 2, or
even 1 infrabasals.

The radials are five in number and surround the basals, with which they alternate. They are
equal, six or seven -sided, the latter occurring where the edge toward the basis forms a reentrant
angle. The radial plates are wider than high and come in contact with one another only in the
lower portions of each side. They come in contact with the proximal interbrachials and support
the fu'st primibrachs.

Following the radials are the primibrachs, secundibrachs or distichals, and fixed pinnules,
all of which enter into the formation of the calyx, to which are added interbrachials, interdic-
tichals, and interpinnulars. It is not always easy to determine the exact limits of marginal
attachment of the fixed brachial elements in the fossil state. There are two primibrachs, the
first (IBrl) hexagonal in form abutting on the radial on its lower margin, and the second primi-
brach (IBr2) on its upper margin where latterly it comes into contact with interbrachials on either
side. Both the firet and second primibrachs are somewhat narrower than the radials. The
second primibrach is axillary and generall}^ pentagonal in form. It also abuts on interbra-
chials on either side and beare upoti its upper margin the fu-st of the secundibrachs.

The secundibrachs or distichals are commonly fixed in the first eight plates with the aid of
the fixed pinnules, interbrachials, interdistichals, and interpinnulai-s. Those secundibrachs
bearing fixed pinnules appear shghtly axillary, which gives the appearance of a somewhat irregu-
larly depressed series.

The normal order of succession of the fLxed pinnules is first from the second secundibrach on
the outer side, the next from the fourth secundibrach on the inner side, then from the fifth secun-
dibrach on the outer side, then the seventh secundibrach on the inner side, and finally from the
eighth secundibrach on the outer side. The intervenmg secundibrachs do not bear pinnules.
Beyond this point each brachial beare generally on alternate sides a pinnule except where there
is a syzygy when only the epizygal beare a pinnule. The fixed pinnules comprise fom- or five to
ten of the proximal plates. The number of plates is gi-eater in adults than in the young forms.
United with the interbrachial and in many specimens with the interpumular plates they form
the interbrachial area of the calyx, and with the intersecundibrachs or interdistichals the inter-

38 MESOZOIG AND CENOZOIC ECHINODEKMATA OF THE UNITED STATES.

distichal area of the calyx. Each mterbrachial area contains in aduUs, usually six rarely eight,
of these fixed pmnules. In the young foui' and even two have been found. The interdistichal
area contains four fixed pinnules in adult forms and two, and at times apparently none, in the
young. The amount of fixation therefore increases with age.

The interbrachial area consists of from three or four to twenty-tlu-ee plates. The arrange-
ment of the plates is very variable. When there are seven plates or less no one of the inter-
brachials is inclosed, but the plates are disposed in more or less irregular vertical rows. Tliis
arrangement holds in some specimens containing eight or even nine or ten plates. In other
specimens one or more plates are mclosed. Variation in the interbrachial areas occurs in some
individuals.

The intersecundibrachs or interdistichals may differ in the same way, the number var^-ing
from none to 8, although the most common number is from 2 to 5, the younger forms havmg less
than the adults. The interpinnular plates- are not present in all specimens, but one or two may
be placed between the proximal portions of the fixed pinnules and the mtervenmg secundibrachs.
The interpinnulars generally appear in corresponding position on opposite sides of the same area.

The arms are the continuation of the secundibrachs or distichals and are therefore ten in
number. They consist of brachials and pinnules, the latter disposed in the manner previously
described. An arm branch 100 centimeters, or 40 inches, long has been described by Sprmger,
who thinks it not improbable that a total spread of arms of 250 centimeters, or 8 feet 4 inches,
may have occvu-red.

The ventral disk or tegmen has been described only by Springer, who prepared a number of
specimens on which the disk was beautifully preserved. He states that it is composed of the
jjlated skin, the membrane being of such a highlj' carbonaceous composition that it is jet black
m the fossil. This membrane evidentty mclosed the entire visceral mass and formed a lining
where it is usually seen when the calyx is broken away. Upon the disk it is studded or paved
with small calcareous plates or spicules which are not connected by sutucre but are embedded in
the tegment touching each other. They are of irregular shape, variable in size, and without any
definite plan of arrangement.

The central part of the disk is occupied by a large, conical anal tube, shaped like an mverted
fmmel, which i^ perhaps an extension of the ventral disk above described. It is also composed
of a plated skin, the granules of the disks passmg gradually mto it and becoming more and more
elongate, until toward the distal end where the openmg was they become threadhke.

The mouth is excentric, and the ambulacra diverge at a point near the margin of the disk.
Two of them follow around the margin in a large hood-shaped cone, closing the anal tube.
These branch on either side so as to connect with the arms of the posterior rays. The next pair
of ambulacra are shorter; they branch and supply two lateral rays. A single groove runs to
one branch of the anterior ray and the other branch does not seem to have any groove leadmg to
it. The ambulacral grooves are simply depressions m the peristome. There is no trace of any
covermg plates or anything like an ambulacral skeleton.

Localities. — The first specimen of this species was found by O. C. Marsh in the Uinta Moun-
tains, Utah. GrinneU established the genus Uintacrinus on much better preserved material
from Trigo County, Kans. Still better specimens were later found in Logan County, Kans. , which
has been the source of most of the fine material in the various museums of the world. It is from
this locality that Springer secured a few years ago the superb specimens that are the basis of
his elaborate monograph.

Geologic horizon. — Niobrara chalk. Upper Cretaceous.

Collections. — Museum of Comparative Zoology, Cambridge; U. S. National Museum (8044);
University of Kansas; Yale University; British Museum; Johns Hopkins University.

CEETACEOUS ECHINODEKMATA. 39

Family MARSUPITID^.

Genus MABSUPITES Miller.
Marsupites americanus Springer.
Plate VII, figures 2a, 2b, 3.
Marsupites americanns Springer, 1911, Mus. Comp. Zool. Mem., vol. 25, No. 3, pp. 158-161, PI. VI, figs. 4a, 4b, 5.
Springer describes the species as follows :

Determinative characters. — Calyx globose, wider than high; widest about middle of basal, contracting toward the
arm bases. Centrale larger than infrabasals. * * * Radial facets shallow, facing almost vertically; filling about
half the distal face of radial, and having a straight muscular articulation. Primibrachs 2 ; succeeding brachials to the
number of seven in the longest arm preserved wide and very short, with an alternating cuneiform arrangement and an
indication of syzygies betVeen Br3 and 4; ventral groove broad and shallow. A good-sized triangular interbrachial
plate, having straight sides and apparently joined to the brachials by suture, fills the space between the arm bases. All
plates very thin, and covered with moderately fine radiating strise crossing the sutures and converging at the centers;
a strong ridge runs upward from the center of the basals, two meeting at each radial facet. Further structures unknown.

Dimensions. — Centrale: Diameter of pentagon 18 millimeters; IBB 17 millimeters high by 17.5 wide; BB 18 milli-
meters high by 18 wide; RR 11 millimeters liigh by 14 wide; radial facets 6 millimeters wide. In a large fragment the
centrale is 25 millimeters wide.

Description. — The general outline and surface ornament of this species are not different from what may be seen
among specimens of M. testudinarius of the English chalk from Sussex and other places. These vary from coarse to fine
striae and with such a thin, pliant calyx the contour of the fossil is largely a matter of pressure in its deposition. Meas-
urements of plates shows no substantial difference between the two, an average of five specimens of the English species
being as follows: Centrale, 19.1 millimeters wide; IBB, 19.6 millimeters high by 19.5 wide; BB, 19.6 millimeters high
by 20.1 wide; RR, 12.6 millimeters high by 15.7 wide; R, facets 8 millimeters wide. The only real difference observ-
able in the parts preserved is that in our species the brachials are shorter and wider than in M. testudinarius; and if we
had enough specimens with brachials attached to get an average, this might disappear. The calyx figured is smaller
than the English species usually appears, but the other fragmentary specimen has plates fully as large as that. The
species is rare and has only been found at the type locality.

Locality. — ^Plymouth Bluff, Miss.

Geologic Tiorizon. — Tombigbee sand member of the Eutaw formation, Upper Cretaceous.

Collection. — Collection of Frederick Braun.

Order FLEXTBILIA.

Suborder PINNATA.

FamUy BOUEGUETICRINID^.

Genus BHIZOCBINTJS M. Sars.

Rhizocrinus alabamensis (De Loriol).
Plate VII, figures 4ar-c.

Bourgueticrinus alabamensis De Loriol, 1882, Cincinnati Soc. Nat. Hist. Jour., vol. 5, p. 118, PL V, figs. 1, la, lb.
Rhizocrinus alabamensis Carpenter, 1884, Challenger Repts., vol. 11, pt. 2, p. 257.
Bourgueticrinus alabamensis Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 51.
Bourgueticrinus alabamensis Clark, 1893, U. S. Geol. Survey Bull. 97, p. 25, PL III, figs. la-c.

Description. — ^As it has been impossible for the writer to obtain possession of the type of this
species the description of De Loriol, as translated by S. A. Miller, is given verbatim:

This species is as yet known only by the basal cone wliich supports the calyx, and which is composed of several
enlarging segments of the column surmounted by the basal plates. The height of the inverted cone is 5 millimeters;
the diameter of the basal plate is 3 J millimeters; and that of the inferior segment of the column is 3 millimeters in its
major axis. Its form is faintly swollen in the middle ; the surface is smooth. The sutures are very indistinct, and it is
a difiicult matter to determine what was the height of the basal plate. The superior face of the cone carries five slender
and compatively elevated radiating ridges, which bound five deep depressions in which the basal pieces of the calyx
were lodged ; in the center an enlargement of the central canal constitutes the bottom of the calyx cavity. The articu-
lar face of the lower joint of the column forming the inferior end of the cone is elliptical, but the length of its major
axis does not, however, much exceed that of its minor axis. It is slightly concave and encircled by a feeble rim along

40 MESOZOIC AND CENOZOIC ECHINODEEMATA OF THE UNITED STATES.

the circumference line; the transverse articular ridge process is reduced to two elongated tubercles which proceed from
the marginal rim. Central canal comparatively large.

Although this species is still very imperfectly known one can affirm that it is certainly distinct from Bourgiu-ticrinns
ellipticus Miller, by the much less swollen form of the basal cone, which is but slightly convex in outline, and by the
facts that the lower segment of the cone is already elliptical and already possesses the rudiments of a transverse articular
ridge. Furthermore, the radiating carinse are very much more salient, and consequently the depressions which they
Beparate very much deeper. Finally, by its central canal being relatively much larger .

This species is referred to the genus Rhizocrinus, following the views of Carpenter and also
from the possible close relationship of the form to RJiizocrinus cylindricus Weller from New Jersey.
Locality. — ^Livingstone, Ala. (De Loriol).
Geologic Jiorizon. — Ripley formation, Upper Cretaceous.
Collection. — Cincinnati Society of Natural History.

Rhizocrinus cylindricus Weller.

Plate VII, figures 5a-g.

Rhizocrinus q/lindricus Weller, 1907, Cretaceous paleontology of New Jersey: Geol. Survey New Jersey, pp. 275, 276,
PI. VI, fig. 1.

Determinative cliaracters. — Weller says:

Calyx cylindrical, slender and greatly elongate, the sides almost straight, not enlarging from the basals up. The
proximal column joint (or joints ?) higher than the basals and radials together, cylindrical above with straight sides,
slightly contracted below. Basals much higher than the radials. Radial facets shallow, curved, rather wide, separate,
low and not sloping upward, having no conspicuous muscle plate or ligament fossa. They inclose a relatively large and
well-excavated central funnel or visceral cavity.

Dimensions. — Height of proximal column joint and calyx together 9.3 millimeters ; diameter
3 millimeters; height of proximal column joint 6 millimeters. Isolated joints: width 2 to 4
millimeters; height 3 to 3.5 millimeters.

Description. — This species is established on a single complete calyx and proximal stem
joint, although numerous isolated column joints may belong to the same species. Several of
these column joints were collected a number of years ago by the author. Figures of some of the
more characteristic ones were first given by Weller from drawings furnished by the author and
are repeated here.

Related forms. — The specimen is clearly a member of the family Bourgueticrinidse and
superficially resembles in some respects Bourgueticrinus ellipticus and B. sequalis from the White
Clialk of England, but it differs from these species in the much greater height of its basals. The
character of the radial facets and the larger viceral cavity, however, seem to remove it from
that genus. In the great height of its basals the species agrees with members of the genus
Rhizocrinus, but that genus is described as having a thin, disklike proximal stem joint, whereas
the New Jersey species apparently has an exceedingly high one in which no transverse divisions
can be detected. There seems to be no reason, however, why some latitude may not be allowed
in this character. The genus Rhizocrinus has not heretofore been recognized earlier than the
Eocene, but there is no reason why it should not also occiu- in the later Cretaceous.

The species is possibly allied to Bhizocrinus alabamensis (De Loriol) but diffe"-s from that
species m having a much more slender form.

Locality. — Vinccntown, N. J.

Geologic horizon. — Vinccntown sand of the Rancocas group. Upper Cretaceous.

Collection. — New Jersey Geological Survey; Johns Hopkins University.

CEETACEOUS ECHINODEKMATA. 41

Class STELI.EROIDEA.

Subclass ASTEROIDEA.

Order PHANEROZOMA.

Family ASTROPECTINID.E.

Genus ASTBOPECTEN Schiilze.
ASTROPECTEN ( * ) MONTANUS DoUglas.
Plate VII, figure 6.
Astropecten montanus Douglas, 1903, Carnegie Mus. Ann., vol. 2, pp. .5-8, text fig.

Determinative characters. — Douglas says: "Size small; arms narrow and gi'adually tapermg,
longer than the diameter of the body; five radial elliptical figm-es on body, all except one nearly
in line with the long axis of the arms. "

Dimensions. — From the central pit to end of perfect arm 12 millimeters. From central
pit to margin of body between the arms 3.5 millimeters.

Description. — Douglas in his description of the form says that the most promment markings
are the pits which probably represent the margmal plates. It is possible, however, that these
may be impressions of the ambulacra. Halfway from the base to the end of the arm each row
of pits is nearly as wide as the middle portion of the arm. Only one arm is complete. This has
12 pits on each side and they arc opposite.

Locality. — South fork of Sixteenmde Creek, 23 mUes north of Bozeman, Mont.

Geologic horizon. — Colorado shale, Upper Cretaceous.

Collection. — Carnegie Museum, Pittsburgh (601).

Family PENTAGONASTERID^.

Genus PENTAGONASTER Schulze.

Pentagonaster browni Weller.

Plate VII, figure 7.
Pentagonaster browni Weller, 1905, Jour. Geology, vol. 13, pp. 257, 258, fig. 1.

Determinative characters. — ^Weller says: " Stellato-pentagonal in outline. Disk large,
apparently flat. Interradial area broadly romided and rays elongate for the genus, rounded at
the extremities. Marginal plates large, about sixteen occupying each interradial arc from tip
to tip of adjacent rays, the character of their ornamentation not preserved."

Dimensions. — Major radius 24 millimeters; minor radius 11. 4 millimeters.

Description. — The specimen is apparently exposed from its dorsal side, but ajiart from the
large marginal plates all the plates of this surface have been destroyed. The impressions of the
ambulacral furrows of the ventral surface are exposed by the weathermg away of the doi-sal sur-
face, and appear as rounded slightly elevated ridges extending from the arm pits to the center of
the disk, but the characters of the ambulacra are not sufficiently well preserved to be accxu'ately
determined.

The presence of highly developed marginal plates on the specimen mark it at once as a
member of the order Phanerozonia, and it may be placed, without serious question, in the family
Pentagouasteridie. The reference of the specimen to its proper genus is less satisfactory, but
it seenas to agree more closely with Pentagonaster than with any other, although the interradial
arcs are somewhat deeper than is usual in that genus. In the recent species P. arculatus Sladen,'
however, these arcs are nearly as deep as in the fossil specimen, the proportion between the
minor and major radii being 1 to 1.93, against 1 to 2.08 in the fossil specimen.

1 Challenger Reports, Zoology, vol. .30, p. 277. PI. Lll. figs. 1,2.

42 MESOZOIC AND CENOZOIC ECHIWODEKMATA OF THE UNITED STATES.

The sjjecimen also more or less closely resembles, in the charactei-s preserved, some of the
recent species of Gnathaster, a genus also belonging to the family Pentagonasteridse, in which
the interradial arcs are in many specimens much deeper than in Pentagonaster, the proportion
of the minor to the major radii in G. elongatus Sladen ' being 1 to 3.5. Gnathaster, however, is
customarily characterized by the presence of an odd interradial marginal plate, a character not
clearly shown in the fossil specimen. In one of the interradia such a plate seems to be present,
but in the others not. For the present, therefore, the specimen may be referred to the genus
Pentagonaster (Weller) .

Locality.— ^Y.. \ sec. 16, T. .32 N., R. 99 W., near Lander, Wyo.

Geologic horizon. — Montana group. Upper Cretaceous.

Collection. — Walker Museum, Chicago.

FamUy ATHENEIDJE.

Genus GONIASTEB Agassiz (em. Per.).
GONIASTEE MAMMILLATA Gabb.

Plate Vlll, figures la-h.

Goniaster mammillata Gabb, 1876, Acad. Nat. Sci. Philadelphia Proc, vol. 28, pp. 178, 179, figs. 2, 2a, 2b.
Goniaster mammillata Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 51.
Goniaster mammillata Clark, 1893, U. S. Geol. Siu-vey Bull. 97, p. 32, PI. V, figs. la-h.
Goniaster mammillata Johnson, 1905, Acad. Nat. Sci. Philadelphia Proc, vol. 57, p. 6.

Goniaster mammillata Weller. 1907, Cretaceous paleontology of New Jersey: Geol. Survey New Jersey, pp. 277-278,
Pl.Vl, figs. 10-17.

Determinative characters. — Body pentagonal, provided with a dorsal and a central row of
marginal plates that are narrower than high, and distinctly tumid on their outer surfaces. Only
detached marginal plates preserved.

Dimensions. — Plates: Height 3 to 8 millimeters; thickness 2.5 millimeters.

Description. — Gabb mentions the discovery of about thirty detached marginal plates of
this species. Many more have been found by the author. They differ widely in shape from
their position on the margin, but among those examined the majority are higher than wide and
are swollen on the outer surfaces. Certain of the plates show marked protuberances upon the
general level of the plate. The surface of the plates is punctate, the small depressions being
arranged in rows that cross one another at right angles.

Related forms. — No American forms are similar enough to this species to be confounded with
it. Lack of knowledge of all characters except those of a few marginal plates renders wide
comparisons impossible.

Locality. — Vincentown, N. J.

Geologic horizon. — Vincentown sand of Rancocas group, Upper Cretaceous.

Collections. — Academy of Natural Sciences of Philadelphia (1457); Johns Hopkins
University.

Family PENTACEROTID.E.

Genus PENTACEBOS Linck.

Pentaceros asperulus Clark.

Plate VIII, figures 2a-b.

Pentaceros asperulus Claxk, 1907 ; in Weller, Cretaceous paleontology of New Jersey: Geol. Siu-vey New Jersey, pp. 278-
279, PL VI, figs. 18, 19.

Determinative characters. — ^Body pentagonal with long, narrow arms; covered with irregu-
larly shaped plates that touch intermittently at their margins, the surface uneven and bearing
spines. Detached body plates alone found.

1 Idem, p. 288, PI. XLVIII, figs. 1, 2.

CRETACEOUS ECHIKODEKMATA. 43

Dimensions. — Type specimen: Length 6.5 millimeters; width 4 to 5 milUmeters; thick-
ness 3.5 millimetei-s.

Description. — Two or three well-preserved specimens of the small surface plates of a Penta-
ceros have been found by the writer. They are so highly characteristic that their generic rela-
tions are clearly apparent. As no other Cretaceous representatives of this genus have been
found in Aruerican deposits they have been given a specific name.

The plates are irregular in outline, the intermittent articulating surfaces on the perimeter
producing a roughly polygonal outline. The surface of the plates is uneven, the irregularly
flattened areas providing attachment for spines. The central portion of the plates is higher than
the truncated margins.

Related fornix. — No other American Cretaceous representatives of this genus are known,
and the plates can not readily be associated with any known European species.

Locality. — Vincentown, N. J.

Geologic horizon. — Vincentown sand of Rancocas group, Upper Cretaceous.

Collection. — Johns Hopkins University (T .3014).

Subclass OPHIUEOIDEA.

Order ZYGOPHIUR^.

Family OPHIOLEPIDID.E.

Genus OPmOGrLYPHA Lyman.

Ophioglypha texana Clark.

Plate VIII, figures 3a-c.

Ophioglypha texana Clark, 1893, U. S. Geol. Survey Bull. 97, p. 30, PI. IV, figs. la-c.

Determinative characters. — Disk round; composition indistinct. Arms long, with wedge-
shaped under-arm plates about as wide as long; upper arm plates about twice as wide as long.

Dimensions. — Diameter of disk 4 millimeters ; length of arm 50 millimeters ; width of arm
at disk 2 millimeters.

Description. — The determination of this species is dependent on three fairly well preserved
forms that are grouped upon a single slab of limestone, all with the lower side exposed. The
surface upon which they rest is considerably weathered, and many of the details of structure
have consequently suffered. The general form of the disk is preserved, although its composition
can not be made out. Many of the arm plates have disappeared, leaving only the skeletal
pieces. Where preserved, the under-arm plates are wedge-shaped and about as wide as long.
The upper-arm plates, which are shown only as impressions upon the limestone, are nearly twice
as wide as long and have their lateral edges rounded.

Locality. — Six miles north of Fort Worth, Tex., on the banks of Fossil Creek. Associated
with Ostrea quadriplicata Shumard, Stearnsia rohbinsi White, and Leiocidaris hemigranosus
(Shumard).

Geologic horizon. — Denison formation of the Washita group, Comanche series. Cretaceous.

Collection. — U. S. National Museum (21884).

Ophioglypha bridgerensis (Meek).

Plate VIII, figures 4a-b.

Ophiodcrma'! bridgerensis Meek, 1873, U. S. Geol. and Geog. Survey Terr. Kept, for 1872, pt. 2, p. 475.

Ophiodenna'! bridgerensis White, 1883, U. S. Geol. and Geog. Survey Terr. Kept, for 1878, pt. 1, pp. 8, 9, PL XII, fig. i2a.

Ophioglypha bridgerensis Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 51.

Ophiogly pha bridgerensis CUvk, 1893, U. S. Geol. Survey Bull. 97, p. 29, PI. IV, figs. 2a-b.

Determinative characters. — Disk composed of numerous small imbricating plates. Upper-
arm plates wider than long, the outer angles sharp and extending between the side-arm plates,
which are slightly smaller. Under-arm plates long and nearly rectangular in sliape.

44 MESOZOIC AND CENOZOIC ECHINODERMATA OF THE UNITED STATES.

Dimensions. — Diameter of disk 5 millimeters; length of arm 20 millimeters; width of arm
near disk IJ miUimeters.

Description. — The single specimen of tliis species thus far found is described in a footnote to
a list of specimens reported by F. B. Meek in 1872, and redescribed and figured by C. A. Wliite in
1878. This specimen, which has been carefully examined by the writer, presents the upper sui^
face of the disk and fragments of the five arms. Upon four of the fragments the upper and side
arm plates are shown, and upon the fifth a small portion of the under surface with the under arm
plates and ambulacral openings is preserved.

The disk is described by Meek as "depressed, nearly circular, showing on the dorsal side ten
ovate-subtrigonal radial plates, that are joined together over the inner ends of the arms, so as to
form five pairs." A close examination of the specimen shows that the disk is made up of numer-
ous small imbricating plates, and that the supposed division into ten mentioned by Meek may
be explamed by the fractured condition of the poorly preserved specimen.

The arms are small and are, as stated by Meek, perhaps tliree-fourths of an inch in length,
although none of them are preserved entire. The upper-arm plates are wider than long and
hexagonal in form. The outer angles are sharp and are embraced between the upper portions
of the side plates. The latter are slightly swollen but are not shown in their entire length. The
lower arms are poorly preserved but so far as exliibited are long and narrow, nearly rectangular
in shape, and slightly swollen in their central portions.

Related forms. — Some doubt exists as to the generic position of tliis species. So many of the
distinctive characters are wanting that a definite determination is quite impossible, but from the
apparent structure of the disk, formed of numerous imbricating plates, its reference to Opliiogly-
plia seems probable. The only other form, 0. texana, has, so far as can be discerned, a somewhat
smaller and differently constructed disk, and both the upper and under arm plates are of different
shape.

Locality.— The "last foot of Bridger Peak, 4 miles north of Fort Ellis, Mont." (Meek).

Geologic horizon. — ^Associated with species of the genera Gryphsea, Avicula, Inoceramus,
CrassateUa, Pholadomya, Turritella, and Gyrodes, that denote the Cretaceous age of the strata
(Meek). Upper Cretaceous, most probably Colorado shale.

Collection. — ^U. S. National Museum (7820).

Class ECHINOIDEA.

Subclass KEGULARIA EXDOBRANCHIATA.

Order CIDAROIDEA.

Faniily CIDARID^.

Genus CIDABIS Leske.

CiDARis TEHAMAENSis Clark, n. sp.

Plate IX, figure 1.

Determinative characters. — Test unknown. Spines large and club-shabed, ^\•ith rows of
granules extending from neck to point of spine.

Dimensions. — Spine: Length 30 miUimeters ; width in thickest part 12 mdhmetcrs.

Description. — Tliis species is represented by a well-preserved spine that is large and club-
shaped. The granules are large and disposed in rows extending from the neck to the point of
the spine.

Locality. — Shelton's ranch, Tehama County, Cal.

Geologic Tiorizon. — Knoxville formation, Lower Cretaceous.

Collection. — U. S. National Museum (31195).

CRETACEOUS ECHINODERMATA. 45

CiDARis TEXANUS Clark.
Plate IX, figures 2a-f.

Cidaris ttxanus Clark, 1891, Johns Hopkins Univ. Circ, -i-ol. 10, No. 87, p. 7.5.

Cidaris texanus Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 61.

Cidaris texanus Clark, 1893, U. S. Geol. Survey Bull. 97, pp. 36, 37, PI. VII, figs. la-e.

Determinative characters. — Test large, inflated. Ambulacra narrow, sinuous, with four rows
of granules between tlie poriferous avenues, which at the ambitus are increased to six and toward
the apical system and peristome are reduced to two rows. Pores oval, separated by transverse
elevations, which partially envelop the openings. Interambulacra wide, with large circular
tubercles. Areola circular, depressed; boss smooth; mamelon small, perforated. Miliary space
wide, covered with numerous small granules.

Dimensions. — Diameter 80 miUimeters ( ?) ; height 40 miUimeters ( ?).

Descnption. — A large portion of the test of tliis beautiful species is excellently preserved.
All of the characteristic features, except those relatmg to the apical system and peristome,
are clearl}^ shown. The test, however, is somewhat compressed, so that the original form can
not be made out with certainty. The ambulacral areas are narrow and slightly flexuous.
Between the poriferous avenues, wliicli are iiarrow and depressed, are four rows of granules of
nearly equal size, wliich directly at the ambitus are increased to six, and toward both apical
system and peristome are reduced to two. Irregularly scattered among the rows of granules
are others smaller in size. The pores are oval and separated by transverse elevations that
partly encircle the openings, lea-\dng a depression between each pair. •

Tlic interambulacral plates are mde and bear large circular tubercles. The areola of each
tubercle is radially ridged, deeply depressed, and surrounded by a row of mammUlated granides.
The boss is sliglitly elevated above the level of the plate and presents a smooth and sharp ridge
around the small_perforated mamelon. The miliary space is wide and tliickly set, with small
elevated granules of equal size. The apical system and peristome are lacking.

Related forms. — At first sight the species shows strong points of smiilarity to C. sceptrifera
Mantell from the Wliite Chalk of England, although the arrangement of granules in its ambula-
cra is different. The areola of C. sceptrifera is described as smooth, and that of 0. texanus as
clearly ridged radially. The only related form rejDorted from Texas is Leiocidaris hemigranosus,
formerly referred to Cidaris, but which, as wiU be shown, does not belong to that genus. Cida-
ris hranneri, from Brazil, described by Wliite, is allied to 0. texanus, but differs from it in the
character of the areola and the arrangement of granules in both the ambulacral and interam-
bulacral areas.

Locality. — Bexar County, Tex.

Geologic horizon. — Washita group of the Comanche series. Cretaceous.

Collection. — U. S. National Museum (8381).

Cidaris walcotti Clark.
Plate IX, figures 3a-d.

Cidaris walcotti Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 75.
Cidaris walcotti Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. .51.
Cidaris walcotti Clark, 1893, U. S. Geol. Survey Bull. 97, pp. 37, 38, PI. VI, figs. 4a-d.
Cidaris walcotti Johnson, 1905, Acad. Nat. Sci. Philadelphia Proc, vol. 57, p. 6.

Cidaris walcotti Weller, 1907, Cretaceous paleontology of New Jersey: Geol. Survey New Jersey, pp. 281-282, PI. VII,
figs. 10-13.

Determinative characters. — Test small, inflated. Amljulacral areas narrow, sinuous, \vith
four rows of granules between the depressed poriferous avenues. Interambulacral areas l)road;
each tubercle with depressed circular areola, smooth boss and small imperforate mamelon.
Miliary space wide, thickly covered with small granules.

Dimensions. — Type specimen: Height about 25 millimeters; width about 37.5 millimeteis.
39800°— 15 4

46 MESOZOIC AND CENOZOIC ECHINODEEMATA OF THE UNITED STATES.

Description. — The fragments of this form examined are sufficiently distinctive to separate
it from other species. A nearly complete interambulacrum with tlie adjoining ambulacra
shows that the test of the species is small and in a marked degree inflated.

The ambulacra are naiTOW, slightly sinuous, and provided \v'ith four nearly equal rows of
granules between the poriferous avenues. On some additional granules are irregularly inter-
spersed. The poriferous avenues themselves are narrow, deeply depressed, and slightly sinuous.
The pores are round, with funnel-shaped openings, j^roduced by the intersecting ridges. These
ridges, which separate the individual pores and the pore paii-s, give a lattice-like appearance to
the poriferous zones.

The interambulacral plates are moderately large. On accbunt of the indistinctly marked
sutures the small tubercles and numerous granules cause a very even surface over the entire
interambulacrum. The tubercles are circular and stand nearer the outer margin of the plates
than the inner. The areolas are deeply depressed, the central portion but slightly exceeding the
margin in height. The boss is smooth and stands but little above the level of the plate. The
mamelon is imperforate. The wide mUiary space is covered with a large number of irregularly
arranged granules of equal size. The broken specimens afford no information as to the character
of the apical system or peristome.

Related forms. — The species is very readily separated from 0. splendens, the only other
representative of tliis genus thus far reported from the Atlantic coast Cretaceous, by its pos-
session of imperforate mamelons and %vide mihary sjDaces, over which tl>e granules are regularly
scattered. The even surface of the test is likewase a distinguishing feature.

Localities. — Timber Creek (type) and Vincento\vn, N. J.

Geologic horizon. — Vincentown sand of Rancocas group, Upper Cretaceous.

Collection. — Academy of Natural Sciences of Philadelphia (1451 ) ; Johns Hopkins University.

CiDARIS SPLENDENS MortOU.

Plate IX, figures 4a-b, 5a-f, 6.

Cidaris (?) sp. Morton, 1829, Acad. Nat. Sci. Philadelphia Jour., Ist ser., vol. 6, p. 123.

Echinus sp. Morton, 1830, Am. Jour. Sci., 1st ser., vol. 17, p. 287; vol. 18, PI. Ill, figs. 12, 13.

Cidarites splendens ' Morton, 1841, Acad. Nat. Sci. Philadelphia Proc, vol. 1, p. 132.

CidaritesarmigerMorton, 1842, Acad. Nat. Sci. Philadelphia Jour., let ser., vol. 8, p. 215, PL II, fig. 1.

Cidaris armiger Gabb, 1859, Cat. Invert. Fossils Cretaceous formation, p. 18.

Cidaris splendens Gabb, 1859, Cat. Invert. Fossils Cretaceous formation, p. 18.

Cidaris armigera Agassiz, 1874, KeA'ision of the Echini, p. 761.

Cidaris armiger Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 75.

Cidaris splendens Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 51.

Cidaris splendens Clark, 1893, U. S. Geol. Survey Bull. 97, pp. 33-35, PI. VI, figs. 3a-g.

Cidaris splendens Johnson, Acad. Nat. Sci. Philadelphia Proc, vol. 57, p. "6.

Cidaris splendens Weller, 1907, Cretaceous paleontology of New Jersey: Geol. Survey New Jersey, pp. 279-281.

Determinative characters. — Test of moderate size, spheroidal. Ambulacral areas narrow,
flexuous, with four rows of granules between the pore paire, the outer rows larger than the inner;
imperfectly defined granules also appear between the pores of each pair. Interambulacral areas
very wide, with seven or ^ight plates in each column, each plate bearing a tubercle of large size
characterized by a wide circular areola, smooth boss, and small perforated mamelon. Miliary
area small and covered with numerous tluckly set granules of small size. Sutures sharply
defined, depressed. Spines elongated, cylindrical, with longitudinal rows of sharp denticulated
processes.

Dimensions. — Height 21.9 to 23 millimeters; width 34.4 to 40 millimeters.

Description. — The first mention of this form is made by Morton in 1829, when he doubtfully
referred a few fragments to C!idaris without an attempt at specific determination. Several of the
more important characters were then given, but as the material examined included only detached
plates and a few spines the description necessarily lacked much of completeness. In 1841 he
proposed the name Cidarites splendens and then more accurately defined the species. In 1842

1 Morton doubtless intended to use the term splendens instead of splendeus, which is probably a typographic error. In the publication of
1S42, where armiger is substituted, the form spUndens is used.

CEETACEOUS ECHINODEEMATA. 47

he redescribed and now for the first time figured the same form as Cidarites armiger, a name which
he stated lie desired substituted for C. splendens. Gabb in 1859 employed both names, mistaking
them for independent species, but refers to C. splendens as C. splendeus. The specimens exam-
ined by the writer were chiefly detached plates, although one nearly complete test and two entire
or nearly entire interambulacral areas, with parts or all of the adjoining ambulacra, were also
among this material. In these specimens the oral side is slightly more depressed than the aboral,
although not to the extent exhibited in Morton's figure. Tire ambulacral areas, which are nar-
row and flexuous, have, between the poriferous avenues, four granules. In the center of each
column of plates these granules are approximately of equal size, the outer rows slightly larger,
but toward the disk or toward the peristome tlie inner rows abruptly diminish in size and finally
disappear. The pores are oval in shape with funnel-like opeaiings exteriorly. Each row of
pores is separated from that which accompanies it in the same avenue by a row of imperfectly
defined granules that form an undulating ridge.

The interambulacral areas are very wide and bear large tubercles, each of which covers
the greater portion of its plate. Upon the larger plates, in the center of each column the
ai'eolas are circular, but become somewhat oval toward both disk and peristome. The outer
edge of each areola is surrounded by a circle of large granules that give it a crenulated apjDearance.
The areola rises from its depressed margin, gradually at first, then rapidly, to the boss, which
reaches a marked elevation above the general level of the plate. The boss is of moderate width
and smooth. Fi'om its center rises the mamelon, which is small, perforated, and slightly
flattened upon the upper surface. The mihary space i§ covered by small granules, which are
most numerously developed along the median line of the interambulacra.

None of the specimens affords the apical system. Strong auriculae show the presence of
powerful jaws.

The spines are slender, elongated, cylindrical, with longitudinal, serrated ribs that graduaUy
become obsolete toward the base. The collar is short and finely striated longitudinally. Tlie
acetabulum is bordered by a smooth margin and is perforated in the center.

Related forms. — In many particulars Oidaris splendens (Morton) resembles C. serrata Desor
of the European Cretaceous, but differs from it in several others notably in having only four
rows of granules between the poriferous avenues.

iocaZi^ies.— Timber Creek (type) and Vincento^vn (figured specimens), N. J.

Geologic horizon. — Vmcentown sand of the Rancocas group. Upper Cretaceous.

CoZZec^ions.^Philadelphia Academy of Natural Sciences; Johns Hopkins University
(T3002).

CiDAEis DixiENSis Cragin.

Plate IX, figures 7a-b.

Cidaris dixiensis Cragin, 1893, Geol. Survey Texas Fom-th Ann. Kept., p. 146. PI. XLVI, figs. 15, 16.

Determinative characters. — Cragin says :

Test rather small, thin; tubercles perforate, notcrenulate, rather small and feebly elevated; areolfp feebly depressed'
interambulacral plates oi'namented with crowded rounded granules which increase in size (in the smaller plates, Grad-
ually) toward the areola, the largest granules forming an alternating double row around it.

Dimensions. — Height of interambulacral plates 6 to 7 niilhmeters; width 7 to 8 millimeters.

Description. — The isolated interambulacral plates, which are the only portions of the test
known, incUcate that the form was not in all probabiUty a large one. The tubercles are but
sUghtly elevated, and the areolae are feebly depressed. The mamelon is small and perforated.
Tlie boss is smooth. The miliary space is relatively narrow, covered with granules larger toward
the areola, where they form an alternating double row around it.

Related forms. — The characters given separate this species from all of the American species with which the writer
is acquainted. In the fades of the interambulacral portion of the test, it bears considerable resemblance to C. serrijer
Forbes, from which it differs in the form of the plates.

Locality. — Nine miles northeast of Dallas, Tex.

Geologic horizon. — Taylor marl, Upper Cretaceous.
Collection. — Geological Survey of Texas.

48 MESOZOIC AND CENOZOIC ECHINODEEMATA OF THE UNITED STATES.

? CiDARIS NAHALAKENSIS De Loriol.

Cidaris nahalahensis De Loriol, 1887, Recueil zool. Suisse, vol. 4, pp. 388, 389, PI. XVII, figs. 3^.
ICidaris nahalakensis Clark, 1893, U. S. Geol. Survey Bull. 97, p. 93.

The species is based by P. de Loriol on fragments of spines obtained from the Selma chalk
("Rotten Hmestone") of the Upper Cretaceous of Wahalak, Kemper County, Miss. Similar
spines have been recognized by the writer from other locaUties, but whether tliey represent an
independent species or one hitherto described is not clear.

Genus LEIOCIDABIS Desor.

Lbiocidaeis hemigranosus (Shumard).

Plate X, figures la-g; Plate XI, figures la-b.

Cidaris hemigranosus Shumard, 1860, St. Louis Acad. Sci. Trans., vol. 1, p. 609.

Cidaris hrmigranosiisUeek, 1864, Smithsonian Misc. Coll., vol. 7 (177), p. 2.

Cidaris hemigranosus White, 1883, U. S. Geol. and Geog. Survey Terr. Twelfth Ann. Kept., for 1878, p. 38, PI. XVIII,

figs. 2a-b.
Leiocidaris heviigranosus Clark. 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 75.
Leiocidaris hemigranosus Clark, 1893, U. S. Geol. Survey Bull. 97, pp. 38, 39, PI. VII, figs. 2a-d; PI. VIII. figs, la-lj;

PI. IX, figs. la-c.
Leiocidaris hemigranosa Cragin, 1893, Geol. Survey Texas Fourth Ann. Rapt., p. 160, PL XLVI, fig. 4.
Leiocidaris hemigranosus Hill, 1901, U. S. Geol. Survey Twenty-first Ann. Rept., pt. 7, pp. 252, 266, 272.

Determinative characters. — Test v'ery large, subspherical. Ambulacra narrow, sinuous,
with six rows of granules in the middle. Poriferous avenues, wide, deeply depressed. Pores
of each pair united by clearly defined furrow. Interambulacra broad. Tubercles very large;
areola circular or slightly polygonal, depressed; boss smooth, mamelon large, perforated.
Miliary space covered with large scattered oval granules. Sutures clearly marked, depressed.

Dimensions. — Diameter 90 millimeters; height 67 milhmeters.

Description. — The form, which was quite fully described by Shumard in 1860, but not
fio-ured, was incorrectly referred to the genus Gdaris, from which it is separated by the presence
of furrows uniting the pores of each pair. In tliis respect it is a typical representative of the
genus Leiocidaris of Desor. A very good illustration was given by Wliite in 1SS3 (report for
1878), although necessarily, from the size of the figure, the furrows connecting the pores could
not be very distinctly shown. This species is the largest ecliinoid known from the Texas Cre-
taceous, and with possibly a single exception the largest from the American Mesozoic. In one
unusually fine specimen the test is subspherical, although considerably broader and more flat-
tened on the oral than aboral side. •

The ambulacra are narrow and sinuous, with six rows of granules between the poriferous
avenues. The regular arrangement of the granules is not persistent, the number being increased
irreo-ularlv near the middle of the column and somewhat reduced toward the apical system and
peristome. The poriferous avenues are wide and deeply depressed, the pores of each pair being
united by a shallow furrow.

The interambulacra are wide and the plates of massive size. The tubercles occupy the
center of the plates and are large and prominent. The areolas are deeply depressed, subcir-
cular or sUghtly polygonal, and occupy more than half of the greatest diameter of the plates.
On all the specimens examined the areolas show perfectly smooth surfaces, although Shumard
mentions the occurrence of radiating ridges. Toward the center each areola rises to form the
boss, which is provided marginally with a sharp smooth ridge. Tlie mamelon is large, sub-
spherical, with a deep perforation upon its summit. The mihary space is wide and covered with
large, irregularly shaped and flattened granules, some round and some oval in form. Inter-
spersed among these are much smaller granules, which increase in number along the margin of
the plates. The apical system and peristome are wanting.

Related forms. — The species is readily separated from any liitherto described from American
or European strata. Its characters are well defuied and distinctive.

CEETACEOUS ECHINODERMATA. 49

Localities. — Upper part of the bluff of Red River, Lamar County, and 10 iniles above the
mouth of Kiamesha Creek (type) ; 3 miles west of Denison (figured specimen) ; railroad cut
west of Austin; and "Gap," Travis County, Tex.

Geologic horizon. — Denison formation of Washita group, Comanche series. Cretaceous.

Collection. — U. S. National Museum (21768).

Subclass REGUT^ARIA ECTOBRANCTIIATA.

Order BIABEMOIDEA.

Suborder CALYCINA.

Family SALENIID.f;.

Genus SALENIA Gray.

Salenia texana Credner.

Plate XII, figures la-i ; Plate XIV, figures la-c.

Cidaris diatretum Giebel, 1853, Naturwiss. Ver. in Halle Jahresb. for 1852, p. 374, PI. VII, figure 2.
Salenia texana Credner, 1875, Zeitschr. fiir gesam. Naturwiss., vol. 46, pp. 105-116, PI. V, figs. 1-6.
Salenia texana Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 75.
Salenia texana Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 51.
Salenia texana Clark, 1893, U. S. Geol. Survey Bull. 97, pp. 40, 41, PL X, figs. la-h.
Salenia texana Cragin, 1893, Geol. Survey Texas Fourth Ann. Rept., pp. 163, 164.

Determinative cJiaracters. — Test subglobose; upper surface convex; sides inflated; under
surface flat. Ambulacra narrow, flexuous, with two rows of mammillated granules in each area;
poriferous zones flexed; pores uniserial. Interambulacra wide, with two rows of alternating
plates, six in each row. Apical system large, convex, subcircular; periproct prominent. Peri-
stome moderately large.

Dimensions. — Diameter 10 to 25 millimeters; height 7 to 20 milUmeters.

Description. — Credner presents tlie first complete diagnosis of a North American Mesozoic
echinoid in the detailed descriptions accorded the present species. Its reference by Giebel in
1852 to Cidaris diatretum ( = Pseudodiadema diatretum) was erroneous.

The test is subspherical wlien complete, but in many of the specimens examined is somewhat
flattened, both actinally and abactinally. The lower surface is slightly concave in the vicinity
of the peristome. The sides are inflated, presenting a rounded surface which is fuller above
than below.

The ambulacra are narrow, increasing gradually in width from the apical system to the
peristome. Two rows of mammillated granules, twenty-four to twenty-six in each, occupy the
middle of each area. Very minute granules extend in a hne between the rows and in the vicinity
of the peristome surround the larger granules themselves. The poriferous zones are narrow and
flexuous, and the pores are regularly arranged in a uniserial series ; near the peristome they are
slightly more crowded. The most pronounced flexure is opposite the second interambulacral
plate from the apical system. Toward the peristome the zones become nearly straight.

The interambulacra are broad and formed of two alternating rows of broad plates, six in
each row. The tubercles increase rapidly in size from the peristome, where tliey are scarcely
larger than the mammillated granules of the ambulacra. Tlie areolas are large and surrounded
by mammillated granules of various sizes that are crowded together along the inner edge of the
plates. Between the larger granules are numerous minute granules. The areola rises to a prom-
inent boss that is deeply crenulated and bears an imperforate mamelon.

The apical system is very large, convex, subcircular, with radiating ridges that extend from
the ovarial openings of each plate and unite with similar ridges of adjacent plates. Small punc-
tures are found at the angles of tlio plates and intermediate between them. The subanal plate

50 MESOZOIC AND CEXOZOIC ECHINODEKMATA OF THE UNITED STATES.

is situated before the periproct and occupies the center of the disk. The periproct is subellipti-
cal, rounded anteriorly, angular posteriorly, and slightly elevated at the border.

The adoral surface is fiat and the peristome large, covering nearly one-half the diameter of
the test. The peristome is circular, M'ith ten incisions upon the edge that divide it into nearly
equal sized lobes.

Related forms. — Credner in discussing the affinities of this form considers it to be closely
related to Salenia petalifera Defrance and S. desori Wright. It is somewhat more elevated than
S. petalifera, the radial ridges on its apical system are more pronounced, and its ocular plates
enter more compactly into the composition of its disk. From S. desori, on the other hand, it
differs more mdely, both in the character of the test plates and the decorations of the apical
system. Witli S. scutigera Gray it shows some points in common.

Localities. — Cileola, Comanche spring (figured specimen A) ; Bosque County (figured speci-
men B); 2h miles north of Denison; 5 miles west of Kent; Bexar County; Round Rock; Wil-
liamson County, Tex.

Geologic horizon. — Fredericksburg and Washita groups of the Comanche series. Cretaceous.

Collections.— v. S. National Museum (S329, A); Boston Society of Natural History; Jolins
Hopkins University (T3003, B).

Salenia tumidula Clark.
Plate XIII, figures la-j.

Salenia tumidula Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 75.
Salenia tumidula Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 51.
Salenia tumidula -Cluvk, 1893, U. S. Geol. Survey Bull. 97, pp. 41, 42, PL XI, fig.^. .la-j.
Salenia tumidula Johnson, 1905, Acad. Nat. Sci. Philadelphia Proc, vol. 57, p. G.

Salenia tumidulaVfeller, 1907, Cretaceous paleontolog3'of New Jersey; GeoL^urvey New Jersey, pp. 282, 283, PI. VIII,
figs. 1-10.

Determinative characters. — Test small, subglobose; outline of upper surface regularly convex.
Ambulacra narrow, nearly straight, with two rows of mammillated granules between the pore
pairs; poriferous zones sliglitl}^ flexed; pores uniserial. Interambulacra ^ide, composed of two
alternating rows of five or six plates. Apical system large, regularly convex, subcircular;
periproct slightly elevated. Peristome small.

Dimensions. — Diameter 2 to 13 niilhmeters; height 1 to 10 milhnieters.

Description. — The perfectly preserved specimens of this beautiful species jDcrmit determi-
nation of all the details of structure.

The general form of the test is subglobose. The sides are inflated and regularly curved,
rising into a convex upper surface, from wliich the periproct projects but slightly. Tlie lower
surface is abnost flat and toward the peristome is slightly depressed.

The ambulacra are rather broad, increasing in width from the apical system to the peristome.
Extending along the center of each area are two rows of mammillated granules, 15 or 16 in each
row, between which are other minute granules. The poriferous zones are narrow and nearly
straight; the pores round, regularly arranged in a uniserial series, and largest in the middle
of the column.

The interambulacra consist of two rows of alternating plates, five or six in each row. The
larger tubercles diminish rapidly in size toward the mouth edges, and are ver}- indistinct on the
plates bordering the same. Each areola is large and circular, the boss crenulated, and the mame-
lon flattened and imperforate. The miliar}^ space is bordered with oval granules of irregular size
and arrangement, although most numerous between the rows of tubercles. The sutures of the
plates are very indistinctlj' marked.

The apical system is prominent, subcircular, with a regularly curved convex surface, from
which the anal aperture projects but sUghtty. The granular decorations of the surface often
coalesce and appear as broken ridges extending radially from the five openings in the genital
plates. The periproct is oval, slightly pointed below, and projects but sUghtlj' above the level
of the apical system. It is bordered bj- a flangefike edge that is formed of the anal and two
genital plates.

CRETACEOUS ECHINODEEMATA. • 51

The peristome is small, occupying scarcely two-fifths of the diameter of the test. Ten
incisions divide the edge into lobes, the ambulacral lobes projecting the farther.

Related forms. — The identity of tliis species is readily established by the straight poriferous
zones and pecuUar decorations of the apical system. The number of mammillated granules in
the ambulacral areas is less than in S. texana, and the oval granules of the interambulacral areas
are readily distinguishable from the round forms of S. bellula. The periproct also projects far
less than in S. texana, although in this respect it is not unUke S. bellula.

Locality. — Timber Creek, near Vincentown, N. J.

Geologic horizon. — Vincentown sand of Rancocas group, Upper Cretaceous.

Collections. — Academy of Natural Sciences of Pliiladelphia (1448) ; Johns Hopkins Univei-sity.

Salenia bellula Clark.

Plate XIII, figures 2a-g.

Salenia bellula Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 75.
Salenia bellula Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 51.
Salenia bellula Clark, 1893, U. S. Geol. Survey Bull. 97, pp. 43, 44, PL XI, figs. 2a-g.
Salenia bellula, Johnson, 1905, Acad. Nat. Sci. Philadelphia Proc, vol. 57, p. 6.

Salenia bellula Weller, 1907, Cretaceous paleontology of New Jersey: Geol. Survey New Jersey, pp. 283-284, PI. VIII,
figs. 11-17.

Determinative characters. — Test small, compressed, circular; upper surface convex; sides
inflated; under surface flat. Ambulacra rather broad, nearly straight, with two rows of gran-
ules in each row; poriferous zones broad, very slightly flexed; pores round, uniserial. Interam-
bulacra wide. Apical system convex and nearly circular. Peristome small.

Dimensions. — Diameter 6 to S millimeters; height 10 to 1.3 millimeters.

Description. — This Salenia is a very rare form, only a few specunens having come under the
notice of the writer. Certain peculiarities of outline and structure prevent its being confounded
with other species heretofore described.

In general outhne the test is somewhat flattened; the upper surface is regularly convex; the
sides are inflated; the lower surface is flat or slightly concave at the peristome.

The ambulacra are prominent and change but slightly in width from the apical system to
the peristome. Two rows of mammillated granules, 15 in each, occupy the center of each
area.

The interambulacra are wide and consist of two rows of alternatmg plates, five or six in
each. The tubercles are prominent, but decrease rapidly in size, the boss narrow and indistinctly
crenulated, and the mammalon small, flattened, and imperforate. An indistinct circle of mam-
millated granules surrounds each tubercle. They unite to form a sinuous double series between
the rows of tubercles. Between the larger granules are scattered irregularly numerous small
granules that are crowded together along the central line of the interambulacra.

The apical system is shghtly convex, the periproct interfering but little with the regularity
of the curved surface. The periproct is subcircular, with a flangelike rim. The plates are
decorated with oval granules arranged in radial rows extending from tlie opening of each genital
plate and unite with corresponding rows of adjacent plates at the suture.

The peristome is small, being one-tliird of the transverse diameter of the test. Ten weak
incisions divide the edge into lobes that are nearly of equal size.

Related forms. — This species is quite distinct fi'om Salenia texana or S. tumidvla, and at the
same time does not admit of reference to any of the European species. It is most closelj' related
to S. tumidula,but is more compressed, has a differently shaped and decorated apicalsystem, and
has round and mammillated granules in the miliary space, whereas those of S. tumidtda are char-
acteristically oval.

Locality. — Timber Creek, near Vincentown, N. J.

Geologic horizon. — Vincentown sand of Rancocas group, Upper Cretaceous.

Collections. — Academy of Natural Sciences of Philadelphia (1446); American Museum of
Natural History, New York.

52 MESOZOIC AND CENOZOIC ECHINODERMATA OF THE UNITED STATES.

Suborder ARBACINA.
Family HEMICIDARID.E.

Genus HYPODIADEJIA Desor.
Hypodiadema elegans Clark, n. sp.
Plate XIV, figures 2a-b.

Determinatwe characters. — Test small, moderately inflated, slightly tumid above the ambitus.
Ambulacra narrow, nearly straight, with small perforate, crenulate tubercles diminishing in size
from the ambitus aborally. Interambulacra broad, with moderately large tubercles perforate
and crenulate. Apical system prominent, genital plates large, forming a periproctal ring; ocular
plates small, elevated.

Dimensions. — Diameter 13.5 millimeters.

Description. — Only a single specimen of this species has been found. The abactinal and
central portions of the test are well preserved, but the actinal surface is covered. The deUcately
sculptured test is small, somewhat inflated above. The ambulacra are nearly straight and nar-
row. The small primary tubercles at the ambitus are perforate and crenulate, but diminish in size
toward the apical system.

The iiiterambulacra are broad, the primary turbercles large, crenulate, and perforate, the
depressed areolas being surrounded by a circle of granules. The miUary space is narrow, except
toward the apical system, where it is large on the abutting plates. The apical system is elevated
and pronounced. The large genitals which form the periproctal ring are perforated, the madre-
porite having two large openings. The oculars are small and elevated.

Locality. — Junction of Muddy and Clear forks of Little Missouri River, 3 miles west of Mur-
freesboro. Pike County, Ark.

Geologic horizon. — Trinity sand of the Comanche series, Cretaceous.

Collection. — \]>. S. National Museum (31196).

Genus GONIOPYGTJS Agassiz.

GoNioPYGXJS ziTTELi Clark.

Plate XIV, figures 3a-c; Plate XV, figures la-h.

Goniopygus zitlelli Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 76.

Goniopygus zitlelli Clark, 1893, Johns Hopkins Tniv. Circ, vol. 12, No. 103, p. 51.

Goniopygus 2itteniC]&Tk, 1893, U. S. Geol. Survey Bull. 97, pp. 53, 54, PI. XVIII, figs. 2a-d; PI. XIX, figs. la-e.

Goniopygus zitteli Cragin, 1893, Geol. Survey Texas Fourth Ann. Kept., p. 155.

Determinative cJiaracters. — Test subconical, circular in outhne; upper surface elevated; base
flattened. Ambulacra broad, with a double row of alternating tubercles, 18 to 20 in each series;
poriferous zones, with a double row of pores, multipUed at the peristome. Interambulacra
broader than the ambulacra, with a double row of pi-imary tubercles, 10 to 12 in each row.
Apical system prominent, compact. Peristome large, with shallow incisions.

Dimensions. — Diameter 25 to 38 millimeters; height 15 to 25 millimeters.

Description. — All specimens examined hj the writer have a distinctly subconical form that is
highly characteristic. The upper surface is very much elevated, while the lower is fiat and
slightly depressed around the peristome.

The ambulacra are broad, increasing regularly m width from the apical disk to the ambitus,
beyond which they decrease toward the peristome. There is a double row of 18 to 20
tulsercles in each area that rapidly increase in size fi-om the apical system downward. The pores
are arranged in a double row on each poriferous zone, except in the ^^cinity of the peristome, where
they become suddenly increased in number.

The interambulacra are about one and one-half times the width of the ambulacra, and each
contains a double row of large tubercles, 10 to 12 in each series. These tubercles are con-
siderably larger than those of the ambulacral area, and have wide circular areolas, smooth bosses,
and imperforate mamelons. On the base the tubercles of all the areas are of nearly equal size.

CRETACEOUS ECHINODERMATA. ' 53

The miliary space is wide, very nearly smooth in the upjaer portions of the column, and sparsely
covered Anth granules toward the peristome.

The apical system is large and compact, the elongated genital plates giving it a star-shaped
appearance. The well-defined ocular plates, wedged into the interspaces, make the entire out-
line subpentagonal. Each genital plate is angular at the outer extremity and perforated. On
the inner edge of the same there is a semicircular depression, in the center of wliich is a small
mammillated tubercle.

Tlie peristome is large, covering quite one-half the diameter of the base. It is divided into
ten lobes by ten shallow incisions.

Related forms. — The species shows many points of similarity to Echinus pafagonensis,
described by D'Orbigny in 1842, from the Tertiary of southern Patagonia. The margin of
D'Orbigny's species is sharper and its apical system of somewhat diiferent shape; moreover, if
properly referred to the Tertiar}^, it is undoubtedly a different form. Echinus andinus, from the
desert of Atacama, described by PliiUppi in 1860, is likewise closely alhed to6r. zitteli, although
more conical and presenting a different surface decoration of the plates. Goniopygus major,
from the Cenomanian of Europe, is similar in many particulars, although the pores are not
increased around its peristome as in G. zitteli, and its apical system is more compact.

Locality. — Round Rock (type) and Spanish Oak branch, Williamson County, Tex.

Geologic horizon. — Edwards hmestone of Fredericksburg group, Comanche series, Cretaceous.

Collections. — U. S. National Museum (122.34); Texas Geological Survey.

Genus LEPTARBACIA Clark, n. gen.

Test small, circular in ambital outUne, subhemispherical, upper surface depressed, lower
surface flat. Ambulacral plates are simple primaries near the apical system and compound at
the ambitus. Compound plates consist largely of one primary and three demiplates, two above
and one below. Interambulacra with large plates and with six rows of small perforated and
crenulated tubercles on lower surface which become reduced. Peristome of medium size.
Periproct small.

Leptarbacia ARGUTtTs Clark, n. sp.

Plate XVI, figures la-f.

Determinative characters. — Test small, depressed above, flat below, apical system of medium
size, periproct nearly circular. Ambulacra straight, rather wide at ambitus and on lower sur-
face, plates compound except near apical system, generally composed of one primary and three
demiplates, some plates with one primary and two demiplates. Interambulacra with long bare
median areas on upper surface, approaching ambitus, and on lower surface six rows of small per-
forated and crenulated tubercles.

Dimensions. — Diameter 20 niilUmeters ; height 12 millimeters.

Description. — The single specimen of this species is small, with depressed uppev surface
and nearly flat below. It is somewhat depressed near the- peristome.

Tlie ambulacra are narrow, increasing in width from the apical system to the ambitus,
beyond which they decrease in width toward the peristome. Tliere is a double row of about
thirty tubercles in each area, which become quite indistinct toward the apical disk. The pores
are arranged in an irregular simple series in each poriferous zone.

The interambulacra are about three times the width of the ambulacra, and each contains
from the ambitus to the peristome six rows of small perforated and crenulated tubercles, the
central row of tubercles of each haU continuing to the apical system, although gradually becoming
less distinct as the latter is -ipproached. The mihary space is covered with small granules.

The apical system is small, the genital plates being somewhat larger than the ocular, but
rarely projecting farther than the latter. The pefiproct is small and shghtly subcentral.

Tlie peristome is apparently of mecUum size but is not well enough preserved to show its
characteristic features.

Locality. — Fort Worth, Tex.

Geologic horizon. — Wasliita group of the Comanche series, Cretaceous.

Collection. — Johns Hopkins University (T .3004).

54 MESOZOIC AND CENOZOIC ECHINODERMATA OF THE UNITED STATES.

Suborder DIADEMINA.
Family ORTHOPSIDiE.

Genus OBTHOPSIS Cotteau.
Oethopsis planulata Clark, n. sp.

Plate XVI, figures 2a-c.

Determinative characters. — Test small, depressed, circular in ambital outline, upper surface
flattened, lower surface concave. Ambulacra narrow, pore pairs simple, primarj' tubercles
small. Interambulacra broad, with several rows of vertical primarj' tubercles sUghtty larger
than the ambulacra. Peristome of medium size.

Dimensions. — Diameter 28 to 32 milhmeters; height 10 to 12 millimeters.

Descn-ption. — The species is represented by two specimens embedded in a single mass of
indurated marl, one showing the adoral and the other the aboral surface, the former containing
a number of spines. Tlie test is relatively small, much depressed, the upper surface being dis-
tinctly flat, except directly at the apical sj^stem, which is slightly elevated. The under surface
is concave. Tlie ambulacra are narrow and bear two rows of small perforate, rmcrenulated
tubercles that become indistinct toward the apical system. The plates are simple primaries on
the upper surface, but from just above the ambitus to the peristome two of the primaries com-
monly combine, the suture passing through the interporiferous tubercle. Tlie poriferous zones
bear a straight uniserial series of pores.

The interambulacra are broad, with six rows of perforr.te, uncrenulated tubercles on the
under surface which are much reduced on the upper surface.

Tlie peristome is of moderate size.

Locality. — Cut on Bonham road, southeastern edge of Denison, Tex.

Geologic Jiorizon. — Grayson marl member of the Denison formation, of Washita group,
Comanche series. Cretaceous.

Collection. — ^Johns Hoplcins University (T 3005).

Orthopsis occidentalis Cragin.
Plate X'V'n, figures la-g.

Orthopsis occidentalis Cragin, 1893, Geol. Survey Texas Fourth Ann. Rept., pp. 160, 161, Pis. XXV, figs. 1-3; XXVII,
fig. 2.

Determinative characters. — Test large, depressed, slightly pentagonal in ambital outline,
upper surface tumid, lower surface concave ; five perforated genitals, one a large madi-eporite,
some of the oculars reaching the periproctal margin. Ambulacra narrow, straight; pore pairs
in simple, straight series ; primary tubercles small, perforate, and smooth ; interambulacra broad
with several vertical rows of small primary tubercles similar to the ambulacra. Peristome of
medium size.

Dimensions. — Diameter 57 millimeters; height 33 millimeters.

Description. — Tlie test is large, somewhat depressed, and slightly pentagonal in ambital
outline. The upper surface is tumid directlj^ above the ambitus, while the lower surface is con-
cave.

The ambulacra are very narrow. Two rows of small primary perforated and uncrenulated
tubercles extend from the peristome to the apical disk. Tlie plates are simple primaries on the
upper surface, but from the ambitus to the peristome two of the primaries generally combine, the
suture passing through the interporiferous tubercle. The pores occur in simple series in the
narrow poriferous zones. .

Tlie interambulacra are much broader than the ambulacra, with six rows of primary tubercles
similar to those in the ambulacra. All of the tubercles about equal in size below the ambitus
but all except the middle series of each row of plates gradually disappear above the ambitus, the
latter alone continuing to the apical disk.

CRETACEOUS ECHINODEKMATA. 55

The peristome is of medium size with moderately developed incisions. The periproct is
relatively large, the plates of the apical sj^stem being narrow.
Locality. — Sierra Blanca Mountain, near El Paso, Tex.
Geologic Tiorizon. — Washita group of the Comanche series. Cretaceous.
Collection.- — Geological Survey of Texas.

Family DIADEMATID^.

Genus PSEUDODIADEMA Desor.

PSEUDODIADEMA TEXANUM (Rocmer).

Plate XVIII, figures la-i.

Diadema texanum Roemer, 1852, Die Kreidebildungen von Texas, p. 82, PI. X, fig. 5.

Pseudodiadema texanum Desor, 18.58, Sj'uopsis des echinides fossiles, p. 72.

Diadema texanum Gabb, 1859, Catalogue of invertebrate fossils of the Cretaceous formation, p. 19.

Pseudodiadema texanum Meek, 1864, Smithsonian Misc. Coll., vol. 7 (177), p. 2.

Pseudodiadema roemeri Clai'k, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 75.

Pseudodiadema texanum Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 51.

Pseudodiadema texanum Clark, 1893, U. S. Geol. Survey Bull. 97, pp. 47, 48, Pis. XIII, figs. 2a-n; XIV, figs. la-g. •

Pseudodiadema texanum Cragin, 1893, Geol. Survey Texas Fourth Ann. Rept., pj5. 161, 162.

Pseudodiadema texanum Hill and Vaughan, 1898, U. S. Geol. Survey Eighteenth Ann. Rept., pt. 2, PI. LIII, figs. 3a, 3b.

Pseudodiademxi texanumBiU, 1901, U. S. Geol. Siu-vey Twenty-first Ann. Rept., pt. 7, PI. XXVII, figs. 3a, 3b.

Determinative cTiaracters. — Test small, circular, depressed; sides inflated; upper and lower
surfaces about equally flattened. Ambulacra narrow, with two rows of primary tubercles, 11
or 12 in each row; poriferous zones narrow, pores uniserial. Interambulacra mde, with
two rows of primary tubercles of larger size than those of the ambulacra. Peristome wide, cov-
ering nearly one-half the diameter of the test. Periproct subcircular, with deep incision in right
anterior ambulacrum.

Dimensions. — -Diameter 5 to 12 millimeters; height 8 to 22 millimeters.

Description. — Tliis form, described by Roemer in 1S52 as Diadema texanum, was properly
assigned by Desor to the genus Pseudodiadema.

The test is circular, very much depressed on both the upper and lower surfaces and inflated
at the sides.

The ambulacra are narrow and lanceolate. They bear two rows of tubercles, 11 or
12 in each row, that decrease rapidly in size from the ambitus to the poles. Tlie areolas are
circular, the bosses stout and jarominent, the mamelons distinctlj- jjerforated. Small secondary
tubercles are irregularly dispersed between the rows of primary tubercles. A few scattered
granules surround the same. The poriferous zones are uniserial throughout, though the pores
show a slight tendency to increase at the peristome.

The interambulacra are about twice the width of the ambulacra. There are two rows of
primary tubercles, 9 or 10 in each row, that decrease in size from the ambitus to the poles.
The areolas are depressed, circular, and distinctly outlined, the bosses elevated and deeply crenu-
lated, the mamelons large and deeply perforated. Small secondary tubercles surromid the pri-
mary tubercles, between which are interspersed minute granules.

The peristome is wide, covering nearly one-half of the diameter of the test. Ten mcisions
produce well-defined lobes at regular intervals. The periproct is large and subcircular, with a
deep incision in the right anterior ambulacium.

■Related forms. — Both Roemer and Desor mention the similarity of this species to P. tenue,
of the Cenomanian of Europe, from which, however, it is separated by its smaller tubercles and
more numerous granules.

Localities. — -Near Fredericksburg and in San Saba Valley (type), Barton Creek between Oat-
manville and Bee Caves (figured specimen), near Austin and many other places in Texas.

Geologic horizon. ^Glen Rose limestone of Trinity group and Comanche Peak limestone of
Fredericksburg group, Comanche series, Cretaceous.

Collections.— \]. S. National Museum (31197); Johns Hopkins University.

66 MESOZOIC AND CENOZOIC ECHINODEKMATA OF THE UNITED STATES.

PSEUDODIADEMA DIATRETUM (MortOIl).

Plate XIX, figures la-f.

Cidaris diatretum Morton, 1833, Am. Jour. Sci., 1st ser., vol. 23, p. 294.

Cidarites diatretum Morton, 1834, Synopsis Organic Remains Cretaceous, p. 75, PI. X, fig. 10.
Cidaris diatretum Bronn, 1848, Index palaeontologicus, vol. 1, p. 298.
Pseudodiadema diatretum Desor, 1858, Synopsis des ^chinides fossiles, p. 73.
Cidaris diatretum Gabb, 1859, Cat. Invert. Fossils Cretaceous, p. 18.
Pseudodiadema diatretum Cotteau, 1862-1867, Paleontologie franfaise, vol. 7, p. 519.
Pseudodiadema diatretum Meek, 1864, Smithsonian Misc. Coll., vol. 7 (177), p. 2.
Pseudodiadema diatretum Conrad, 1868, Geology of New Jersey, appendix, p. 722.
Cidaris clavigera Credner, 1870, Deutsche geol. Gesell. Zeitschr., vol. 22, p. 218.
Cidaris sceptrifera Credner, 1870, Deutsche geol. Gesell. Zeitschr., vol. 22, p. 218.
Pseudodiadema diatretum Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 75.
Pseudodiadema diatretum Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 51.
Pseudodiadema diatretum Clark, 1893, U. S. Geol. Survey Bull. 97, pp. 46, 47, PI. XIII, figs. la-f.
Pseudodiadema diatretum Johnson, 1905, Acad. Nat. Sci. Philadelphia Proc, vol. 57, p. 6.

Pseudodiadema diatretum Weller, 1907, Cretaceous paleontology of New Jensey: Geol. Survey New Jersey, pp. 285-286,
PI. IX, figs. 1-6.

Determinative characters. — -Test circular, convex below, sides inflated. Ambulacra wide^^
sinuous, with two rows of tubercles that are large at the ambitus and decrease toward the poles;
primary tubercles and several irregular rows of secondary tubercles. Peristome narrow, about
one-third the diameter of the test.

Dimensions. — Diameter 30 to .37 millimeters; height 12.5 to 15 millimeters.

Description. — The specimens vary greatly in size, the full-grown forms being moderately
large. The sides are inflated.

The ambulacra are wide, slightly raised, and furnished ^vith two rows of tubercles, thirteen
to fourteen in each row. They are large and prominent at the ambitus but decrease gi-aduaUy
toward the poles. The broad areolas, that are sharply depressed in their marginal portions, are
striated by faint radial ridges on the outer parts. At the upper and inner angle of each plate is
a smaU secondary tubercle, while irregidarly scattered over the other portions of the plat«s are
smaller tubercles, and between them minute granules. The poriferous zones are slightly flexed,
the pores of each plate being disposed in curved form about the margin. Although there are
generally three pairs of pores at each plate, four pairs are not infrequent near the ambitus.

The interambulacra are about one and one-half times the width of the ambulacra, and have
two rows of tubercles somewhat larger than those of the latter. There are, in addition, several
irregular rows of secondary tubercles, of various sizes, that are most numerous between the rows
of primary tubercles and the poriferous zones. Sparsely scattered over the interambulacral
space are flattened granules.

The primary tubercles of both the ambulacra and interambulacra have wide circular areolas,
elevated and deeply crenulated bosses, and distinctly perforated mamelons.

The peristome is narrow, reaching scarcely one-third the diameter of the test. The incisions
of the margin are weak.

The discal opening is subpentagonal.

Related forms. — Tliis species resembles in some particulars Pseudodiadema ornatxim Goldfuss
of the Cretaceous of Europe, but the latter form has a different arrangement of the secondary
tubercles and granules and lacks the radial striation upon the areolas.

Localities. — Gloucester (type). Timber Creek, and Vincentown, N. J.

Geologic horizon. — Vincentown sand of Rancocas group. Upper Cretaceous.

Collections. — Academy of Natural Sciences of Philadelphia (1471); New Jersey Geological
Survey; American Museum of Natural History, New York.

Genus HETERODIADEMA Cotteau.

Heterodiadema ornatum Clark, n. sp.
Plate XVIII, figures 2a-f.
Determinative characters. — Test small, subconical, ambitus tumid, aboral surface depressed,
lower surface convex; apical opening large; ambulacral plates with two vertical rows of small

CRETACEOUS ECHINODEEMATA. 57

perforated and crenulated tubercles, pore pairs in simple series doubling toward the peristome;
interambulacral plates with two rows of ])rimary tubercles but slightly larger than the ambu-
lacral. Peristome small.

Dimensions. — Diameter 23 millimetere ; height 11.5 millimeters.

Description. — The single specimen representing this species is small, subcorneal, depressed
on the aboral surface but tumid at the ambitus. It is apparently distinctly convex on the
adoral surface.

The ambulacra are moderately narrow, with two rows of small, primary, perforate, and
crenulate tubercles. The pore pairs when seen are simple. The plates are compound, the
sutures being very indistinct.

The interambulacra are much wider than the ambulacra and bear two rows of primary
tubercles which are similar to the ambulacral. The posterior interambulacrum is deeply incised
and depressed near the apical system which intrudes far into it.

The large aboral scar indicates an apical system of considerable size.

Locality.— Fort Worth, Tex.

Geologic horizon. — Washita group of the Comanche series, Cretaceous.

Collection. — Johns Hopkins University (T 3006).

Genus COTTALDIA Desor.

CoTTALDiA KOTULA Clark, n. sp.
Plate XX, figiires la-d.

Determinative characters. — Test small, tumid, subhemispherical, aboral and adoral surfaces
somewhat depressed; apical system small; ambulacral plates crowded with irregular rows of
small primary tubercles, perforate and noncrenulate, pore pairs in simple series. Interambula-
cral plates with numerous small irregularly disposed tubercles ; peristome small.

Dimensions. — Diameter 15 mUlimeters; height 12.5 millimeters.

Description. — The test is small, much inflated at the ambitus, subhemispherical. The
aboral surface is sHghtly depressed and the adoral surface more so.

The ambulacra are narrow, with four rows of very small, perforate, and uncrenulate tuber-
cles at the ambitus. The narrow poriferous zones are luiiserial. The compound plates are
composed of three primary plates with very indistinct sutures.

The interambulacra are wide, the plates being low and slightly l^ent. A row of seven small
tubercles crosses each plate nearly horizontally at the ambitus but becomes reduced in number
toward the poles. These tubercles are similar in character to those on the ambulacra.

The apical system and peristome are not pi-eserved on the specmiens examined.

Locality. — Shoal Creek, Travis County, Tex.

Geologic horizon. — Buda (Shoal Creek) limestone of the Washita group, Comanche series,
Cretaceous.

Collection. — Johns Hopkins University (T 3007) ; U. S. National Museum.

Genus HEMIPEDINA Wright.
Hemipedina charltoni Cragin.
Hemipedina charltoni Cragin, 1894, Colorado Coll. Studies, vol. 6, pp. 41, 47, 50, 51.

Description. — Cragin describes this species as follows:

Test small, round-pentagonal, arched above, concave below; apical disk and periproct moderately broad; peris-
tome considerably smaller in proportion to the test than in Pscudodiadema tc.canum Roemer; pore-belts straight, the pcjres
somewhat elongated in the direction of the belt, the p(5re pairs simple throughout and somewhat oblique; ambulacral
areae half as broad as the interambulacral, each ornamented with two rows of primary tubercles that are somewhat
smaller than those of the row of largest tubercles on the interambulacral arese, each primary tubercle being subtended
by an irregularly polygonal string of smaller (secondary) ones; interambulacral areae with six rows of primary tubercles,
these being much larger in the middle row of each semiambulaci-um than in the others, the primaries subtended by
secondaries for the most part in polygonal strings; surface of test closely granulated in the intervals between tubercles
oa both ambulacral and interambulacral arese.

58 MESOZOIC AKD CENOZOIC ECHINODEEMATA OF THE I'XITED STATES.

No figures are given and tlie incompleteness of tlie description leave some question as to
whether the reference of this form to Hemipedina is correct.

Dimensions. — Diameter 25 millimeters; height 11 millimetei-s ; width of peristome 7 to 8
millimeters; width of periproct 3.5 millimeters.

Locality. — About a mile east of Denison, Grayson Countj-, Tex.

Geologic horizon. — ^Main Street limestone member of the Denison formation of Washita
group, Comanche series, Cretaceous.

Collection. — Baylor Univei-sit}^.

Family DIPLOPODIID.E.

Genus DIPLOPODIA McCoy.

DiPLOPODIA TAFFI CrEgUl.

Plate XX, figures 2a-e.

Diplopodia taffi Cragin, 1893, Geol. Survey Texas Fourth Ann. Kept., pp. 148, 149, PI. XLVI, fig. 3.

Determinative characters. — Test large, subcircular, depressed; lower surface flattened;
ambulacra with two vertical rows of primary tubercles perforate and crenulate, slightly smaller
than the interambulacral tubercles, pairs of pores biserial above the ambitus toward the apical
system and at the peristome, iniserial below the ambitus; interambulacral plate with eight rows
of primary tubercles at the ambitus; peristome small with well-marked incisions.

Dimensions. — Diameter 59 millimeters; height 26 millimeters.

Description. — This verj^ beautiful species is one of the largest in the Lower Cretaceous. It
is represented by a number of specimens although far less common than CypJiosoma texanum, with
which it is found associated.

The test is depressed and shghtly pentagonal in outline. The lower sm^ace is flattened,
the sides somewhat inflated, and the upper surface slightly elevated.

The ambulacra are of moderate width, -with two vertical rows of perforate and crenulate
primary tubercles, which are slightly smaller than the interambulacral tubercles. The pore
pairs are biserial from the ambitus above toward the apical system and at the peristome, but
uniserial from the ambitus toward the peristome.

The interambulacra are broad, with sLx rows of large and two of small primary tubercles at
the ambitus, the small tubercles, one row on each side outside the large tubercles, being confined
to that region. The outer rows of large tubercles likewise do not reach the peristome and apical
system. A broad and somewhat depressed area follows the median section of the ambulacra.

The apical system is not large and its rays penetrate deeply the interambulacra.

The peristome is small, with ten rather deep branchial incisions.

Related forms. — This species shows some similarity to D. streeruvitzi, but is not quite as
much elevated aborally.

Localities. — North San Gabriel River, 3 mUes above Georgetown (typo), Benbrook, Tarrant
County, and Blum, Hill County, Tex.

Geologic Jionzon. — Comanche Peak limestone of Fredericksburg group, Comanche series,
Cretaceous.

Collections. — Geological Survey of Texas; U. S. National Museum.

Diplopodia streeruvitzi Cragin.

Plate XX, figures 3a-c.

Diplopodia strra-uvitzi Cragin, 1893, Geol. Survey Texas Fourth Ann. Kept., pp. 147, 148. PL XXIV, fig. 11, Pl. XXV,
figs. 9-10.

Determinative characters. — Test medium size, subcircular, depressed, upper and lower sur-
faces flattened; ambulacral plates with two vertical rows of primary tubercles, pairs of pores
simple except toward apical system and peristome where the}' are biserial ; interambulacral plates
with six to eight vertical rows of primary tubercles at the ambitus ; peristome small.

Dimensions. — Diameter 25 to 50 millimeters; height 12 to IS millimeters.

CRETACEOUS ECHINODERMATA. 59

Description. — This species is not numerous, and the loiown forms are confined to El Paso
County, Tex. The test is very nearly circidar m ambital outline, is depressed, and is distinctly
flattened both adorally and aborally.

The ambulacra are of moderate width with two vertical rows of perforate and crenulate
primary tubercles of about the same size as the interambidacral tubercles. The poriferous zones
are wide above the ambitus but narrow at the ambitus and below until near the peristome. The
pore pairs are biserial aborally. There is much crowding of the pore pairs at the peristome.

The interambidacra are wide with six or eight rows of primary tubercles similar to those of
the ambulacra. The outer rows are somewhat irregular in distribution and gradually disappear
aborally.

The apical system is of medium size. The peristome is small.

Localities. — Sierra Blanca peaks (type) and near Kent, El Paso County, Tex.

Geologic liorlzon. — Washita group of the Comanche series, Cretaceous.

Collections. — Geological Survey of Texas; U. S. National Museum.

Family CYPHOSOMATID^.

Genus CYPHOSOMA Agassiz.

Cyphosoma hilli Clark.

Plate XIX, figures 2a-g.

PscudodiadcmahilliClark, 1801, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 76.
Diplopodia hilli Clark, 1803, Johns Hopkins Univ. Circ, vol. 12, No. 103. p. 51.
Diplopodia hilli Clark, 1893, U. S.. Geol. Survey Bull. 97, pp. .50, 51, PI. XVI, figs. 2a-g.
Diplopodia hilli Cragin, 1893, Geol. Survey Texas Foiuth Ann. Rept., p. 147.

Determinative characters. — Test subpentagonal, depressed; sides inflated; upper and lower
sm"faces flattened. Ambidacra prominent, straight, with two rows of primary tubercles, twelve
or thirteen in each row; poriferous zones narrow, with slight increase in width toward the ajoical
system ; pores in single pairs below but biserial on the upper surface. Interambulacra with two
rows of primary tubercles of equal size with those of the ambulacra. Peristome narrow, circular.
Discal opening broad, pentagonal.

Dimensions. — Diameter 20 miUimeters; height 8 millimeters.

Description. — The test has a subpentagonal outliiie, the projecting ambulacra occupying the
angles. It is depressed on both the upper and lower surfaces, the latter becoming somewhat
concave toward the peristome. The sides are moderately inflated.

The ambulacra are broad, very prominent, and furnished with two rows of large tubercles,
twelve or thu-teen in each row, that decrease rapidly from the ambitus toward the apical system
and peristome. Tlie poriferous zones are narrow and lanceolate. The pores are arranged in
single pairs on the lower surface, but from the ambitus to the apical system are increased slightly
in number, and near the apical system become biserial. The interambidacra are narrow and
appear flattened as compared with the slightly projecting ambidacra. They are provided with
two rows of primary tubercles of ecjual size with those of the ambidacra. There are ten or eleven
in each row. The areolas are narrow, circular, and elevated, the bosses prominent and distinctly
crenulated, and the mamelons deeply perforated. The tubercles are somewhat widely separated
and the intervening space is covered with small secondary tubercles and sparsely scattered
granules.

The peristome is broad, depressed, and circular. It is divided by ten incisions mto well-
defined lobes, those of the ambulacra laroader and extending farther into the opening than the
others.

The discal opening is pentagonal, the angles occm-ring at the point of the medial suture of
the interambulacra.

This species which was earlier referred to Diplopodia has been shown to belong to the genus
Cyphosoma. Better material has furnished specimens in which the morphology of the ambulacra
demiplates can be clearly seen.

60 MESOZOIC AND CENOZOIC ECHINODEEMATA OF THE UNITED STATES.

Related forms. — Tho species is not unlike C. texcmum, from wliich, however, it is separated by
its smaller size, subpentagonal form, and two instead of four rows of primary tubercles.
Locality. — ^Austin, Tex.

Geologic horizon. — Austin chalk, Upper Cretaceous.
Collections. — U. S. National Museum (S311); Johns Hopkins University.

CypHosoMA TEXANUM Roemep.

Plate XXI, figures la-g.

Diadema texanum Roemer, 1849, Texas, p. 392.

Cyphosoma texanum Roemer, 1852, Die Kreidebildungen von Texas, p. 82, PI. X, fig. 6.

Cijphosoma texanum Conrad, 1857, in Hall's U. S. and Mex. Boundary Survey Rept., vol. i, pt. 2, p. 145, PI. I, fig. 3.

Phym.osoma texanum Desor, 1858, Synopsis des 6chinides fossiles, p. 90.

Cyphosoma texanum Gabb, 1859, Cat. Invert. Fossils Cretaceous, p. 18.

Cyphosoma texanum Gabb, 1869, Geol. Survey California, Paleontology, vol. 2, p. 276.

Pseudodiadema texanum Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 75.

Diplopodia texanum Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 51.

Diplopodia texanum Clark, 1893, U. S. Geol. Survey Bull. 97, pp. 47, 48, PI. XV, figs, la-f; PI. XVI, figs. la-d.

Cyphosoma texana Aguilera, 1893, Datos para la geologia de Mexico, p. 26.

Diplopodia texana Cragin, 1893, Geol. Survey Texas Fourth Ann. Rept., p. 149.

Diplopodia texanum Cragin, 1894, Colorado Coll. Studies, vol. 5, p. 47.

Cyphosoma texana Aguilera, 1897, Inst. geol. Mexico Bol., Nos. 4, 5, and 6, p. 21.

Diadema texana Bose, 1899, Inst. geol. Mexico Bol., No. 13, p. 11.

Cyphosoma texana Bose, 1899, Inst. geol. Mexico Bol., No. 13, p. 11.

Determinative cTmracters. — Test large, subcircular; sides inflated; upper surface elevated;
lower surface depressed, concave. Ambulacra promment, with two rows of primary tubercles;
poriferous zones broad above, narrow below; pores uniserial from near peristome to ambitus,
beyond which to the apical system they are biserial. Interambulacra wide, with four rows of
primary tubercles at the ambitus, which become reduced to two at the pores. Peristome wide,
about two-fifths the diameter of the test. Periproct large, subpentagonal.

Dimensions. — Diameter 15 to 20 millimeters; height 8 to 20 millimeters.

Description. — This species was first described by Eoemer m 1849 as Diadema texanum, but
subsequently, in 1852, was referred to Cyphosoma.

The test is large, subcircular, and elevated. The sides are inflated and the aboral surface
elevated and convex. The base is depressed and concave.

The ambulacra are broad and lanceolate. They have two rows of primary tubercles, four-
teen or fifteen in each series, that are large at the ambitus and decrease gradually toward the
poles. A circle of scattered granules surrounds the narrow areolas. The poriferous zones are
broad upon the upper surface, but below the ambitus are very much narrowed. The pores are
uniserial below the ambitus except directly at the peristome, where they become greatly in-
creased. From the ambitus to the apical system they are biserial.

The interambulacra are about one and one-half times the width of the ambulacral at the
ambitus. There are four rows of primary tubercles at the ambitus which become reduced to two
m the vicmity of the apical system and peristome. In the center of the column the tubercles of
the four rows are of about equal size, but those of the outer rows become much more rapidly
reduced in size toward the poles. Small secondary tubercles are found on the outer mai^in of the
plates, while uregularly scattered granules cover the space between the tubercles. A slight,
depression occurs along the line of the median suture.

The peristome is circular, but is broken by distinct incisions. Its diameter is about two-
fifths that of the test. The periproct is large and subpentagonal.

The species was incorrectly referred earlier by the author to Diplopodia. A more thorough
study of the much better material now available shows that this form is a Cyphosoma.

Related forms. — The species is verv closely related to if not identical with C. volanum of tiie
Washita group, but is somewhat taller and its four rows of primary tubercles on each interam-
bulacrum are rather more definitely developed even on small specimens. It riso shows a less

CRETACEOUS ECHINODEKMATA. 61

subpentagonal ambital outline. If the difl'ei'ences are more than varietal, then C. texanum must
at all events be regarded as the ancestor of C. volanum.

Localities. — Fredericksburg and in the San Saba River valley (type), Leon S])rings (figured
specimen), near Austin, and many other places iia Texas.

Geologic Jiorizon. — Comanche Peak limestone of Fredericksburg group, Comanche series,
Cretaceous.

Collections. — U. S. National Museum (9S3S); Boston Society of Xatural Historj-; Geologi-
cal Survey of Texas; University of Iowa ; Johns Hopkins Univei-sity.

Ctphosoma volanum Cragin.

Plate XXI, figures 2a-b, 3.

Cyphosoma volanum Cr&gin, 1893, Geol. Survey Texas Fourth Ann. Rept., p. 147.

Cyphosoma volanum Cragin, 1894, Colorado Coll. Studies, vol. 4, pp. 45, 47.

Cyphosoma volanum HiQ., 1901, U. S. Geol. Survey Twenty-first Ann. Rept., pt.-7, p. 283.

Determinative cTiaracters. — Test small, subcircular; upper surface slightly elevated; lower
surface depressed, concave. Ambulacra slightly prominent, with two rows of prmiaiy tubercles ;
poriferous zones sinuous; pores uniserial from peristome nearly to apical sj-stem. Inter-
ambulacra wide, each with two rows of primary tubercles, smiilar to those of ambulacra, adjoin-
ing which are smaller prunary or secondary tubercles. Peristome small. Periproct large.

Dimensions. — Diameter 17.5 millimeters; height 8 millimeters.

Description. — This small species has a subcii-cular test with a sliglitly elevated uj^per surface.
In general size and appearance the smaller specimens resemble Pseudodiadema texanum, but
theii- other characters are very different.

The ambulacra are broad, with two rows of primary tubercles eight or nine in each row.
The tubercles are large at the ambitus but become very small toward the apical system and peri-
stome. The poriferous zones are narrow on the lower surface and at the ambitus, but widen above.
They are smuous. The pores are uniserial, although crowded toward the apical system.

The interambulacra are wide. There are two rows of primary tubercles sunilar to those of
the ambulacra extending from the peristome to the apical system. Additional smaller primary
or secondary tubercles, somewhat irregularly dispersed, adjoin the primary tubercles, while
numerous granules occur on the surface of the plates.

The peristome is small with distinct branchial incisions. The periproct is large and sub-
pentagonal.

Related forms. — Few if any differences serve to separate this form from C. texanum of the
Fredericksburg group. In general it is lower and more depressed, is rather more subpentagonal
in outline, and the four rows of tubercles on its interambulacra are less full}' defined in many
specimens. If more than a variety, it is certaiialy very closely related to C. texanum and de-
scended from it.

Localities. — Below the Missouri, Kansas & Texas Railway bridge on Big Elm Creek, Benton
County (type), and DenLson, Grayson County, Tex.

Geologic Jiorizon. — Denison fonnation of Washita group, Comanche series. Cretaceous.

Collection. — Geological Survey of Texas (A, B).

Genus COPTOSOMA Desor.

CoPTOsoMA spEciosuM Clark.

Plate XIX, figures 3a-li.

Cyphosoma speeiosum Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 70.
Coptosonna speciosum, Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, p. 51.
Coptosoma speciosum Clark, 1893, U. S. Geol. Survey Bull. 97, pp. 52, 53, PI. XVIII, figs. hi-h.
Coplosoma speciosum Johnson, 1905, Acad. Nat. Sci. Philadelphia Proc, vol. 57, p. 0.

Pseudodiadema speciosuvi Weller, 1907, Cretaceous paleontology of New Jersey: Geol. Sur\ey New Jersey, pp. 280-
288, PI. IX, figs. 7-14.

Determinative cTiaracters. — Test circular, inflated at the sitlcs, flattenetl on the upper and
lower surfaces. Ambulacra wide, wth two rows of primary tubercles, twelve or thirteen in

39800°— 15 5

62 MESOZOIC AND CENOZOIC ECHINODEEMATA OF THE UNITED STATES.

each, that gradually diminish in size toward the poles ; poriferous zones sinuous ; pores uniserial.
Interambulacra with two rows of tubercles shghtly larger than those of the ambulacra. Peri-
stome one-third the diameter of the test.

Dimensions. — Diameter 17 millimeters; height 9.5 millimeters.

Description. — This delicate species has a circular test with inflated sides. Both poles are
flattened, the lower more than the upper.

The ambula,cra are wide and prominent, and bear two rows of large tubercles, twelve or
thirteen in each row. The areolas are nearly confluent above and below and are striateil by
irregular radiating ridges. The bosses are deeply crenulated, and the small mamelons are imper-
forate. Minute tubercles and granules irregularly surround the primary tubercles, occurring
in greatest number along the central suture. The poriferous zones are slightly sinuous, the
three pore pairs having a ciu-ved arrangement on each ambulacral plate.

The interambulacra are about one and one-half times as wide as the ambulacra. They
have two rows of primary tubercles that are somewhat larger than those of the ambulacra. The
areolas are very large and are confluent above and below. Throughout the greater part of the
column the two rows approach each other, but toward the apical system they are widely sepa-
rated from one another. The smaller tubercles are disposed in rows, with greater or less regu-
larity, on either side of the primary series.

Th'i peristome is narrow, occupying a little more than one-third of the diameter of the test.
It has an irregular pentagonal outline. The discal opening is large and pentagonal in form.

Related forms. — This form is apparently closely related to C. mortoni, but is more elevated
and does not exhibit granules between the pores.

Locality. — Timber Creek, N. J.

Geologic horizon. — Vincentown sand of Rancocas group. Upper Cretaceous.

Collection. — Academy of Natural Sciences of Philadelphia (1468).

CoPTOSOMA MOKTONi (De Loriol).

Plate XXII, figures la-e.

Cyphosoma mortoni De Loriol, 1887, Recueil zool. Suisse, vol. 4, No. 3, pp. 389-391, PI. XVII, figs. 2a-c.
Coptosoma mortoni Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, pp. 51, 52, PI. XVII, figs! la-e.

Determinative characters. — Test circular, depressed. Ambiflacra very wide, with two rows
of primary tubercles, thirteen in each row, the three or four at the ambitus large and nearly con-
fluent, but diminishing rapidly in size toward either pole; poriferous zones narrow, sinuous;
pores uniserial, those of each pair separated by a granule. Interambulacra with two rows of
tubercles, nine or ten in each row. Peristome very large.

Dimensions. — Diameter 12-15 millimeters; height about 6 miUmieters.

Description. — The writer has been unable to obtain a specimen of this species, but the very
full description and excellent figm-es given by De Loriol admit of its satisfactory identification.
The description that follows is largely a translation of that given by De Loriol. The two speci-
mens in the possession of De Loriol were so deformed that he could not determine the height
accurately. The test is circular and depressed. The ambulacra are relatively very wide,
almost as large as the interambulacra, and bear two rows of large tubercles, thirteen in each row.
The fii'st four or five tubercles from the apical system are far apart and very small. At the
ambitus three or four of the tubercles are very large, with nearly confluent areolas, but rapidly
diminish in size toward the lower surface, the last foiu" or five being very small and with diffi-
culty distinguished. The areolas, except at the ambitus, are not large. The bosses are finely
crenulated and the mamelons small and imperforate. Upon the lower surface there are large
mammillated granules which can be with difficulty distinguished from the primary tubercles.
Each areola is also partially surrounded by a circle of small granules that occiu* most numer-
ously near the line of the central sutm-e. The granules are few in number on the upper surface.
The poriferous zones are narrow, slightly sinuous, and composed of small pores without any
increase between the apical system or peristome. A small granule is found between the jjores
of each pair.

CRETACEOUS ECHINODEEMATA. 63

Tlie interambulacra bear two rows of primary tubercles that are similar to those of the ambu-
lacra, but larger and loss numerous. The lower surface is covered by large mammillated granules
that can scarcely be distinguished from the tubercles, and also by numerous small ones. There
are few granules on the upper surface. The peristome is large, with slight incisions.

Belated forms. — The species is most closely related to C. speciosum, but in form and in
several details of structure is unlike it. The presence of granules between the pores of the
present species is apparently marked.

Locality. — Wahalak, Kemper County, Miss.

Geologic honzon. — Selma chalk. Upper Cretaceous.

Collection. — P. de Loriol, S'vx'itzorland.

Genus MICBOPSIS Cotteau.
MicROPSis LiNEATUs Clark, n. sp.
Plate XXV, figures la-c.

Determinative cJiaracters. — Test metlium size, slightly polygonal in ambital outline, tumid
above, subhemispherical, slightly concave below. Apical system wanting. Ambulacra with
compound plates covered with two rows of primary tubercles perforate and crenulate. Inter-
ambulacra with six rows of primary tubercles, which rapidly decline in size above the ambitus.
Peristome small.

Dimensions. — Diameter 25.25 millimeters; height 12 millimeters.

Description. — The test is of mediimi size and slightly polygonal in ambital outline, with
tumid upper sm-face. It is subhemispherical and slightly concave on the lower surface.

The ambulacra are narrow and covered with two vertical rows of perforate and crenulate
primary tubercles. The poriferous zones are not sharply defined. The plates are compound,
with a low primary adorally.

The interambulacra have sbc rows of primary tubercles which decline rapidly in size above
the ambitus.

The peristome is small and with slight branchial incisions.

Locality. — Cut on Bonham road, southeast edge of Denison, Tex.

Geologic horizon. — Grayson marl member of the Denison formation, of Washita group,
Comanche series. Cretaceous.

Collection. — U. S. National Museum (31198).

Suborder ECHININA.
Family TRIPLECHINID.E.

Genus PSAMMECHINTJS Agassiz.

PSAMMECHINUS CINGULATUS Clark.

Plate XXII, figm-es 2a-i.

Psammcchinus cingulatus Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 76.
Psammechinus cingidatus Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 51.
Psammcchinus cingulatus Clark, 1893, U. S. Geol. Survey Bull. 97, p. 55, PI. XX, figs. la-i.
Psammechinus cingulatus Johnson, 1905, Acad. Nat. Sci. Pluladelphia Proc, vol. 57, p. 6.

Psammechinus cingulatus Waller, 1907, Cretaceous paleontology of New Jersey: Geol. Survey New Jersey, pp.
288-289, PI. X, figs. 1-9.

Determinative characters. — -Test small, hemispherical, with circular outhne; sides mflated;
upper surface elevated; base flattened and concave. Ambulacra wide, with two rows of
primary tubercles, sixteen or seventeen in each series; poriferous zones depressed, triserial.
Interambulacra about one and one-half times the width of the ambulacra; plates covered with
numerous uncrenulatc and imperforate tubercles. Peristome large, with ten deep incisions.

Dimensions. — -Diameter 22 millimeters; height 12.5 millimeters.

Description. — This delicate form, of which two very imperfect specimens were examined by
the writer, is hemispherical in shape, Avith circular circumference, inflated sides, elevated upper

64 MESOZOIC AND CENOZOIC ECHINODEKMATA OF THE UNITED STATES.

surface, and flattened base. In the vicinity of the mouth opening the lower surface is depressed,
producing a shght concavity.

The ambulacra are wide and composed of eighteen to twenty plates. The lower sixteen or
seventeen of each series bear prominent tubercles that occur in a continuous line to the peristome.
On cither side of the primary tubercles are smaller ones of like shape. The three pore pairs are
arranged in semicircular form, the two upper separated from the lower by one of the secondary
tubercles.

The interambulacra are about one and one-half times as wide as the ambulac]-a and the
plates are about fifteen in number. Each plate bears a large tubercle in the center, and irregu-
larly arranged about it smaller tubercles of various sizes.

The peristome is large, with 10 deep incisions. The apical system is lacking, but the discal
opening is large and pentagonal in form.

Related forms. — This unique species is quite unlike any hitherto described, and is readily
characterized by the arrangement of the tubercles and pore pairs. As the only representative
of the genus in American Cretaceous deposits it has especial interest.

Locality. — 'Timber Creek, N. J.

Geologic Tiorizon. — -Vincentown sand of Kancocas group, Upper Cretaceous.

Collection. — ^Academy of Natural Sciences of Philadelphia (1467).

Genus PEDINOPSIS Cotteau.
Pedinopsis symmetrica (Cragin).

Plate XXIII, figures la-h.

Dimblea symmetrica Cragin, 1893, Geol. Survey Texas Fourth Ann. Rept., p. 150, PL XXXIV, fig. 12, PI. XXV, figs.
4-7; PL XXVII, fig. 1.

Determinative characters. — Test medium size, subcorneal, mflated on the aboral surface, con-
cave on the adoral surface, sides tumid. Ambulacra with several vertical rows of primary per-
forate tubercles, poriferous zones broad, pore pairs biserial. Interambulacra broad and low
with many rows of primary tubercles similar to those of the ambulacra. Apical system small,
madreporite large, posterior right-hand ocular reaches the periproct. Peristome small.

Dimensions. — -Diameter 15 to 45 millimeters; height 12 to 3.3 millimeters.

Description. — The species referred by Cragin to a new geiaus which he named Dumblea is
evidently a representative of the genus Pedinopsis. A specimen referred to J. W. Gregory of
Glasgow was pronounced by him to be a typical Pedinopsis.

The test is of medium size, tumid, subcorneal, flattened and concave on the lower surface.
Tire circular ambital outline is somewhat broken by the sutures between the ambulacra and
interambulacra producing an imperfectly defined 15-lobed appearance.

The ambulacra are rather broad with well-defined poriferous zones. They are covered with
two rows of primary tubercles in the smaller and four in the larger specimens. These tubercles
are perforate and apparently plain or uncrenulate, although the state of preservation makes it
uncertain as to whether delicate crenulation may not have existed.

The interambulacra are broad and low with many vertical rows of primary tubercles similar
to those of the ambulacra. They diminish in number aborally.

The ajjical system is small, the madreporite being large and encroaching on the adjacent
genitals. The posterior right-hand ocular reaches the periproct.

The peristome is small with well-marked branchial incisions. Tlie periproct is oval.

iocaHfies.— Sierra Blanca peaks (type) and near Kent, El Paso County, Tex.

Geologic Aonzon.— Washita group of the Comanche series. Cretaceous.
Collections. — Geological Survey of Texas; U. S. National Museum.

CBETACEOUS ECHINODEEMATA. 65

Pedinopsis pondi Clark.
Plate XXIV, figures la-d.

Pedinopsis pondi Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 51.

Pedinopsis pondi Clark, 1893, U. S. Geol. Survey Bull. 97, p. 57, PI. XXI, figs, la-b; PL XXII, figs. la-c.

Determinative characters. — Test large, circular, inflated at the sides, convex on the upper
surface. Ambulacra with six rows of tubercles at the ambitus, the two marginal rows con\plete
and the four inner incomplete; poriferous zones broad, biserial. Interambulacra \vith 20
rows of tubercles at the ambitus, which become reduced to four at the margin of the peristome ;
tubercles small, equal, crenulate, and perforate. Peristome small, with distinct incisions.

Dimensions. — Diameter 88 millimeters; height 58 millimeters.

Description. — The very large specimen on which this species is estabhshed has portions of
the test in a very perfect state of preservation. The test is large, circular, inflated at the sides,
and convex on the upper surface. The lower surface is flattened, with a shglit concavity in
the region of the peristome.

The ambulacra are wide, and have at the ambitus six rows of tubercles, the two marginal
rows alone continuing from the discal opening to the peristome. The four inner rows are incom-
plete, but of equal size wath the outer. The tubercles are finely crenulated and perforated. The
poriferous zones ai-e broad and biserial, except on the lower surface, where the pore pairs become
crowded together. Near the peristome they again broaden out and become greatly increased
in number at the margin. The pores are small and round.

The interambulacra are broad and have twenty rows of tubercles at the ambitus, which
become reduced to four at the peristome. The tubercles are of equal size with those of the
ambulacra. Small mammillated granules are found scattered over both the ambulacral and
interambulacral plates, together with a fine granulation covering the entire surface.

The peristome measures about seven-eighths of an inch in diameter. It has 10 distinct
incisions in the interambulacra. The discal opening is partly outlined but is very indistinct.

This species is named for Edwin J. Pond, of the United States Coast and Geodetic Survey,.
by whom the specimen described by the writer was discovered.

Locality. — The south bank of Onion Creek, about one-fourth mile southwest of the crossing;
of the Austin and San Antonio wagon road, Travis County, Tex.

Geologic horizon. — Austin chalk, Upper Cretaceous.

Collection. — Johns Hopkins University (T .3008). , '

Subclass IRREGLTI.ARIA.

Order GNATHOSTOMATA,

Suborder HOLECTYPINA.

Family PYGASTERID.E.

Genus HOLECTYPXTS Desor.
HoLECTYPUs PLANATUS Roemer.

Plate XXV, figures 2a-f, 3a-c, 4, Plate XXVI, figures la-e.

Holcctypns planatns Roemer, 1849, Texas, p. 393.

Holrehipus planaius Roemer, 1852, Die Kreideliildungen von Texas, p. 84, PI. X, fig. 2.

Holcctypns planatus Shuniard, 1852, Exploration Red River of Louisiana Rept., p. 211.

Holectypus planatus Giebel, 1853, Naturwiss. Ver. in Halle Jahresb., p. 373.

Ilolectypus planus Giebel, 1853, idem.

Holcctypua planatus Conrad, 1857, U. S. and Mex. Boundary Survey Rept.. vol. 1, pt. 2, p. 145, PL I, fig. 4.

Ilolectypus planatus Desor, 1858, Synopsis des echinides fossiles, p. 174.

Holectypus planatus Gabb, 18.59, Cat. Invert. Fossils Cretaceous, p. 18.

Holectypus planatus 'Mee^^i, 1864, Smithsonian Misc. Coll., vol. 7 (177), p. 2.

66 MESOZOIC AN^D CENOZOIC ECHINODEEMATA OF THE UNITED STATES.

Holectypiis sp. Roemer. 1888, Pal. Abhandl. von Dames und Kayser, vol. 4, pt. 4, p. 9 (287), PI. I (XXXI), figa. 6a-c.

Eolcctijpus planatus Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 76.

Solectypiis pla7mtus Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 10.3, p. 51.

Holcctypus planatus Clark, 189.3, U. S. Geol. Survey Bull. 97, pp. 58, 59, PI. XXII, figs. 2a-f.

Eolecfypus charltoni Cragin, 1893, Geol. Survey Texas Fourth Ann. Rept., p. 158, PI. XXIV, figs 8, 9.

Holcctypus planatus Cragin, 1893, Geol. Survey Texas Fourth Ann. Rept., pp. 159, IGO.

Holcctypus trans pecosensis Cragin, 1893, Geol. Survey Texas Fourth Ann. Rept., p. 160, PI. XXVII, figs. 3-5.

Holcctypus charltoni Cragin, 1894, Colorado Coll. Studies, vol. 5, p. 41.

Holcctypus planatus Hill, 1901, U. S. Geol. Survey Twenty-first Ann. Rept., pt. 7, p. 226.

Determinative characters. — Test subcircular, subconical, flattened oa the under surface.
Ambulacra narrow, straight, and somewhat lanceolate, with six irregular rows of tubercles;
poriferous zones somewhat straight, narrow, unigeminal. Interambulacra wide, plates mrnier-
ous .and narrow, each ^vith a nearly horizontal row of small tubercles, .^.pical system, small, the
madreporite large. Peristome small, subcircular. Periproct large.

Dimensions. — Transverse diameter 12-70 millimeters; lieight 7-40 millimeters.

DescriiAion. — This very common form from the Cretaceous of Texas was first reported by
Roemer in 1849, and was subsequently, in 1852, more accurately defined and figured by him.
Although wide differences in outline and in the size and arrangements of the tubercles occur,
they appear to be rather individual than specific. The majority of the specimens are subcir-
cular; in the case of some, however, distinctly circular, while in that of others clearly pentagonal.
The ambitus in some individuals is sharp, in others rounded, while the upper surface is dis-
tinctly elevated at the center with slightly tumid sides. The under surface is flat and slightly
depressed in the vicinity of the peristome.

The ambulacra are narrow, straight, increasing in width toward the ambitus and somewhat
lanceolate in form. The poriferous zones are narrow, the pores small and unigeminal. Six
rows of small tubercles are found in the broader portion of the areas, wliich become reduced to
four toward the apical disk and peristome.

The interambulacra are about three times the width of the ambulacra at the ambitus. Tlie
plates are narrow, each with a horizontal row of small tubercles, five or six in a row at the am-
bitus but fewer above and below. Each tubercle has a smaU circular areola, crenulated boss,
a,nd perforated mamelon. The tubercles cover the greater portion of the plates, with minute
granules interspersed between them. The tubercles are very much larger on the lower surface,
and the difference in size shown between those of the ambulacra and interambulacra on the
upper surface disappears. .

The apical system is small. The five ovarial plates are all perforated ; the madreporite is
of large size and indistinctly separated from the other plates.

The peristome is smaU, with slight incisions that give a decagonal margin. The large oval
peristome extends from the vicinity of the mouth to the ambitus.

Related forms. — The size of the adult forms is very variable, those found in the Wasliita
group being larger than those found in the Trinity and Fredericksburg group. The individuals
also vary in height. So many connecting forms can be found between the typical H. planatus
and the species described as H. cJiarltoni and H. trans pecosensis by Cragin that they have been
regarded as synonyms.

Localities. — Near Fredericksburg (type), Cow Creek, Travis County (figured specimens A
and B) ; Denton County (figured specimen C) ; Shoal Creek, Austin (figured specimen D) ; San
Antonio, Kent, and many other localities in Texas.

Geologic horizon. — Trinity, Fredericksburg, and Washita groups of the Comanche series,
Cretaceous.

Collections. ^JJ. S. National Museum (122.36); Academy of Natural Sciences of Phila-
delphia; Boston Society of Natural History; Geological Survey of Texas; Johns Hopkins
University (T 3008).

CEETACEOUS ECHINODEKMATA. 67

Suborder CLYPEASTRINA.
Family CLYPEASTRID^.

Genus ECHINANTHUS Leske.

ECHINANTHUS MORTONIS (Micheliii).

Pygorhynchus mortonis Miclielin, 1850, Rev. et mag. zoologie, vol. 2, p. 240.
Hardouinia mortoni D'Archiac and Haime, 1853, Foss. numm. de I'lnde, p. 214.
Echinanthus mortonis Desor, 1858, Synopsis des ^cliinides fossils, p. 295.
Echinanthus mortonis Dujardin and Hup6, 1862, Hist. nat. zoophytes ecliin., p. 584.
EcMnanthus mortonis Coiu-ad, 18C5, Acad. Nat. Sci. Philadelphia Proc, p. 75.
Echinanthus mortonis Conrad, 1866, Check list, p. 22.
Echinanthus mortonis Quenstedt, 1872-1875, Petrefac. Deutsch., p. 692.

Description. — The author has been unable to examine a specimen of this species. Desor
gives the following description:

Espfece remarquable entre tons les Echinanthus par sa forme elevee, conique, a peu prfes aussi large que longue,
rappelant un peu les Pygurus par sa physionomie. Sommet ambulacraire l^gferement excentrique. Petales larges,
pointus a leur extremity, depassant un peu la moitie de la distance entre le sommet et le bord. P^riprocte grand,
situ6 h mi-distance du sommet, a I'origine d'un large et profond sillon. Dessous concave. Peristome a peu prfes
central, petit, entour6 d'un floscelle trfes accuse.

D'Archiac and Haime proposed to make of this species the type of a new genus which they
called Hardouinia. Notwithstanding the fact that the floscelle is somewhat more pronounced
than in any of the other species Desor and others who examined the form considered that the
characters were not sufficiently pronounced to justify a generic separation from Echinanthus.

Locality. — Pontotoc, Miss.

Geologic horizon. — Ripley formation, Upper Cretaceous. The reference of this form to the
Tertiary by earlier authors is evidently incorrect.

Collection. — Unknown. Desor mentions its presence in the collection of Verneuil.

Genus SCUTE LL ASTER (?) Cragin.
? ScuTELLASTER CRETACEus Cragin.
Scutellaster cretaceus Cragin, 1895, Am. Geologist, vol. 15, pp. 90, 91.

Description. — The specimen on which this genus and species are based is so imperfect that
it seems better to defer the acceptance of both until more diagnostic material is obtained.
Cragin in a letter to the author says: "I fear it [Scutellaster] is not' after all a new genus as
I supposed when I described it as such."

Locality. — East slope of Shooks Run, Piatt Avenue, Colorado Springs, Colo.

Geologic horizon. — ^Arenaceous shale of Fox Hills sandstone of Montana group, Upper
Cretaceous.

Collection. — Colorado College.

Order ATELOSTOMATA.

Suborder ASTERNATA.

Family ECHINONEID.E.

Genus PYRINA Desnioulins emend. De Loriol.
Pyrina parryi Hall.

Plate XXVII, figures la-j.

Pyrina parryi Hall, 1857, U. S. and Mex. Boundary Survey Rept., vol. 1, pt. 2, p. 144, PI. I, figs. 1-ld.
Pyrina parryi Gahh, 1859, Catalogue Invertebrate Fossils Cretaceous, p. 19.
Pyrina parryi Meek, 1864, Smithsonian Misc. Coll., vol. 7 (177), p. 2.
Pyrina parryi Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 76.

68 MESOZOIC AND CENOZOIC ECHIXODEEMATA OF THE UJTITED STATES.

Pyrina parryi Aguilera, 1893, Datos para la geologfa de Mexico, p. 26.
Pyrina parryi Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 51.
Pyrina parryi Clark, 1893, U. S. Geol. Survey Bull. 97, pp. 59, 60.
Pyrina bulloides Cragin, 1893, Geol. Survey Texas Fourth Ann. Rept., p. 162.
Pyrina parryi Aguilera, 1897, Inst. geol. Mexico Bol. Nos. 4, 5, 6, p. 215.
Pyrina parryi Bos^, 1899, Inst. geol. Mexico Bol. No. 13, p. 11.

Determinative characters. — Test subpent agonal, broader anteriorly than posterioriy, inflated
at the sides, flattened above and below. Ambulacra narrow, imiserial ; both areas covered with
minute tubercles.

Peristome large, elliptical, oblique. Periproct oval, supramarginal.

Dimensions. — Length 20 to 35 millimeters; width 18 to 30 millimeters; height 12 to 25
millimeters.

Description. — The test is regular and symmetrical, slightly pentagonal in outline, enlarged
anteriorally, contracted posteriorly. • The upper surface is convex, although somewhat flatteiaed
at the summit. The sides are inflated, the base flattened and slightly depressed in the vicinity
of the peristome.

Tlie ambulacra are narrow and lanceolate; the poriferous zones straight and depressed,
the pores small, oval, and uniserial. The interambulacra are broad and less elevated than the
ambulacra. Both the ambulacra and the interambulacra support numerous small tubercles
that are larger and more distinct on the lower than the upper surface. Fine microscopic gran-
ules are disseminated between the tubercles.

The peristome is large, elliptical, and obliquely situated slightly in front of the center of the
base. The periproct is oval and placed nearly in the center of the posterior margin. The apical
system is small, composed of four genital plates, the large right antero-lateral modified to form
the madreporite. The five small ocular plates are firmly wedged between the ovarial plates.

Related forms. — The species just described is the only representative of this genus from
American strata and both in form and structm-al features admits of a ready separation from all
European species. It presents some points of similarity with Pyrina desmoulinsii D'Archiac,
but is broader posteriorly and less elevated. The many specimens of this common species which
have come under the observation of the author show considerable variation, but are all regarded
as representing a single species.

Localities. — Leon Springs (type), near San Antonio, Pilot Knob (Travis County), Kent,
Sierra Blanca peaks, and many other localities in Texas.

Geologic horizon. — Fredericksburg and Washita groups, Comanche series, Cretaceous.

Collections. — U. S. National Museum (9854) ; Johns Hopkins University.

Family NUCLEOLITID.E.

Genus BOTBIOPyGUS D'Orbigny.

BOTRIOPYGUS ALABAMENSIS Clark.

Plate XXIV, figures 2a-f.

Botriopygus alahamcnsis Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 76.
Botriopygus alabamensis Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 51.
Botriopygus alabamensis Clark, 1893, U. S. Geol. Sm-vey Bull. 97, pp. 60, 61, PI. XXV, figs. la-f.

Determinative characters.— Test oblong; more or less depressed on upper surface, highest
anteriorly; under surface concave. Ambulacra broad, lanceolate; poriferous zones subpetaloi-
lal above. Interambulacral plates covered Math numerous, irregularly distributed tubercles,
i.nical system anteriorly situated. Peristome small, oblique, forward of the center.

Dimensions.— L,engih 63 millimeters; width 54 millimeters; height 26 millimeters.

Description. — The single imperfectly preserved specimen of this species, although apparently
lacking some of the characteristics of Botriopygus, is nevertheless referred to that genus. The
test is oblong, considerably depressed on the upper surface, and concave on the base. The apex

CRETACEOUS ECHINODEKMATA. 69

of the Upper surface is forward of tlie center, making the anterior margin full, the posterior
flattened.

The ambuLacra are broad and lanceolate. They contract appreciably just above the ambi-
tus, giving to the poriferous zones a subpetaloidal form. The pores of the subpetaloidal portions
are large and oval, those of the outer rows more elongated than those of the inner ancl acumi-
nated on their inner margins. The pores of each pair are united by a furrow. The inner por-
tions of the ambulacra] plates are covered with tubercles, which in the broadest portion of the
subpetaloidal areas reach five or six in number. Below the subpetaloidal areas the pores recede
from the outer margin of the plates. Those of each pair are close together, small, and nearly
round, and the plates also become broader.

The interambulacral plates are large and covered with numerous, irregularly arranged tuber-
cles. A microscopic granulation covers the intertubercular space.

The position of the apical system is forward of the center of the upper surface, although none
of the plates are preserved on the specimen examined. The peristome is small and oblicpiely
placed slightly in front of the center of the base.

Belated forms. — Under the name of B. elevatus Gabb describes a species from Peru that is not
unlike B. alabamensis in many particulars. B. alabamensis, however, is larger, less rounded ante-
riorly, and has a more depressed posterior margin.

Locality. — Alabama.

Geologic Tiorizon. — Ripley formation, Upper Cretaceous.

Collection. — Academy of Natural Sciences of Philadelphia.

Genus ECHINOBRISSUS Breyn.

EcHiNOBRissus ANGUSTATUs Clark, n. sp.

Plate XXVII, figures 2a-c.

Determinative character s.— Test small, subovate, rounded anteriorly, subquadrate poste-
riorly; upper surface elevated; apex forward of the center; base concave. Ambulacra lanceo-
late. Peristome small, excentric ; periproct small in broad shallow sulcus, placed well posteri-
orly.

Dimensions. — Length 15.5 millimeters; width 14 millimeters; height 8.5 millimeters.

Description.— This small form is subovate in ambital outline, is rounded anteriorly and
truncated posteriorly, giving a subquadrate effect. The upper surface is elevated and the lower
concave.

The ambulacra are very indistinct on the type. The apical system is forward of the center
but the individual plates are indistinguishable. The peristome is small, deeply depressed and
excentric in front. The periproct is small in a broad shallow sulcus and placed well posteriorly.

Locality. — Shoal Creek, Tex.

Geologic Tiorizon. — Buda (Shoal Creek) limestone of Washita group, Comanche series, Cre-
taceous.

Collection. — Johns Hopkins University (T 3009).

ECHINOBRISSUS EXPANSUS Clai'k.

Plate XXVIII, figures la-g.

Echinobrissus expansus Clark, 1891, Johns Hopkins Univ. Circ, vol.10, No. 87, p. 76.
Echinobrissiis expansus Clark, 1893. Johns Hopkins Univ. Circ, vol 12, No. 103, p. 52.
Echinobrissus rxpansiis Clark, ISnS, U. S. Geol. Survey Bull. 97, pp. 61, 62, PI. XXVI, figs. la-g.
Echinobrissus fx.pansiis Johnson, 190.5, Acad. Nat. Sci. Philadelphia Proc. vol. 57, p. 6.

Determinative characters. — Test subquadrate, broader posteriorly, moderately convex on
upper surface, concave on the base. Ambulacra narrowly lanceolate. Periproct large, supra-
marginal; anal sulcus broad, deep, extending from near the apex to the ambitus. Peristome
large, situated in front of the middle of the base.

70 MESOZOIC AND CEXOZOIC ECHINODERMATA OF THE UNITED STATES.

Dimensions. — Lengtli 27 millimeters; width 27 millimeters; height 12 millimeters.

Description. — This typical Echinobrissus is of a moderate size, somewhat depressed above,
and subquadrate in marginal outline. The posterior portion is broader than the anterior and
distinctly lobed. The base is concave.

The ambulacral areas are narrowly lanceolate, and on the upper surface tlie poriferous zones
are subpetaloidal. The inner rows of pores are round, the outer oval, with acuminated inner
margins and obliquely placed. The interambulacral areas are formed of broad plates that bear
numerous small peiforated and mammillated tubercles. A microscopic granulation covei-s the
miliary space.

The apical system is small and compact and the perforations of the genital plates distinct.

The peristome is large, excentric, situated at some distance in front of the center of the base.
The periproct is large, acuminated on the upper margin, and placed in a broad, deep anal sulcus
that extends from near the apical system to the posterior margin.

Related forms. — Ediinohrissus expansus has few points that would closely ally it with any
species of this genus hitherto described.

Locality. — Alabama or Mississippi.

Geologic horizon. — Ripley formation. Upper Cretaceous.

Collection. — Academy of Natural Sciences of Philadelphia (1465).

Echinobrissus texanus Clark.

Plate XXVIII, figures 2a-f.

Echinobrissus t£xa/ius Clark, 1891, Johns Hopkins Univ. Circ, vol 10, No. 87, p. 76.
Echinobrissus texanus Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 52.
Echinobrissus texanus Clark, 1893, U. S. Geol. Sur\'ey Bull. 97, pp. 62, 63, PI. XXVI, figs. 2a-f.
Echinohrissvs teaxams Cragin, 1893, Geol. Survey Texas Fourth Ann. Rept., p. 150.

Determinative characters. — Test ovate, rounded anteriorly, subquadrate posteriorly; upper
surface convex, apex foi-ward of the center; base concave. Ambulacra lanceolate, subpetaloidal.
Apical system forward of the center. Peristome small, excentric. Periproct small, oval, in
narrow sulcus that begins some distance below the apical disk.

Dimensions. — Length 18.75 millimeters; \vidth 16.5 millimeters; height 9.5 millimeters.

Description. — The single specimen of this species is somewhat damaged on the sides, so that
the ambital outline is not complete. It is ovate in form, broader posteriorly and subquadrate.
The upper surface is convex, but more or less compressed. The lower surface is concave.

The ambulacra are narrowly lanceolate. The poriferous zones for a short distance from the
apical system are subpetaloidal in form. The posterior ambulacra are much longer than the
others, the impaired ambulacrum being the shortest. The pores of each plate are oval and set
at an angle to one another.

The interambulacral plates are large and covered vnih irreguarly arranged tubercles.
Between the tubercles a microscopic granulation covers the siuiace.

The apical system is small and situated forward of the apex. The individual plates can not
be fully distinguished on the specimen examined. The peristome is apparently small, though
somewhat obscured. It is situated forward of the center of the base.

The periproct is small, placed in a narrow sulcus that begins some distance posterior to the
apical system.

Related forms. — Echinobrissus texanus is readity separated from E. expansus bj^ its ovate
form and the shape and size of the anal sulcus. It is milike any Em-opean species.

Locality. — South bank of Colorado River, Austin, Tex.

Geologic horizon. — Austin chalk, Upper Cretaceous.

Collection. —U . S. National Museum (20266).

CRETACEOUS ECHINODEEMATA. 71

Genus TREMATOPYGUS D'Orbigny.
Trematopygus crucifeeus (Morton).
Plate XXVIII, figures 3a-c; Plate XXIX, figures la-f.

Ananchytes cniciferus Morton, 1830, Am. Jour. Sci., Istser., vol. IS, p. 24.5, PI. Ill, fig. 8.

Ananchijlcs cruciferus Morton, 1830, Acad. Nat. Sci. Philadelphia Jour., Istser., vol. 6, pp. 201, 202.

NudeoUles crucifcr Morton, 1833, Am. Jour. Sci., Istser., vol. 23, p. 294.

NudeoJites crucifcr Morton, 1834, Synopsis .Organic Remains Cretaceous, p. 75, PI. Ill, fig. 1-5. •

NudeoUtes crucifcrus Agassiz, 1840, Catalogus systematicus, p. 4.

Nuculites crucifcrus Agassiz and Dosor, 1847, Catalogue raisonne, p. 97.

Nuculites crucifcr Bronn, 1848, Index paliseontologicus, vol. 1, p. 818.

NudeoUles crucifcrus D'Orbigny, 18.50, Prodrome, vol. 2, p. 271, 6tage 22, No. 1197.

Pygorhynchus crucifcr Ravenel, 1850, Am. Assoc. Adv. Sci. Proc, p. 160.

Trematopygus crucifcr D 'Orbigny, 18.53-60, Pali^ontologie franfaise, vol. 6, p. 387, PI. CMLIII, figs. 10, 11; PI. CMLXIII,

figs. 1-5.
Echinohrissus crucifcr D'Orhigny, 1854, Rev. et mag. zoologie, ser. 2, vol. 6, p. 25.
NudeoUtes crucifcr Desor, 1858, Synopsis des echinides fossiles, p. 262.
NucuUtes crucifcr Gabb, 1859, Cat. Invert. Fossils Cretaceous, p. 19.
NucuUtes crucifcr Meek, 1864, Smithsonian Misc. Coll., vol. 7 (177), p. 2.
NucuUtes crucifcr Cook, 1808, Geology of New Jersey, p. 377.
NucuUtes crucifcr Conrad, 1868, Geology of New Jersey, App. A, p. 722.
NucuUtes crucifcrus Credner, 1870, Deutsche geol. Gesell. Zeitschr., vol. 22, p. 217.
Trematopygus crucifer Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 76.
Trematopygus crucifer Clark, 1893, Jolin.i Hopkins Univ. Circ, vol. 12, No. 103, p. 52.
Trematopygus crucifcr Clark, 1893, U. S. Geol. Survey Bull. 97, pp. 63, 64, PI. XXVII, figs. la-i.
Trematopygus crucifer Johnson , 1905, Acad. Nat. Sci. Philadelphia Proc, vol. 57, p. 7.
Trematopygus crucifcrus Weller, 1907, Cretaceous paleontology of New Jersey: Geol. Survey New Jersey, pp. 289-290,

PI. XI, figs. 1-9.

Determinative characters. — Test ovate, inflated at the sides and base and slightly con-
tracted anteriorly. Ambulacra long, well defined; pores uniserial, prominent on the upper sur-
face, indistinct on tlie base. Apical system situated anteriorly. Peristome large and oblique.
Periproct large, oval, supramarginal.

Dimensions. — Length 18 to 20 millimeters; breadth 15 to 22 millimeters; height 10 to 14
millimeters.

Description. — ^This species is not uncommon at Timber Creek, N. J., where many very perfect
specimens have been obtained. Its outline is ovate and very regular, lacking at the ambitus or
apex any sharply defined angularity. The sides are highly inflated together with the outer
portion of the base.

Tlie ambulacra are long, lanceolate, and unequal; the posterior pair are the longest, the
mipaired anterior one is the shortest. They do not produce any irregularity in the outline of
the test beyond inconsiderable depressions in the immediate vicinity of the peristome. The
poriferous zones are clearly marked on the upper surface, and the pore pairs are nearly horizontal,
but toward the ambitus the pores become smaller, those of each jjair nearer together, and the
pairs obliquely situated at the lower, outer corner of each plate; near the peristome they again
become larger and slightly increased in number.

The interambulacra are wide and composed of large plates that are bent in the middle.
The surface is covered with irregular rows of tubercles that are perforated and mammillated.
The miliary space is covered with numerous minute and irregularly distributed granules.

The apical system is small and anteriorly situated; the toui' genital plates are distinctly
perforated ; those of the anterior pair are much nearer together than those of the jJosterior.

The peristome is large, oblique, and placed somewhat forward of the center of the base.
The periproct is large, oval, and acuminate at the upper extremity. It is situated in an anal
sulcus that makes a marked indentation in the posterior margin, and is bordered by two well-
detmed ridges.

Related forms. — Trematopygus cruciferus (Morton) is a unique species that has no closely
allied forms in either American or European deposits.

72 MESOZOIC AND CENOZOIC ECHINODEKMATA OF THE ' UNITED STATES.

Locality. — The yellow limestone of Timber Creek and Vincentown (type), N. J.
Geologic horizon. — Vincentown sand of Rancocas group, Upper Cretaceous.
Collections. — American Museum of Natural History, New York; Academy of Natural
Sciences of Philadelphia (1464); Johns Hopkins University.

Family CASSIDULID^.

Genus PYGTJBUS Agassiz.

?Pygukus geometricus (Morton).

Clypeaster sp. Morton, 1830, Acad. Nat. Sci. Philadelphia Jour., 1st ser., vol. 6, p. 202.

Clijpraskr geometricus Morton, 1833, Am. Jour. Sci., 1st ser., vol. 24, p. 131, PI. X.

Clypeaster geometricus Morton, 1834, Synopsis Organic Remains Cretaceous, p. 7fi, PI. X, fig. 10.

Pygurus geometricus Agassiz and Desor, 1847, Catalogue raisonn^, p. 141.

Clypeaster geometricus Bronn, 1848, Index palseontologicus, vol. 1, p. 312.

Pygurus geometricus D'Orbigny, 1850, Prodrome, vol. 2, p. 270.

Pygurus geometricus D'Orbigny, 1853-60, Paleontologie fran^aise, vol. 6, p. 313, PI. CMXX, fig. 4.

Pygurus geometricus Desor, 1858, Synopsis des echinides fossiles, p. 313.

Clypeaster geometricus Gabb, 1859, Catalogue Invertebrate Fossils Cretaceous, p. 18.

Pygurus (?) geometricus Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 77.

Pygurus (?) geometricus Clark, 1893, U. S. Geol. Survey Bull. 97, pp. 92, 93.

Pygurus (?) geometricus Johnson, 1905, Acad. Nat. Sci. Pliiladelphia Proc, vol. 57, p. 7.

The type of this species was examined b}^ the writer, but its state of preservation (that of a
poor cast) is such that its generic relations can not be with certainty determined. Until further
material is obtained it seems best to defer its recognition. Although originally described by
Morton as a Clypeaster, it has been referred to the genus Pygurus by Agassiz, D'Orbigny, and
Desor.

Locality. — Delaware and Chesapeake Canal, Delaware.

Geologic horizon. — Matawan formation, Upper Cretaceous.

Collection. — ^Academy of Natural Sciences of Philadelphia.

Genus CATOPYGUS Agassiz.

Catopygus oviformis Conrad.

Plate XXIX, figures 2a-l".

Catopygus oviformis Conrad, 1847, Acad. Nat. Sci. Philadelphia Jour., 2d ser., vol. 2, p. 39, PL I, fig. 9.
Nuelcolites oviformis (Catopj'gus) Conrad, 1868, Geology of New Jersey, App. k, p. 722.
Catopygus oviformis Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 70.
Catopygus oviformis Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 52.
Catopygus oviformis Clark, 1893, U. S. Geol. Survey Bull. 97, pp. 64, 65, PI. XXVII, figs. 2a-f.
Catopygus oviformis Johnson, 1905, Acad. Nat. Sci. Philadelphia Proc, vol. 57, p. 7.

Determinative characters. — Test ovate, broader posteriorly; upper surface nearly flat; apex
posterior to apical disk. Ainbulacra narrow, subpetaloidal. Interambulacra wide; single inter-
ambulacrum elevated. Apical system excentric, nearer the anterior border. Peristome small,
excentric, nearer the anterior margin. Periproct oval, situated in a narrow sulcus,- that termi-
nates above in a projecting arch.

Dimensions. — Characteristic specimen: Length 25 millimeters; width 21.9 millinaeters ;
height 14 millimeters.

Description. — The test of this very beautiful little form is ovate, with rounded, inflated
sides and elevated upper surface. The base is nearly flat, slightly concave in the vicinity of the
peristome, and lobed posteriorly.

The ambulacra arc narrowly lanceolate, subpetaloidal on the upper surface, the posterior
areas being much longer than the others. The plates in the petaloid portions are narrow but
beyond increase in breadtli.

The interambulacral plates are covered with minute tubercles, between which are numerous
microscopic granules.

CEETACEOUS ECHIKODERMATA. 73

The apical sy.^tem is small, excentric, and situated far anterior to the apex.

The peristome is small and situated nearer the anterior margui.

The periproct is oval and placed at the upper part of a nearly vertical anal sulcus. The
upper margm of this sulcus forms a beak-shaped prominence that overhangs the opening.

Related forms. — C. ovifonnis is separated from C. pusiUus Clark, by its narrower outline,
more inflated sides, and the anterior position of its apical system. In form it is somewhat like
C. colujnharius of Europe, but is distinguished from it by the position of the apical system.

Locality. — Timber Creek, N. J.

Geologic horizon. — Vincentown sand of Rancocas group. Upper Cretaceous.

Collection. — Academy of Natural Sciences of Philadelphia (1477).

Catopygus pusillus Clark.
Plate XXIX, figures 3a-d.

■Catopygus pusillus Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 76.
Catopygus pwsillus Clark, 189.3, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 52.
Catopygus pusillus Clark, 1893, U. S. Geol. Survey Bull. 97, pp. 65, 66, PI. XXVll, figs. 3a-d.

Catopygus pusillus W'eWer, 1907, Cretaceous paleontology of New Jersey: Cieol. Survey New Jersey, p. 292, Pi. XI,
figs. 16-19.

Determinative cliaracters. — Test ovate to subquadrate, rounded anteriorly, subquadrate
posteriorly, broader behind than before; upper surface elevated; base concave. Ambulacra
narrowly lanceolate, subpetaloidal on the upper surface. Apical system small, nearly central.
Peristome small, anteriorly placed. Periproct oval in vertical sulcus beneath overhanging arch.

Dimensions. — Characteristic form: Length 15.6 millimetei-s ; width 14 millimeters; height
9.4 millimeters.

Description. — All the specimens of this species examined by the writer are casts, which are,
however, sufficiently well preserved to allow determination of aU the more important characters.
The test is ovate to subquadrate, occasioned by the slight angularity of the posterior margin.
The anterior portion is regularly rounded.

The ambulacra are narrow, the posterior pair only slightly longer than the anterior.

The interambulacra are wide and composed of large plates.

The apical system is small and situated nearly in the center of the upper surface.

The peristome is small and placed forward of the center of the base. The periproct is situ-
ated in a nearly vertical sulcus that is overhung at its upper extremity by a projecting arch.

Related forms. — Catopygus pusillus is separated from C. oviformis by its broader and slightly
subquadrate form, its less rounded sides, and nearly central position of its apical system.

Locality. — ^Wordills, Monmouth County, X. J.

Geologic horizon. — ^Merchantville clay of Matawan group, Upper Cretaceous.

Collection. — -U. S. National Museum (2210).

Catopygus williamsi Clark.
Plate XXIX, figures 4a-d.

Catopygus wilHarrm Clark, 1907; in Weller, Cretaceous paleontology of New Jersey: Geol. Survey New Jersej-, pp.
292-293, PI. XII, figs. 1-4.

Determinative characters. — Test ovate, slightly broader posteriorly; upper surface rounded
and somewhat elevated; lower surface concave. Apex posterior to apical system. Ambidacra
subpetaloidal. Peristome small, near anterior margin. Periproct small, low down on slightly
truncated posterior margin.

Dimensions. — Length 26 mdlimeters; width 22 millimeters; height 1.5 millimeters.

Description. — The single specimen of this si:)ecies is a well-preserved cast that clearly shows
all of the more important diagnostic features. The test is ovate, slightly broader posteriorly.
The posterior margin is but little truncated, affording a nearly oval outline to the ambitus.
The upper siu-f ace is somewhat elevated, but it is not a highly inflated form. The lower surface
is clearly concave.

74 MESOZOIC AND CENOZOIC ECHINODEKMATA OF THE UNITED STATES.

The ambulacra are subpetaloidal on the upper surface. The posterolateral ambulacra
are somewhat longer than the others.

The apical system is slightlj' excentric, being situated anterior to the apex.

The peristome is small, pentapetaloidal and situated well anteriorly. The periproct is
small, low down on the overhanging, truncated posterior margin.

Related forms. — This species is distinct from either C. ovifonnis or C. pusillus. Its posterior
margin and the position of its periproct very readily separate it.

Locality. — ^Bluff east of Atlantic Higlilands, N. J.

Geologic horizon. — Navesink marl of Monmouth group, Upper Cretaceous.

Collection. — Johns Hopkins University (T 3010).

Catopygus sp.
Catopygus sp. indet. Weller, 1907, Cretaceous paleontology of New Jersey: Geol. Survey New Jersey, p. 293.

A poorly preserved specimen of Catopygus presents some points of similarity to C. pusiUus
but apparently differs from it in other featm-es. In its imperfect state of preservation it can
not be assigned with certainty to that species. Some of the most important diagnostic charac-
ters are lacking.

Locality. — Beers Hill Cut, south of Keyport, N. J.

Geologic horizon. — Tinton sand member of the Redbank sand, Monmouth group, Upper
Cretaceous.

Collection. — New Jersey Geological Survey.

Genus CASSIDTJLTTS Lamarck.

Cassidxjlxis florealis (Morton).

Plate XXX, figures la-1.

Clypeaster sp. Morton, 1830, Acad. Nat. Sci. Philadelphia Jour., 1st ser. vol. 6, p. 202.

Cly peastcr florenlis '^iorton, 1S33, Am. Jour. Sci., 1st ser., vol. 23, p. 294.

Clypeaster florealis Morton, 1834, Synopsis Organic Remains Cretaceous, p. 76, PI. Ill, fig. 12, and PI. X, fig. 12.

Pygurus florealis Agassiz and Desor, 1847, Catalogue raisonn^, p. 141.

Clypeaster florealis Bronn, 1848, Index palaeontologicus, p. 312.

Faujasia florealis D'Orbigny, 18.53-1860, Pal^ontologie franfaise, vol. 6, p. 319, PI. CMXX, figs. 5, 6.

Faujasia florealis Desor, 1858, Synopsis des ecliinides fossiles, p. 318.

Clypeaster florealis Gabb, 1859, Cat. Invert. Fossils Cretaceous, p. 18.

Cassidulus florealis Meek, 1864, Smithsonian Misc. Coll., vol. 7 (177), p. 2.

Pygurus florealis Conrad, 1868, Geology of New Jersey, App. A, p. 722.

Cassidulus florealis Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 76.

Cassidulus florealis Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 52.

Cassidulus florealis Clark, 1893, U. S. Geol. Survey Bull. 97, pp. 66, 67, PI. XXVIII, figs. la-1.

Cassidulus florealis Johnson, 1905, Acad. Nat. Sci. Philadelphia Proc, vol. 57, p. 7.

Determinative characters. — Test subcorneal in outline, subpentagonal, slightly longer in
the anteroposterior diameter than the lateral, rounded anteriorly, angular posteriorly; apex
slightly forward of the center. Ambulacra narrow; poriferous zones petaloidal on the upper
two-thirds of the dorsal sm-face. Interambulacra wide, covered with small perforated tubercles.
Apical system small, situated anteriorly. Peristome pentagonal, with weU developed floscelle.
Periproct supramarginal, in a short, narrow sulcus.

Dimensions. — Length 3.5 millimeters; breadth 32 millimeters; height 19 millimeters.

Description. — This species, the earliest of this genus recognized from American deposits,
has a subconical test of moderate height, with a subpentagonal margin. The angxilarity is more
pronounced posteriorly than anteriorly, the anterior portion of the margin being distinctly
rounded. The anteroposterior diameter is but shghtly greater than the lateral, while the height
is a little more than one-half of the same. The apex is a short distance in front of the center
of the upper surface, the slope of the anterior face being sharper than that of the posterior.

The ambulacra are narrow. The poriferous zones consist of a double row of pores that are
arranged in petaloidal form on the upper two-thirds of the dorsal surface and as phylloidal
expansions in the vicinity of the mouth edges. In the petaloidal portion the pores of the inner

CEETACEOUS ECHINODEKMATA. 75

row are oval, those of the outer elongated, and each pair united by a shallow furrow. Toward
the margin the pores are smaller and placed near together and so continue until near the peris-
tome, where the poriferous zones suddenly expand. At this point the pores increase in size and
distance from one another. Between the oral lobes the poriferous zones again suddenly
contract.

The interambidacra are of luiequal width; the anterior pair are the narrowest; the three
posterior are of about equal width and nearly one-half wider than the anterior. The surface of
the plates is irregularly covered with numerous small perforated tubercles, with sunken areolas
between which are numerous microscopic granules.

The apical system is composed of four perforated genital and five small ocular plates. The
fifth genital is obsolete. The large right anterolateral genital plate, the madreporite, extends
across the disk, forming a large portion of the center of that body.

The peristome is large, pentagonal, and shghtly nearer the anterior margin. It is sur-
rounded by five prominent lobes that project over the oral opening. The ambulacra are con-
tracted between the lobes and expand- beyond them into wide phylloidal areas, producing a
peculiar, somewhat star shaped form that has been termed the floscelle.

The periproct is small, circidar, and supramarginal, and is situated in a short, narrow sulcus.

Related forms. — Cassidulus Jlorealis is allied to C. sequoreus, although the latter is more
depressed and more elongated. In some points it is similar to C. subconicus but has a less
sharply defined pentagonal outline, a differently situated periproct, and less elongated pores
in the outer rows of the petaloidal areas.

Localities. — Chesapeake & Delaware Canal, Del. (tj'pe) ; Uniontown, Ala.

Geologic horizon. — Matawan formation, Delaware, and Selma chalk, Alabama, of the
Upper Cretaceous.

Collection. — Academy of Natural Sciences of Philadelphia (1495).

Cassidulus ^quoreus Morton.
Plate XXX, figures 2a^i.
Cassidulus lequoreus Morton, 1S34, Synopsis Organic Remains Cretaceous, p. 76, PI. Ill, fig. 14.
Cassidulus xquoreus Desmoulins, 1837, Etudes sur les echinides, p. 146.
Cassidulus xquoreus Lamarck, 1840, Hist. Nat., vol. 3, p. 341.
Cassidulus xquoreus Agssiz and Desor, 1847, Catalogue raisonn^, p. 141.
Cassidulus xquoreus D'Orbigny, 1847, Prodrome, vol. 2, p. 271.
Cassidulus xquoreus Bronn, 1848, Index palseontologicus, vol. 1, p. 244.

Cassidulus xquoreus D'Orbigny, 1853-60, Paleontologie fran^aise, vol. 6, p. 329, PI. CMXXVI, figs. 6-12.
Cassidulus xquoreus Desor, 1858, Synopsis des echinides fossiles, p. 290.
Cassidulus xquoreum Gabb, 1859, Cat. Invert. Fossils Cretaceous, p. 18.
Cassidulus xquoreus Meek, 1864, Smithsonian Misc. Coll., vol. 7 (177), p. 2.
Cassidulus xquoreus Conrad, 1868, Geology of New Jersey, App. A, p. 722.
Cassidulus xquoreus Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 76.
Cassidulus xquoreus Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 52.
Cassidulus xquoreus Clark, 1893, U. S. Geol. Survey Bull. 97. pp. 68, 69, PL XXIX, figs. la-i.
Cassidulus xquoreus Johnson, 1905, Acad. Nat. Sci. Philadelphia Proc, vol. 57, p. 7.

Cassidulus xquoreus Weller, 1907, Cretaceous paleontology of New Jersey: Geol. Survey New Jersey, pp. 293-294, PL
XII, figs. 5-12.

Determinative characters. — Test subpentagonal, depressed; upper surface convex; under
surface concave, slightly rostrated posteriorly; apex forward of the center. Ambulacra narrow;
poriferous zones petaloidal on the upper surface; contracted above the margin and expanded
again on the lower surface, much narrowed at the peristome. Interambulacra wide, covered
with small perforated tubercles. Apical system smiiU, situated forward of the center. Peris-
tome smaU, \vith floscelle. Periproct supramarginal, in short sulcus.

Dimensions. — Typical form: Length 31.25 milUmeters; width 28.12 millimeters; height
15.6 millimeters.

Description. — This typical Cassidulus, early recognized as such by Morton, has a depressed
test, subpentagonal in outline. It is longer in the anteroposterior diameter than the lateral.
The upper surface is convex, with sharp marginal edges, while the lower surface is flat, with a
slight concavity toward the center. The apex is somewhat anterior to the center.

76 MESOZOIC ASTD CEKOZOIC ECHIXODEEMATA OF THE UNITED STATES.

The ambulacra are narrow. The poriferous zones are uniserial, the poi-es of the upper part
of the al)oral surface arranged in petaloldal form. At a point varying in the different areas from
one-c^uarter to one-third of the distance from the margin to the apical system the zones are con-
tracted and continue as narrow bands over the margin and to the vicinity of the peristome, where
they broaden again perceptibly, becoming finally much contracted at the margin of the oral
opening. The pores are distinct in the petaloidal portion and in the broadened area near the
peristome but in the intermediate contracted portion are small and indistinct. The interam-
bulacra are broad and covered by small perforated tubercles with sunken areolas.

The apical system is composed of four perforated genital and five small ocular plates. As
explained under the previous species, the fifth-genital is obsolete.

The peristome is pentagonal and surrounded by a well-developed flosceUe. The oral lobes
are very prominent and the ambulacral furrows much contracted.

The periproct is situated in a short sulcus on the upper surface.

Related forms. — This species is separated from O.Jlorealis by its more depressed and elon-
gated form. From 0. micrococcus it is separated by it^ sharper apex, more angular margin, the
position of its periproct, and the shorter pore openings in its outer rows.

Localities. — Prairie Bluff, Ala. (type) ; bluff east of Atlantic Highlands, N. J.

Geologic horizon. — Navesink marl of Monmouth group, New Jereey, and Ripley formation,
Alabama; Upper Cretaceous.

Collection. — Academy of Natural Sciences of Philadelphia (1475).

Cassidulus micrococcus Gabb.

Plate XXXI, figures la-i.

Cassidulus micrococcus Gabb, 1860, Acad. Nat. Sci. Philadelphia Proc, p. 519.
Cassidulus micrococcus Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 76.
Cassidulus micrococcus Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. .52.
Cassidulus micrococcus Clark, 1893, U. S. Geol. Survey Bull. 97, pp. 69, 70, PL XXX, figs. la-i.
Cassidulus miaococcus 3 dimson, 1905, Acad. Nat. Sci. Philadelphia Proc, vol. 57, p. 7.

Determinative characters. — Test oval, rounded anteriorly, slightly rostrated posteriorly;
upper surface convex, flattened at the apex; sides equally decUning. Ambulacra moderately
broad; poriferous cones petaloidal on dorsal surface; outer row of pores slitlike in petaloidal
portion. Peristome small, pentagonal, with floscelle. Periproct oval, situated high on upper
surface, in long, narrow sulcus.

Dimensions. — Length 45 millimeters; width 42 millimeters; height 21.5 mdUmeters.

Description. — This species has a distinctly oval form, -wader posteriorly. The upper surface
is elevated at the margin but somewhat flattened at the apex. The sides decline very nearly
equally. The base is flattened, with a slight concavity at the peristome. The posterior margin
is truncated and slightly rostrated.

The ambulacra are rather broad, contracted about one-quarter of the distance from the
ambitus to the apex, and narrowed nearly to the peristome, where they are again broadened to
form indistinct phylloidal areas. The pores are slitlike in the outer rows of the ])etaloidal
portion.

The interambulacral plates are covered with minute tubercles, with sunken areolas, that
increase in size and number of the oral surface.

The apical system is situated slightly in front of the upper surface, in a long, narrow, and
deep sulcus.

Related forms. — A comparison of tlris species with Cassidulus sequoreus, as made also by Gabb
in his original description, show^s that it is much larger and more oval, and that its i:)eriproct is
situated higher and in a deeper and longer sulcus, and, furthermore, that the pores of the outer
row in its petaloidal portion are elongated and slitlike.

Locality. — Eufaula, Ala.

Geologic horizon. — Ripley formation, Upper Cretaceous.

Collection. — Academy of Natural Sciences of Philadelphia (1480).

CRETACEOUS ECHINODEEMATA. 77

Cassidui.us subquadeatus Conrad.

Plate XXXI, figures 2a-g.

Cassidulus subquadratus Conrad, 1860, Acad. Nat. Sci. Philadelphia Jour., 2d ser., vol. 4, p. 291, PI. XLVII, fig. 1!).

Cassidulus suhquadratus A. Agassiz, 1883, Mus. Comp. Zool. Mem., vol. 10, p. 90.

Cassidulus suhquadratus Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 77.

Cassidulus subquadratus Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 52.

Cassidulus subquadratus Clark, 1893, U. S. Cxeol. Siu^ey Bull. 97, pp. 70, 71, PI. XXXI, figs. la-h.

Cassidulus subquadratus Johnson, 1905, Acad. Nat. Sci. Philadelphia Proc, vol. 57, p. 7.

Cassidulus subquadratus Slocum, 1909, Field Mus. Nat. Hist. Pub. 134, Geol. ser., vol. 4, No. 1, pp. 5, 6.

Determinative characters. — Test subquadrate to subpentagonal, hemispherical; sides equally
decUning, upper surface convex; lower surface concave; posterior margin truncated and ros-
trated. Poriferous zones broadly petaloidal on upper two-thirds of the dorsal surface; sharply
contracted at lower margin of petaloidal areas. Peristome small, pentagonal, with well-defined
floscelle. Apical system large, shghtly anterior to the center. Periproct round, in deep sulcus.

Dimensions. — Length 56.5 millimeters; width 53 millimeters, height 28 milHmeters.

Description. — This remarkably synmietrical Cassidulus has a nearly hemispherical form.
In outhne it is nearer subpentagonal than subquadrate, owmg to the rostrated character of the
posterior margin, which is at the same time truncated. The anterior margin is rounded. The
lateral edges are nearly parallel, though somewhat more approximated anteriorly. The apex is
shghtly forward of the center.

The ambulacra are moderately wide in the petaloidal portion, narrow beyond. The porif-
erous zones are composed in the petaloidal portion of an iimer row of small, nearly circular pores
and of an outer row of obhque sUtUke openings. The pores of each pair are united by a shallow
furrow. Beyond the petaloidal areas the narrow plates of those portions give place to broad
plates, each with a pair of small, round pores in the lower and outer corner. In the vicinity of
the peristome the poriferous zones expand and the pores increase in size, though apparently
reduced in number. The last pair of plates are much contracted.

The interambulacra are wide. The plates are covered -vvitli minute tubercles with depressed
areolas, which become larger and more prominent on the lower surface.

The apical system is large, composed of four perforated genital and five ocular plates. The
fifth genital is apparently obsolete.

The peristome is small, pentagonal, and surrounded by a weU-developed floscelle. The
periproct is round and is situated high above the margin, in a deep sulcus, that becomes narrower
and shallower toward the ambitus.

Related forms.— 1h\s species is most closely related to Cassidulus suhconicus, but the latter
is much more elevated and has its periproct situated higher and in a less depressed sulcus.

Locality. — Near Holly Springs, Miss.

Geologic Jiorizon. — Ripley formation. Upper Cretaceous.

Collection. — U. S. National Museum (31200).

Cassidiilus subconicus Clark.

Plate XXXII, figures la-k.

Cassidulus subconicus Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 76.

Cassidulus subconicus Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 52.

Cassidulus subconicus Clark, 1893, U. S. Geol. Siu-vey Bull. 97, pp. 71, 72, PI. XXXII, figs. la-k.

Determinative characters. — Test subcorneal; margin subpentagonal, truncated and rostrated
posteriorly; apex anteriorly placed. Ambulacra broad in petaloidal areas. Apical system
large, anteriorly situated. Peristome subcircular, with very prominent floscelle. Periproct
large, situated high on upper surface, in shaUow sulcus.

Dimensions. — Length 47 milhmeters; width 43 miUimeters; height 27.5 milhmeters.

Description. — The tost is subcorneal. In marginal outline it is subpentagonal, the pos-
terior border more or less rostrated and clearly truncated. The apex is slightly forward of the
center, giving a somewhat sharper slope to the anterior portion of the test than to the posterior.
39S00°— 15 6

78 MESOZOIC AND CENOZOIC ECHINODEEMATA OF THE UNITED STATES.

The ambulacra are broad in the pctaloidal portion, beyond wliich they are narrowed. At
the margin thej' again acquire considerable ■n^idth but gradually contract beyond, although
expanded for a short distance in the phyUoidal area near the peristome. At the peristome the
final pair of plates is highly attenuated. The pores of the outer rows, in both the petaloidal and
phyloidal areas, are in a marked degree elongated. In the intermediate portion of the column
they are small and indistinct.

The interambulacra are more prominent than the ambulacra, which are shghtly depressed.
The surface is covered ^vith minute tubercles and a microscopic granulation.

The apical system is large, subcircular, and surrounded by a very prominent floscelle. The
periproct is large, circular, and is situated high above the margin in a shallow sulcus.

Related forms. — C. subconicus is closely related to C subquadratus but is separated from it
by its liigli subconical test, more elevated periproct, and shallow anal sulcus.

Locality. — Dumas, Miss.

Geologic horizon. — Ripley formation, Upper Cretaceous.

Collection.— v. S. National Museum (20264).

Cassidulus porrectus Clark.

Plate XXXII, figures 2a-b; Plate XXXIII, figures la-f.

Cassidulus porrectus Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 7G.
Cassidulus porrectus Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 52.

Cassidulus porrectus Clark, 1893, U. S. Geol. Survey Bull. 97, pp. 72, 73, PL XXXIII, figs, la-b, PI. XXXIV, figs, la-b.,
PI. XXXV, figs. la-d.

Determinative characters. — Test very large, subcircular, oval, depressed; upper surface con-
vex; lower surface concave; broader posteriorly than anteriorly; apex forward of the center.
Ambulacra broad. Interambulacra tliickly covered with minute tubercles. Apical system
small, forward of the center. Peristome large, subconical, ^vith prominent flosceUe. Periproct
supramarginal, in short shallow sulcus.

Dimensions. — Length 99.6 milhmeters; width 97.5 milhmeters; height 44.5 miUimeters.

Description. — This very large Cassidulus has an irregularly oval, depressed test, that is sub-
circular in marginal outline. The width is equal to the length but is greatest in the posterior
portion, so that the margin appears contracted anteriorly. The apex is some distance foi-ward of
the center and shghtly flattened. The posterior margin is feebly trimcated.

The ambulacra are wide; the contractions below the petaloidal region and above the phyl-
loidal continue for short distances, while the lowest pair of plates in the colunm bordering the
peristome are long and greatly attenuated. The pores of the outer rows are sUthke in form and
obhquely placed.

The interambulacra are prominent ; the plates are covered with numerous small tubercles,
with depressed areolas, which are larger and more prominent on the under than the upper surface.
The apical system is small and is placed forward of the center.

The peristome is large, subcircular, with very promment floscelle. The oral lobes project
far beyond the level of the base and are separated by deep ambulacral furrows.

The periproct is large, oval, and is situated at the head of a short, narrow sulcus.

Related forms. — C. porrectus is from its size, form, and details of structure readilj^ separated
from the other species of Cassidulus described from the American and European Cretaceous.

Locality. — Eufaula, Ala.

Geologic hori.zon. — Ripley formation, Upper Cretaceous.

Collection. — U. S. National Museum (21890).

CRETACEOUS ECHINODERMATA. 79

Cassidulus stantoni Clark.

Plate XXXIII, figures 2a-d.

Cassidulus stantoni Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 76.
Cassidulus stantoni Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 52.
Cassidulus stantoni Clark, 1893, U. S. Geol. Survey Bull. 97, p. 73, PL XXXV, figs. 2a-d.

Determinative clmracters. — Test small, subovate, elevated; upper surface convex, lower
surface concave; apex foi-ward ofthe center. Ambulacra verj- narrow. Apical sj^stem small,
forward of the center. Peristome small, with fioscelle. Periproct high above margin, in long,
narrow, and deep sulcus.

Dimensions. — Length 15 millmietei-s; width 14 millimeters; height 6.5 millimeters.

Description. — This minute Cassidulus has a subovate test, an elevated convex upper sur-
face, and a concave lower surface. It is broader posteriorly than anteriorly, and its posterior
margin is truncated. The apex is situated slightly anterior to the center of the upper surface.

The ambulacra are very narrow. The petaloidal portion but slightly exceeds the remainder
in width, which is nearly equal throughout. The phylloidal region is feebly outlined.

The mterambulacra are broad, but the poor state of preservation of the specmiens renders
it unpossible to determine all the details of structure.

The apical system is small and forward of the center, but not sufficiently well preserved
to distinguish the mdividual plates. The peristome is small and surrounded by a feeble fios-
celle. The periproct is round and situated high above the margm, at the head of a narrow deep
sulcus.

Related forms. — C. stantoni is quite unlike any other representative of this genus from Ameri-
can strata and can not be readily associated with any European species.

Locality. — Muddy Creek, Huerfano County, Colo.

Geologic horizon. — Colorado group. Upper Cretaceous.

Collection. — U. S. National Museum (20260).

Cassidulus intekmedius Slocum.

Plate XXXIV, figures la-f.
Cassidulus intermedius Slocum, 1909, Field Mus. Nat. Hist. Pub. 134, Geol. ser., vol. 4, No. 1, pp. 6, 7, PI. I, figs. 1-6.

Determinative clmracters. — Test oval, depressed, rounded anteriorly, slightly rostrated pos-
teriorly. Apex excentric anteriorly. Ambulacra narrow. Peristome large, slightly in front
of center of ventral surface. Periproct on upper surface, about one-thu-d of the distance from
the apex to the margin, in broad deep sulcus.

Dimensions. — Type specmien: Length 25.6 millimeters; width 22.7 millimeters; height 9.6
millimeters.

Slocum says:

Description. — Test oval, greatest width posterior to the center; rounded anteriorly, slightly rostrated posterforly-
dorsal surface convex, apex excentric anteriorly and inflated, sides declining about equally towards the maroins which
are slightly inflated ; the peristomal concavity occupying more than half of the central stirface. Ambulacra! areas nar-
row and flush, poriferous zones subpetaloidal on the upper part of the dorsal sm-face to a point varyino- in the different
areas from about one- third to nearly one-half the distance from the margin to the apical system; the zones are then con-
tracted and continue as naiTOW bands over the margin to the vicinity of the peristome, where they abruptly widen,,
and gain narrow to the peristome forming a floscelle. The pores are distant and paired on the petaloid portion and in
the floscelle; on the narrow connecting portions they are single, small and indistinct. In the petaloid areas the pores
of the outer rows are sUtlike, those of the inner row round and smaller; each pair is connected by a groove. Inter-
ambulacral areas composed of large plates, the plates nearest the peristome in each area inflated forming the bourrelets.
Dorsal surface covered with small crowded tubercles with slightly sunken areoles, the tubercles on the ventral surface
rapidly increasing in size and distance apart as they approach the peristome. A wide, longitudinal median band extends
from near the anterior margin through the floscelle to the posterior margin. This band is without tubercles and the
surface is smooth except where it passes through the floscelle. The apical system in the type specimen is too incomplete
for detailed description, but appears similar to other species of this genus. The peristome is situated slightly in front of
the center of the ventral surface, pentagonal, surrounded by a well-marked floscelle, the bourrelets large and prominent,

80 MESOZOIC AND CENOZOIC ECHINODEEMATA OF THE UNITED STATES.

the phyllodes very narrow as they reach the peristome and situated in grooves. The periproct is elongat«d longitudi-
nally and situated on the dorsal surface about one-third the distance from the posterior margin to the apex in a deep
groove.

Related forms. — In general form this species resembles ('. a:quoreus, but is not so high in proportion to its length, the
periproct is somewhat higher, the pores in the outer rows of the petaloid portions are slitUke instead of round, and the
expansions of the phyllodes are wider. C intermedius resembles C. micrococcus in the sLitlike pores of the outer rows
of the petaloid areas and in the expansion of the phyllodes, but the position of the pores in these expansions is more
like those of C. sequoreiis. The position of the perijjroct is midway between that of C. micrococcus and C. aquoreus, the
size and shape of the test is quite unlike C. micrococcus and the extension of the longitudinal median band in front of
the peristome on the ventral surface does not apjjear, from the description and figures, to occur in either of the other
species. The name adopted for this species refers to the characters intermediate between C. sequoreus and C. micrococ-
cus which the species exhibits.

Locality. — Nccar the southern edge of the village of Pontotoc (Slocum), Miss.
Geologic horizon. — Ripley formation, Upper Cretaceous.
Collection.— Field Museum of Natural History (P 10346).

Cassidulus hemispheeicus Slocum.

Plate XXXIV, figures 2a-c.
Cassidulus hemisphericvs Slocum, 1909, Field Mus. Nat. Hist. Pub. 134, Geol. ser., vol. 4, >V. 1, pp. 7, 8, PI. I, figs. 7-9.

Determinative characters. — Test subhemispherical, elevated, marghis angular, lower sm-face
flat. Ambulacra wide. Peristome nearly central. Periproct supramarginal.

Dimensions. — Type specimen: Length 34.7 niUlimeters ; width 26.7 millimeters; height
19.5 millimeters. Allowing for the lateral crushing it is probable that the length and width,
were origmally about 32 mUluneters and 29 millimeters, respectively.

Description. — Slocum says :
Test subhemispherical with its transverse diameter somewhat shorter than the longitudinal, sides arcuate, margins
an"-ular, ventral siu-face flat or nearly so. Ambulacral areas wide, subpetaloidal on the top of the dorsal surface, not
closed distally, petals subequal in length, extending aljout halfway from the apex to the margin, slightly convex; from
the distal end of the petals the ambulacral areas are continued as a band wliich gradually increased in width from the
petal to the margin, most of the way being wider than the petal. On the ventral surface the bands slightlj' narrow to
the floscelle. The floscelle is not well preserved in the type specimen, but enough is preserved to determine that the
bovu-relets are prominent and that the phyllodes are in grooves. The apical system is central but the form of the various
plates of which it is composed can not be determined. The interambulacral areas are about equal in size. They form
an acute angle near the apex and rapidly expand to the margin, the plates being comparativel)^ large. AU the plates
of the dorsal siu-face, with the exception of those of the petals, are marked by prominent lines subparallel to the edge
of the plates. These lines are farther apart on the lateral edges than on the proximal and distal edges. They appear
to be lines of growth. The middle portion of the plates within this series of lines is inflated, so that in the small plates
of the interambulacral areas, near the apex, the centers of the plates appear as prominent nodes. These middle portions
of the plates are free from tubercles, but the parts of the plates covered by the parallel lines and the plates of the petals
are covered with minute tubercles closely crowded together. The lines are much less prominent on the plates of the
ventral surface and the tubercles are larger, with slightly sunken areoles, and more evenly distributed over the siu-face,
except on the longitudinal median band, which extends from the peristome to the posterior margin. The peristome is
situated at the center of the ventral siurface, surrounded by a floscelle, the bourrelets are prominent, and the phyllodes
are depressed and contracted into narrow grooves where they reach the peristome. The periproct is supramarginal,
but its form and exact position are unknown, because that portion of the posterior interambulacral area near the margin
is missing.

Locality. — The "white gullies" on the Patterson farm, about 3 miles south of Pontotoc,
Miss.

Geologic horizon. — Ripley formation, Upper Cretaceous.
Collection.— Yield Museum of Natural History (P 10347).

Cassidulus conoideus Clark, n. sp.
Plate XXVII, figures 3a-d.

Determinative characters. — Test moderate, nearly circular, mflated above, flat below.
Apical system excentric anteriorly. Ambulacra nearly sunUar, subpetaloid. Peristome excen-
tric forward. Periproct supramarguial in poorly defined groove.

Dimensions.— Length. 31.5 millimeters; width 32 millimeters; height 28 millimeters.

CRETACEOUS ECHINODERMATA. 81

Description. — This species has a tost of moderate size, nearly circular and much elevated.
The apex is near the center of the upper surface. The upper surface is convex, the lower nearly
flat.

The ambulacra are wide, nearly similar, distinctly petaloidal above. The interambulacra
are prominent, projecting slightly above the ambidacra.

The peristome is of small size and excentric forward. The periproct is small, supramar-
ginal and located in a very poorly defined groove. The material of the test has been destroyed,
only a cast remaining.

Locality. — Pataula Creek, Clay County, Ga.

Geologic horizon. — Ripley formation. Upper Cretaceous.

Collection.— v. S. National Museum (31199).

Cassidulus abruptus Conrad.

Cassidulus abruptus Conrad, 1860, Acad. Nat. Sci. Philadelphia Jour., 2d ser., vol. 4, p. 291.
Casnidulus abruptus Agassiz, 1883, Mus. Comp. Zoology Mem., vol. 10, No. 1, p. 90.
(?) Cassidulus abruptus Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 77.
(?) Cassidulus abruptus Clark, 1893, U. S. Geol. Survey Bull. 97, p. 92.

This species, originally described by Conrad in 1860, but not figured, has not been recog-
nized in material examined by the writer, so that its relations to the other forms described are
not known.

Locality. — Tippah County, Miss.

Geologic horizon. — Ripley formation. Upper Cretaceous.

Collection. — Unknown.

? Cassidulus subangulatus (Emmons).

Gonioclypeus subangulatus Emmons, 1858, North Carolina Geol. Survey Rept., p. 309, figs. 242, 243.
Gonioclypeus subangulatus Conrad, 1866, Check list, p. 31.

This species, which is described from the "Eocene, Wadsworth marl. Craven County,"
N. C, by Emmons is probably a Cretaceous form and if the strata in which it was found are
Eocene was doubtless mechanically transported from older deposits. It is apparently identical
with C. suhquadratus Conrad, but as its type form is unknown and no further material has been
found it seems wiser to maintain the separation of the two species until more positive data are
secured.

Locality. — Craven County, N. C.

Geologic horizon. — Peedee sand (?), Upper Cretaceous.

Collection. — Unkno wn .

Suborder STERNATA.

Family ECHINOCORYTHID.'E.

Genus ANANCHYTES Mercati.

Ananchytes ovalis C'lark.

Plate XXXV, figures la-h.

Ananchytes ovalis Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 52.
Ananchytes ovalis Clark, 1893, U. S. Geol. Survey Bull. 97, pp. 74, 75, PI. XXXVI, figs. la-h.

Ananchytes ovalis Weller, 1907, Cretaceous paleontology of New Jersey: Geol. Survey New Jersey, p. 295, PI.
XIII, figs. 1-8.

Determinative characters. — Test medium sized, subovate cordate; contracted posteriorly;
upper surface convex; lower surface flat. Apical system elongated, consisting of four perfo-
rated genital and five ocular plates situated slightly forward of the center. Peristome near the
anterior margin. Periproct oval, situated on a slight protuberance of the posterior margin.

82 MESOZOIC AXD CENOZOIC ECHINODEEMATA OF THE UNITED STATES.

Dimensions. — Length 43.75 millimeters; width 37.5 millimeters; height 31.25 millimeters.

Description. — The specimens of this species collected by the writer are remarkably well pre-
served and admit of the determination of all the essential features. The test is in lateral outline
subovate, though somewhat cordate in form when viewed from above or below. A marked pro-
tuberance is present on the posterior margin that appears as a slight ridge on the lower suiiace
between the peristome and periproct. The upper surface is convex. The sides are full and
rounded at the ambitus. The base is nearly fiat, with the exception of the slight ridge and
depressed peristome.

The ambulacra are wide and straight, attaining their greatest width just above the ambitus.
The pores are oval, and those of each pair are placed toward the ambitus at an angle to one
another. The surface of both the ambulacral and interambulacral plates is covered by small
tubercles, between which are numerous microscopic granules. The apical system is elongated.
The four genital plates are large and distinctly perforated. The anterior, right-hand genital
plate, which serves as the madreporite, is much larger than any of the others, being several times
the size of the anterior left-hand genital, with which it is in contact. The posterior genitals are
very nearly of equal size.

The peristome is transvereely oblong and situated near the anterior margin. The periproct
is oval and situated on a marked protuberance on the posterior margin.

Locality. — Vincentown, N. J.

Geologic horizon. — Vincentown sand of Rancocas group. Upper Cretaceous.

Collection. — Johns Hopkins University (T 3011).

Ananchytes texana Cragin.

Plate XXXV, figures 2a-c; Plate XXXVI, figures la-b.

Ananchytes texana Cragin, 1893, Geol. Survey Texas Fourth Ann. Rept.,'pp. 145, 146, PI. XXVI, figs. 1, 2, PI. XXV,
fig. 12.

Determinative characters. — Test large, liigh, oval in marginal outline, roimded anteriorly,
narrowed posteriorly; upper surface convex, lower surface flat; ambulacra flush, nearly alike,
apetalous pair of pores more strongly developed on upper surface; interambulacra with large
plates covered with few primary tubercles and many granules; peristome far in front; periproct
well forward on lower surface.

Dimensions. — ^Length 107 millimeters; width 87 millimeters; height 68 millimeters.

Description. — Cragin says :

Large conico-hemispherical as seen from the side; plan ovate, wider anteriorly; peristome of moderate size, trans-
verse, oblong-reniform, the anterior lip and immediately contiguous surface deeply and abruptly depressed, the
remainder of the interior surface slightly depressed, the depression being posteriorly parted by a gentle median undu-
lation that includes the periproct and becomes gradually obsolete a short distance in advance of it; periproct infra-
marginal and relatively smaller than in most (if not all) other known species of the genus, rather narrowly ovate and
posteriorly more or less pointed; anterior ambulacrum about two-thirds as wide as either of the adjacent interambula-
cra, ambulacral plates very numerous and narrow, averaging about a millimeter in -ividth on the greater part of the zone;
the pores rounded but usually more or less transversely elongated, the line connecting the pores of one pair being hori-
zontal except in the case of a few of the lower pairs; surface nearly even, the principal tubercles rather small and not
very prominent.

Locality. — Two and one-half miles northwest of D'Haniss, on Seco Creek, Medina County,
Tex. (type); White Cliffs, Ark.

Geologic horizon. — Austin chalk and Annona chalk, Upper Cretaceous.
Collections. — Geological Survey of Texas; Johns Hopkins University.

CRETACEOUS ECHINODEEMATA. 83

Genus CABDIASTEB Forbes.
Caediaster cinctus (Morton).

Plate XXXVI, figures 2a-li.

Spatangiis sp. Morton, 1829, Acad. Nat. Sci. Pliiladelphia Jour., 1st ser., vol. 6, p. 122.
Ananchytes sp. Morton, 1830, Am. Jour. Sci., 1st ser., vol. 17, p. 287.

Ananchijlts cinctus Morton, 1830, Acad. Nat. Sci. Pliiladelphia Jour., 1st ser., vol. 6, p. 200.
AnanchytesJimbriatusMoTton, 1830, Acad. Nat. Sci. Philadelpliia Jour., 1st ser,, vol. 6, p. 200.
Anmichytes cinctus Morton, 1830, Am. Jour. Sci., 1st ser., vol. 18, p. 246, PI. Ill, fig. 7.
Ananchytes fiinbriatusMorton, 1830, Am. Jour. Sci., 1st ser., vol. 18, p. 245, PI. Ill, fig. 9.
Ananchytes cinctus Morton, 1834, Synopsis Organic Remains Cretaceous, p. 78, PI. Ill, fig. 19.
Ananchytes fimbriate Morton, 1834, Synopsis Organic Remains Cretaceous, pp. 77, 79, PI. Ill, fig. 20.
Holaster cinctus Agassiz and Desor, 1840, Catalogue systematique, p. 1.
Holaslcr cinctus Agassiz and Desor, 1847, Catalogue rais jnne, p. 133.
Sola ster Jimbriatus AgSLSsiz, 1847, Catalogue raisonne, p. 141.
Holaster cinctus D'Orbigny, 1847, Prodrome, vol. 2, p. 269.
Holaster fimbriatus D'Orbigny, 1847, Prodrome, vol. 2, p. 269.
Holaster cinctus Bronn, 1848, Index palseontologicus, vol. 1, p. 593.
Ananchytes fimbriatus Bronn, 1848, Index palseontologicus, vol. 1, p. 70.
Cardiaster cinctus Bronn, 1853-1856, Lethaea geognostica, vol. 2, pt. 5, p. 205.

Cardiaster cinctus D'Orbigny, 1853-1860, Palfontologie frangaise, vol. 6, p. 147; PI. CMXCV, fig. 4.
Cardiaster fimbriatus D'Orbigny, 1853-1860, Pal^ontologie frangaise, vol. 6, p. 147 ; PI. CMXCV, fig. 3.
Cardiaster cinctus (Cardiaster fimbriatus) Desor, 1858, Synopsis desecbinides fosailes, p. 346.
Ananchytes cinctus Gabb, 1859, Cat. .Invert. Fossils Cretaceous, p. 18.
Ananchytes fimbriatus Gabb, 1859, Cat. Invert. Fossils Cretaceous, p. 18.
Holaster cinctus Credner, 1870, Deutsche geol. Gesell. Zeitschr., vol. 22, p. 218.
Holaster cinctus Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 77.
Cardiaster cinctus Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 52.
Cardiaster cinctus Clark, 1893, U. S. Geol. Survey Bull. 97, pp. 75, 76, PI. XXXVII, figs. la-h.
Cardiaster fimbriatus Johnson, 1905, Acad. Nat. Sci. Philadelphia Proc, vol. 57, p. 7.
Cardiaster cinctus Johnson, 1905, Acad. Nat. Sci. Philadelpliia Proc, vol. 57, p. 7.

Cardiaster cinctus Weller, 1907, Oetaceous paleontology of New Jersey: Geol. Survey New Jersey, pp. 296-297, PI. XVI,
figs. 1-8.

Determinative characters. — Test large, cordate, distinctly grooved anteriorly; contracted
posteriorly; upper surface convex; lower surface flat. Ambulacra wide. Apical system much
elongated, consisting of four perforated genital and five ocular plates situated slightly forward
of the center. Peristome near the anterior margin. Periproct oval, situated on the truncated
posterior margin.

Dimensions. — Length 30 to 60 millimeters; width 25 to 55 millimeters; height 20 to 30
millimeters.

Description. — This species, which is among the earliest of the Echinoid forms recognized
from American Cretaceous strata, is distinctly cordiform, with a pronounced groove on the
anterior face that is occupied by the unpaired ambulacrum. Opposite thereto is a slight ridge
at the central suture of the unpaired posterior interambulacnim which is suddenly terminated
by the nearly vertically truncated surface of the posterior margin. The sides decline equally to
the ambitus, giving an oval outline to the vertical lateral section. The lower surface is nearly
flat, with the exception of the slight depressions directly at the mouth edges and the elevated
area extending from the center of the base to the posterior margin.

The ambulacra are wide, apetaloid, and separated at the apex. The anterolateral pair are
bent backward in their upper part, beyond which they extend straight to the margin. The
postero-lateral pair are bent somewhat forward, after which they ext«nd straight over the margin.
The single ambulacrum is situated in the deep anterior sulcus. The pores of the paired ambu-
lacra consist, in the upper portion of the columns, of oblique oval openings united by furrows
while lower do^vn they become small and often indistmct. In the unpaired ambulacrum the
pores are extremely small.

The surface of the interambulacral as well as of the ambulacral plates is covered with fine
grannies, among which are irregularly scattered numerous small perforated tubercles.

84 MESOZOIC AND CENOZOIC ECHINODEKMATA OF THE UNITED STATES.

The apical system is narrow, elongated. The four perforated genital plates are disposed in
pairs, between which two of the five ocular plates are situated. Forming the posterior portion
of the disk are two more ocular plates, while the fifth plate comprises the anterior part. The
ambulacral areas are on this account separated at their apices.

The i^eristome is transversely oblong and is situated near the anterior margin of the base.
The periproct is oval and situated on the truncated surface at the posterior margin of the test.

Localities. — ^Vincentown and Timber Creek, N. J.

Geologic horizon. — Vincentown sand of Rancocas group, Upper Cretaceous.

Collections. — Academy of Natural Sciences of Philadelphia (1485) ; American Museum of
Natural History, New York.

Cardiaster smocki Clark.

Plate XXXVI, figures 3a-c.

Cardiaster smocki Clark, 1907; Weller, Cretaceous paleontology of New Jersey: Geol. Survey New Jersey, p. 298, PI.
XIII, figs. 9-11.

Determinative characters. — Test cordiform, elevated, with deep anterior sulcus; upper sur-
face convex; lower surface flat. Ambulacra wide. Apical system elongated. Peristome near
the anterior margin.

Dimensions. — Length 25 millimeters; width 23 millimeters; height 14 millimeters.

Description. — The test is small, distiactly elevated, with strongly convex upper surface.
The anterior ambulacral sulcus is very pronounced, and the opposite ridge in the unpaired pos-
terior interambulacrum is well sliowTi but is sharply cut off by the nearly vertically truncated
surface of the posterior margin. The sides slope rapidly to the ambitus, which is sharp and cor-
date in outline. The lower surface is nearly flat.

The ambulacra are wide, apetaloid, and well separated at the apex. The anterolateral pair
are bent backward above, beyond which they extend straight to the ambitus. The postero-
lateral pair are bent slightly forward, beyond which they continue, in a straight liae over the
margin. The unpaired ambulacrum is situated in the deep anterior sulcus.

The apical system is much elongated, mdely separating the ambulacral areas.

The peristome is situated anteriorly and is transversely oval.

Related form^. — This species is most closely related to Cardiaster cinctus hut is smaller and
has a somewhat less pronounced anterior sulcus and a more inflated test.

Locality. — Two and a half miles northwest of Matawan, N. J.

Geologic horizon. — AlerchantviUe clay of Matawan group, Upper Cretaceous.

Collection. — Geological Survey of New Jersey.

Cardiaster curtus Clark, n. sp.
Plate XXXVII, figures la-h.

Determinative characters. — Test small, cordate, high anteriorly, clearly marked anterior
groove with well-defined keel on either side; ambulacra wide, interambulacra with large plates;
peristome near posterior margin.

Dimensions. — Length 22 millimeters; width 19 millimeters; height 12 millimeters.

Description. — The two specimens of tliis small species are fragmentary although retaining
the most important characteristic portions.

The test is cordate, elevated toward the posterior margin and with broad and deep anterior
groove. The ambulacra are broad, the poriferous zones are clearly marked on the upper sur-
face. The pore pairs are oval above and more nearly roimd toward the ambitus. The surface
of the plates is covered by minute granules.

The interambulacra are composed of large plates covered with minute granules.

The apical system is elongate, the four genitals varying in shape and size. The two antero-
lateral oculars are very large and separate the antero-lateral from the postero-lateral genitals
which are in contact, the latter isolating the two postero-lateral oculars from the remainder of the
apical system.

CEETACEOUS ECHINODEEMATA. 85

The peristome is near the posterior margin. The periproct is not preserved.
Locality. — Twenty-five miles southwest of Mingusville (now Wibaux), Mont.
Geologic Jiorizon. — Fox Hills ( ?) sandstone of Montana group, Upper Cretaceous.
Collection.— U . S. National Museum (31201).

Genus HOLASTER Agassiz.

HoLASTER SIMPLEX Shumard.

Plate XXXIV, figures 3a-b; Plate XXXVIII, figures la-j; Plate XXXIX, figures lar-g.

Eolasler simplex Shumard, 1853, Pal. Expl. Red River of Louisiana in 1852, p. 210, PI. Ill, fig. 2.

Uolastcr comanchesi Marcou, 1858, Geology of North America, p. 40, PJ. Ill, fig. 3.

Holaster simplex Desor, 1858, Synopsis des echinides fossiles, p. 450.

Holaster comanchesi Desor, 1858, Synopsis des echinides fossiles, p. 449.

Holaster simplex Gabb, 1859, Cat. Invert. Fossils Cretaceous, p. 19.

Eolasler comanchesi Gabb, 1859, Cat. Invert. Fossils Cretaceous, p. 19.

Holaster simplex Meek, 1864, Smithsonian Misc. Coll., vol. 7 (177), p. 3.

Holaster comanchesi Meek, 1864, Smithsonian Misc. Coll., vol. 7 (177), p. 3.

Holaster simplex Clark, 1891, Johns Hopkins Univ. Oirc, vol. 10, No. 87, p. 77.

Holaster simplex Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 52.

Holaster simplex Clark, 1893, U. S. Geol. Survey Bull. 97, pp. 76-78, Pis. XXVIII, figs, la-g; PI. XXXIX, figs. la-d.

Holaster computus Cragin, 1893, Geol. Survey Texas Fourth Ann. Rept., pp. 155, 156, PL XXIV, fig. 10; PL XXV,

fig. 14; PL XXVI, figs. 6-8.
Holaster nanus Cragin, 1893, Geol. Survey Texas Fourth Ann. Rept., p. 156, PL XXIV, fig. 14; PL XXVI, fig. 11.
Holaster simplex Cragin, 1893, Geol. Survey Texas Fourth Ann. Rept., p. 157, PL XXV, fig. 13.
Holaster supernus Cragin, 1893, Geol. Survey Texas Fourth Ann. Rept., pp. 157, 158.
Holaster completus Cragin, 1894, Colorado Coll. Studies, vol. 5, pp. 45, 47.
Holaster nanus Cragin, 1894, Colorado Coll. Studies, vol. 5, pp. 45, 47.

Determinative characters. — Test oblong, cordiform; upper surface much elevated, roimded,
and grooved on the anterior face; lower surface flat; apex nearly central. Ambulacra wide;
pores unigeminal, with slitlike openings in the upper portion of the column that become indis-
tinct toward the margin and upon the base. Apical system compact and not greatly elongated.
Peristome transversely oval, situated near the anterior margin. Periproct large, on truncated
posterior margin.

Dimensions. — Length 32 to 70 milUmeters; width 30 to 60 milUmeters; height 14 to 53
millimeters.

Description. — The test is oblong, cordiform, much elevated, rounded above and flattened
below. A shallow groove occupies the anterior face of the test, producing a feeble emargination
of the anterior ambitus. A slight ridge extends along the Une of the central suture of the single
interambulacrmn, which is suddenly terminated by the truncated face of the posterior margin.

The ambulacra are wide. The poriferous zones of the paired ambulacra are in the case
of the posterior pair bent more or less forward in their upper portions, and in the case of the
anterior slightly backward. The pores of the paired ambulacra have elongated openings in the
upper portion and become very small and indistinct below. The pores of the unpaired ambula-
crum are exceedingly small.

The smf ace of both interambulacral and ambulacral plates are covered by small tubercles,
between which are nimierous microscopic granules.

The apical system is compact and rather short. The four genital plates are large and
broad. The two interposed oculars are large, the remaining three very small.

The peristome is large, transversely oblong, and situated near the anterior margin. The
periproct is oval, acuminate above, and situated on the truncated posterior border.

The variations in this species are very pronounced, some of the individuals being high and
globose and others low and flat. A critical examination of a large number of specimens affords
no satisfactory criteria for the recognition of the new species established by Marcou and Cragin.

Related forms. — H. simplex is very like //. Ixvis var. planus, from the European Cretaceous,
but is more elevated and distinctly broader posteriorly.

86 MESOZOIC AXD CENOZOIC ECHINODEEMATA OF THE UNITED STATES.

Localities. — Fort Wasliita (type), Bexar County (figured specimen A), near Fort Worth, at
Preston, Grayson County (figured specimen B), on the Red Eiver, near Austin, and near El Paso,
Tex. ; near Fort Washita, Okla.

Geologic horizon. — Washita group of the Comanche series. Cretaceous.

Collections. — U. S. National Museum (8382 A); Geological Survey of Texas (B); Johns
Hopkins Univereity.

Family SPATANGID.E.

Genus ENALLASTER D'Orbigny.

Enallaster texanus (Roemer).

Plate XXXIX, figures 2a-g.

Toxaster texanus Roemer, 1849, Texas, p. 393.

Toxaster texanus Roemer, 1852, Die Kreidebildungen von Texas, pp. 85, 86, PI. X, fig. 3.

Toxaster ungula Giebel, 1853, Naturwiss. Ver. in Halle Jahresb., p. 373.

Enallaster texanus D'Orbigny, 1853-60, Paleontologie franfaise, vol. 6, p. 184, PI. DCCCL, figs. 1-7.

Toxaster texanus Conrad, 1857, TJ. S. and Mex. Boundary Survey Rept., vol. 1, pt. 2, p. 145, PI. I, figs. 2a-c.
Enallaster texanus Desor, 1858, Synopsis des ^chinides fossiles, p. 358.

Toxaster texanus Gabb, 1859, Cat. Invert. Fossils Cretaceous, p. 19.

Toxaster texanus Meek, 1S64, Smithsonian Misc. Coll., vol. 7 (177), p. 3.

Enallaster texanus Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 77.

Enallaster texanus Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 52.

Enallaster texanus Clark, U. S. Geol. Survey Bull. 97, pp. 78, 79, PL XXXIX, figs. 2a-g.

Enallaster inflatus Cragin, 1893, Geol. Survey Texas Fourth Ann. Rept., pp. 150, 151, PL XXIV, fig. 13.

Enallaster texanus Cragin, 1893, Geol. Survey Texas Fourth Ann. Rept., p. 151.

Enallaster texanus Cragin, 1894, Colorado Coll. Studies, vol. 5, p. 41.

Enallaster inflatus Cragin, 1894, Colorado Coll. Studies, vol. 5, pp. 45, 47.

Enallaster texanus Hill and Vaughan, 1898, U. S. Geol. Survey Eighteenth Ann. Rept., pt. 2, PL LIII, figs. 4a-b.

Enallaster texanus Hill, 1901, U. S. Geol. Survey Twenty-first Ann. Rept., pt. 7, p. 226, PL XXVII, figs. 4a-b.

Enallaster sp. Hill, 1901, U. S. Geol. Survey Twenty-first Ann. Rept., pt. 7, p. 283.

Determinative characters. — Test oblong, cordiform, broad in anterior portion, contracted
and truncated posteriorly, with deep anterior groove; upper surface convex, elevated; base flat,
depressed at the peristome; sides rounded; apex excentric and posterior. Ambulacra narrow
and unequal, the posterolateral pair much shorter than the others. Apical system small and
compact. Periproct situated high above the margin.

Dimensions. — Length 16 to 45 millimeters; -svidth 14 to 38 millimeters; height 9 to 27
millimeters.

Description. — The test is oblong, cordiform, and elevated. Tlie upper sm-face is convex,
with a well-defined anterior groove, narrow and slightly depressed at its head. On the posterior
face the surface is truncated to the margin. The sides are rounded and inflated. The base is
flat, except for the peristonal depression near the anterior margin and the central elevated region
extending from the same to the posterior border.

The ambulacra are narrow and very imequal. The antero-lateral pair are large and curved
backward in their upper portions. The pores are very unequal; those of the anterior zone are
smaU and near together, those of the posterior elongated, the outer nearly twice as large as the
inner series. There are about thirty-five pairs of pores in the petaloidal portion of each poriferous
zone.

The postero-lateral pair are short and quite symmetrical in structure. There are sixteen
pairs of pores in the petaloidal portions of each poriferous zone.

The anterior unpaired ambulacrmn is situated in the anterior groove and is wider than the
other areas. An elongated pore appears in the external rows on alternate plates. On the inter-
vening plates the small rows are closely approximated. In the lower portion of each column the
plates are large and oblong. A pair of minute pores occupies the lower outer corner of each.

The surface of the test is covered with a minute granulation, scattered among which are
numerous small tubercles.

CEETACEOUS ECHINODEEMATA. 87

The apical system is small and compact, and the four large genital plates are distinctly per-
forated. The right anterolateral plate occupies the center of the disk. The five small oculars
are wedged in between the genitals.

The peristome is transversely oblong and situated in a depression.

Tlae periproct is situated lugh upon the truncated posterior margin and is small and oval,
acuminate below.

Related forms. — It seems not improbable that Spatangus columhianum, described by Lea
in 1840, from the United States of Colombia, may prove to be identical, or at least very closely
related to the Texan form. The indistinct figm-e shows a different arrangement of the pores
in the anterolateral ambulacra, but it is doubtful whether it can be depended upon for such
details of structure.

Enallaster peruvianus, described by Gabb in 1876, from material obtained from Peru, seems
to be identical.

Among the European Enallasters none apparently are closely related to Enallaster texanus.

Localities. — Very common near Fredericksbm-g (type), Leon Springs (figured specimen), and
at numerous other localities in Texas, and near Inichtea, N. Mex.

Geologic horizon. — ^Trinity, Fredericksburg, and Washita groups of the Comanche series,
Cretaceous.

Collection. — U. S. National Museum (98.57).

Enallaster obliquatus Clark.
Plate XL, figures la-1.

.Enallaster obliquatus Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 52.
Enallaster obliquatus Clark, 1893, U. S. Geol. Survey Bull. 97, pp. 79, 80, PL XL, figs. la-1.

Determinative cJiaracters. — ^Test oval, cordiform; upper surface convex, flattened and
depressed anteriorly, elevated posteriorly; lower sm-face flat, with peristomial depression; apex
forward of the center. Ambulacra narrow, unequal. Surface of the plates covered with small
tubercles and intervening microscopic granulation. Ajaical system compact. Peristome trans-
versely subpentagonal. Periproct situated on truncated posterior margin.

Dimensions. — Length 49 miUimeters; width 45 miUimeters; height 26.5 millimeters.

Description. — This species has a broad cordiform test, flattened and slanting on the anterior
upper surface, whence the name obliquatus. The anterior groove is deep, wider at its head, and
cuts broadly into the anterior margin. The posterior portion of the test is elevated near the
apex and obliquely truncated toward the margin. The sides are sloping anteriorly, fuller pos-
teriorly. The base is flat with a deep pei'istomial depression.

The ambulacra are narrow and unequal. The anterolateral pair are slightly depressed
and curved backward in the upper portion. The pores are unequal, those of the anterior zone
smaU and near together, those of the posterior elongated, the outer much more so than the inner
series. There are about 40 pairs of pores in each zone.

The posterolateral pair are short and slightly depressed. The pores are more nearly equal
and about 24 pairs are found in each zone. The single ambulacrum is placed in the anterior
groove and is much wider than the paired ambulacra. The pores of the dift'erent plates vary in
size and position. The plates in the lower portions of the areas are large and oblong in form.

The surface of the test is covered with minute tubercles between wliich is a microscopic
granulation. The apical system is smaU and compact.

The peristome is transversely subpentagonal. The periproct is oval and situated high on
the truncated posterior margin.

Belated forms. — E. obliquatus is separated from E. texanus, the only other representative
of this genus from the Cretaceous deposits of the United States, by its broader depi'essed form,
more sunken anterior sulcus, and lower position of the periproct. These features seem to be
characteristic of nearly all the forms from the Glen Rose beds and perhaps should not be re-
garded as of specific value. Some specimens more or less intermediate in their characters are

88 MESOZOIC AXD CENOZOIC ECHINODERMATA OF THE UNITED STATES.

found, and it may perhaps be wiser to regard the difference as varietal rather than specific. This
species is related to E. mexicanus, described by Cotteau in 1890, from material obtained from
Mexico.

Localities. — Near Austin (type) and Glen Rose and other localities in Texas.

Geologic horizon. — Glen Rose limestone of the Trinity group, Comanche series, Cretaceous.

Collections. — U. S. National Museum (12237); Geological Survey of Texas.

Genus HEMIASTEK. Desor.

Hemiaster elegans Shmnard.

Plate XLI, figures la-c; Plate XLII, figures la-h; Plate XLIII, figures la-f.

Hemiaster elegans Shumard, 1853, Pal. Expl. Red River of Louisiana in 1852, p. 210, PL II, figs. 4a-c.

Toxaster elegans Gabb, 1859, Cat. Invert. Fossils Cretaceous, p. 19.

Toxaster elegans Meek, 1864, Smithsonian Misc. Coll., vol. 7 (177) p. 3.

Macraster texanus Roemer, 1888, Neues Jalirb., vol. 1, pp. 191-195, PI. VI, figs. 1^.

Epiaster elegans Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 77.

Epiaster elegans Clark, 1893, Johns Hopkins Univ. Circ. , vol. 12, No. 103, p. 52.

Epiaster elegans Clark, 1893, U. S. Geol. Survey Bull. 97, pp. 80-82, PI. XLI, figs, la-b; PI. XLII, figs, la-b; Pi. XLIII,

figs. la-e.
Epiaster electus Cragin, 1893, Geol. Survey Texas Fotu-th Ann. Rept., p. 152.
Epiaster elegans Cragin, 1893, Geol. Stu^ey Texas Fourth Ann. Rept., p. 152.

Epiaster elegans var. nov. prsenumtius Cragin, 1893, Geol. Survey Texas Fourth Ann. Rept., p. 152.
Epiaster elegans, Hill and Vaughan, 1898, U. S. Geol. Siu-vey Eighteenth Ann. Rept., pt. 2, PI. LVI, fig. 3.
Epiaster ehgans mu, 1901, U. S. Geol. Survey Twenty-first Ann. Rept., pt. 7, pp. 226, 251, 260, PI. XXXVI, fig. 4.

Determinative characters. — Test large, oblong, cordiform, flattened both above and below;
sides rounded, with a shallow anterior groove and truncated posterior margin. Ambulacra
subpetaloidal, depressed; poriferous zones straight, pores with elongated, slitUke openings.
Apical system small. Peristome transversely oval, situated near the anterior margin. Peri-
proct oval, situated on the truncated posterior margin.

Dimensions. — Length 30 to 110 millimeters; width 25 to 100 millimeters; height 15 to 55
millimeters.

Description. — Roemer in 1888 estabUshed a new genus and species, Macrdster texanus, for a
form that is identical with Hemiaster elegans described by Shumard in 1853. There does not
seem to be a sufficiently wide difference between the characters assigned to Macraster and those
properly belonging to Henaiaster to warrant the acceptance of the former genus for the present
species.

The test is very large and flattened on both the upper and lower surfaces. The sides are
round. The groove on the anterior face is shallow and cuts the margin lightly. The posterior
face is obliquely but not broadly truncated.

The ambulacral areas are nearly equal, depressed, with a distinct furrow on the upper sur-
face. The poriferous zones are long, wide, and straight, and the pores consist of slitlike openings.
The zones are subpetaloidal on the upper surface, reacliing quite to the upper margin of the
rounded sides. The unpaired ambidacrum is narrower than the others; the pores are smaller
and more closely approximated.

The surface of both areas is covered with minute tubercles, between which are microscopic
granules.

The apical system is small, compact, and consists of four large perforated genital plates and
five small oculars.

The peristome is transversely oval and situated near the anterior margin.

The periproct is large, oval, and situated on the truncated face of the posterior margm.

This and the succeedmg species are now referred to the genus Hemiaster, as better material
has shown that peripetalous fascioles are present although poorly developed and commonly
destroyed on most specimens.

Related forms. — H. elegans is most nearly related to H. whitei, but is separated from it by its
great size, its excessively long subpetaloidal areas, and the position of its periproct, which is on

CEETACEOUS ECHIlSrODEEMATA. 89

an obliquely truncated surface that opens downward instead of being, as in E. whitei, on a verti-
cal face that opens upward.

Localities. — ^Fort Wasliita (type), Fort Worth (figured specimen), and numerous other locali-
ties in Texas.

Geologic horizon. — ^Fort Worth limestone of Washita group, Comanche series, Cretaceous.

Collections. — U. S. National Museum (21887); Johns Hopkins University; Boston Society
of Natural Histoiy; Geological Survey of Texas.

Hemiaster whitei Clark.

Plate XLIII, figures 2a-c; Plate XLIV, figures la-h; Plate XLV, figures la-d, 2a-f.

Toxaster elegans Conrad, 1857, U. S. and Mex. Boundary Survey Kept., vol. 1, pt. 2, p. 146, PL XXI, figs, la-e.'

Epiaster whitei Clark, 1S91, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 77.

Epiaster whitei Clai-k, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 52.

Epiaster whitei C\3j^, 1893, U. S. Geol. Sun^ey Bull. 97, pp. 82, 83, PI. XLIII, figs. 2a-d; PI. XLIV, figs. la-g.

Epiaster hemiasterinits Cragin, 1893, Geol. Survey Texas Fourth Ann. Kept., p. 1.53.

Epiaster ivhitei Crsigin, 1893, GeoL Survey Texas Fourth Ann. Kept., p. 154.

Epiaster hemiasterirms Cragin, 1894, Colorado CoU. Studies, vol. 5, pp. 45, 47.

Epiaster whitei Hill, 1901, U. S. Geol. Survey Twenty-first Ann. Kept., pt. 7, p. 226.

Determinative characters. — ^Test small, cordiform; upper surface convex, elevated; lower
surface flat; sides inflated; apex forward of the center. Ambulacra moderately broad, petaloi-
dal, pores with elongated openings; anterolateral pair bent slightly backward in upper part.
Apical system subcentral. Peristome transversely oval. Periproct small, oval, situated high
on posterior border.

Dimensions. — ^Length 10 to 50 millimeters; mdth 8 to 45 millimeters; height 16 to 30
millimeters.

Description. — ^The test is small and cordiform. The upper surface is distinctly elevated, the
apex occupying a point anterior to the center. The lower surface is flat with the exception of the
peristomial depression. The sides are inflated with a well-marked groove at the center of the
anterior face and a prominent truncated surface on the posterior margin.

The ambulacra are moderately broad. The poriferous zones are subpetaloidal in their
upper part, but this feature does not continue to the margin. The pores in the paired ambulacra
are all of about equal size and equally spaced. In the unpaired ambulacrum they are smaller
and nearer together. The anterolateral pair are bent slightly backward in then- upper part.
They are distinctly larger than the posterolaterals. The interambulacra are prominent and the
surface of the plates covered with minute tubercles and microscopic granules. The apical system
is small, compact, and consists of four large perforated genital plates and five oculars. The
peristome is transversely subpentagonal and situated near the anterior margin. The periproct
is small, oval, and situated high on the truncated posterior margin.

Related forms. — In many particulars Hemiaster whitei is to be closely associated with H.
elegans. It is, however, more elevated, its ambulacral furrows are shorter, and its periproct is
differently situated. (See p. 88.)

Localities. — Duck Creek, near Denison (type), and numerous other localities m Texas.

Geologic horizon. — ^Fredericksburg group and lower part of Washita group, Comanche series,
Cretaceous.

Collections. — ^U. S. National Museum (4544, 9732, 31202); Johns Hopkins University.

Hemiaster bex4.ri Clark, n. sp.

Plate XL VI, figures la-e.

Determinative characters. ^Test small, upper surface nearly flat, elevated, lower surface
rounded; sides inflated; apex nearly central, posterolateral ambulacra veiy short, interam-
bulacra prominent. Peristome small, only slightly depressed, near anterior margin. Periproct
small, situated high on truncated surface of posterior margm.

' Figured under the name HolastcT elegant.

90 MESOZOIC AND CENOZOIC ECHINODEKMATA OF THE UNITED STATES.

Dimensions. — ^Length 22.5 millimeters; width 21.25 millimeters; height 15.5 millimeters.

Desctnption.— This small species has a broad, nearly fiat upper surface, rising toward the
center, which is slightly elevated. The lower surface is rounded, sloping from near the center in
all du-ections. The sides are inflated. ,

The ambulacra are unequal, tlie posterolateral pair being veiy short. The poriferous zones
are broad and shallow and but little depressed. The anterior ambulacrum is broad and shallow.
The surface is covered with small tubercles. The peripetalous f asciole is distinct.

The peristome is small, only slightly depressed, and near the anterior margin. The peri-
proct is small and situated high on the truncated surface of the posterior margin.

Locality. — ^Bexar County, Tex.

Geologic horizon. — Washita group of the Comanche series, Cretaceous.

Collection. — ^U. S. National Museum (S330).

Hemiaster comanchei Clark, n. sp.
Plate XL VI, figures 2a-d.

Determinative characters. — Test small to medium size, cordiform, high, lower surface flat,
sides inflated, apex forward of the center, peripetalous fasciole broad and clearly marked ; ambu-
lacra rather narrow, depressed, petaloidal, the posterolateral considerably shorter than the
anterolateral, apical system nearly central; peristome near forward margin; periproct small,
high on sloping posterior surface, showing clearly from above.

Dimensions. — Length 25 to 60 millimeters; width 22 to 50 millimeters; height 18 to 30
mUlimeters.

Description. — The test of this species is small to medium sized, cordiform in ambital outline
and high. The upper surface is somewhat inflated, the lower surface nearly flat. The sides are
inflated. The apex is forward of the center.

The ambulacra are rather narrow and depressed, the poriferous zones petaloidal but narrow,
the posterolateral pair being considerably shorter than the anterolateral. The single anterior
ambulacrum in a broad, moderately depressed sulcus. The interambulacra are covered with
numerous irregularly scattered granules. The peripetalous fascioles are broad and distinct, with
granules scattered here and there over the surface. The apical system is nearly central on the
upper surface. The peristome is transversely ovate and near the forward margin. The periproct
is small, high on sloping posterior surface, and showing clearly from above.

Related forms. — H. comanchei is the earliest of the Comanchean hemiasters and possesses
certain generalized features which suggest that it is the ancestral form from which H. whitei,
H. elegans, H. dalli, and H. calvini were derived.

Locality. — Santa Monica Springs, bed of Colorado River, 10 mUes west of Austin, Tex.

Geologic horizon. — Glen Eose limestone of Trinity group, Comanche series. Cretaceous.

Collection. — Johns Hopkins University (T 3012).

Hemiastee dalli Clark,

Plate XLVII, figures la-f .

Hemiaster dalli Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 77.
Hemiaster dalli Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 52.
Hemiaster dalli Clark, 1893, U. S. Geol. Survey Bull. 97, p. 89, PL XLVIll, figs. 2a-e.

Determinative characters. — Test cordate, subhexagonal, depressed; upper surface with
sharp ridges between the ambulacral furrows; base flat; sides rapidly decUnuig; anterior margin
deeply grooved. Ambulacra unequal, very deeply depressed on petaloidal portions; antero-
lateral pair much bent in upper part. Peristome oval, situated on vertically truncated surface
of posterior margin.

Dimensions. — Length 45 millimeters ; width 45 millimeters; height 21 miUinieters.

CRETACEOUS ECHINODEEMATA. 91

Description. — This species is much depressed, M'ith distinct marginal angles that give it a
suhhexagonal outline. Prominent ridges cross the upper surface between the ambulacral fur-
rows. The anterior sulcus cvits deeply into the test and grooves the anterior margin. The sides
decline rapidly to the flattened base. The low posterior surface has a nearly vertical tnmcation
of small area.

The ambulacra are very deeply depresssd on the upper surface, a feature much more pro-
nounced than in any other American species. The anterolateral pair are bent backward in
their upper part, and have long, deep furrows. The posterolateral pair are about one-half the
length of the anterior pair. The single ambulacrum is situated in the broad, deep, anterior
sulcus. The poriferous zones in th<^ paiied ambulacra are broad, the pores oval, those of each
pair united by a shallow furrow. In the unpaired ambulacrum the poriferous zones are narrow,
and the pores small and approximated.

The surface is covered with small tubercles with sunken areolas that increase in size toward
the base, where they are large, with distinctly perforated mamelons and crenulated bosses. A
fine microscopic granulation fiUs the interspaces.

The apical system is sunken, small, and posterior to the center of the upper surface.

The peristome is transversely oval and close to the anterior margin. The periproct is oval
and situated on the truncated surface of the posterior border.

Related forms. — The very deep ambulacral furrows and angular outlme readily separate
H. dalli from any other American species. It is not closely allied to any European form.

Locality. — Bexar County, Tex.

Geologic horizon. — Washita group of the Comanche series, Cretaceous.

Collection. — U. S. National Museum (19114).

Hemiaster calvini Clark.

Plate XLVII, figures 2a-i.

Hemiaster calvini Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 52.
Hemiaster calvini Clark, 1S93, U.S. Geol. Survey Bull. 97, pp. 30, 91, PL XLIX, figs. 2a-i.

Determinative characters. — Test oval, cordate, inflated; upper surface elevated; lower sur-
face flat; posterior margin obliquely truncated. Ambulacra moderately depressed on the upper
surface. Peristome transversely oval. Periproct oval, high on truncated posterior border.

Dimensions. — Length 21 to 38 millimeters; width 20 to 35 millimeters; height 16 to 33
millimeters.

Description. — This species has an elevated test that is oval, cordate, and broadly truncated
on the posterior margin. The anterior sulcus is shallow and produces but a feeble groove on the
anterior margin. The base is flat.

The ambulacra are narrow. The poriferous zones are broad; the petals moderately
depressed and of good length; the pores in the petaloidal portions of the paired ambulacra
elongated, slitlike, those of the unpaired ambulacrum small and approximated. Beyond the
petals the pores are very small, and occupy the lower outside corner of each plate.

The surface of the plates is covered with small perforated tubercles rather widely scattered
between which a microscopic granulation intervenes. The peripetalous fasciole is indistinct.

The apical disk is small, compact, and nearly central.

The peristome is small, transversely oval, and situated at a distance from the margin. The
pariproct is oval and situated high on the tnmcated surface of the posterior margm.

Related form.s. — H. calvini is most closely related to H. whitei, from which, however, it is
distinguished by its more elevated form and its small, narrow, anterior sulcus. The apical
system is also more excentric.

Localities. — Shoal Creek (type), near Denison, near El Paso, and other localities in Texas.

Geologic horizon. — Washita group of the Comanche series. Cretaceous.

Collections. — U. S. National Museum (12241); University of Iowa.

92 MESOZOIC AND CENOZOIC ECHINODEEMATA OF THE UNITED STATES.

Hemiaster pakastatus (Morton).
Plate XLVIII, figures la-n.

Spatangus sp. Morton, 1830, Am. Jour. Sci., 1st ser., vol. 17, p. 286.

Spatangus cor-marinum C!) Morton, 1830, Am. Jour. Sci., 1st ser., vol. 18, p. 250, PI. Ill, fig. 10.

Spatangus cor-marinum (?) Morton, 1830, Acad. Nat. Sci. Philadelphia Jour., 1st ser., vol. 6, p. 199.

Spatangus parastatus Morton, 1833, Am. Jour. Sci., 1st ser., vol. 23, p. 294.

Spatangus parastatus Morton, 1834, Synopsis Organic Remains Cretaceous, p. 77, PI. Ill, fig. 21.

Hemiaster parastatus Agassiz and Desor, 1847, Catalogue raisonne, p. 141.

Hemiaster parastatus D'Orbigny, 1847, Prodrome, vol. 2, p. 270.

Spatangus parastatus Bronn, 1848, Index palseontologicus, vol. 1, p. 1160.

Hemiaster parastatus D'Orbigny, 1853-1856, Paleontologie frangaise, vol. 6, p. 265, PI. DCCCXCIV, fig. 4.

Hemiaster parastatus Desor, 1858, Synopsis des echinides fossiles, p. 373.

Holaster parastatus Gabb, 1859, Cat. Invert. Fossils Cretaceous, p. 19.

Hemiaster (?) parastatus Meek, 1864, Smithsonian Misc. Coll., vol. 7, (177), p. 3.

Hemiaster parastatus Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, pi. 77.

Hemiaster parastatus Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 52.

Hemiaster parastatus Clark, 1893, U. S. Geol. Survey Bull. 97, pp. 83, 84, PI. XLV, figs. la-m.

Hemiaster parastatus Johnson, 1905, Acad. Nat. Sci. Philadelphia Proc, vol. 57, p. 7.

Hemiaster parastatus Weller, 1907, Cretaceous paleontology of New Jersey: Geol. Survey New Jersey, pp. 298-300, PI. XV.

Hemiaster parastatus Slocum, 1909, Field Mus. Nat. Hist. Pub. 134, Geol. ser., vol. 4, No. 1, pp. 9, 10.

Determinative characters. — Test cordiform, inflated ; upper surface elevated, with deep groove
on anterior surface and sharp ridge posteriorly that is terminated by the flat, nearly vertical,
trimcated face of the posterior margin. Ambulacral petals depressed, the anterior pair twice as
long as the posterior. Apical system small, compact. Peristome with distinct, overhanging
lip. Periproct small, situated high on truncated surface.

Dimensions. — Length 37.5 millimeters; width 37.5 millimeters; height 28.12 miUimeters.

Description. — This interesting and rather common form has a high, cordiform test, with
deep anterior sulcus and high posterior ridge on the upper surface, the latter terminated by the
high and nearly vertically truncated face of the posterior margin. The sides are rounded and
inflated. The base is flat, with the exception of the peristomial depression.

The ambulacra are very unlike. The poriferous zones are distinctly petaloidal. The petals
of the posterolateral pair are short and broad. Those of the anterolateral pair are bent back-
ward at their center, depressed, and about twice the length of the posterolateral pair. The pores
are slightly elongated. The unpaired ambulacrtim is very broad, the poriferous zones far apart,
and the pores small and approximated.

The surface is covered with small tubercles, between which are numerous microscopic
granules.

The apical system is small and situated posteriorly to the center of the upper surface. The
four genital plates are distinctly perforated and separated by the five smaU oculars.

The peristome is transversely arched and bilabiate. Tlie lower lip projects prominently.
The periproct is small and situated high on the truncated surface of the posterior margin. The
peripetalous fasciole is broad and distinct.

Related forms. — H. parastatus is most closely related to H. ungula, from which, however, it is
separated by its deeper and broader anterior siflcus, more posterior position of the apical system
and more inflated sides. It is apparently distinct from all of the many species described from
European deposits.

Localities. — Gloucester County (type), Timber Creek, and Vincentown (figtired specimen),
N. J. ; Pontotoc, Ala. (Slocum).

Geologic horizon. — Vincentown sand of Rancocas group, New Jersey, and Ripley formation,
Alabama; Upper Cretaceous.

Collections. — ^Academy of Natural Sciences of Philadelphia (1487); American Museum of
Natural History, New York; Johns Hopkins University.

CRETACEOUS ECHINODERMATA. 93

HeMI ASTER STELLA (MortOll).

Plate XLVIII, figures 2a-d.

Spatangus Stella Morton, 1830, Am. Jour. Sci., 1st ser., vol.18, p. 245, PI. Ill, fig. 11.
Spataiigus Stella Morton, 1830, Acad. Nat. Sci. Philadelphia Jour., 1st ser., vol. G, p. 200.
Spatangus Stella Morton, 1834, Synopsis Organic Remains Cretaceous, p. 78, PI. Ill, fig. 18. '
Hemiaster Stella Agassiz and Desor, 1847, Catalogue raisonne, p. 141.
Hemiaster Stella Desor, 1858, Synopsis des ^chinides fossiles, p. 373.
Hemiaster Stella Gahh, 1859, Cat. Invert. Fossils Cretaceous, p. 19.
Hemiaster (?) Stella Meek, 1864, Smithsonian Misc. Coll., vol. 7 (177), p. 3.

Hemiaster loetherhyi De Loriol, 1887, Recueil zool. Suisse, vol. 4, pp. 391-394, PI. XVII, figs. 5-8.
Hemiaster incrassatus Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 77.
Hemiaster Stella Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 52.
Hemiaster stella Clark, 1893, U. S. Geol. Survey Bull. 97, pp. 84, 85, PI. XLVI, figs. la-d.
Hemiaster Stella Johnson, 1905, Acad. Nat. Sci. Philadelphia Proc, vol. 57, p. 7.

Hemiaster stella Weller, 1907, Cretaceous paleontology of New Jersey: Geol. Survey New Jersey, pp. 300-301, PI. XVI,
figs. 1-4.

Determinative characters. — Test small, oval, inflated, rounded before, truncated behind; upper
surface elevated posteriorly, sloping anteriorly; anterior groove short, not reaching the ambitus.
Ambulacra straight, depressed above. Apical system excentric and posterior. Peristome
bilabiate and near the anterior border. Periproct small, high above posterior margin. Fas-
ciole distinct.

Dimensions. — Length 25 millimeters; width 21.9 millimeters; height 15.6 milhmeters.

Description. — This form was originally described by Morton in 1S30, later, in 1833, it was
considered by the same writer as the young of the species for which the name parastatus was then
proposed. H. incrassatus is only a large form of H. stella and Hemiaster wetherhyi is also appar-
ently identical with the same species.

The test is small, oval, and cordate, and much elevated on the posterior portion of the upper
surface. The whole test has a rounded, full outline, that is much increased by the absence of
the usually deep anterior groove, which in H. stella does not reach the margin. The posterior
border is nearly vertically truncated.

The ambulacra are depressed in the petaloidal portions which, in the anterolateral pair,
are twice as long as in the posterolateral. The poriferous zones are narrow; the pores have
transverse slitlike openings. The unpaired ambulacrum is situated in the anterior groove.

The surface of the test is covered with innumerable small tubercles between which is a
microscopic granulation. The peripetalous fasciole is very distinct, oval, and passes with a
regular curve about the ends of the petaloidal areas. The surface of the test is covered with
minute tubercles, between which are microscopic granules. The apical system is small and is
situated posteriorly to the center of the upper surface of the test.

The peristome is transversely oval, bilabiate, and placed near the anterior margin. The
periproct is small, oval, and is situated at the upper part of the truncated posterior margin.

Belated forms. — The shallow anterior groove which falls short of the margin and the fuU
elevated test readily distinguish it from other species.

Localities. — Gloucester (type), near Blackwoodstown (figured specimen), and Timber
Creek, N. J.

Geologic horizon. — ^Vincentown sand of Rancocas group, Upper Cretaceous.

Collections. — ^U. S. National Museum (2208); Academy of Natural Sciences of Philadelphia;
Johns Hopkins University.

Hemiastek ungula (Morton).

Plate XLVIII, figures 3a-g.

Spatangus sp. Morton, 1830, Am. Jour. Sci., 1st ser., vol. 17, p. 286.
Spatangus ungula Morton, 1833, Am. Jour. Sci., 1st ser., vol. 23, p. 131, PI. X, fig. 6.
Spatangus ungula Morton, 1834, Synopsis Organic Remains Cretaceous, p. 78. PI. X, fig. 6.
Micraster ungula Agassiz and Desor, 1847, Catalogue raisonne, p. 141.
Spatangus ungula Bronn, 1848, Index pateontologicus, vol. 1, p. 1161.
39800°— 15 7

94 MESOZOIC AND CENOZOIC ECHINODERMATA CF THE UNITED STATES.

Holastcr imgula Gabb, 1859, Cat. Invert. Fossils Cretaceous, p. 19.
Ilcmiaster ungula Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 77.
Hemiaster ungula Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 52.
Eemimler imgula Clark, 1893, U. S. Geol. Survey Bull. 97, pp. 85, 86, PI. XLVI, figs. 2a-g.
Hemiaster ungula Johnson, 1905, Acad. Nat. Sci. Philadelphia Proc, vol. 57, p. 7.

Hemiaster ungula Weller, 1907, Cretaceous paleontology of New Jersey: Geol. Survey New Jersey, pp. 301-302, PI. XVI,
figs. 5-11.

Determinative characters. — ^Test oval, cordiform, elevated; upper surface inflated, elevated
posteriorly; lower surface flat; sides sloping; anterior sulcus narrow and deep. Ambulacra
narrow; poriferous zones straight, depressed, petaloidal. Peripetalous fasciole deeply bent
inward between the anterior and posterior paired ambulacra. Apical system small, compact.
Peristome transversely oval near anterior margin. Periproct oval, supramarginal.

Dimensions. — Length 31.25 millimeters; width 28 millimeters; height 21.9 millimeters.

Description. — This species has an oval, cordate test, that is very much elevated in the
posterior portion. Anteriorly the upper surface slopes rapidly, so that the margin is much
thinned down, losing the full round aspect of the previously described forms. The sharp ridge
on the posterior portion of the test is terminated by a nearly vertical truncation of the posterior
margin. The base is flat, save for the peristomial depression.

The ambulacra are narrow. The poriferous zones are petaloidal, straight, and deeply
depressed on the upper surface. The unpaired ambulacrum is placed in the anterior sulcus and
but slightlj' exceeds the other areas in -width. The petals of the anterolateral pair are twice
the length of the posterolateral. The pores of the paired ambulacra are elongated and sepa-
rated, those of the single ambulacrum small, oval, and approximated.

The surface of the test is covered with small tubercles, between which are numerous minute
granules. The peripetalous fasciole is distinct and bent outward between the anterior and
posterior paired ambulacra.

The apical system is small and situated posterior to the center of the upper surface. The
right anterolateral genital plate is very large and widely separates the posterior pair of oculars.
The posterolateral genitals have large perforations.

The peristome is transversely oval, bilabiate, with a prominently projecting lower lip.
The periproct is large and is situated at the upper part of the truncated face of the posterior
margin.

Related forms. — ^It is separated from H. parastatus, with which it is found, by the narrower
anterior groove, more central apical system, less inflated sides and sharper posterior keel.

Localities.— ChesaTpeake & Delaware Canal (type), and Timber Creek and Vincentown, N. J.

Geologic horizon. — ^Vincentown sand of Eancocas group, Upper Cretaceous.

Collections. — Academy of Natural Sciences of Philadelphia (1503); American Museum of
Natural History, New York; Johns Hopkins University.

Hemiaster texanus Roemer.

Plate XLIX, figures la-j.

Hemiaster texanus Roemer, 1849, Texas, p. 393.

Hemiaster texanus Roemer, 1852, Die Kreidebildungen von Texas, p. 85, PI. X, fig. 4.

Hemiaster americanus Gabb, 1853, Naturwiss. Ver. in Halle Jahresb., pp. 372, 373.

Hemiaster texanus Gabb, 1859, Cat. Invert. Fossils Cretaceous, p. 19.

Hemiaster texanus Meek, 1864, Smithsonian Misc. Coll., vol. 7 (177), p. 3.

Hemiaster texanus Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 77.

Hemiaster texanus Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 52.

Hemiaster texanus Clark, 1893, U. S. Geol. Survey Bull. 97, pp. 86, 87, PI. XLVII, figs. la^i.

Hemiaster texanus Cragin, 1893, Geol. Survey Texas Fourth Ann. Rept., p. 155.

Hemiaster texanus Aguilera, 1897, Inst. geol. Mexico Bol. Nos. 4, 5, 6, p. 215.

Hemiaster texanus Hill and Vaughan, 1898, U. S. Geol. Survey Eighteenth Ann. Rept., pt. 2, PI. LXI, figs, la, lb.

Hemiaster ? texanus Bos^, 1899, Inst. geol. Mexico Bol. No. 3, p. 11.

Hemiaster texanus Hill, 1902, U. S. Geol. Survey Twenty-first Ann. Rept., pt. 7, PI. XLV, fig. 5.

CRETACEOUS ECHINODERMATA. 95

Determinative characters. — Test oval, cordate, declining anteriorly, elevated slightly posteri-
orly; anterior sulcus broad and deep, producing groove in margin. Ambulacra broadly de-
pressed on upper surface; antero-lateral pair bent backward in upper part; unpaired ambula-
crum very broad. Apical system compact, the four genitals distinctly perforated. Peristome
large, transversely oval, bilabiate. Periproct large, oval, at center of truncated surface of
posterior margin.

Z>imens'io?is. -^Length 22 to .38 millimeters; ^vidth 21 to 36 millimeters; height 15 to 20
millimeters.

Description. — This important species is broadly cordate and slightly depressed on the upper
surface ; base flat. Posterior to the apex there is a sharp ridge that declines gradually toward the
obliquely truncated margin. Anteriorly the upper surface declines toward the anterior border.

The ambulacra are broad, very unequal, and depressed in the petaloidal portions. The
poriferous zones are broad, the pores of the paired ambulacra elongated, those of the single ambu-
lacrum round and apj^roximated. The petals of the anterolateral pair are bent backward in
their upper part and are nearly twice the width of the posterolateral pair. The single ambula-
crum is very broad, the poriferous zones widely separated.

The surface of the test is covered with small tubercles that are perforated and for the most
part crenulated. A microscopic granulation fills the intertubercular space.

The apical system is small and compact and situated near the center. The four genital
plates are distinctly perforated; the right anterolateral is larger than the others and serves as
the madreporite. The five oculars are wedged between the genitals and are deeply cut by the
upper portions of the ambulacra.

The peristome is large, transversely oval, and bilabiate. The periproct is large, oval, and
situated in the center of the truncated surface of the posterior margin.

Related forms. — Under the name of Hemiaster americanus, Giebel pubhshed in 1853 the
description of a new species of Hemiaster which he states can be with difficulty distinguished
from H. texanus. It is considered identical in the present report since the differences seem
hardly to warrant the estabhshment of a new species. Periaster australis, described by Gabb
from Peru, as far as the figures and description show, must be a Hemiaster, and to all appear-
ances is closely allied if not identical ^vith H. texanus.

Localities. — At waterfall of Guadalupe below New Braunfels (type), Fairview (figured speci-
men), and Austin, Tex.

Geologic horizon. — Austin chalk. Upper Cretaceous.

Collections. — U. S. National Museum; Johns Hopkins University (T 3013).

Hemiaster humpheeysanus Meek and Hayden.
Plate XLIX, figures 2a-f.

Hemiaster (?) humphreysanus Meek and Hayden, 1857, Acad. Nat. Sci. Philadelphia Proc, vol. 9, pp. 147, 148.

Hemiaster (?) humphreysanus Gabb, 18.59, <"at. Invert. Fossils Cretaceous, p. 19.

Hemiaster (?) humphreysanus Meek, 1864, Smithsonian Misc. Coll., vol. 7 (177), p. 3.

Hemiaster humphreysanus Meek, 1876, U. S. Geol. and Geog. Survey Terr. Final Rept., vol. 9, pp. 5, 6, PL X, figs. la-g.

Hemiaster humphreysanus Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 77.

Hemiaster humphreysanus Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 52.

Hemiaster humphreysanus Clark, U. S." Geol. Survey Bull. 97, p. 88, PI. XLVIII, figs, lar-f.

Determinative characters. — Test oval, cordate; upper surface high, flat, with broad, vertical
truncation on posterior margin, and long anterior groove; base flat; sides rounded. Ambulacra
in deep furrows that reach to the edge of the elevated sides. Apical system large and compact,
posteriorly situated. Peristome small, transversely oval, and bilabiate. Periproct oval, situ-
ated high on posterior margin.

Dimensions. — Length 32.5 millimeters; width 31.5 millimeters; height 20.5 millimeters.

Description. — The absence of distinct fascioles on the type specimens of this species caused
Meek and Hayden to place it doubtfully in the genus Hemiaster, to which beyond doubt it belongs.
The test is fuU, the sides rounded, and the high upper surface distinctly flattened. The base is

96 MESOZOIC AND CENOZOIC ECHINODEEMATA OF THE UNITED STATES.

also flat, vrith the exception of the peristomial depression. The situation of the apex so far pos-
terior to the center of the upper surface produces a long anterior sulcus, that grooves the anterior
margin. A high, vertically truncated surface terminates the posterior margin.

The ambulacra are broad, very unequal, and deeply depressed on the upper surface. The
petals of the posterolateral pair are very short, those of the anterolateral very long, the latter
quite three times the length of the former. The unpaired ambulacrum occupies the long anterior
sulcus. The anterolateral pair are bent backward in the upper part and forward in the lower.
The poriferous zones are broad, the pores distinct and oval. Since much of the surface of the
test has sufi'erecl removal the character of the tubercles and granules can not be fully determined.

The apical system, which in the specimen examined has been largely destroyed, was evi-
dently large, compact, and situated far posterior to the center of the upper surface.

The peristome is small and situated near the anterior margin. The periproct is oval and
situated on the vertically truncated surface of the posterior margin.

Related forms. — H. Jiumphreysaniis is a unique form and is not related to any species of
Hemiaster hitherto described.

Locality. — One hundred and fifty miles from the mouth of tlie Yellowstone River in Mon-
tana (Meek and Hayden).

Geologic horizon. — Pierre shale, of Montana group. Upper Cretaceous.

Collection.— U . S. National Museum (.331).

Hemiaster californicus Clark.

Plate L, figures la-d.

Hemiaster californicus Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 77.
Hemiaster californicus Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 52.
Hemiaster californicus Clark, 1893, U. S. Geol. Survey Bull. 97, p. 90, PI. XLIX, figs. la-c.

Determinative characters. — Test small, subquadrate, depressed; upper surface flat, with
shallow anterior sidcus, sloping sides, and low truncated posterior margin; lower surface flat.
Ambulacra depressed, in shallow furrows. Apical system small, postei'ior to center. Peristome
transversely oval near anterior margin. Periproct situated on the low truncated surface of the
posterior margin.

Dimensions. — Length 28 mUlimeters; width 27 millimeters; height 11 mdlimeters.

Description. — This form has the details of its structure poorly preserved in the specimens
examined, although it belongs, beyond much doubt, to the genus Hemiaster. The test is small,
much depressed, and subquadrate in ambital outline. It is broader anteriorly, Mith a feeble
groove in the center of the anterior margin. The posterior portion of the test is but sHghtly
more elevated than the anterior, and the truncated margin is low and narrow. The base is flat,
with the exception of the peristomial depression.

The ambulacra are but slightly depressed in the petaloidal portions. The poriferous zones
are broad, and the oval pores are united by shallow furrows. The apical system is smaU and
situated shghtly forward of the center. The peristome is transversely oval and situated near
the anterior margin. The periproct is small, oval, and situated on the low, truncated surface of
the posterior border.

Related forms. — From its shallow ambulacral furi-ows, Hemiaster californicus may be com-
pared to H. humphreysanus, but is readily separated from it because of its more central apical
system and its depressed form.

Locality. — Redding, Shasta County, Cal.

Geologic horizon. — Chico formation. Upper Cretaceous.

Collection.— U. S. National Museum (31203).

Hemiaster beecheri Clark, n. sp.

Plate L, figures 2a-c.

Determinative characters. — Test large, cordiform, elevated; upper surface inflated, depressed
posteriorly; ambulacra broadly depressed on dorsal surface, anterior ambulacrum in broad
sulcus.

CRETACEOUS ECHINODEKMATA. 97

Dimensions. — Length 70 (?) millimeters; width 59 millimeters; height 41 miUimetere.

Description. — This large species is represented by a single specimen. The test is cordiform
in ambital outline and elevated. The upjDer surface is much inflated, sloping rapidly to the sides
and toward the posterior margin, which is much depressed. The ambulacra are deeply de-
pressed, in broad grooves which distinctly affect the ambital outline. The interambulacra form
projcctmg ridges, the posterior interambulacrum producing a sharp crest. The apical sj^stem
is situated in a pronounced apex anteriorly. The peristome is located in a well-marked depres-
sion near the anterior margin.

Localiti/. — Sage Creek, S. Dak.

Geologic horizon. — Pierre shale of Montana group, Uppc r Cretaceous.

Collection. — Peabody Museum, Yale University (1863).

Hemiaster lacunosus Slocum.

Plate L, figures 3a-d; Plate LI, figures la-i.

Eemiaster lacunosus Slocma, 1909, Field Mus. Nat. Hist. Pub. 134, Geol. ser., vol. 4, No. 1, pp. 10, 11, PI. II, figs. 1-7.

Determinative characters. — Test small, indistinctly cordate, upper surface slightly convex,
elevated posteriorly; sides inflated; lower surface nearly flat. Ambulacra narrow, poriferous
zones not deeply depressed the posterolateral pair being quite short. Peripetalous fasciole
distinct. Peristome large, near anterior margin. Periproct high on posterior tnmcated surface.

Dimensions. — Length 17.8 to 2.3.4 mUlimeters; width 16.3 to 23.6 millimeters; height 11.8
to 17 millimeters.

Description. — Slocum says:

Test small, indistinctly cordate, ventral surface moderately convex, dorsal surface convex, strongly elevated in the
posterior interambulacral area and gradually sloping with an indistinct anterior sulcus; anterior and lateral borders in-
flated, posterior margin truncated. Ambulacral areas petaloid, with straight petals situated in depressions of the surface,
the anterolateral pair nearly twice as long as the posterolateral pair; poriferous zones of the paired petals wide, pores
transversely elongate and situated far apart. Anterior petal longer but narrower than the others and situated in a
deep depression which grades into an indistinct anterior sulcus; poriferous zones of tliis petal narrow and far apart;
pores small, round, and separated by a tubercle. Interambulacral areas broad and composed of large plates. Surface
of the test covered with a multitude of small tubercles with sunken areoles that increase in size toward the peristome.
The tubercles have perforated mamelons and crenulated bosses, the interspaces being filled with microscopic granula-
tions. Peripetalous fasciole wide and distinct, moderately bent inward between the petaloid areas except the two
posterior ones. Apical disk sunken, small, and situated somewhat posterior to the center of the dorsal surface, the four
genital plates distinctly perforated and separated by five small radial plates. Right anterior genital plate large, convex
and forming the madreporite. Peristome transversely arched, bilabiate, with prominent labrum. Periproct about
the size of the peristome, elongated vertically and situated near the top of the posterior truncation.

Related forms. — H. lacunosus resembles H. parastatus in general form and proportions, but is distinguished from that
species by its smaller size and by the sunken areoles of the tubercles. Moreover, the posterior interambulacral area is
rounded, wliile in H. parastatus it is in the form of a ridge. H. lacunosus is similar to H. stella in size, but differs from
it in the shape of the fasciole, the sunken areoles and the form of the anterior margin. It resembles H. dalli in having
sunken areoles, but in general form these two species are quite dissimilar. The specific name adopted refers to the
sunken areoles by wliich the species is distinguished.

Locality. — Pontotoc and Houston, Miss.

Geologic horizon. — Ripley formation. Upper Cretaceous.

Collections.— v. S. National Museum (31204); Field Museum (P 10342).

Hemiaster kummeli Clark.

Plate LII, figures la-c.

Hemiaster lummeli Clark, 1907, in Weller, Cretaceous paleontology of New Jersey: Geol. Survey New Jersey, pp
303-304, PI. XVII, figs. 1-3.

Determinative characters. — Test cordate, slightly elevated. Upper surface nearly flat, with
wealdy depressed petaloidal areas; the lower surface flat. Peristome with distinct overhano-ino-
lip.

Dimensions. — Length 30 to 55 millimeters; width 30 to 40 millimeters; height about 20
millimeters.

98 MESOZOIC AND CENOZOIC ECHINODEEMATA OF THE UNITED STATES.

Description. — This species is represented by numerous flattened casts, none of which show
clearly the original form of the test, although it is apparently somewhat flatter than the other
New Jersey Cretaceous Hemiasters. The test is relatively large. It is but slightly elevated
with a somewhat flattened upper surface.

The ambulacra are pronounced, with weakly depressed petaloidal areas. The unpaired,
posterior interambulacrum is nearly flat with a low truncated posterior surface. The petals of
the posterolateral pair are relatively long and narrow and less than twice the length of the
anterolateral pair. The unpaired ambulacrum is not deeply depressed and does not form a
pronounced sulcus on the anterior margm. The apical system is small but not as strongly
excentric as in some of the other Cretaceous species. The peristome has a distinct overhanging
lip. The peripetalous fascicles can not be seen.

Related forms. — This species is related to both H. imrastatus and H. welleri. From the
former it is separated by its shallower and narrower ambulacral petals and less elevated form;
from the latter by its longer and narrower posterolateral ambulacral petals and flatter form.

Locality. — LoriUard clay pits near Keyport, N. J.

Geologic horizon. — Woodbury clay of Matawan group, Upper Cretaceous.

Collections. — Geological Survey of New Jersey; Johns Hopkins University.

Hemiaster welleri Clark.
Plate LII, figures 2a-c.

Hemiaster welleri Clark, 1907, in Weller, Cretaceous paleontology of New Jersey: Geol. Survey New Jersey, pp. 3(®-
303, PL XVII, figs. 4-6.

Determinative characters. — Test cordifoma, inflated; upper surface only slightly elevated
posteriorly; lower sm-face flat; sides rounded. Ambulacra depressed. Apical system smaU.
Peristome vnth distinct overhanging Up. Periproct small, high on posterior truncated surface.

Dimensions. — Length 27 millimeters; width 24 millimeters; height 17 millimeters.

Description. — ^This species has afforded few specimens, and those for the most part casts, but
it is evidently distinct from the other forms described. The test is moderately high, clearly cor-
dif orm, and with depressed ambulacra. The anterior sulcus is broad and clearly defined but does
not deeply indent the anterior ambitus. The posterior ridge is not greatly accentuated and ter-
minates in a well-defined, trimcated posterior sm-face. The sides are rounded. The lower sur-
face is slightly inflated.

The ambulacra are moderately depressed in their petaloidal portions, the posterolateral pair
being considerably shorter than the anterolateral, although the difference is less marked in this
species than in the other New Jersey Cretaceous Hemiasters. The anterior ambulacrum is in a
broad shallow groove that largely disappears before the ambitus is reached.

The apical system is small and imperfectly shown on the casts from which its characters can
be alone obtained.

The peristome is of moderate size with distinct overhanging lip. The periproct is small and
situated high on the truncated posterior surface.

Related forms. — Hemiaster welleri is related to H. parastatus from which, however, it is sepa-
rated by its less deeply depressed ambulacral furrows and less elevated upper surface. It also
shows points of resemblance to H. Tcummeli from which, however, it is separated by its lower
posterolateral ambulacral petals and less elevated posterior ridge on the upper sm-face.

Localities. — Railroad cut 1 mile south of Lower Jamesburg (type) ; 3 miles east of James-
burg; Reeves clay pit; Lenola; bluff east of Atlantic Highlands, N. J.

Geologic horizon. — ^Merchantville clay of MataM'an gi-oup and Navesink marl of Moimiouth
group, Upper Cretaceous.

Collections. — Geological Survey of New Jersey; Johns Hopkins Univei-sity.

CRETACEOUS ECHINODEKMATA. 99

Genus L.INTHIA Merian.

LiNTHIA TUMIDULA Claik.

Plate LIII, figures la-i.

Linthia tumidula Clark, 1891, Joluis Hopkins Univ. Circ, vol. 10, No. 87, p. 77.
Linthia tumidula Clark, 1893, Johns Hopkins Univ. Circ, vol. 12, No. 103, p. 52.
Linthia tumidula Clark, 1893, U. S. Geol. Survey Bull. 97, pp. 91, 92, PI. I, figs. la-i.

Linthia tumidula Weller, 1907, Cretaceous paleontology of New Jersey: Geol. Sur\'ey New Jersev, pp. 304-305, PI.
XVIII, figs. 1-9.

Determirmtive characters. — Test oval, cordifonn, elevated; apex central; posterior border
obliquely truncated, anterior portion grooved by narrow sulcus; sides sloping. Anibulacral
furrows long, straight, depressed; poriferous zones broad, pores oval. Apical system small,
nearly central. Periproct on truncated posterior border. Peripetalous and lateral fascicles
distinct.

Dimensions. — Length 53 millimeters ; width 50 miUimeters ; height 28 milhmeters.

Description. — This .large form has an elevated test, with flattened, sloping sides, oval outline,
and a narrow, moderately depressed, anterior sulcus that grooves the anterior margin. The base
is flat, except for the peristomial depression.

The ambulacra are narrow and fm-row for a long distance the upper surface of the test to a
moderate depth. The poriferous zones are broad and straight. The pores are large and oval,
and those of each pau- connected by a shallow fmTow. The anterolateral jietals reach far down
the sloping sides and are about one and one-haK times as long as the posterolateral pair.

The surface of the test is covered with minute, perforated tubercles that are much longer on
the base than on the upper surface. A microscopic granulation fills the space between the tuber-
cles. Both the peripetalous and lateral fascicles can be readily traced. The apical system is
small, nearly central, and slightly depressed. The peristome is transversely oval and situated
near the anterior margin. Tlie periproct is small, oval, and situated but a short distance above
the posterior margin.

Localities. — Timber Creek and Vincentown, N. J.

Geologic horizon. — Vincentown sand of Rancocas group. Upper Cretaceous.

Collections. — American Museum of Natural History, New York; Boston Society of Natural
History; Johns Hopkins University.

Linthia variabilis Slocum.
Plate LIV, figures la-1.
Linthia variabilis Slocum, 1909, Field Mus. Nat. Hist. Pub. 134, Geol. ser., vol. 4, No. 1, pp. 12-14, PI. Ill, figs. 1-11.

Determinative characters. — Test cordate, upper surface elevated, under surface nearly flat,
sides inflated, apex nearly central. Ambulacra in relatively deep depressions. Peristome near
anterior margin. Periproct near top of posterior truncation.

Dimensions. — Length 17. 1 to 31.6 millimeters; width 16.0 to 29.1 millimetei-s; height 10.1
to 19.6 millimeters.

Description. — Slocum says :

Test distinctly cordate, truncated posteriorly, ventral surface depressed convex, dorsal surface elevated, forming
a sharp ridge in the posterior interambulacral area. Sides inflated and eloping to the lateral and anterior margins;
posteriortruncationslightly concave and the angle between the truncation and the base line varying from ,77° to 90°.
Ambulacral areas straight, petaloid, situated in comparatively deep depressions of the dorsal surf.ice. Anterolateral
pair about one and one-half times the length of the posterolateral pair, poriferous zones of these fom- petals wide, pores
elongated and slitlike. Each pair of pores connected by a shallow groove and the pore near the border of the
petal the larger. Unpaii'ed anterior ambulacral area situated in a deep depression the continuance of which forms a
sulcus in the anterior margin. Poriferous zones of this area narrow and situated far apart. Pores round and each pair
separated by a tubercle. Interambulacral areas broad and composed of large plates. Surface of the test covered with

100 MESOZOIC AND CENOZOIC ECHINODEEMATA OF THE UNITED STATES.

minute perforated tubercles having crenulated bosses. The tubercles increase in size ds they approach the peristome.
Interspaces filled with small tubercles and microscopic granulations. Both peripetalous and lateral fascioles are clearly-
defined, peripetalous fasciole decidedly bent inward between the anterolateral and posterolateral petals and somewhat
less so between the other petals. Apical system situated in the center or somewhat anterior to the center of the dorsal
surface, small, depressed, having the four genital pl-ites perforated and separated by five small radials. Peristome
transversely elliptical, situated near the anterior margin. Labrum prominent. Periproct somewhat elongated ver-
tically and situated near the top of the posterior truncation.

Related forms. — L. tumidula, the only other species of tliis genus hitherto described from
the ^Vmerican Cretaceous, is so unlike L. variabilis that detailed comparison is imnecessary.
Localities. — Onemile Run, Pontotoc, and Tippah County, Miss.
Geologic liorizon. — Ripley formation, Upper Cretaceous.
Collection. — Field Museum, Chicago (P 10457).

PART II.— THE CENOZOIC ECHINODERMATA.

By William Bullock Clark and Mayville W. Twitchell.

INTRODUCTION.

GEOLOGIC AND GEOGRAPHIC RANGE.

The Cenczoic Echinodennat a discussed in tlie succeeding pages, although largely confined to
the Eocene, are by no means absent from later deposits. The Eocene forms are very abundant
and embrace some of the most diagnostic fossils of that age, but they are less common than
in the Cretaceous. They are found at several Eocene horizons on the Atlantic and Pacific coasts,
but are more numerous and characteristic in the Eocene of the South Atlantic and Gulf Coastal
Plain, where they occur in large numbers. Nearly all that have been collected belong to the
gi-oup Echinoidea, although representatives of Crinoidea, Asteroidea, and Holothuroidea have
been found. Among the echinoid genera recognized are Cidaris, Coelopleurus, Echinocyamus,
Fibularia, ScuteUa, Mortonella, Periarchus, Clypeaster, Echinanthus, Cassidulus, Breynella,
Echinolampas, Hemipatagus, Brissopsis, Linthia, Schizaster, Eupatagus, Macropneustes, and
Sar sella.

The Oligocene strata of the South Atlantic and Gulf areas have in few places been satisfac-
torily delimited from the Eocene, so that the age of some of the echinoid material can not be
determined with certainty. Among the known Oligocene genera of the South Atlantic and Gulf
areas are Cidaris, Echinocyamus, Laganum, Amblj^^iygus, Oligopygus, Cassidulus, Echinolampas,
Agassizia, Schizaster, and Eupatagus. The great majority of the foi-ms come from Florida.
The Oligocene deposits of California have also furnished specimens of Cidaris.

The Miocene deposits of both the Atlantic and Pacific coasts have afforded a considerable
number of echinoderms, chiefly ecliinoids. The Atlantic coast Miocene contains Ophiodemia ( ?)
Cidaris, Coelopleurus, Psammechinus, Scutella, MeUita, Encope, Cassidulus, Agassizia, Brissus
Plagionotus, and Echinocardium. The Pacific coast Miocene has furnished Asterias, Amphiura,
Cidaris, Scutella, Dendraster, Astrodapsis, Scutaster, Clj^ieaster, and Linthia.

The Pliocene deposits contain very few echinodenns. On the South Atlantic coast from
the CaroUnas southward a few forms have been recognized, among them Strongylocentrotus
Encope, and Diplothecanthus. On the Pacific coast Dendraster, Astrodapsis, and Schizaster ( ?)
are found. The Miocene and Phocene echinoids of the Pacific coast have been found to be of more
than ordinary value in the determination of geologic horizons. This is due to their limited
geologic range and to the fact that, where present at all, they are usually abundant and well
preserved.

The Pleistocene deposits likewise have furnished very few echinoderms, and those for tlie
most part of species living in the adjacent seas. Among those recognized from the Atlantic
border have been Asterias, Strongylocentrotus, MeUita, Moira, and Toxopneustes. On the
Pacific coast, on the other hand, several species of Strongylocentrotus and Dendraster are
found.

The absence of species identical with those of other continents and particularly of Europe
renders it impossible to attempt detailed correlation of American and foreign horizons. Genera
represented in the main divisions of the Cenozoic in America are with scarcely an exception
similar to those typical of the same divisions elsewhere.

The accompanying tables show the stratigi-aphic jjosition of the more important American
Cenozoic formations, the geologic distribution of the Cenozoic Echinodermata of the United
States, and the distribution of eastern Gulf Eocene and Oligocene Echinodermata.

101

102

MESOZOIC AND CENOZOIC ECHINODERMATA OF THE UNITED STATES.

Stratigraphic position of the more important American Cenozoic/ormatio7is.
[Vertical parallel liaes indicate formations whicli occur in separate areas and wliose exact equivalence is not established.]

Series.

Pacific border
(Calilomia).

Eastern Gulf area. 1 South Atlantic border.

Middle Atlantic border.

Pleistocene

San Pedro

a _ (Satilla
0-° lOkefenokee

1 Pamlico
Talbot

Chowan

Wicomico

Sunderland

: Coharie

PUocene?

Lafayette ?

Lafayette?

Lafayette

■

PUocene

Merced
San Diego

Caloosahatchee || Nashua

Waccamaw

Waccamaw

Miocene

San Pablo
Santa Margarita
Monterey
Vaqueros

Pascagoula

Jacksonville || Chootawhatchee

DupUn
Edistol Marks Head

1
1

Yorktown
St. Marys

Choptank [| Cohansey
Calvert |, Kirk^vood

Oligocene

San Lorenzo

(Shoal River
^•^a Alum Bluff -^ Oak Grove
&oo{ Ichipola

Chattahoochee |I Tampa

. (Vicksburg

Alum Bluff

[Chattahoochee
Vicksburg

Eocene

Tejon
Martinez

m '^ [jackson

(Gosport
Claibome{ Lisbon

TaUahatta
Hatehetigbee

«Ucox ^Tuscahoma
Nanafalia
Naheola

Midway .^Sucaniochee
Clayton

Jackson [ Cooper
Claibome{S-te«,,

Wilcox II Williamsburg

Midway || Black Mingo

Castle Hayn^

Trent

g ^ (Nanjemoy
rt "^ [Aquia

Shark River

Geologic distribution of the Cenozoic Echinodermata of the United States.

Eocene.

Oligo-
cene.

Miocene.

Pliocene.

Pleisto-
ctn^

Crinoidea:

Dicyclica —
Flexibilia—
Finnata—

Antedoniae —

Ste Hero idea:
Asteroidea —

Cryptozonia—

Aster iid8&—

X

X

A-^terias lincki Miiller

. .

X

Ophiuroidea—
Zygophiurse —

0 ph iodermat id ce —

X
X

Amphiuridtc —

1

Echinoidea:

Regularia endobranchiata—
Cidaroidea —

Cidaridje—

X
X
X

X
X
X
X
X
X
X
y

Cidaris moereus de Gregorio

Cidaris ordinatus de Gregorio

Cidaris blandis de Gregorio

X
X
X
X

Cidaris thouarsii (?) Valenciennes

X

INTRODUCTION.

Geologic distribution of the Cenozoic Echinodermata of the United States — Continued.

103

Eocene.

Oligo-
cene.

Miocene.

Pliocene.

Pleisto-
cene.

Echinoidea— Continued.

Regularia ectobranchiata—
Diademoidea—
Arbacina—

Arbaciidse —

Coelopleums infulatus (Morton)

X

Coelopleums aldriohi Clark

X

Coelopleurus improoerus ( Conrad)

X
X
X

Coelopleums sloani Clark

Diademina—

Cyphosomatida^ —

Orthcchinus pretiosus Clark

X

X
X

Echintna—

Triplechinida? —

Echinus exerceus de Gregorio

Echinus ( ?) sp

Gagaria amencana

XX

Psammeehinus philanlhropus (Conrad J

X
X

Fsammechinus exoletus MeCrady

Toxopneustes v irgiegatus ( Lamarck)

X

Strongylocentrotida?—

Stroncrvlocentrotus drobachiensis (Miiller)

X

Strongylocentrotus franciscanus A . Agassiz

X
X

Irregular ia-
Gnathostomata—
Clypeastrina—
Fibulariidae —

Echinocyaraus parvus Emmons

X
X
X

Echinocvamiis texanus Twilchell

Echinocvamus vaughani Twitchell

X

Sismondia (?) plana Conrad

X

Sismondia (?) amoldi Twitchell

X
X

E?i

Sismondia (?) coalingaensis Twitchell

Fibularia meridionalis (Meyer)

X
X

Laganidje—

Laganum (?) crustuloides (Morton)

X
X
X
X
X

Laganum aroherensis Twitchell 1

Laganum Iloridanum Twitchell

ScutellidE^

X
X
X
X

Scutella tuomey I Twitchell

Scutella (?) conradi (Cotteau)

Scutella andersoni Twitchell

X

X
X
X
X
X

Scutella ( ?) merriami (Anderson)

Scutella aberli Conrad

X
X
X
X
X

Teriarchus altus Conrad

1

■' ■ '1

Feriarchus protuberans Twitchell

1

Dendraster perrini ( Weaver)

X
X
X
X
X

CO
CO

(?)

Dendraster gibbsli (R^mond)

Dendraster coalingaensis Twitchell

(?)

X

Dendraster excentricus (Eschsciioltz)

X

Astrodapsis antiselli Conrad

X
X
X
X
X

Astrodapsis whitneyi Remond

Astrodapsis jacalitosensis Arnold

X

X

X
X

Encope macrophora Ravenel

X

Cl3rpeastndie—

Clypeaster rogersi (Morton)

X

X

X
X

Clypeastcr (?) brewerianus (Redmond)

Diplothecanlhus dalli Twitchell

X

(:)

Echinanthus georgiensis Twitchell

X

Atelostomata—
Astemata—

Nucleolitida? —

Amblypygus merrilli Twitchell . .

X

X
X
X

Oligopygus lialdermani (Conrad).

-

CassiduHdiT'^ —

X
X
X
X

(?)
(?)

Cassidulus ( Ulivnrluipvgus) lyelli (Conrad)

Cas-^iiiuliis ( Kli"\'iu'hop"ygus) raveneli Twitchell

gj

Cassidnlus ( Uhvnchopvgus) depressus Twitchell

I

104

MESOZOIC AND CENOZOIC ECHINODERMATA OF THE UNITED STATES.
Geologic distribution of the Cenozoic Echinodermata of the United States — Continued.

,

Eocene.

Oligo-
cene.

Miocene.

Pliocene

Pleisto-
cene.

Echinoidea — Continued.
Irregularia— Contuiued.

Atelostomata — Continued.
.\stemata— Continued.

Cassidulida^Continued.

Cassidulus ( l'ygorli>Tichus) conradi Conrad

(!)
X
(?)
CO

CT

Cassidiihis ( PYgoriivnclius) carolinensis Twilchell

Cassidulus ( I'vgorlis-nciius) georgiensis Twitchell

X
X
X

Cassidulus (Pvgorlivnchus) gouldii Bouve

Cassidulus ( PTgorhynchus) alabamensis Twitchell

X

Cassidulus bem'i Twitchell _

X

Brevnella gregorvi Twitchell

X
X

Echinolampas aldrichi Twitchell

X

Stemata—

Spatangida^-

xxxxx

Hemipatagus subrostratus Clark

Schizaster armiger Clark . .

X
X

Schizaster americana Clark

^

Schizaster atropos ( Lamarck)

X

X
X

X

Eupatagus carolinensis Clark

X

X

Brissopsis rimulatus Ravenel

X
X
X
X

Macropncustes carolinensis Clark

Spatangus (?) pachecoensis Pack

X

Agassizia conradi (Bouv^) 1

X
X
X
X
X
X
X

Echinocard ium orthonotum Conrad

Echinocardium got hicus ( Ravenel} 1

Metfllia rnvpnelianiit; McCr';idy

Metalia holmesi McCrady . . . ^ i

Holothurioidea:

Paractinopoda—

Synaptidse —

Ctiiridotasp ..\ .

X
X

Stratigraphic distribution of eastern Gulf Eocene and Oligocene Echinodermata.

Eocene.

Midway.

Clai-
borne.

Oligocene.

Vicks-
burg.

Apalachi-
cola.

Cidaris blandis de Gregorio

Cidaris ordinatus de Gregorio. .
Cidaris perdubius de Gregorio.
Cidaris ma?reus de Gregorio. . .
Cidaris modcstus de Gregorio..

Cidaris alabamensis Morton

Cidaris sp

Cidaris mortoni Conrad

Cidaris smithi Clark

Cidaris georgiana Clark . . :

Coelopleurus aldrichi Clark

Orthechinus prctiosus Clark. . .

Gagaria americana Clark

Echinus exerceiis de Gregorio..
Echinus sp .

Echinocyamus huxleyanus Meyer. . .

Echinocyamus lexanus Twitchell

Echinocyamus vaughani Twitchell. .

Fibularia meridionalis ( Meyer)

Laganum eldridgei Twitchell

Laganum archerensis Twitchell

Laganum Johnson i Twitchell

Laganum floridanum Tn-itcbell

Laganum dalli Twitchell

Sculella mississippiensis Twitchell...

Mort onella quin^uefaria (Say)

Periarchus lyelli Conrad

Periarchus protuberans Twitchell ...
Periarchus pileus-sinensis ^Ravenel),

Clypeaster rogersi (Morton)

Echinanthiis georgiensis Twitchell...

Amblypygus merrilli Twitchell

Oligopygus wetherbyi De Loriol

Oligopygus haldermani (Conrad)

(.)
X
X
X
X

X

X

(?)

X
X

(?)

X

X
X
X

INTRODUCTION.
Stratigraphic distribution of eastern Gulf Eocene and Oligocene Echinodermafa — Continued.

105

Eocene.

Oligocene.

Midway.

Wilcox.

Clai-
borne.

Jackson.

Vicks-
burg.

Apalachi-
eola.

Oligopygus floridanus Twitchell

X

•Cassidulus (Rhj-nchopvfius) Ivelli (Conrad)

X
(■')
(?)
(?)
(?)
(?)

Cassidulus (Rh\Tichnpvgus) patelliformis Bouvi?....

(?)
(?)
(?)
X
X
X
X

Cassidulus (Rh\'nchopvsus) depressus Twitchell

Cassidulus ( ryf:orh\'no'hus) conrad i Conrad

Cassidulus (Pvf^orli\'Tichus) gcorgiensis Twitchell

Cassidulus ( PvKorh™chus) gouldii Bouvc^

Cassidulus ( Pygorhrachus) alabamensis Twitchell

Echinolampas aldrichi Twitchell

Hemipatagus argutus Clark

X

Agassizia conrad i ( Bonv^)

X

Schizaster armigcr Clark

X

Schizaster floridanus Clark

X
X

Schizaster amcricana Clark

Linthia alabamensis Clark

X

Macropneustes mortoni ( Conrad )

X

X

X

Eupatagus floridanus Clark

BIBLIOGRAPHY.

1825.

Say, Thomas, On the species of the Linnsean genus Echinus inhabiting the coast of the United States: Acad. Nat. Sci.
Philadelphia Jour., 1st ser., vol. 5, pp. 22.5-229, 1825.

1829-1833.
TIsCHSCHOLTZ, F., Zoologischer Atlas, 95 pp., 25 pis., Berlin, 1829-1833.

1833.

MoHTON, S. G., Supplement to Synopsis of the organic remains of the Ferruginous sand formation of the United States
contained in vols. 17 and 18 of this journal: Am. Join-. Sci., 1st ser., vol. 23, pp. 288-294; vol. 24, pp. 128-132 Pis
V, VIII, IX, X, 1833.

1834.

€oNRAD, T. A., Descriptions of new Tertiary fossils from the Southern States; App.: Acad. Nat. Sci. Philadelphia
Jour., vol. 7, pp. 130-157, 1834.

Morton, S. G., Synopsis of the organic remains of the Cretaceous group of the United States, 88 pp., 19 pis., Philadel-
phia, 1834.

1837.

Desmodlins, C, Etudes sur les ^chinides: Tabl. synon., p. 236, 1837.

1840.

Agassiz, L., Catalogus systematicus ectyporum echinodermatum fossiUum musei Neocomensis, 20 pp., 1840.
DE Lamarck, J. B. P. A., Histoire naturelle des animaux sans vertebres, 2d ed., vol. 3, 1840.

1841.

Agassiz, L., Monographies d'echinodermes vivans et fossiles, vol. 2, Des scutelles, Neuchatel, 1841.
Ravenel, Edmund, Description of two new species of fossil Scutella from South Carolina: Acad. Nat. Sci. Philadel-
phia Jour., vol. 8, pp. 333-336, 1841.

1842.

Conrad, T. A., Observations on Atlantic Tertiary region, with descriptions of new species of organic remains: Nat.

Inst. Promotion Sci. Proc, 2d Bull., p. 194, 1842.
Morton, S. G., Tabular view of the organic remains hitherto discovered in the Cretaceous strata of the United States:

Acad. Nat. Sci. Philadelphia Jour., 1st ser., vol. 8, pp. 216-227, 1842.

1843.

Conrad, T. A., Description of a new genus and of twenty-nine new Miocene and one Eocene fossil shells of the United

States: Acad. Nat. Sci. Philadelphia Proc, vol. 1, pp. 30.5-311, 1843.
Description of nineteen species of Tertiary fossils of Virginia and North Carolina: Acad. Nat. Sci. Philadelphia

Proc, vol. 1, pp. 323-329, 1843.

106 MESOZOIC AND CENOZOIC ECHINODEEMATA OF THE UNITED STATES.

1844.

Ravenel, Edmund, Description of some new species of fossil organic remains from the Eocene of South Carolina: Acad.
Nat. Sci. Philadelphia Proc, vol. 2, pp. 96-98, 1844.

1845.

Forbes, E. D., [Description of fossil echinoderms from the Miocene of North America]: Geol. Soc. London Quart. Jour.,

vol. 1, pp. 425, 426, 440, 445; Proc, vol. 4, pp. 559, 560, 574, 1845.

1846.

Morton, S. G., Description of two new species of fossil Echinodermata from the Eocene of the United States: Acad.
Nat. Sci. Philadelphia Proc, vol. 3, p. 51, 1846.

1846-17.

Agassiz, L., and Desor, E., Catalogue raisonne des families, des genres, et des especes de la classe des ^chinodermes:
Soc. Nat. (zool.) Ann., 3d ser., vol. 6, pp. 305-374, 1846; vol. 7. pp. 129-168, 1847; vol. 8, pp. 5-35, 1847.

1847.

BouvE , T. T. , PygorhjTichus gouldii, a new Ecliinus from the Millstone grit of Georgia: Annals and Mag. Nat. Hist. , 1st

ser., vol. 20, p. 142, 1847.

— [Descriptionof the Eocene of Georgia]: Boston Soc. Nat. Hist. Proc, vol. 2, p. 192, 1847.

Pj'gorhynchus gouldii, a new Echinus from the Millstone grit of Georgia: Am. Jour. Sci., 2d ser., vol. 3, p. 437,

1847.

1848.

Bkonn, H. G., Index palseontologicus, 2 vols., 2,361 pp., Stuttgart, 1848.

CouPBR, J. H., The buhr millstone and its fossils at Bainbridge, Ga.: Boston Soc Nat. Hist. Proc, vol. 2, pp. 123-124,

1848.
Ravenel, Edmund, Ecliinidae, recent and fossil, of South Carolina, 4 pp., 2 pis., Charleston, S. C, 1848.
TuoMEY, M., Report on geology of South Carolina, 293 pp. and appendix, 48 pp., Charleston, S. C, 1848.

1849.

Dana, J. D., Geological observations on Oregon and northern California: U. S. Expl. Exped. Wilkes; Geology, vol. 10,,
pp. 611-678, atlas with plates, 1849.

1850.

Conrad, T. A., Descriptions of one new Cretaceous and seven new Eocene fossils: Acad. Nat. Sci. Philadelphia Jour.,

2d ser., vol. 2, pp. 39-41, 1850.
MiCHELiN. Hardouin, Notice sur deux especes d'^chinides fossiles: Rev. et mag. zoologie. 2d ser., vol. 2, p. 240, 1850.
Ravenel, Edmund, Catalogue of the recent and fossil echinoderms of South Carolina: Am. Assoc. Adv. Sci. Proc, vol.

3, pp. 159-160.

1851.

Bouve, T. T., [Descriptions of Eocene echinoderms]: Boston Soc. Nat. Hist. Proc, vol. 4, pp. 2-A, 1851.
GiRARD, Charles, [Descriptions of several new species of echinoderms]: Boston Soc Nat. Hist. Proc, vol. 3, pp. 363-
368, 1851.

1853.

d'Archiac, Le Vicomte, and Haime, J., Description des animaux fossiles du groupe nummulitique de I'lnde, 373 pp.,
36 pis. , Paris, 1853.

1853-1856.

Bronn, H. G., Lethsea geognostica, 3 vols, and atlas, 1853-1856.

1855.

McCrady, J., [Descriptions of various fossil echinoderms from South Carolina]: Tourney, M., and Holmes, F. S.,.

Pliocene fossils of South Carolina, 1855.
MicHELiN, H., Echinides vivants et fossiles des Antilles et du Golfe du Mexique: Soc. g6ol. France Bull., 2d ser., vol.

12, pp. 759-760, 1855.

INTEODTJCTION. IQY

1856.

Billings, E., On the Tertiary rocks of Canada with some account of their fossils: Canadian Naturalist and Geologist 1st

ser., vol. 1, pp. 321-340, 1S56.
Blake, W. P., Geology of the vicinity of San Francisco: Pacific Raih-oad Repts., vol. 5, pp. 153, 154, 1856.
Conrad, T. A., Descriptions of three new genera; twenty-three new species middle Tertiary fossils from California and

one from Texas: Acad. Nat. Sci. Philadelphia Proc, vol. 8, pp. 312-310, 1856.
MicHELiN, H., Monies en platre de deux ^cMnides des couches supra-cr^tacdes de la Jamaique- Soc geol Fiance Bull

2d ser., vol. 13, p. 222, 1856.

1857.

Conrad, T. A., U. S. Pacific raib-oad exjilorations and surveys, 32d parallel and California vol 7 p 196 Pis IX X
1857. ' ' • - ' - '

Stimpson, William, Crustacea and Echinodermata of Pacific shores of North America: Boston Soc. Nat Hist Jour
vol. 6, 1857.

Tuomey, M., and Holmes, P. S., Pliocene fossils of South Carolina, 152 pp., 28 pis., 1857. (Part on Echinodermata
published in 1855.)

1858.

Desor, E., Synopsis des 6cliinides fossiles, 64+490 pp., 43 pis., Geneve, Paris, and Wiesbaden, 1858.

Emmons, E., Agriculture of the eastern counties together with descriptions of the fossils of the marl beds: North Caro-
lina Geol. Survey Rept., pp. 1-314, Raleigh, 1858.

Holmes, F. S., Post-Pliocene fossils of South Carolina, Charleston, 1860. (Part on Echinodermata published in 1858.)

Michelin, M. H., Revue des espfeces counts et nouvelles du genre Mellita: Rev. et mag. zoologie, 2d ser vol 10 pp
358-364, Pis. VIII, IX, 1858. '' '' ' ' *^^"

1859.

Gabb, W. JI., Catalogue of the invertebrate fossils of the Cretaceous formation of the United States: Acad. Nat. Sci.

Philadelphia Pamph., 19 pp., 1859.
McCradt, J., Remarks on the Eocene formation near Alligator, Fla. : Elliott Soc. Nat. Hist, of Charleston, S. C, Proc

vol. 1, pp. 282, 283, 1869.

1861.

Michelin, M. H., Monograpliie des Clj^peastres fossiles: Soc. g^ol. France M^m., 2d ser., vol. 7, pp. 103-147 Pis IX-
XXXVI, 1861.

1862.

DujARDiN, F., and Hope, H., Histoire naturelle des zoophytes ^chinodermes, 627 pp., atlas with 10 pis., Paris, 1862.

1863.

Remond, Augcste, Description of four new species of Echinodermata from the Tertiaries of Contra Costa County: Cali-
fornia Acad. Nat. Sci. Proc, vol. 3, pp. 52-59, 1863.

Description of two species of Scutella: California Acad. Nat. Sci., vol. 3. pp. 13-15, 1863.

LuTKEN, C. F., Bidrag til kundskab om Ecluniderne: Vidensk. medd., Kjobenhavn, 1863.

1864.

Meek, F. B., Check list of invertebrate fossils of North America, Miocene: Smithsonian Misc. CoU., vol. 7 (183), pp.
1-32, 1864.

1865.

Conrad, T. A., Catalogue of the Eocene * * * Echinodermata » * * of the United States: Acad. Nat. Sci.

Philadelphia Proc, pp. 73-75, 1865.

Descriptions of new species of Echinidae: Acad. Nat. Sci. Philadelphia Proc, vol. 17, p. 75, 1865.

Observations on American fossils with descriptions of two new species: Acad. Nat. Sci. Philadelphia Proc, vol.

17, p. 184, 1865.
Dawson, J. W., Post- Pliocene deposits at Riviere du Loup and Tadoussac: Canadian Naturalist, 2d ser., vol. 2, pp.

81-88, 1865.

1866.

Conrad, T. A., Check list of the invertebrate fossils of North America; Eocene an"d Oligocene: Smithsonian Misc.

Coll., vol. 7 (200'), pp. 1^1, 1866.
Guppy, J. L., On Tertiary echinoderms from the West Indies: Geol. Soc. London Quart. Jour., vol. 22, pp. 297-301, PI.

XIX, figs. 4-8, 1866.
Packard, A. S., jr.. On the glacial phenomena of Labrador and Maine: Boston Soc Nat. Hist. Mem., vol. 1, pt. 2, pp.

210-262, 1866.

108 MESOZOIC AND CENOZOIC ECHINODERMATA OF THE UNITED STATES.

1868.

Duncan, P. M., On the anatomy of the test of Amphidetus (Echinocardium.) virginianus Forbes: Geol. Soc. London
Quart. Jour., vol. 25, p. 16, 1868.

1869.

Gabb, W. M., Cretaceous and Tertiary fossils: Geol. Survey California, Paleontology, vol. 2, 1869.
Laube, G. C, The Echinoida of the upper Tertiaries of Austria and Hungary: K.-k. geol. Reichsanstalt Abh., Wien,
1869.

1872-1874.

Agassiz, A., Revision of the Echini: Mus. Comp. Zoology Illustrated Catalogue No. 7, 770 pp., 87 pis., 7 maps, 1872-74.

1872-1875.

QuENSTEDT, F. A., Petrefactenkunde Deutschlands, vol. 3, Echiniden, 1872-1875.

1875.

Cotteau, G., Echinides tertiaires des lies St. Barthflemy et Anguilla: Kongl. evensk. Vet.-Akad. Handl., vol. 13,

No. 6, pp. 1-47, PI. VIII, 1875.
Paisley, C. H., On the post-Pliocene formation near Bathurst, New Brunswick: Canadian Naturalist, 2d ser., vol.

7, pp. 268-270, 1875.
Verrill, a. E., On the post-PUocene fossils of Sankoty Head, Nantucket Island, Mass.: Am. Jour. Sci., 3d ser., vol.

10, pp. 364-375, 1875.

1876.

Cotteau, G., Echinides tertiaires des iles Saint-Barth^lemy et Anguilla: Soc. geol. France Bull., 3d ser., vol. 5, 1876.

1876-1880.

ZiTTEL, K. A. von, Handbuch der Palaeontologie, vol. 1, pt. 1, 1876-1880.

1878.

Hilgard, E. W., and Hopkins, F., Report of specimens from borings between the Mississippi River and Lake Borgne,
La.: Rept. Comm. Engineers, Sup., 1878.

1880.

Agassiz, A., Report on Echini [results of dredgingby the Blake, No. 24, pt. 1]: Mus. Comp. Zoology Bull., vol. 8, No. 2,

1880.

1881.

Agassiz, A., Report on the Echinoidea; Report on the scientific results of the exploring voyage of H. M. S. Chal-
lenger, Zoology, vol. 3, pt. 9, 321 pp., 1881.
Cotteau, G., Description des Echinides foasiles de I'ile de Cuba: Soc. geol. Belgique Ann., vol. 9, M^m., pp. 3-19,

4 pis., 1881.

1883.

PoMEL, A., Classification methodique et g^n^ra des echinides vivauts et fossiles, 1883.

Agassiz, A., Report on the Echini [Results of dredging by the Blale, No. 24, pt. 1]: Mus. Comp. Zoology Mem., vol.

10, 94 pp., 32 pis., 1883.

1884.

Heilprin, Angelo, Contributions to the Tertiary geology of the United States, Philadelphia, 1884.

Tertiary geology of eastern and southern United States: Acad. Nat. Sci. Philadelphia Jour., vol. 9, pp. 115-154,

1884.

1885.

QuENSTEDT, F. A., Handbuch der Petrefactenkunde, 1885.

1885-1894.

Cotteau, G., [Echinides eocfenes de la France]: Paleontologie franjaise, 1st ser., Animaux invert6bres, Terrains
tertiaires, 6ocfene, Echinides; vol. 1, 1885-1889, 672 pp., 200 pis. ; vol. 2, 1889-1894, 788 pp., 183 pis., Paris.

1886.

Aldrich, T. H., Tertiary fossils of Alabama and Mississippi: Alabama Cieol, Survey Bull. 1, pp. 15-60, Pis. I-VI,

1886.
Meyer, Otto, Contributions to the Eocene paleontology of Alabama and Mississippi: Alabama Geol. Survey Bull. 1,

pp. 63-85, Pis. I-lIl, 1886.

INTRODUCTION, 109

1887.

DE LoRiOL, P., Notes pour servir k lV>tude des echinodermes: Recueil zool. Suisse, vol. 4, pp. 365^07, Pis. XV-XVIII,

1887.
Meyer, Otto, Beitrag zur Kenutuis der Fauna des Alttertiars von Mississippi und Alabama: Nat. Gesell. Bericht.,

22 pp., 2 pis., Frankfurt, 1S87.
Smith, E. A., and Johnson, I.. C, Tertiary and Cretaceous strata of the Tuscaloosa, Tombigbee, and Alabama rivers:

U. S. Geol. Survey Bull. 43, pp. 1-189, 1887.

1888.

Cooper, J. G., Catalogue of California fossils: California State Mineralogist Seventh Rept., pp. 223-308; Tertiary
Radiata, pp. 270-271, 1888.

1890.

Clark, W. B., On the Tertiary deposits of the Cape Fear River region: Geol. Soc. America Bull., vol. 1, pp. 537-540,

1890.
DE Gregorio, Antonio, Monographie de la faune eocenique de I'Alabama: Annales g^ologie et pal^ontologie, vol. 2,

pts. 7 and 8, 316 pp. and 46 pis., Palerme, 1890.
DE LoRiOL, p., Notes pour servir k I'^tude des Echinodermes: Soc. phys. et hist. nat. Geneva Mem., 1890.

1891.

Clark, W. B., A revision of the Cretaceous Echinoidea of North America: Johns Hopkins Univ. Circ, vol. 10, No. 87,

pp. 75-77, 1891.
Duncan, P. M., Revision of genera and great groups of the Echinoidea: Linn. Soc, Zoology, vol.. 23, pp. 1-311, 1891.
Gregory, J. W., The relations of the American and European echinoid faunas: Geol. Soc. America Bull., vol. 3, pp.

101-108, 1891.
A revision of the British fossil Cainozoic Echinoidea: Geologists' Assoc. Proc, London, vol. 12, Nos. 1, 2, pp.

16-20, 2 pis., 1891.
Kennedy, William, Section from Terrell to Sabine Pass: Texas Geol. Survey Third Ann. Rept., pp. 43-124, 1891.

1892.

Ball, W. H., Correlation papers — Neocene: U. S. Geol. Survey Bull. 84, 349 pp., 3 pis., 1892.

Harris, G. D., The Tertiary geology of southern Arkansas: Arkansas Geol. Survey Ann. Rept., vol. 2, 187 pp., 7 pis.,

1892.

1893.

Boyle, B., A catalogue and bibliography of North American Mesozoic invertebrata: U. S. Geol. Survey Bull. 102,

315 pp., 1893.
Clark, W. B., The Mesozoic Echinodermata of the United States: U. S. Geol. Survey Bull. 97, 207 pp., 50 pis., 1893.

1894.

Cooper, J. G., Catalogue of California fossils: California Min. Bur. Bull. 4, p. 32, 1894.

1895.

Cunningham, K. M., Microscopic fossils in Tertiary marl strata: Am. Micr. Jour., vol. 16, pp. 193-196, 1 pi., 1895.

Dana, J. D., Manual of geology, 4th ed., 898 pp., 1491 figs., 1895.

Kennedy, William, Eocene Tertiary of Texas east of Brazos River: Acad. Nat. Sci. Philadelphia Proc, pp. 113-115,

1895.

1896.

Clark, W. B., The Eocene deposits of the Middle Atlantic slope: U. S. Geol. Survey Pull. 141, 167 pp., 40 pis., 1896.

1897.

Egozcue y Cia., J., and Cotteau, G., Descripci6n de los equinoides f6siles de la isla de Cuba: Com. de la mapa geol.
Espaiia Bol., vol. 22, 99 pp., 29 pis., 1897.

1898.

Merriam, J. C, Distribution of Neocene sea-urchins of middle California: L^niv. California Dept. Geology Bull.,
vol. 2, pp. 109-118, 1898.

1899.

Daw.son, J. W,, Note on an echinoderm * * * in the Pleistocene (Leda clay) collected by Dr. Ami at Besserers,

Ottawa River: Ottawa Naturalist, vol. 13, pp. 201-202, 1899.
Merriam, J. C, The Tertiary sea-urchins of middle California: California Acad. Sci. Proc, 3d ser., Geolo.sy, vol. 1,

No. 5, pp. 161-170, Pis. XXI, XXII, 1899.
Schluter, Clemens, Ueber einige von Goldfuss beschriebene Spatangiden, Part 2: Deutsche geol. Gesell. Zeitschr.,

vol. 51, pp. 101-124, 1899.
39800°— 15 8

110 MESOZOIC AXD CEIv^OZOIC ECHIXODEEMATA OF THE UNITED STATES.

1901.

Clark, W. B. and Martin, G. C, Systematic paleontology, Eocene; ilollusca, Brachiopoda, and Ecliinoderniata:
Maryland Geol. Survey, Eocene, pp. 93-331, Pis. X-LXIV, 1901.

1802. ■'

Arnold, D. and A., Marine Pliocene and Pleistocene stratigraphy of the coast of southern California: Jour. Geology,

vol. 10, pp. 117-138, Pis. I-V, 1902.
Clark, H. L., The echinoderms of the Woods Hole region : U. S. Fish Comm. Bull, for 1902.
Ortjian, a. E., Reports of the Princeton ITniversity expeditions to Patagonia, Tertiary invertebrates, vol. 4, pt. 2,

pp. 45-332, Pis. XI-XXXIX, 1902.

1903.

Arnold, Ralph, The paleontology and stratigraphy of the marine Pliocene and Pleistocene of San Pedro, Cal.: Califor-
nia Acad. Sci. Mem., vol. 3, 1903.

1904.

Clark, W. B., Systematic paleontology, Miocene Echinodermata: Maryland Geol. Survey, Miocene, pp. 430-433,
Pis. CXIX, CXX, 1904.

1905.

Anderson, F. M., A stratigrapliic study in the Mount Diablo range of California: California Acad. Sci. Proc, 3d ser.,

Geology, vol. 2, No. 2, pp. 156-206, with plates, 1905.
ScHUHERT, C, Catalogof type specimens of fossil invertebrates in the National Museum: U. S. Nat. Mus. Bull. 53, pt. 1,

704 pp., 1905.
Sears, J. H., The physical geography, geology, mineralogy, and paleontology of Essex County, Mass., 418 pp., 209 text

figs., Salem, 1905.

1906.

Clark, W. B., and others, Characteristic fossils of Maryland formations: Maryland Geol. Survey Sixth Kept., pt. 1, pp.
252-259, Pis. XVI-XXIII, 1906.

1907.

Arnold, Ralph, New and characteristic species of fossil mollusks from the oil-bearing Tertiary formations of southern

California: i:. S. Nat. Mus. Proc, vol. 32, pp. 525-546, Pis. XXXVIII-LI, 1907.
■ New and characteristic species of fossil mollusks from the oil-bearing Tertiary formations of Santa Barbara

County, Cal.: Smithsonian Misc. Coll., vol. 1, pt. 4, pp. 419^47, Pis. L-LVIII, 1907.
Arnold, Ralph, and Anderson, Robert, Geology and oil resources of the Santa Maria oil district, Santa Barbara

County, Cal.: U. S. Geol. Survey Bull. 322, 161 pp., Pis. XII-XXVI, 1907.
Eldridge, G. H., and Arnold, Ralph, The Santa Clara Valley, Puente Hills, and Los Angeles oil districts, southern

California: U. S. Geol. Survey Bull. 309, 220 pp.. Pis. XXV-XLI, 1907.

1908.

Arnold, Ralph, Fossils from Santa Cruz Mountains, Cal.: U. S. Nat. Mus. Proc, vol. 34, pp. 34.5-390, Pis. XXXI-

XXXVII, 1908.

New brittle star from Miocene of California: U. S. Nat. Mus. Proc, vol. 34, pp. 403-406, Pi. XL, 1908.

Weaver, C. E., New ecliinoids from the Tertiary of California: Univ. California Dept. Geology Bull., vol. 5, No. 17,

pp. 271-274, Pis. XXI, XXII, 1908.

1909.

Arnold, Ralph, Paleontology of the Coalinga district, Fresno and Kings counties, Cal. : V. S. Geol. Survey Bull. 396,

101 pp., 30 pis.
Branner, J. C, Newsom, J. F., and Arnold, R., V. S. Geol. Survey Geol. Atlas, Santa Cruz folio (No. 163), 11 pp.,

2 pis., 1909.
Ball, AV. H., Contributions to the Tertiary paleontology of the Pacific coast — I, The Miocene of Astoria and Coos Bay,

Oregon: U. S. Geol. Survey Prof. Paper 59, 278 pp., 23 pis., 1909.
Lambert, J., Echinodermes: Rev. ci-it. paleozoologie, vol. 13, 1909, p. 122.
Pack, R. W., Notes on echinoids from the Tertiary of California: Univ. California Dept. Geology Bull., vol. 5, No. 18,

pp. 275-283, pis. 23, 24, 1909.
Weaver, C . E . , Stratigraphy and paleontology of the San Pablo formation in middle California : Univ. California Dept.

Geology Pub., vol. 5, No. 16, pp. 243-269, 1909.

INTRODUCTION. Ill

1910.

Arnold, Ralph, and Anderson, Robert, Geology and oil resources of tlie Coalinga district, Cal.: U. S. Geol. Survey-
Bull. 398, pp. 1-354, Pis. XXIir-LII, 1910.

Clark, W. B., and Twitchell, M. W., Geological distribution of Mesozoic and Cenozoic Echinodermata of the United
States: Geol. Soc. America Bull., vol. 20, pp. 686-688, 1908.

Grabau, a. W., and Shimee, H. W., North American index fossils, invertebrates, vol. 2, 909 pp., 726 figs., 1910.

Lambert, J., Echinodermes: Rev. crit. paleozoologie, vol. 11, No. 1, pp. 42-55, 1910.

1911,

Lambert, J., Echinodermes: Rev. crit. jjal^ozoologie, vol. 15, 1911, p. 64.

Stbfanini, G., Sugli echini terziari dell' America del Nord: Soc. geol. italiana Boll., vol. 30, pp. 677-714, PI. XXII,
Rome, 1911.

Osservazioni sulla distribuzione geografica, sulla origini e sulla filogenesi degli Scutellidse: Soc. geol. italiana

Boll., vol. 30, pp. 739-754, 1911.

Note echinologiche: Revista italiana di paleontologia, vol. 17, pt. 4, pp. 1-16, PI. V, 1911.

Note. — A number of contributions have appeared during the progress of this report tlirough the jjress, the results

of which can not be fully incorporated in the following pages, although footnotes concerning some of them have been

inserted. Among the more important of these publications are :

Pack, R. W., Notes on Scuiella norrisi and Scuiaster andersoni: California Univ. Dept. Geology Bull., vol. 7, No. 13,
pp. 299-304, PI. XV, 1913. Pack furnishes additional information of value regarding the species mentioned.

Kew, W. S. W., Tertiary echinoids of the Carrizo Creek region in the Colorado Desert: California Univ. Dept. Geol-
ogy Bull., vol. 8, No. 5, pp. 39-60, Pis. I-V, 1914. Kew describes the following forms: Encope tenuis n. sp.,
Clypeaster deserti n. sp., C carrizoensis n. sp., C. bowersi Weaver, Hipponoe californica n. sp., and Cidaris sp.

EOCENE ECHINODERMATA.

Class CRIXOIDEA.

Subclass DICYCLICA.

Order FLEXIBILIA.

Suborder PINNATA.

Family ANTEDONID^.

Genus ZENOMETRA A. H. Clark.

Zenometra (?) CONOIDEUS (Emnions).

Microcrinus conoideiis Emmons, 1858, Agriculture Eastern Counties: North Carolina Geol. Survey Eept. , p. 311, figs. 246,

247.
Microcrinus conoideus Conrad, 1866, Check list, Eocene and Oligocene, p. 31.

Description. — The descriptions and figures of this form by Emmons are very inadequate.
Springer, who kindly examined them for the author, says:

Emmons's figiires represent the centro-dorsal of a comatulid, broken away from the radials, prcser\-ing the " rosette "
filled with matrix, and the " basal rays." The latter indicate noncontiguous basals — a character which removes it from
Atelocrinus. The regular arrangement of cirrus sockets in columns, combined with the large central cavity of the cen-
trodorsal, places it in the family Antedonidae, as restricted by Mr. A. H. Clark, and it might belong to a form like his
genus Zenometra, recent species of which occur in the Atlantic and Caribbean from the Carolinas to St. Lucia. Without
the superior parts of the calyx it is impossible to make closer comparison, and it miist remain among the imperfectly
known.

No specimens have been secured in recent collecting and no material representing this spe-
cies has been found in any museum.

Locality. — Craven County, N. C. (Emmons).
Geologic horizon. — Trent marl, middle Eocene.
Collection. — ^Unknown.

Class STELLEROIDEA.

Subclass ASTEROIDEA.

Order CRYPTOZONIA.

Family ASTERIID.E.

Genus ASTERIAS Linne.
AsTEKIAS (?) sp.
Asterias Morton, 1834, Sjiiopsis Organic Remains Cretaceous, p. 74.

Description. — Morton saj^s : "I have seen but a few obscure fragments of this genus, from
the calcareous strata of South Carolina." It is quite impossible without authentic specimens to
determine whether the material in Morton's hands belongs to this genus or not.

Locality. — South Carolina.

Geologic Jiorizon.— 'Eocene.

Collection. — ^Unknown.
112

EOCENE ECHINODEEMATA. 113

Class ECHINOIDEA.

Subclass REGUT.AKIA ENDOBRANCHIATA.

Order CIDAROIDEA.

Family CIDARID.E.

Genus CIDABIS Leske.

CiDARis MiTCHELLi Einmons.

Plate LV, figures la-fc.

Cidaris mitchelli Emmons, 1858, Agriculture Eastern Counties: Kept. North Carolina Geol. Survey, p. 305, fig. 237.
Cidaris mitchelli Conrad, 1866, Check list, Eocene and Oligocene, p. 3.
Cidaris mitchelli Heilprin, 1884, Contrib. Tertiary geology, p. 17.
Cidaris mitchelli Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 693.

Determinative characters. — Test large, thick, and of moderate height. Ambulacra rather
broad, somewhat undulating with four to six rows of granules between the poriferous avenues.
Interambulacra wide with 9 to 10 plates in each row, each plate bearing a single large circular
tubercle the areola of which is sm-rounded by a row of small tubercles. Miliary space covered
with numerous thickly radiated granules. ^

Dimensions. — Diameter 53 miUimeters; height 32 milUmeters.

Description. — The species is represented by a single specimen, the type described by
Emmons, which in many particulars is in an excellent state of preservation. The test is large,
thick, and circular in outhne. It is of medium height.

The ambulacra are rather broad and somewhat undulating, with four rows of granules
between the poriferous avenues toward the apical system and peristome, but with six rows on the
ambitus. The pores are oral and connected by deep furrows.

The interambulacra are wide and bear two rows of large circular tubercles, the areolas of
which closely approach each other and are covered by a row of small tubercles. The tubercles
are round, depressed, and have much elevated and deeply peiforated mamelons.

Related forms. — The species is most closely related to 0. carolinensis but is somewhat lower,
the granules on its miliary space are smaller and differently distributed and its tubercles approach
each other more closely. Its areolas have a surrounding row of small tubercles which are absent
in C. carolinensis.

Locality. — Craven County (?), N. C. (Emmons).

Geologic horizon. — Trent marl, middle Eocene.

Collection. — WiUiams College.

Cidaris carolinensis Emmons.

Plate LV, figures 2a-c.

Cidaris carolinensis Emmons, 1S5S, Agriculture Eastern Counties: North Carolina Geol. Survey Kept., pp. 305-306,

fig. 238.
Cidaris carolinensis Conrad, 1866, Check list. Eocene and Oligocene, p. 31.
Cidaris carolinensis Heilprin, 1884, Contrib. Tertiary geology, p. 17.
Cidaris carolinensis Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 698.

Determinative characters. — Test large, thick, and rather tall. Ambulacra rather broad,
somewhat undulating, with four rows of granules between the poriferous avenues. Interambu-
lacra wide, each with two rows of large circular tubercles, 10 to 11 in each row. Mihary sjjace
covered with numerous thickly set granules.

Dimensions. — Diameter 60 millimeters; height 35 millimeters.

Description. — The type specimen of Emmons is the only representative of this species that
has been available for study. Although somewhat crushed the portions preserved are in an
excellent state of preservation. The test is of rather large size, thick, and somewhat taller than
in most species of Cidaris.

114 MESOZOIC AND CEKOZOIC ECHIKODEEMATA OF THE UNITED STATES.

The ambulacra are rather wide and somewhat undulating, with four rows of granules between
the poriferous avenues on the upper and lower surfaces, which become increased to six at the
ambitus. The pores are oval m shape.

The interambulacra are wide, each with two rows of large circular tubercles that however
leave a wide miliary space on each plate that is thickly set with granules of very uniform size
throughout. The tubercles are round and deeply depressed. The boss is smooth and the mame-
lons deeply perforated.

Related forms. — This species is closely related to C. mitcheUi but is evidently taller and has
larger granules somewhat differently dispersed. Its tubercles are more widely separated than
those of C. mitcheUi, and its areolas lack the surrounding row of small tubercles.

Locality. — Craven County (?), N. C. (Emmons).

Geologic horizon. — Trent marl, middle Eocene.

Collection. — Williams College.

CiDARis PEATTi Clark, n. sp.
, Plate LV, figure 3.

Determinative characters. — Test small, thin, rather high, circular. Ambulacra narrow
nndulatmg, two rows of granules between the poriferous avenues; pores nearly round. Inter-
ambulacra wide, each with two rows of tubercles; each tubercle round, depressed, with crenu-
lated boss and perforated mamelon and wdth areolas surrounded by row of small tubercles.

Dimensions. — Diameter 18 (?) milhmeters; height 15 (?) millimetei-s.

Description. — The only specimens available for study consist of fragments of tests, chiefly
of detached plates. The test is small and thin, rather high, and apparently circular in outline.

The ambulacra are naiTow and undulating. The pores are nearly round. Two rows of
small granules occur between the poriferous avenues.

The interambulacra are -wide, each with two rows of tubercles which largely occupy the area
of the plates. The miliary space is very small and covered with granules. Each tubercle has a
depressed areola surrounded by a row of small tubercles. The boss is crenulated and the mame-
lon perforated.

Related forms. — The species is unique and difl'ers widely from the other Tertiary species.
It is more closely related to C mitcheUi than to 0. carolinensis.

Locality. — Wilmington, N. C.

Geologic horizon. — Castle Hayne limestone, upper Eocene or Oligocene.

Collection.^U. S. National Museum (164663).

CiDARis MERRiAMi Arnold.
Plate LV, figure 4.

Cidarismerriami Arnold, 1908, U. S. Nat. Mua. Proc, vol. 34, p. 359, PL XXXII, fig. 8.
Cidaris merriami Stetanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 696.

Determinative characters. — Test wanting. Spine subcixcular in cross section, tapering slightly;
surface with 13 or 14 prominent ribs separated by narrow grooves; nodes well defined.

Dimensions. — Longest fragment; length 20 millimeters; maximum diameter 4.5 milli-
meters.

Description. — Arnold, in his description of tliis species, says:

The test of this species is urLknovrn, but the abundance and well marked characteristics of the fragments of the
spines has been deemed of enough importance to justify a specific name. Seven specimens have been obtained at the
type locality, each showing the characters described above.

Spines subcircular in cross section, as much as 4 millimeters in diameter and probably over 40 miUimeters in
length, tapering very slightly; surface sculptured by 13 or 14 prominent, narrow, nodose, ridgelike, longitudinal ribs
separated by narrow, deeply incised grooves; the nodes are well defined, especially in the younger stages of growth, and
are subelliptical in cross section, their longer axis being parallel with the axis of the spine.

EOCENE ECHINODEKMATA. 115

H. L. Clark, who examined the specimens for Arnold, says that they

All appear to belong to one species, except possibly one fragment. That piece might possibly have come from quite
a different species. I am very glad to see this material of merriami, for it satisfies me that the species must have been
allied to, not identical with, Trctocidaris perplexa Clark (Cidaridse, 1907, p. 205, PI. VI, figs. 1-2; PI. VII, figs. 1^) the
only other living littoral cidarid known from north of Panama (other, I mean, than thouarsii). So your material
shows that the ancestors of l)Oth thouarsii and perplexa lived in the Tertiary in California.

Locality. — Santa Cruz quadrangle, San Mateo County, locality No. 25, ridge between head-
waters of San Lorenzo River and Pescadero Creek, Cal.

Geologic horizon. — Eocene, ]5ossible equivalent of Martinez formation.
Collection.— V. S. National Museum (165, 438).

CiDARis MCEREUS De Gregorio.

Cidaris mcereus De Gregorio, 1890, Mon. faune ^oc^nique Alabama, p. 252, PI. XLIII, figs. 22-23
Cirfan's TOcerews Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 697.

Description. — No specimens of this species were available for study. The type form described
by de Gregorio evidently came with other materials from the Claiborne in Alabama. The author
describes the species as follows: "Aculeus subcylindraceus, oblongus, tuberculis erectis notatis
confertis majoribus et minoribus irregulariter dispositis ornatus."

Locality. — Near Claiborne, Ala.

Geologic horizon. — Claiborne group, middle Eocene.

Collection. — De Gregorio.

Cidaris modestus De Gregorio.

Cidaris modestus De Gregorio, 1890, Mon. faune 6oc6nique Alabama, p. 253, PL XLIII, fig. 26.
Cidaris modestus Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 697.

Description. — No specimens of this species were available for study. The type form de-
scribed by De Gregorio evidently came with other materials from the Claiborne in Alabama.
The author describes the species as follows: "Aculeus augustus, conoideo-cylindraceus, costuUs
longitudinalibus ornatus; costis crenulatis, granulo-squamosis ; granulis subimbricatis."

Locality. — Near Claiborne, Ala.

Geologic horizon. — Claiborne group, middle Eocene.

Collection. — De Gregorio.

Cidaris ordinatus De Gregorio.

Cidaris ordinatus De Gregorio, 1890, Mon. faune ^ocenique Alabama, p. 352, PI. XLIV, fig. 1.
Cidaris ordinatus Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 697.

Description. — No specimens of the species were available for study. The type form described
by De Gregorio evidentl}' came with other materials from the Claiborne group near Claiborne,
Ala. The author describes the species as follows : "Aculeus subcylindraceus; tuberculis erectis,
raris, subsequalibus, quincuncim atque spu'aliter regulariter dispositis."

Locality. — Near Claiborne, Ala.

Geologic horizon. — Claiborne group, middle Eocene.

Collection. — De Gregorio.

116 MESOZOIC AND CENOZOIC ECHINODEEMATA OP THE UNITED STATES.

CiDARis PERDUBius De Gregorio.

Cidaris perdubius De Gregorio, 1890, Mon. faune 6ocenique Alabama, p. 253, PI. XLIV, fig. 2.
Cidaris perdubius Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 697.

Description. — No specimens of this species were available for study. The type form
described by De Gregorio evidently came with other materials from the Claiborne in Alabama.
The author describes the species as f ollov/s : ' ' Aculeus cylindraceus potius augustus, tenu tuber-
culatus; tuberculis densis, parvis, in series longitudinales recte dispositis."

Locality. — Near Claiborne, Ala.

Geologic Iwrizon. — Claiborne group, middle Eocene.

Collection. — De Gregorio.

CiDAKis BLANDis De Gregorio.

Cidaris blandis De Gregorio, 1890, Mon. faune eocenique Alabama, p. 253, PI. XLIV, fig. 4.
Cidaris blandis Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 697.

Description. — No specimens of this species were available for study. The type form
described by De Gregorio evidently came with other materials from the Claiborne group near
Claiborne, Ala. The author describes the species as follows: "Aculeus augusta, conoideo-
cjdindraceus, costulis longitudinalibus ornatus; costis crenulatis, granulo-squamosis ; granulis
subimbricatis."

Locality. — Near Claiborne, Ala.

Geologic horizon. — Claiborne group, middle Eocene.

Collection. — De Gregorio.

Cidaris alabamensis Morton.

Cidaris alabamensis Morton, 1846, Acad. Nat. Sci. Philadelphia Proc, vol. 3, p. 51.
(?) Cidaris sp. Aldrich, 1886, Alabama Geol. Survey Bull. 1, p. 43.
Cidaris alabamensis Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 697.

Description. — No material has been obtained that can be regarded as belonging to this
species, which Morton very inadequately describes and which he does not figure. Morton in his
description says that this species is "Compressed, pentagonal, the angles rounded so as to form
a 10-sided figure. Ten rows of tubercles, with 9 or 10 in each row. Ambulacra arranged in
five pau's, with delicate, shghtly oblique fissures separated by a double elevated line. Surface
between the tubercles and ambulacra finely granulated." Morton states that the specimen
described was found in the "Eocene strata of Washington County, Ala.," but if it was derived
from the St. Stephens limestpne, as seems probable, it may be Oligocene, for the upper beds are
of that age.

Locality. — Washington County, Ala. (Morton).

Geologic horizon. — St. Stephens (?) limestone. Eocene (?).

Collection. — Unknown.

Cidaris sp.

Cidaris sp. De Gregorio, 1890, Mon. faune Eocenique Alabama, p. 252.

Description. — The material representing this species is referred to by De Gregorio in these
words: "Auctor nullam descriptionem hujus specei dat." No figure is given.

Locality. — Near Claiborne, Ala.

Geologic horizon. — Claiborne group, middle Eocene.

Collection. — De Gregorio.

EOCENE ECHINODERMATA. 117

Subclass REGUT^ARIA ECTOBRANCHIATA.

Order DIADEMOIDEA.

Suborder ARBACINA.

Family ARBACIID.E.

Genus CCELOPIiEUBUS Agassiz.

CtELOPLETTRUS INFULATUS (Moi'toil).

Plate LVI, figures la-i.

Echinus infulatiis Morton, 1833, Am. Jour. Sci., Istser., vol. 24, p. 131, PL X, fio:. 7.
Echinus infulatus 'Morton, 1834, Synopsis Organic Remains, p. 75, PI. X, fig. 7.
Echinus infulatus Morton, 1842, Acad. Nat. Sci. Philadelplua Jour., 1st ser., vol. 8, p. 217.
Echinus infidatus Bronn, 1848, Index palseontologicus, vol. 1, p. 450; vol. 2, p. 187.
Echino-cidari-s infulatus Ravenel, 1850, Am. Assoc. Adv. Sci. Proc, vol. 3, p. 160.
(?) Arbacia (?) sp. Bouv^, 1851, Boston Soc. Nat. Hist. Proc, vol. 4, p. 3.
Cmlopleunis infulatus Desor, 1858, Sy^iopsis des ^chinides fossiles, p. 98.
Echinus infulatus Gabb, 1859, Cat. Invertebrate Fossils Cretaceous, p. 19.
C(£lopleurus depressus Conrad, 1865, Acad. Nat. Sci. Philadelphia Proc, vol. 23, p. 74.
Ccelopleurus infulatus Conrad, 1866, Check list. Eocene and Oligocene, p. 22.
Ccelopleurus depressus Conrad, 1866, Check list, Eocene and OHgocene, p. 22.
Cxlopleurus (Echinus) inflatus A. Agassiz, 1874, Revision of the Echini, p. 751.
Echinus infulatus ? Aldrich, 1886, Alabama Geol. Survey Bull. 1, p. 43.
Cwlopleurus infulatus Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 77.
Echinus infulatus Boyle, 1893, U. S. Geol. Survey Bull. 102, p. 118.
Ccelopleurus infulatus Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 698.
Ccelopleurus depressus Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 698.

Determinative characters. — Test moderate, depressed. Aml^ulacra narrow, projecting on
upper surface, with two rows of tubercles extending from the peristome to the apical system,
plates compound except near apex; poriferous avenues narrow; pore pairs uniserial, ixi arcs.
Interambulacra broad, each with four rows of primary tubercles extending from the peristome
to slightly above the ambitus beyond which the inner rows disappear. Apical system large,
the genital plates in contact. Peristome with small branchial incisions. Periproct large
subpent agonal.

Dimensions. — Diameter 19.5 millimeters; height 10 miUimeters.

Description. — This very characteristic species is represented by a single specimen from the
Santee marl member of the McBean formation of South Carolina. The test is of moderate
size, depressed and subpentagonal in outline.

The ambulacra are narrow and project above the general level of the test. Each am-
bulacrum has two rows of prbnary tubercles that extend from the peristome nearly to the
apex. The tubercles are imperforate and noncrenulate. The j^lates are compound except
near the apex and consist of one primary and two demiplates. The poriferous avenues are
narrow, and the pore pairs which are uniserial are in arcs.

The interambulacra are broad, each area being covered with four rows of primary tubercles
which extend from the peristome to a little above the ambitus, beyond which the two central
rows disappear, and the outside rows gradually decliae in size to very small tubercles or even
into granules. The large bare median area produces a broad depression on the upper surface.

The apical system is large, the genital plates coming into contact and separating the small
oculars.

The i^eristome is large with small branchial incisions. The periproct is large and subpen-
tagonal in outline.

Locality. — South Carolina (Morton).

Geologic Tiorison. — Santee marl member of .McBean formation, of Claiboi-ne group, middle
Eocene.

Collection. — -Academy of Natural Sciences of Philadelphia (1076).

118 MESOZOIC AND CEXOZOIC ECHIXODEKMATA OF THE UKITED STATES.

Suborder DIADEMINA.
Family CYPHOSOMATID.f:.

Genus OBTHECHINTJS Gauthier.

Oethechinus pretiosus Clark, n. sp.

Plate LVI, figures 2 a-b.

Determinative cJmracters. — Test small, depressed, circular. Ambulacra wide, with two rows
of low primary tubercles, crenulate and imperforate; poriferous avenues straight, pore pairs
uniserial, with three pairs to each plate. Interambulacra with two rows of primary tubercles
similar to those of ambulacra and with additional smaller tubercles and granules. Apical
system large. Periproct large.

Dimensions. — Diameter 20 millimeters; height 8 mUUmeters.

Description. — A single crushed specimen of this species has been found. The test is small
depressed, and circular in ambital outline. The ambulacra are -n-ide with two rows of crenulate
and imperforate small primary tubercles, whicli are somewhat indistinct on account of their
relatively small, low mamelons and small areolas. Smaller tubercles and granules axe also
found. The poriferous avenues are straight, the pore pairs uniserial with three pairs to each
compound plate.

Tiie interambulacra have two rows of primary tubercles similar to the ambulacra together
with smaller tubercles. The miliary space is covered ■\\-ith irregularly dispersed granules.

The apical system is large, pentagonal in outline, and wath large genital plates. The
periproct is large.

Locality. — Dead Level, Choctaw County, Ala.

Geologic Jiorizon. — St. Stephens limestone (lower portion), upper Eocene.

Collection.— v. S. National Museum (146455).

Suborder ECHININA.
Family TRIPLECHINIDiE.

Genus ECHINUS Linne.

Echinus exerceus De Gregorio.

? Echinus sp. Aldrich, 1886, Alabama Geol. Survey Bull. 1, p. 49.

Echinus exerceus De Gregorio, 1890, Alabama Mon. faune eocenique, p. 252, PI. XLIV, fig. 3.

Echinus exerceus Stefanini, 1911, Soc. geol. itaUana BoU., vol. 30, p. G97.

Description. — No material representing this species was available for study. De Gregorio
gives the following description: "Aculeus exilis, oblongus, sub lente minutissime eleganter
punctulatus reticulatusque, interne ad basim turgidus."

Locality. — Near Claiborne, Ala. (De Gregorio).

Geologic horizon. — Claiborne group, middle Eocene.

Collection. — De Gregorio.

Echinus (?) sp.

Plate LVI, figure 3.
Diadematoid spines, Clark and Martin, 1901, Maryland Geol. Survey, Eocene, p. 232, PI. LXI, fig. 2.

Description. — Several small, thin ecliinoid spines, the generic relations of wliich can not be
with certainty determined, have been found in the Eocene deposits of Maryland and Virginia.
They are doubtfully refeiTed to Echinus.

Localities. — Near South River and Severn River, Md. ; Potomr.c Creek, Va.

Geologic horizon. — Aquia formation, lower Eocene.

Collection.— Johns Hopkins University (T 2000).

EOCENE ECHINODEEMATA. 119

Subclass IRREGULARIA.

Order GNATHOSTOMATA.

Suborder CLYPEASTRINA.

Family FIBULARIID.E.

Genus ECHINOCYAMUS Phelsum.

EcHiNOCTAMUS PARVUS Emiiions.

Echinocyamus parvus Emmons, 1858, Agriculture Eastern Counties: North Carolina Cteol. Survey Rept., p. 307, fig. 244.
Echinocyamus parvus Conrad, 1866, Smithsonian Misc. Coll., vol. 7 (200), p. 31.
Echinocyamus parvus Heilprin, 1884, Contrib. Tertiary Geology U. S., p. 17.
Echinocyamus parvus Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. C98.

Description and determinative characters. — The location of Emmons's type of this little
ecliinoid is unknown, and the writer has been unable to find any specimen similar to it in the
North Carolina material studied. The description of Emmons is therefore quoted in full, as
follows :

Test small, oval, with rounded sides, avenues dorsal; mouth subcentral, rounded, large, with a crenulated margin;
vent between the mouth and hinder margin ; genital pores apparently four. The mouth is large in proportion to the size
of the body and the vent is situated halfway between the mouth and the margin.

Dimensions. — ^Emmons's figure, which he states is natural size, is 5 millimeters in length and
3 millimeters in width.

Related forms. — E. parvus is closeh' alhed to E. huxleyanus. Tlie latter apparently cUffers,
however, in being more pointed anteriorly and in having the periproct near the posterior margin.
E. parvus is also closely related to E. vaughani and E. texanus, wliich are to be distinguished by
ha'vdng the periproct nearer the peristome.

Locality. — Craven County, N. C. (Emmons).

Geologic horizon. — Eocene (Emmons). Very probably from the Trent marl.

Echinocyamus huxleyanus Meyer.

Plate LVII, figures la-d.

Echinocyamus huxleyanus Meyer, 1886, Alabama Geol. Survey Bull. 1, p. 85, PL III, fig. 23.
Echinocyamus huxleyanus De Ciregorio, 1890, Mon. faune eocenique Alabama, p. 251, PI. XLIII, fig. 15.
Echinocyamus huxleyanus Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 697.

Determinative characters. — Test thin-walled and fragile, very small, flattened egg-shaped,
anterior end pointed. Upper surface low, convex; under surface concave around peristome.
Apical system excentric anteriorly, with four large genital pores. Petals rudimentary, open at
ends; pores not conjugated. Peristome central, relatively large. Periproct small, about one-
fourth the distance from margin to peristome. Tubercles relatively large.

Dimensions. — Length 3 to 5 milUmeters; width 2 to 3 milhmeters; height 1 to 2 milHmeters.

Description. — This httle EcMnocyamus is found in some abundance in the sands of the
Claiborne group in Alabama. The test is notably thin-walled and fragile, in strong contrast
with the other American representatives of the genus. In marginal outline it is subelhptical to
elongate subovate and in general form subelhpsoidal to flattened egg-shaped ; the anterior end
being more or less pointed, and the height being about half or less than half of the width. Tlie
upper surface is low and gently convex; the lower surface flattened, sUghtly concave close to the
peristome.

The ambulacra! petals are rucHmentary, extending two-tMrds or more of the way to the
margin, open at the ends; poiiferous zones nearlj- straight, pores round, pairs not conjugated.
The apical system is excentric anteriorly, ^\-ith four large genital pores set close together, the
anterior pair being only slightly nearer together than the posterior pair.

120 MESOZOIC AND CENOZOIC ECHINODEEMAIA OF THE UI^ITED STATES.

Tlie surface of the test is covered with numerous small but rather conspicuous tubercles set
in relativel}' large scrobicules.

The peristome is central, relatively large, circular. The periproct is small, about one-half
the diameter of the peristome, situated near the margin, being about one-fourth of the distance
from the margin to the peristome.

Related forms. — E. huxleyanus is closely related to E. farvus. In fact, it is quite possible
that ^vith the discovery of some good specimens of Emmons's form E. Tiuxleyanus may be found
to be identical and be reduced to a synonym. It appears to differ from E. farvus, however, in
having its periproct nearer the margin and in being more pointed anteriorly. It also resembles
both E. texanus and E. vaughani, but differs from them in having tUnner walls, in being less
elevated, and in not ha^'ing its periproct near the peristome.

Locality. — Claiborne, Ala.

Geologic horizon. — Gosport sand, Claiborne group, middle Eocene.

Collections. — U. S. National Museum (figured form); Johns Hopkins University (T 2006).

EcHiNOCYAMUS TEXANUS Twitchell, n. sp.
Plate LVII, figures 2a-d.

Determinative characters. — Test very small, elhpsoidal, oval in marginal outUne. Upper
surface elevated, somewhat flattened in the center; lower surface flattened around the nearly
flush peristome. Apical system with four medium-sized genital pores; madreporite tumid.
Petals loiig, the anterior three nearly reacliing the margin, wide open at ends. Peristome
relatively large, central; periproct very small, close to peristome.

Dimensions. — Length 5 milhmeters; width 4 milUmeters; height 2.5 milhmeters.

Description. — Only a single specimen of this new Ecliinocyamus has been discovered. It
was found by Mr. T. H. Aldrich of Birmingham, Ala., who reports that it was found in the
"Lower Claiborne" deposits of Lee County, Tex. Tlie test is tliick-walled, very small (it being
one of the smallest of American echinoderms), regularly oval in marginal outline, and elhpsoidal
in general form. The upper surface is elevated, somewhat flattened centrally; the lower sur-
face flattened near the nearly flush peristome and the periproct.

Tlie ambulacral petals are rather well defined, relatively long, all of about equal length,
the anterior three extending nearly to the margin as seen from above. The poriferous zones
diverge in almost straight hues to the ends where they are wide apart; they consist of small
round pores in pairs which are apparently not conjugated.

Tlie apical sj^stem is subcentral or very sUghtly excentric anteriorly, coincident with the
apex, with four moderate- sized genital pores set near together, the anterior pair but shghtly
nearer together than the posterior pair. A small, swollen, button-shaped madreporite just
reaches to the genital pores.

The peristome is relatively large, central, nearly flush with the lower surface; periproct
very small, about one-third of the diameter of the peristome, and is situated at a distance from
the peristome equal to its own diameter.

Related forms. — E. texanus is most closely related to E. vaughani, but is easily distinguished
from it by its less egg-shaped form, smaller size, less pointed anterior end, and less difference
between its longitudinal and transverse diameters. E. texanus also resembles E. parvus and
E. huxleyanus but differs from both in having its periproct near the peristome. It also differs
from E. huxleyanus in being less fragile, less depressed, and less pointed anteriorly.

Locality. — Lee County, Tex.

Geologic horizon. — Lower part of Claiborne group, middle Eocene.

Collection. — Johns Hopkins University (T 2002).

EOCENE ECHINODEEMATA. 121

Genus SISMONDIA Desor.
SiSMONDiA (?) PLANA Coiirad.
Plate LVII, figures 4a-d.

Sismondia plana Conrad, 1865, Acad. Nat. Sci. Philadelphia Proc, p. 75.
Mortonia (Periarchus) pla7ia Conrad, 1866, Smithsonian Misc. Coll., vol. 7 (200), p. 21.
jSismondia plana Cotteau, 1S91, Paleontologie frangaise, Echinides ^ocfenes, vol. 2, p. 299.
Monostychia plana Gregory, 1891, Geol. Soc. America Bull., vol. 3, p. 108.
Periarchus (?) plana Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 699.

Determinative characters. — Test very small, very tliin, subovate to subcircular in marginal
outline, rounded to somewhat pointed anteriorly and posteriorly. Upper surface verj^ low,
slightly tumid centrally; apex and apical system more or less anteriorly excentric; lower sur-
face flat; margin very thin. Ambulacral petals subelliptical, extending halfway to margin,
nearly closing at ends. Peristome slightly excentric anteriorly, small, circular; ambulacral
grooves well defined and simple halfway to the margin, then obscure but apparently not branch-
ing. Periproct very small, elliptical, about two-fifths the way from margin to peristome.

Dimensions. — Length 17 milUmeters; width 15 milUmeters; height 2 millimeters.

Description. — Tlie test of this species is very small, rarely exceeding one-half an inch in
diameter, very tliin throughout, subovate to subcircular in marginal outUne, rounded to some-
what pointed anteriorly and posteriorly, broadest back of the middle. Tlie upper surface is
very low, shghtly tumid centrally; the apex usually excentric anteriorly, sometimes subcentral;
the lower surface flat; the margin very thin.

The ambulacral petals are well defined but small, extending onlj' halfway to the margin,
broadly lanceolate to subelhptical in outhne, nearly closing at the ends ; several pairs of pores
extend beyond the ends of the petals. The poriferous zones are relatively narrow, inner row
of pores round, outer row oval, pairs of pores conjugated; interporiferous areas rather narrow,
not much wider than the poriferous zones.

The apical system is subcentral or excentric anteriorly, coincident with the apex. Tlie
details could not be clearly niade out on the specimens.

Tlae tuberculation is inconspicuous, the whole test being covered with small tubercles, in
shallow scrobicules, set closely together.

The peristome is subcentral or shghtly excentric anteriorly, small, circular. The ambula-
cral grooves extend as well defined simple Hues from the peristome haHway to the margin, beyond
wliich point they become obscure; but do not appear to branch.

Tlie periproct is very small, elliptical, the longest diameter being longitudinal, located about
two-fifths of the way from the margin to the peristome.

Related forms. — Scutella (?) conradi is closely related to Sismondia ( ?) flana but differs from
it in having its posterior border truncated and notched at the middle and opposite the posterior
petals, and its periproct nearer the posterior border.

Locality. — The type came from South CaroUna. (No more definite locality can be given.)
Some specimens came from near Charleston, S. C.

Geologic Tiorizon. — Eocene.

Collection. — Academy of Natural Sciences of Philadelphia (1080).

Genus FIBTJIiARIA Lamarck.
FiBULAEiA MEEiDioNALis (Meyer).

Plate LVII, figures 3a-d.

Schinocyamus meridionalis Meyer, 1887, Fauna Alttertiiirs Mississippi und Alabama, p. 12, PI. II, figs. 21, 21a.
Echinocyamus meridionalis De Gregorio, 1890, Mon. faune eoc^nique Alabama, p. 251, PI. XLIII, fig. 14,
Echinocyamus meridionalis Stefanini, 1911, Soc. geol. itaUana Boll., vol. 30, p. 697.

Determinative characters. — Test thin walled and fragile, very small, discoidal, broadi}- oval
to subcircular in marginal outline. Upper surface very low, flat or nearly so; sides rounded;
lower surface slightly concave. Apical system central or subcentral; petals rudimentary,

122 MESOZOIC AXD CENOZOIC ECHINODEEMATA OF THE UNITED STATES.

inconspicuous. Peristome central, unusually large, much larger than periproct, circular, with
crenulated margin. Periproct very small, nearer to posterior margin than to peristome.

Dimensions. — Length 2 to 4 millimeters; width 1.5 to 3 millimeters; height 0.5 to 1 milli-
meter.

Description. — This little echinoid occurs in comparative abundance in association with
EcJiinocijamus Tiuxleijanus in the Gosport sand at Claiborne, Ala., and elsewhere. The test is
thin walled and fragile, very small, rarely reaching a quarter of an inch in length, discoidal in
general form, broadly oval to subcircular in marginal outline. The upper surface is very low,
rarely over a millimeter in height, fiat or faintly convex; the sides rounded; the lower surface
nearly flat, or slightly concave. In a few specimens several faint radiating creases can be
distinguished on the lower side.

The ambulacral petals are decidedly rudimentarj^, so inconspicuous as to be difficult to
discern on even good specimens ; short, extending less than halfway to the margin, the poriferous
zones nearly parallel and composed of very small pores in pairs which are not conjugated.

The apical system is central or subcentral, usually broken out. The genital pores are very
small and can rarely be made out on the specimens.

The whole surface of the test is covered %vith small tubercles, set in relatively large
scrobicules.

The peristome is central and unusually large in proportion to the size of the test, its diameter
being 4 or 5 times that of the periproct. The periproct is very smaU, circular, and situated from
one-fourth to one-thii'd of the way from the posterior margin to the peristome.

Related forms. — F. meridionalis is not closely related to any other American species. In its
fragility, size, and superficial characteristics it resembles E. Jiuxleyanus, but differs in having a
more rudimentary apical system and ambulacral petals and in its very low, subcircular, discoidal
form.

Localities. — Claiborne, Ala., and Jackson, Miss.

Geologic horizon. — Gosport sand of Claiborne group, middle Eocene.

Collections. — Johns Hopkins University (T 2005) ; U. S. National Museum.

FamUy LAGANID.E.

Genus LAGANtTM BlainviUe.

Laganum (?) CKUSTULOiDEs (^lorton).

Plate LVII, figures 5a-d, 6a-d.

Scutella crustuloides Morton, 1833, Am. Jour. ScL, 1st ser., vol. 24, p. 131, PI. X, fig. 8.

Scutellacrustuloides Morton, 1834, Synopsis Organic Remains Cretaceous, p. 77, PI. XV, fig. 10.

Scutella crustuloides Morton, 1842, Acad. Nat. Sci. Philadelphia Jom\, 1st ser., vol. 8, p. 217.

Scutella crustuloides Bronn, 1848, Index Palseontologicus, vol. 1, p. 1126; vol. 2, p. 196.

Scutella crustuloides Ravenel, 1848, Echinidse, recent and fossil, of South Carolina, p. 2.

Scutella crustuloides Ravenel, 1850, Am. Assoc. Adv. Sci. Proc, vol. 3, p. 160.

Sismondia crustuloides Desor, 1858, Synopsis des ^chinides, p. 227.

Scutella crustuloides Gabb, 1859, Cat. Invert. Fossils Cretaceous, p. 19.

Scutella crustuloides Dujardin and Hup^, 1862, Histoire nat. zoophytes 6chuiodermes, p. 559.

Sismondia crustuloides Conrad, 1865, Acad. Nat. Sci. Philadelphia Proc, pp. 74-75.

Sismondia crustuloides Conrad, 1866, Smithsonian Misc. Coll., vol. 7 (200), p. 21.

Scutella crustuloides De Gregorio, 1890, Mon. faune ^oc^nique Alabama, p. 251, PI. XLIII, figs. 24-25 (reprod. from

Morton).
Sismondia crustuloides Ootteau, 1891, Pal6ontologie frangaise, Echinides Eocenes, vol. 2, p. 300.
Scutella crustuloides Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 77.
Scutella crustuloides Boyle, 1893, U. S. Geol. Survey Bull. 102, p. 262.
Pcriarchus (?) crustuloides Stefanini, 1911, Soc. geol. itaEana Boll., vol. 30, p. 699.

Determinative characters. — Test small, subpentagonal, suboval or subovate in marginal out-
line. Upper surface low, tumid centrally; margin very thick, submarginal area flat or nearly so,
about the same thickness as the margin. Lower surface concave. Apex and apical system
slightly excentric anteriorly. Ambulacral petals lanceolate, pointed and closed at the ends.

EOCEJJE ECHINODEKMATA. 123

extending two-tliirds the way to the margin; porifenms zones much narrower than interporif-
eroiis areas. Peristome small, subpcntagonal, slightly excentric anteriorly; ambiilacral grooves
simple, straight, inconspicuous. Periproct small, subcircular, from one-fourth to one-third the
way from margin to peristome.

Dimensions. — Specimen A: Length 21 luillimeters; width 26 millimeters; height 5 milli-
metei-s. Specimen B: Length 31 miUimetere; width 26 millimeters; height 6 millimeters.

Description. — This little echinoid was one of the first reported from American deposits,
having been described and figured by Morton as early as 1833. It is relatively somewhat abun-
dant in the Eocene deposits and has been found in South Carolina, Georgia, and Alabama. The
test is small, ranging from three-quarters of an inch to 1 J inches in length. In marginal outline
it is rather variable, being subpcntagonal in most specimens but suboval or subovate in some.
The whole form is greatly depressed, the upjjer surface tumid centrally, the tumid area involving
the larger part or all of the ambulacral petals; the margin is rounded and notably tliickened all
around, though slightly less so at the midcUe of the posterior end than elsewhere, the submarginal
area flat or nearly so, as thick as or more or less thick than the margin. The under surface is
decidedly concave, the concavity reaching nearly to the margin. The apex is slightly excentric
anteriorly at the summit of the tumid area.

The ambulacral petals are lanceolate or elongate subellij^tical, pointed and practically closed
at the distal ends; the anterior pair slightly shorter than the other three, all of them extending
about two-thirds the way to the margin. The poriferous zones are very narrow, much narrower
than the interporiferous areas, sometimes irregular, the inner ends poorly defined, inner row of
pores round, outer row slitlike, pairs of pores conjugated. The whole surface of the test,
including the interporiferous areas and the apical region is covered with rather conspicuous
small tubercles set in deep scrobicules which are larger on the lower surface.

The apical system is central or slightly excentric anteriorly at the summit of the tumid area.
There are four large genital pores, the anterior pair being set closer together than the posterior
pair. The poriferous zones rarely if ever can be seen to come together at the proximal ends, and
the perforations of the radial plates, if they exist, can not be discerned.

The peristome is small, subpcntagonal, slightly excentric anteriorly; the ambulacral grooves
are never very distinct on even well preserved specimens. They appear to be straight, simple,
faint lines from peristome to near the margin, distinguished more by finer tuberculation than
by the existence of a distinct groove.

The periproct is small, about one-third the diameter of the peristome, subcircular, situated
from one-fourth to one-third the way from the margin to the peristome.

Related forms. — Of American forms L. (?) crustuloides is most closely related to L. joTinsoni
which differs chiefly in being highei and having a thicker margin. L.{1) crustuloides is also closely
related to L. floridanum which differs in having a smaller petaloidal area, a more regularly oval
marginal outline, a concave ring around the ends of the petals and a flat lower surface.
Scutella (?) conradi also resembles the present species but differs in having its margin thin and
posteriorly truncated and notched. L. archerensis and L. dalli both differ in having flat lower
surfaces and the apical region but little if any higher than their thick margins.

Of foreign forms the present species is allied to Laganum reflexum from the Tertiary of
Blaye, France, which, however, is thinner posteriorly. Sismomlia marginalis (Des Moulins)
Desor from the middle Eocene of France also resembles the present form but differs in having
petals which are longer and more open at the end.

Localities. — South Carolina, probably near Charleston; near Bainbridge, Ga.; Dothan, Ala.

Geologic horizon. — Jackson formation, (probably) upper Eocene; Vicksburg formation,
lower Oligocene.

Collections. — Boston Society of Natural History (SS02a, A); U. S. National Museum (lii4,
744, B).

124 MESOZOIC AND CENOZOIC ECHINODEKMATA OF THE UNITED STATES.

Family SCUTELLID^.

Genus SCUTELLA Lamarck.

Scutella Lamarck, 1816 (pars), Anim. sans vert., vol. 3, p. 7.
Scutella Lamarck, 1840, Anim. sans vert., 2d ed., vol. 3, pp. 275-277.
Scutella Agassiz, 1841, Men. d'^chinodermes, vol. 2, Des scutelles, p. 75.
Echinarachnius Gray, non Leske, 1825 (pars), Ann. Phil, for 1825, p. 428.
Echinarachnius Agassiz, 1872 (pars), Revision of the Echini, p. 107.

The genus Scutella as here used includes the greatly depressed Scutellidse without lunulea
or digitations ; with central or subcentral apical system ; homogeneous or slightly differentiated
plates; ambulacral furrows bifurcating; periproct marginal, inframarginal, or actinal, but less
than two-fifths of the way from the margin; and four or five genital pores.

Some of the forms included here are by certain authors placed under Echmarachnius
Leske. This practice has not been followed by the writer because apparently Echinaracluiius,
being founded m 1778 on Echinus placenta lAnne, should replace the pre-Lhinean name Arach-
noides Klein with which placenta was first associated by L. Agassiz in 1841, and because,
even if this correction is made, the writer also questions the giving of separate generic rank
to the forms with a strictly marginal periproct.

Genus SCUTELLA Lamarck.

Scutella mississippiensis Twitchoil, n. sp.
Plate LIX, figures la-f, 2.

Determinative characters. — Test variable in size; subcircular to subtriangular in marginal
outline, broader than long, broadest posteriorly; the whole form greatly depressed, being thin
and nearly fiat around a narrow marginal area within which it rises very gradually and gently
to the low, central apex; margin thin, with a small notch in the middle of the posterior edge;
under surface flat. Ambulacral petals elliptical, extending about half way to the margin.
Apical system central. Peristome small, circular; ambulacral furrows simple and straight for
two-thirds or more of the way to the margin, then apparently forking symmetrically. Periproct
very small, circular, almost at the ambitus though slightly inframarginal, at the edge of the
notch in the middle of the posterior margin.

Dimensions. — 'Specimen A: Length 50 millimeters; width 52.5 millimeters; height 6
millimetei-s. Specimen B: Length 52.5 millimeters; width 7G millimeters; height 8 millimeters.

Description. — 'This new Scutella is one of the most abundant in the American Cenozoic
deposits. The writer has had opportunity to examine several hundred specimens. Nearly all
of these were from the Eocene deposits of Mississippi, hence the specific name. The test is
variable in size, ranging from less than i inch to over 3 inches in diameter and from less than
J to nearly h inch in height. Tlie marginal outline is also quite variable, ranging from circular
to subcircular in the younger forms to subtriangular and even transversely elliptical in the
larger forms. The whole form is much depressed, being thin and nearly flat around a narrow
marginal area, although slightly more so posteriorly than elsewhere, from which it rises gradu-
ally and gently to the low, central apex. Tlie margin is thin and faintly undulating, with a
small notch in the middle of the posterior edge; the under surface is flat except around the
peristome, whore it is slightly concave. Tlie apex is central or subcentral, at the summit of the
broad central tumid area. '

The ambulacral areas are narrow in the petaloid region but wide in the marginal region
where they are wider than the interambulacral areas. The dorsal portions of the ambulacra
are petaloid. The petals are subequal in length, the odd petal slightly longer and narrower
than the rest; elliptical in form, slightly oprn at the ends and extend about half way to the
margin. The poriferous zones are rather wide, about equal to the interporiferous areas, though

EOCENE ECHINODEEMATA. 125

varying somewhat both among tho petals on a single specimen or on different specimens, being
slightly wider, equal to, or slightly narrower than the interporiferous areas; the inner row of
pores oval, outer row slitlike, pairs of pores conjugated. A few pairs of pores occur beyond the
ends of the petals.

The interambulacral areas are large though somewhat smaller both between the petals and
at tho margin than the ambulacral areas. The whole surface of the test is covered with small
maiform tubercles which arc slightly larger on the under side.

Tlie apical system is subcentral, at the summit of the central tumid area. The madre-
porite is relatively large, occupyuig the larger part of the area covered by the system, and flush
with the surface. There are five genital pores near the edge of the madreporite. One specimen
studied possessed the abnormal feature of a double posterior genital pore. There are five small
radial plates, each perforated by a minute pore.

Tho peristome is very small, not over double the size of the. periproct, circrdar, central or
slightly excentric posteriorly; the ambulacral furrows simple and straight for two-thirds or
more of the distance from peristome to margin, then apparently forking symmetrically, each
pair of branches continuing almost to the margm. Tlie under side is revealed on few specimens,
and on few can the furrows be made out.

The periproct is very small, circular, almost at the ambitus though slightly uiframarginal,
situated at the under and inner edge of the notch in the middle of the posterior margin.

Related forms. — S. mississippiensis does not appear to be closely related to any other
American form. It resembles PeriarcTius lyelli in general appearance, and specimens have
doubtless been erroneously labeled S. h/elli in some collections; S. mississippiensis, however, is
readily distinguished by its submarginal periproct, greater width, the notch in its posterior edge,
and the fact that its tumid central area involves nearly tho whole upper surface. It bears an
interesting resemblance to the recent species Scutella parma, but differs from it in having less
widely open petals, much narrower interporiferous areas, a less circular and more anteriorly
pointed form, and in not having its periproct exactly marginal or at the ambitus.

Of foreign forms S. patagonensis (Desor) Ortman, especially the "alate" form described by
Ortman and formerly known as Echinarachnius juliensis Desor from the Neocene of Patagonia,
appears to be most closely related to S. mississippiensis. It is very similar in marginal outline,
location of periproct, etc., but differs in having a less central apical system, longer petals, nar-
rower interambulacral areas, and in having its ambulacral furrows begmning simply and then
forking in symmetrical curving branches almost mimediately. S. subtetragona De Grateloup and
S. striatula M. de Serres, both from the upper Eocene of France, also present certain points of
identity with S. mississippiensis. Each, however, differs from the American form in having
four genital pores instead of five and in having the ambulacral furrows fork near the peristome.

Localities. — -Cemetery Branch (type), Radiate Banks, SpUlman's Clam bed and other
localities in and aroimd Enterprise, Clarke County, Miss. ; San Augustin, and 1 mile southwest
of Palestine, Tex.

Geologic horizon. — Claiborne gi'oup, middle Eocene. In Mississippi, at the base of the
Lisbon marl. In Texas, in the marine substage of the Claiborne.

Collections. — U. S. National Museum (1.37655, A; 137655a, B); Wagner Free Institute of
Science.

Scutella tuomeyi Twitchell, n. sp.

Plate LX, figures la-d. i

Determinative characters. — Test medium in size, subovato in marginal outline, somewhat
pointed anteriorly and truncated posteriorly; the whole form greatly depressed, being thin and
nearly flat aroimd a narrow marginal area, and only slightly tumid within the petaloidal area ;
under sm-face flat. Ambulacral petals narrowlj^ elliptical, the posterior pah- extending about
half, the others decidedly more than half way to the margin. Apex and apical system central,
at the summit of the tumid area. Peristome small, circular; ambulacral furrows simple and
39800°— 15 0

126 MESOZOIC AXD CEXOZOIC ECHINODEEMATA OF THE UNITED STATES.

straight for about half the distance to the margin. Periproct very small, subcircular, about
one-fourth the way from the posterior margin to the peristome.

Dimensions. — -Length 40.5 millimeters; width 39 millimeters; height 5 millimeters.

Description. — -Tliis new species is rare, only a single specimen having yet been discovered.
As this specimen was found in South Carolina, the form is named in honor of that distmguished
worker upon the geology and paleontology of South Carolina, IVIr. M. Tuomey. Tlie test is
medium in size. In marginal outline it is subovate, broadest posteriorly, narro^raig until some-
what jjomted anteriorly, truncated along the middle of the posterior border. The whole form is
greatly depressed, being quite flat all around the area outside the ambulacral petals, and within
the petaloidal area rismg only slightly to form a very low broad mound. The margin of the test
is thin, with two shallow notches opposite the ends of the posterior petals. The flattened mar-
ginal area, from the ends of the petals to the edge, is thin and rather narrow, especially ante-
riorly, where it is decidedly less wide than the petals are long, while posteriorly the width is
about equal to the length of the petals. The under surface is flat or slightly concave from
edge to edge. The apex is central or subcentral, at the summit of the tumid area.

The ambulacral areas are narrow in the petaloid region, but wide at the margin, where they
are wider than the inter ambulacral areas. The dorsal portions are petaloid. The petals are
of medium size, subequal in length, narrowly elliptical in form, slightly open at the ends; the
posterior pair extending about half, the others decidedly more than half, the way to the margin.
The poriferous zones are rather wide, almost as wide as the interporiferous areas; inner row of
pores oval, the outer slitlike; the pairs of pores conjugated. A few pairs of pores extend beyond
the ends of the petals.

The interambulacral areas are rather wide between the petals, wider than the ambulacral
areas; of nearly unifoiTQ width to the margin where somewhat narrower than the ambulacral
areas; composed of large polygonal plates. The whole surface of the test is covered with small
uniform tubercles, which are slightly larger on the under side.

Tlie apical system is central or subcentral; coincident with the apex. The details are
indistmct upon the specimen; but the madreporite is relatively large, flush with the surface,
with five genital pores near its edge.

The peristome is small, circular oi- subcu'cular, subcentral; the ambulacral furrows appar-
ently simple and straight for about half the distance to the margin, where they probably fork
symmetiically though they do not show well on the only specimen found.

The periproct is very small, about half the diameter of the peristome, subcircidar, approach-
ing an inframarginal position, bemg situated on the under surface about one-fourth the way from
the posterior margin to the peristome.

Belated forms. — -This species is very similar to some specimens of Periarchus lyeUi, but differs
from it in bemg more pointed anteriorly, in being truncated posteriorly, and in having its
periproct nearer to its posterior border. S. conradi resembles S. tuomeyi, but can be separated
by its smaller size, subquadrate posterior end, emarginate posterior border, and nearer approach
of periproct to posterior border. S. tuomeyi also resembles S. mississippiensis in general
appearance, but the latter is readily distinguished by the submarginal location of its periproct.
There do not appear to be any foreign forms which are closely related.

Localitij. — -Fourteen miles south of Fort Motte station, Orangeburg County, S. C.

Geologic Jiorizon. — -Eocene, probably from the McBean formation of the ' Claiborne group,
middle Eocene. Tlie specimen occurred in a greensand matrix.

Collection. — U. S. National Museum (137970).

SCUTELLA (?) CONRADI (Cottcau).

Plate LXn', figures la-d.

non Scutdla niarginalis DesmouUns, 1837, Etudes sur les ecliinides, Tabl. synon., p. 234.
non Laganum marginalc, Agassiz and Desor, 1847, Cat. raisonne echinodermes, vol. 7, p. 133.
non Sismondia marginalis Desor, 1858, Synopsis des ecliinides, p. 226, PI. XXVII, figs. 26-28. '
Sismondia marginalis Conrad, ISG-'i, Acad. Nat. Sci. Philadelphia Proc, p. 7.5, no fig.
Mortonia (Periarchus) marginalis Conrad, 1866, Smithsonian Misc. Coll vol. 7 (200), p. 21.

EOCENE ECHINODEEMATA. 127

Sismondia conradi Cotteau, 1891, Paleontologie franfaise, Echinides eocenes, vol. 2, p. 300.
non Sismondia marginalis Cotteau, 1891, Paleontologie franfaise, Echinides ^octoes, vol. 2, p. 267.
Monostychia marginalis Gregory, 1891, Geol. Soc. America Bull., vol. 3, p. 105.
Periarchus (?) marginalis Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 697.

Determinative characters. — Test small in size; marginal outline subquadrate to suboval, the
sides and posterior margin being truncated so that the posterior border is semiquadrate and the
anterior border is semicircidar; the whole form much depressed, though centrally it rises m the
form of a low gently rounded mound ; margin thin, with a small notch in the middle of the pos-
terior edge; inider surface flat. Amljulacral petals elliptical, extending about halfway to the
margm. Apex and apical system central, or slightly excentric anteriorly. Peristome small,
subcircular ; ambulacral furrows simple and straight for over halfway to the margin, then becom-
ing obscure. Periproct very small, subpentagonal or subcircular, inframarginal.

Dimensions. — Length 21 millimeters; width 21 millimeters; height .3 millimeters. This is
Conrad's type, here figured for the first time.

Description. — The species, though described by Conrad in 1865, has never been figured and
is not very well known. Tliere is some doubt in regard to its generic position. Gregory's remark
that it should be transferred to the genus Monostychia is not agreed to, for the reason that the
type reveals five genital pores and fails to show any continuation of the actinal grooves abac-
tinaUy. The test is small in size, the tj-pe being about ^ inch in diameter and about J inch
in height. In marginal outline it is subquadrate to suboval, with the sides and posterior margin
truncated so that the posterior half of the border is semicjuadrate and the anterior half semi-
circular. The upper surface is so much depressed all aromid the marginal area as to be cjuite
flat, or even shghtly concave, but within the area covered by the ambulacral petals it rises in the
form of a low, gently rounded mound with a rather broad, flattened summit. The margin is thin,
though shghtly thicker than the sul)marginal area, with a small notch in the middle of the pos-
terior side. The under surface is flat. The apex is central or slightly excentric anteriorl}', at
the summit of the tumid central area.

The ambulacral areas are narrow in the petaloid region, wider in the marginal region; but
the condition of the specimen does not permit the making out of many details. The dorsal por-
tions of the ambulacra are petaloid. The petals are subequal in length, elliptical in form, slightly
open at the ends and extend about halfway to the margin. The poriferous zones are rather wide,
but slightly less so than the interporiferous areas; the inner row of pores oval, the outer slitlike;
the pairs of pores conjugated. A few pairs of pores occur beyond the ends of the petals.

The interambidacral areas are relatively large. The whole surface of the test is covered
with small uniform tubercles, which are slightly larger on the under side.

The apical system is subcentral, at the summit of the central mound. The madreporite is
relatively large, occupying the larger part of the area covered by the system, and faintly tumid.
There are five genital pores near the edge of the madreporite and five small radial plates each
perforated by a minute pore.

The peristome is small, subcircular, central; the ambulacral furrows simple, straight, and
quite distinct for slightly more than half the distance to the margin, then becoming obscure. A
small ridge extends from the peristome along the middle of each ambulacral furrow for a greater
distance than the diameter of the peristome.

The periproct is very small, considerably smaller than the peristome, subpentagonal or sub-
circ\dar, situated on the under surface near the posterior margin, being about one-fifth the radius
from the border.

Related forms. — Of American forms S. (?) conradi most closely resembles S. tuomeyi and some
of the smaller specimens of Periarchus lyelli, but is easily separated from these species by its
subquadrate marginal outline and the inframarginal position of its periproct. It also resembles
S. mississippiensis, but its periproct is less nearly marginal. It does not appear closely related
to any of the known foreign forms.

Locality. — Conrad said his type came from near Charleston, S. C.

Geologic horizon. — Probably Cooper marl, upper Eocene.

Collection. — Academy of Natural Sciences of Philadelphia (1081).

128 MESOZOIC AND CENOZOIC ECHINODEEMATA OF THE UNITED STATES.

Genus MORTONELLA Pomel.

non Mortonia Gray, 1851.

Mortonia Desor, 1857, Synopsis des echinides fossiles, p. 231.

MortoneUa Pome], 1883, Classif. m^thodique et genera des echinides vivants et fossiles, p. 70.

Mortonella Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 684.

The genus Mortonella as used here includes the scutella-like forms having a central'or sub-
central apical system, periproct less than halfway from peristome to margm, thick margin, fire
genital pores, and ambulacral area either flat or tumid. The general form is discoidal. The
ambulacral furrows are simple and straight for halfway to the margin, then bifurcate and proceed
to the margin without much further branching. The ambulacral petals extend sHghtly more
than halfway to the margin and are open at the ends. The chief difference between Mortonella
and Periarchus is in the thickness of the margin.

Mortonella quinquefakl^^ (Say).
Plate LX, figures 2a-2f; Plate LXI, figures la-b.

Scutellaquinq%iefaria Sa,y, 1825, Acad. Nat. Sci. Philadelphia Jour., 1st ser., vol. 5, p. 228, no fig.

non Sciitella rogersi Morton, 1834, Synopsis organic remains Cretaceous, p. 77, PI. XIII, fig. 3.

non Scuklla rogersi Desmoulins, 1837, Etudes sur les echinides, Tabl. sjTion., p. 236.

non Lagana rogersi Agassiz, 1840, Cat. syst. ectyporum echinodermatum fossilium musei Neocomensis, p. 6. Merely
listed Morton's form.

Scutella rogersi Agassiz, 1841, Hon. echinodermes vivans et fossUes, vol. 2, Des scutelles, pp. 85, 86, PI. XIX,
figs. 1-4. Described and figured Say's form under the impression that he was dealing with Morton's.

Scutella rogersi Agassiz (pars), 1847, Cat. raisonne echinodermes, vol. 7, p. 135.

Scutella rogersi Bronn (pars), 1848, Index pala?ontologicus, vol. 1, p. 1126; vol. 2, p. 196.

Mortonia rogersi Desor (pars), 1858, Synopsis des ecliinides fossiles, p. 231, no fig. Described Say's form but cited Mor-
ton's figure.

Mortonia rogersi Dujardin and Hup6, 1862, Hist. nat. des zoophytes echinodermes, p. 563.

Mortonia rogersi Conrad (pars), 1865, Acad. Nat. Sci. Philadelphia Proc, p. 74.

Mortonia quinquefaria (Say) Conrad, 1866, Smithsonian Misc. Coll., vol. 7 (200), p. 32.

Scutella rogersi Quenstedt, 1872-1875, Petrefact. Deutschlands, pt. 1, vol. 1, Echiniden, pp. 525, 546.

Mortonia rogersi Zittel, 1876-1880, Handbuch der palaeontologie, vol. 1, pt. 1, p. 522.

Mortonia rogersi Agassiz, 1883, Mus. Comp. Zoology Mem., vol. 10, No. 1, p. 88.

Mortonella rogersi Pomel, 1883, Classif. meth. et genera des echinides A-ivants et fossiles, Alger., p. 70.

Scutella mortoni (Agassiz) Quenstedt, 1885, Handbuch der Petrefactenkunde, p. 696.

Scutella ( Mortonia) rogersi De Gregorio (pars), 1890, Mon. faune eocenique Alabama, p. 250, PI. XLIII, figs. 16-20.

Mortonia quinquefaria Gregory, 1891 (discussion), Geol. Soc. America Bull., vol. 3, p. 105.

Echinanlhus quinquefaria Gregory, 1891 (tabulation), Geol. Soc. America Bull., vol. 3, p. 105. This was evidently a
lapsus calami.

Scutella rogersi Boyle, 1893, U. S. Geol. Survey Bull. 102, p. 263.

non Mortonia rogersi Dana, 1895, Manual of geology, 4th ed., p. 898, fig. 1491.

Mortonella rogersi Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 685.

Determinative characters. — Test of medium size; discoidal; circular to broadly subovate in
marginal outhne; much depressed, upper surface more or less tumid centrally, margin and sub-
marginal area thick; under surface flat. Ambulacral petals large, broad, spatulate, extending
nearly two-thirds of the distance to the margin. Apex and apical system subcentral. Peri-
stome small, circular; ambulacral furrows simple and straight nearly halfway to the margin,
then forking symmetricaUy. Periproct very small, circular, about half the distance from peri-
stome to posterior margin.

Dimensions. — Specimen A: Length 56 millimeters; width 58 milhmeters; height 14 milU-
meters. Specimen B: Length 59 miUimeters; width 61 milHmeters; height 8 milhmeters.

Description. — This species was one of the earhest Cenozoic forms reported from American
deposits. It was first described by Thomas Say in 1825. Two specimens, which are probably
Say's types, were foxmd by the writer in the collection of the Academy of Natural Sciences of
Philadelphia. This species has been of ten confused with Clypeaster rogersi (Norton), owingpartly
to a superficial resemblance, but more to the mistakes of L. Agassiz and Desor. Agassiz was the
fibrst to figure Say's form; but unfortunately having figured and described what was in reahty

EOCENE ECHINODEKMATA. 129

Say's Scutella quinquefaria he applied to the form Morton's name Scutella rogersi. The forms
themselves are perfectly distinct, even belonging to different families, Say's form being one of
the Scutillidse and Morton's one of the Clypeastridse ; but, owing to the mistakes mentioned
great confusion exists in regard to them in the various coUections and in the literature. The
separation of the two forms is not at all difficult, Clypeaster rogersi (Morton) bemg easily distin-
guished bj^ its straight unbranched ambulacral furrows, its more concave under surface, its more
tumid ambulacral petals, its less circular and more pentagonal marginal outline, and the location
of its periproct nearer the posterior border.

This species is also interesting because on it Desor founded his genus Mortonia, based cliiefly
upon the unusualty thick margin for a Scutella-hke form. The name Mortonia was changed by
Pomel to Mortonella because Gray had appUed the name Mortonia to a different genus prior to
Desor's use of it for the present genus.

The test of the present species is notably discoidal in form. It is of medium size, the dimen-
sions varying but shghtly from those already given. In most specimens it is usually circular in
marginal outline, though in some it is broader posteriorly than anteriorly. The whole form is
much depressed, the upper surface being either nearly flat or having a low, gently rounded cen-
tral mound involving only about half of the region covered by the ambulacral petals. The vari-
ations in marginal outline and tumidity of the upper surface seem almost of specific value,
but intermediate forms show a gradation from one to the other, and the variation in
the character of the upper surface occurs in both the forms which are circular in marginal
outUne and those which are broader posteriorly. The region involving the outer part of each
petal is faintly concave. The margin and submarginal area are thick, usually almost as thick as
the average thickness of the test ; the margin being shghtly thimier and less roimded posteriorly
than anteriorly, faintly undulating. The under surface is flat or broadly and faintly concave.
The apex is subcentral, or shghtly cxcentric anteriorlj^, at the summit of the more or less tumid
central area.

The ambulacra are relatively wide in the petaloidal region, broader in the marginal region
where they about equal the interambidacral areas. The dorsal portions are petaloid; the petals
large, broad, subequal in length, the odd petal being shghtly longer than the rest, spatulate in
form, open at the ends and extending nearly two-tliirds the cUstance from the center to margin.
The poriferous zones are very wide, wider than the interporiferous areas; the inner row of pores
nearly straight and composed of oval openings, the outer row shthke; the pairs of pores
conjugated.

The interambulacra are relatively narrow in the petaloidal region, wide in the marginal
region, where about equal to the ambulacral areas, composed of large polygonal plates. The
whole surface of the test, including the margins, is covered with small uniform tubercles which
are shghtly larger on the under side.

The apical system is subcentral or shghtly excentric anteriorly at the summit of the test.
The madreporite is relatively large, occupying the larger part of the area covered by the system
and flush with the surface. There are five large genital pores near the edge of the madreporite
and five small radial plates each perforated by a small pore.

The peristome is small, circular, central, the ambidacral furrows simple and straight nearly
half the distance to the margin, then forking symmetrically, each pair of branches continuing
almost to the margin. Each branch gives off on the outside one side branch at right angles about
a fourth of the racUus from the margin, which side branches soon bend and in turn approach the
margin. A small ridge extends along the middle of each ambulacral furrow from the peristome
to the fork in the furrow.

The periproct is very small, circular, situated on the under surface about half the way from
the peristome to the posterior margin.

Relatedforms. — The thick margin and discoidal form of Mortonella qumquefaria afford a ready
means of separating it from most American echinoids. Dendraster perrini is similar in having
a thick margin but differs in having its apical system posteriorly excentric, its ambulacral

130 MESOZOIC AND CENOZOIC ECHINODEKMATA OF THE UNITED STATES.

petals relatively longer and wider open at the ends, and its periproct inframarginal. Peri-
archus lyelli also resembles M. quinquefaria in general but has a thin margin. Of foreign forms
Scutellafaujasi De France from the middle Tertiary of France is closely related to this species.
The specimen S. faujasi figured by Bronn in Lethsea geognostica, Plate XXXVI, figure S,
shows the tliick margin, discoidal outline, and similarly branching ambulacral furrows.

Localities. — Near MilledgeviUe (Say's types); 1 mile southwest of Sandersville (figured
specimen A); Washington County (figured specimen B); li miles northeast of Ten\'iUe; Nor-
ton; and 2 J miles south of Warthen, Washington County, Ga.

Geologic Jiorizon. — Claiborne group, middle Eocene, and Jackson formation, ( ?) upper
Eocene.

Collections. — U. S. National Museum (9500, A); Academy of Natural Sciences of Phila-
delphia: Wagner Free Institute of Science; Geological Survey of Georgia; Amherst College (B).

Genus PEBIABCHUS Conrad.

Periarchus Conrad, 1866 (subgenus), Smithsonian Misc. Coll., vol. 7 (200), p. 21.
Periarchus Grabau and Shimer, 1910, North Am. index fossils, vol. 2, p. 591.
Periarchus Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 687.

The genus Periarchus as used here includes the Scutella-hke forms with central or sub-
central apical system, periproct actinal, but less than three-fifths of the way from the peristome
to the margm, thhi margm, five genital pores and more or less abruptly tumid ambulacral area.
The ambulacral furrows are usually sunple and straight about halfway to the margin, then
bifurcate and proceed to the margin mthout much further branching. The ambulacral petals
are usually short, rarely extending more than halfway to the margm, more or less open at the ends.

Periarchus altus Conrad.

Plate LVIII, figures la-e.

Scutella .sp. Emmons, 1858, Agriculture Eastern Counties: North Carolina Geol. Survey Kept., p. 308, figs. 247, 248.

Sis7nondia aha Conrad, 1865, Acad. Nat. Sci. Philadelphia Proc, pp. 74, 75, no figure.

Mortonia (Penarchiis) alius Conrad, 1866, Smithsonian Misc. Coll., vol. 7 (200), p. 21.

Mortonia (Periarchus) alius Heilprin, 1884, Contr. Tertiary geology U. S., p. 17.

Sismondia alta Cotteau, 1889-1894, Pal^ontologie franfaise, Echinides eocenes, vol. 2, p. 300.

Periarchus altus Gregory, 1891, Geol. Soc. America Bull., vol. 3, p. 105.

Periarchus alius Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 699.

Periarchus sp. 6 Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 699.

Determinative cliaracters. — Test of medium size, circular m margmal outline, much depressed,
less so centrally where it rises in a relatively high, broad, obliquelj- flattened mound, whose apex
is noticeably excentric anteriorly; margin of sides and posterior end thin, anteriorly the upper
sm-face declmes in a straight line from apex to edge; mider surface flat. Ambulacral petals
subeUiptical, relatively large, extending about halfway to the margin. Apical system slightly ex-
centric posteriorly, and well to the rear of the apex. Peristome small, circular, slightly excentric
posteriorly; ambrdacral fuiTows sunple and straight for slightly more than half the way to the
margin, then forking symmetrically. Periproct very small, subcircular, about two-fifths the
way from the peristome to the posterior border.

Dimensions. — Length 57.5 milluneters; width 59 millimeters; height 12 mdlimoters. This
is the type, refigurod.

Description. — This species was figured and partly described by Emmons as early as 1 S5S. He
placed it in the genus ScuteUa but did not give the form a specific name. In 1S65 Conrad, who had
seen Emmons's type, gave a good description of it and applied the appropriate specific name
alta but he did not figure it. It is rare, only the one specimen fomid by Emmons having yet
been reported. The test is of medium size. The marginal outline is circular. The upper sur-
face rises centrally in the form of a low broad momid, whose apex is noticeably forward of the
center; anteriorly the surface declines in a straight line from the apex to the edge; along the
posterior margin it is greatly depressed and nearlv flat from the edge to the petaloid region, then
rises at first rather steeply then more gently to the apex. The relative height of the central

EOCENE ECHINODEEMATA. 131

mound is greater than m most fornas likely to be confused with it, being more than one-fifth of
the diameter of the test. The margin of the sides and posterior end is thm. The imder surface
is flat, or faintly concave between the margin and the region around the peristome. The apex
is noticeably excentric anteriorly at the summit of the tumid area.

The ambulacral areas are relatively wide in the petaloid region though ^vider m the mar-
guial region, in both cases being ■\\-ider than the interarabulacral areas. The dorsal portions of
the ambulacra are petaloid. The petals are relatively large and broad; subequal ui length, the
posterior pan- bemg slightly shorter than the rest; subelliptical m form; slightly open at the
ends; extending slightlj- more than halfway to the marghi. The poriferous zones are rather
wide, but less so than the wide mt;^rporiferous areas ; the mner row of pores oval, outer row slit-
like; paii-s of pores conjugated. A few pau-s of pores occur beyond the ends of the petals.

The mterambulacral areas are relatively small between the petals and though wide near the
margm m both cases are smaller than the ambulacral areas; composed of large polygonal plates.
The whole surface of the test is covered with, small uniform tubercles, which are slightly larger
on the under side.

The apical system is slightly excentric posteriorly, located well back of the apex on a flat-
tened area which extends obUquely downward and backward from the apex and is about tlireo
times the diameter of the system. The madreporite is relativclj- large, occupymg the larger
part of the area covered by the system, subpentagonal, flush with the surface. There are five
large circular genital pores perforating the basal plates at the points of the madreporic pentagon,
and five small radial plates, each perforated by a minute pore.

The peristome is small, circular, slightly excentric posteriorly; the ambulacral furrows
simple and straight for slightly more than half the distance to the margui, then forkbig symmet-
rically, and at rather a -w-ide angle, each pan- of branches contmumg nearly to the margui. A
small ridge extends out for a short distance from the peristome along the middle of each ambida-
cral furrow.

The periproct is very small, subcu'cular, situated on the under surface about two-fifths
of the way from the peristome to the posterior border. It is nearer the peristeme than are
the forks m the ambulacral furrows.

Belated forms. — The species is most closely related to P. lyelli, from which, however, it is
easily distinguished bj^ its anteriorly excentric apex, by the noncoincidence of its apical system
and apex, by the fact that the central tumid mound involves nearly the whole upper surface
instead of bemg confhietl to the petaloid region, and by its broader petals. No foreign forms
appear to be closely related to this species.

Locality. — Core Creek, Craven County, N. C.

Geologic horizon. — Trent marl, middle Eocene.

Collection. — Williams College.

Peeiarchus lyelli Conrad.

Plate LXI, figures 2a-f ; Plate LXII, figures la-c, 2a-d.

Scutella lyelli Conrad, 1834, Acad. Nat. Sci. Philadelphia Jour., 1st ser., vol. 7, p. 152, no figure.

IScuteUa lyelli Morton, 1834, Sj-nopsis organic remains Cretaceous, p. 77, PI. X, fig. 8. Figure shows upper surface

only; no description.
Scutella lyelli Conrad, 1842, Nat. Inst. Promotion Sci. Proc, 2d Bull., p. 175.

ISculella lyelli Bronn, 1848, Index palseontologicus, vol. 1, p. 1126; vol. 2, p. 196. Based on Morton.
ISisnondia lyelli Desor, 1858, SjTiopsis des e,;'hinides, p. 227. Based on ilorton.

non Scutella lyelli Emmons, 1858, Agriculture Eastern Counties, North Carolina Cieol. Survey Rept., p. 308, text fig. 246.
ISculella hjdli Gabb, 1S53, Cat. invert, fossils Cretaceous, p. 19. Bassd on Morton.
^Scutella lyelli Dujardin and Hupe, 1862, Hist. nat. zoophytes ecliinodermes, p. 559. Based on Morton.
Sismondia lyelli Conrad, 1865, Acad. Nat. Sci. Philadelpliia Proc, p. 74.
Mortonia (Periarchus) lyelli Conrad, 1866, Smithsoni.xn Misc. Coll., vol. 7 (200), p. 21.
?Scutella lyelli Agassiz, 1883, Mus. Comp. Zoology Mem., vol. 10, No. 1, p. 89. Based on Morton,
non Scutella lyelli Heilprin, 1884, Contrib. tertiary geology U. S. p. 17.
Scutella lyelli Smith and .lolinson, 1887, U. S. Geol. Survey Bull. 43, p. 21.
^Sismondia lyelli Cotteau, 1889-1894, Pal^ontologie frangaise, Echinides ^ocfenes, vol. 2, p. 301. Based on Morton.

132 MESOZOIC AND CENOZOIC ECHINODEEMATA OP THE UNITED STATES. '

Scuiella lyelli De Gregorio, 1S90 (pars), Mon. faune eoc^nique Alabama, pp. 25(>-2.51, PI. XLIII, fig. 21. Conrad's

description but ^Morton 's figure.
ScuieUa lyelli Clark, 1891, Jolms Hopkins Univ. Circ, vol. 10, No. 87, p. 77.
IScutella lyelli Boyle, 1893, U. S. Geol. Survey Bull. 102, p. 263. Based on Morton.
Periarchus sp. a. Stefanini, 1911, Soe. geol. italiana Boll., vol. 30, p. 696.
"fSismondia (?) lyelli Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 697.

Determinative characters. — Test variable in size, subcirciilar to snbovate in marginal outline;
much depressed, less so centrally where it rises in a gently rounded, convex mound of variable
height; margin and wide submarginul area thin; under surface flat. Ambulacral petals sub-
elliptical to suboblong, extending about half way to the margin. Apex and apical system central
or subcentral, on the somewhat flattened summit of the tumid area. Peristome small, subcir-
cular; ambulacral furrows simple and straight for about half way to the margin, then forking
symmetrically. Periproct very small, subcircular, from one-third to slightly more than halfway
from peristome to posterior border.

Dimensions. — -Specimen A: Length 90 millimeters; width 90 millimeters; height 12 milli-
meters. Specimen B : Length 32 millimeters; width 31 millimeters; height 6 millimeters. Speci-
men C: Length 35 millimeters ; width 34 millimeters; height 5 millimeters.

Description. — Considerable confusion exists in regard to this and allied forms in the various
collections and in the literature. Conrad as early as 1834 gave an excellent description of the
species but no figure. The same year Morton published a poor upper view only of a small form
which he called Scufella hjelU Conrad, but gave no description. Conrad's form was a large
specimen from Alabama, forms similar to which have easily been identified among the material
studied by the writer. Morton's specimen was a small one, whose present whereabouts is
unkno\vn, and was from a locality which is uncertain. Desor, Cotteau, and others, basing their
action upon Morton's figure, have placed the species lyelli in the genus Sismondia. This is an
error, as Conrad's form has all the characters of Periarchus. Unless his figured specimen is dis-
covered, Morton's form must remain of doubtful character and is therefore placed among the
doubtful and unrecognized species.

Periarchus lyelli is one of the most abundant of the American Cenozoic forms, at times occur-
ring in such numbers and with such constancy as to afford a valuable aid in determining the
geologic horizon in which it is found. The test is variable in size, ranging from 1 to 3^ inches in
diameter. In marginal outline it is circular or subcircular to subovate, some specimens slightly
others decidedly broader posteriorly than anteriorly. All around the area outside the ambulacral
petals it is greatly depressed and quite flat; but within the petaloidal area it rises in the form of a
gently rounded mound with more or less flattened summit, which ranges from ^ to ^ inch in height
according to the size and age of the specimen. Sometimes the mound approaches a subcorneal
form, but even then the sides are more or less convex. The margin of the test is thin and slightly
undulating, both characters being most pronounced posteriorly; usually there are broad shallow
notches opposite the ends of the posterior petals, though these may be inconspicuous or absent
in the smaller specimens. The flattened marginal area, from the ends of the petals to the edge,
is thin and wide, being about as wide as, or wider than the petals are long, and usually widest
posteriorly. The under surface is flat or nearly so with a broad faintly depressed ring about
midway between margin and peristome. The apex is central or slightly excentric anteriorly, at
the summit of the tumid area.

The ambulacral areas are narrow in the petaloid region but wide at the margm where they
about equal the interambulacral areas. The dorsal portions are petaloid. The petals are of
medium size; subecjual in length, the odd petal being slightly longer than the rest; subelliptical
to elongate elliptical or suboblong in form; slightly open at the ends; extending half or slightly
more or less than half the way to the margin. The poriferous zones are rather wide, almost as
wide as the interporiferous areas; inner rows of pores nearly straight and parallel and formed of
oval pores, outer rows of pores slitlike; pairs of pores conjugated. A few pairs of pores occur
beyond the ends of the petals.

The interambulacral areas are large, relatively wde between the petals (usually wider
than the ambulacral areas), nearly uniform, and composed of large polygonal plates. The

EOCENE ECHINODEKMATA. 133

whole surface of the test is covered with small uniform tubercles which are slightly larger on
the under side.

The apical system is central or slightly excentric anteriorly, on the somewhat flattened sum-
mit of the central mound. The madreporite is relatively large, occupying the larger part of the
area covered by the system and flush with the surface. There are five genital pores near the
edge of the madreporite and five small radial plates each perforated by a small elliptical pore.

The peristome is small, subcircular, central or slightly excentric anteriorly; the ambulacral
furrows simple and straight for from one to two-thirds the distance to the margin, then forking
symmetrically at an angle usually of about 45°, each pair of branches continuing almost to the
margin. On well-preserved specimens, each branch may be seen to give off on the outside one
important side branch at right angles about halfway between the fork and the margin, which side
branches soon bend and in turn approach the margin. A small ridge extends out from the
peristome for a short distance along each ambulacral furrow.

The periproct is very small, about half the diameter of the peristome, circular or subcii'cular,
situated on the under surface from one-third to slightly more than one-half the way from the
peristome to the posterior border.

Related forms. — This species presents so many variable features that several apparently dis-
tmct varieties of it might have been recognized and separately described — such as one with a
transversely elongate subtriangular marginal outhiie, or one with pcrijiroct midway between
margin and peristome — but in each case intermediate forms show a gradation between the
possible variety and typical representatives of the species. P. lyeUi Com-ad is closely related
to the American forms P. pileus-sinensis and P. protuberans, both of which, however, have a
relatively higher and more conical central tumid area. P. protuberans is further distinguished
by its characteristic swollen anterior interporiferous area and smaller petaloid area. P. lyelli
also greatly resembles S. tuomeyi which, however, differs m being somewhat truncated posteri-
orly and in having its periproct nearer the posterior border. In superficial characters P. lyelli
greatly resembles S. mississippiensis, but the latter is easily separated by the inframarginal
position of its peripi'oct. It does not appear to be closely related to any of the foreign forms.

Localities. — Near Claiborne (Conrad's type and our specunen A); Cedar Creek, Clarke
County; St. Stephens, near Cocoa, Choctaw Coimty; and Clarksville, Ala.; Shubuta Creek,
21 miles north of Shubuta; Chickasawhay Eiver, near Shubuta; and Shell Prairie, near Pachuta,
Miss.; 14 miles below Macon, Twiggs County, Ga.; Mount Enterprise, Rusk County, and 2
miles east of Alto, Clierokee County, Tex.; Castle Hayne (specimen B); City Rock Quarry,
Smith Creek; and Rocky Pomt, near Wilmuigton, N. C.

Geologic horizo7i. — Claiborne group (middle Eocene) and Jackson formation (upper Eocene) .
In Texas in the "marme substage" of the Claiborne. In Mississippi probably near the base of
the Lisbon marl. In Alabama abundant in the Scutella zone at the base of the Jackson, "just
above the Claiborne fossiliferous sand." In North Carolma, m the Castle Hayne limestone
(upper Eocene or Oligocene).

Collections. — Boston Society of Natural History (larger figured form) (1553, A); U. S.
National Mxiseum (smaller figured fonu); Alabama Geological Survey; American Museum of
Natural History ; Wagner Free Institute of Science ; Williams College ; Amherst College ; Johns
Hopkins University (T 2003, B; T 2004, C).

Periarchus protuberans Twitchell, n. sp.

Plate LXII, figures 3a-f.

Determinative characters. — Test of medium size, subcircular in marginal outlme; much
depressed, less so centrally where it rises m a high, slightly asymmetric cone; margm very
thui, broadly dentate posteriorly; under surface flat. Ambulacral petals elliptical, very small,
extending about one-third the distance from center to margm. The anterior interporiferous
area swollen near the apical system which k slightly excentric posteriorly and inclined down-
ward and backward from the subcentral apex. Peristome very small, circular, in a slight con-
cavity; ambulacral furrows simple and straight for about half way tc the margin, then forking

134 MESOZOIC AND CENOZOIC ECHINODEKMATA OF THE UNITED STATES.

symmetrically. Periproct very small, oval or subovate, on the under surface about one-fourth
the distance from the peristome to the posterior margin.

Dimensions. — Length 54 milliiueters; width 53 millimeters; lieight 9 millureters.

Description. — This new species is one of the handsomest of American scutellid forms. It
is very delicate and fragile and so thui that it is translucent from the edge halhvay to the center.
It is a rare form, not over half a dozen individuals having been reported, all of which are from
the Eocene deposits of Mississippi, where it occui-s in association with P. jnleus-sinensis and
P. lyelli. Tlie test is of medium size, ranging fi'oni li to 2i inches in diameter; and subchcular
ui marguial outline. All around the area from the edge nearly to the petals it is greatly depressed
and nearly flat; but within and slightly beyond the petaloidal area it rises in the form of a high,
sliglitly unsymmetrical cone Mliich varies in height from | to h an inch. The margm of the test
is very thin all around, almost like a knife edge, and is decidedly undulating, or zigzag, especially
posteriorly, where it is broadly dentate. Tlie under surface, though for the most part flat, is
slightly and broadly concave around the margm and the peristome. The apex is subcentral
at the summit of the central cone.

The ambulacral areas are narrow in the jjetaloid region but wide in the marginal region
where they about ecpial the interambulacral areas. The doi-sal jjortions are petaloid. Tlae
petals are subecjual in length, the odd petal slightly longer than the rest; relatively quite small,
extending only about two-fifths the distance from center to margin, the total area covered by
the petals being noticeabh' less than in most similar forms. The jietals are elli|)tical in form
and nearly closed at the ends; the poriferous zones rather wide though less so than the inter-
poriferous areas, widest at their distal ends; the mner row of pores oA'al, outer row slitlike; the
pah's of pores conjugated. The anterior mterporiferous area is swollen near the apical region
so as to foi-m a small, narrow protuberance, confined withm the mterporiferous area, largest
nearest the apical system and constituting the apex of the test. This protuberance is one of
the most striking and most distinctiA^e features of the form; and suggested the specific name.

Tlie interambulacral areas are large, nearly uniform, and composed of large polygonal
plates. The whole surface of the test is covered with small uniform tubercles which are slightlj'
larger on the under side.

The apical system is slightly excentric posteriorly, inclined downward and backward from
the swollen anterior mtei'poriferous area, on the steep posterior slope of the central subconical
mound. The madreporite is relatively large, occupying the lai-ger part of the area covered by
the system. There are five genital pores near the edge of the madreporite, and five. small radial
plates, each perforated by a small ellijitical pore.

The peristome is very small, not much larger than the periproct, circular, central, in a slight
concavity; ambulacral furrows simple and straight for about one-half the distance from peris-
tome to margm, then forkmg symmetrically, each pau of branches continuing nearly to the
margin and each branch giving ofl^ one important side branch at right angles at one-thu'd to one-
fourth radius length from the margin ; these side branches soon bend and in turn approach the
margin. A small ridge extends for a short distance along the middle of each ambulacral furrow.

The periproct is very small, oval or suboA-ate m outlme, the round end being nearest the
peristome, on the under surface from one-fourth to one-third the distance from ^jeristome to the
posterior margm. It is much nearer the peristome than are the forks in the ambulacral furroAvs.

Related forms. — P. protuberant is A'^ery shnilar in aj^pearance to P. pileus-sineiisis (RaA'enel),
resembling it more closely than it does any other American form. It is, lioweA^er, readily dis-
tmguished by its protuberant anterior interporiferous area, smaller petaloidal area, the position
of its apical system to the rear oi the apex, its thmner marginal area, smaller peristome, and the
nearer approach of its periproct to the peristome. No foreign forms apjiear to be closely related
to this species.

Localities. — Shubuta Creek, 2^ miles north of Shubuta (type), and C'hickasaAvhay RiA^er.
Shubuta, Miss.

Geologic horizon. — Jackson formation, upper Eocene.

Collection.— V . S. National Museum (1646S5).

EOCENE ECHINODEEMATA. 135

Periakchus pileus-sinensis (Ravenel).

Plate LXIII, figures la-e, 2a-d.

jScuteUa pileus-sinensis'Ra.vene'i, 1844, Acad. Nat. Sci. PliiladelphiaProc, vol. 2, p. 97-98, no figure.
Scute.lla jnleus-sinensis Ravenel, 1850, Am. Assoc. Adv. Sci. Proc, vol. 3, p. 160.
Sismondia pileus-sinensis Com-ad, 1865, Acad. Nat. Sci. Pliiladelphia Proc, p. 74.
Mortonia {Periarchus) pileus-sinensis Conrad, 1866, Smithsonian Misc. Coll., vol. 7 (200), p. 21.
Periarchus pileus-sinensis Gregory, 1891, Geol. Soc. America Bull., vol. 3, p. 105.
IScutella caput-linensis Kennedy, 1891, Texas Geol. Survey Third Ann. Rept., pp. 55, 56.
IScutella caput-sinensis Kennedy, 1895, Acad. Nat. Sci. Pliiladelpliia Proc, pp. 113, 114, 115.
Periarchus pilexis-sinensis Stetanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 688.

Determinative characters. — Test of medium size, subcircular in marginal outline, much
depressed, less so centrally where it rises in a high well-defined cone with straight or concave
sides; margin and submarginal area tliin; under surface flat. Ambulacral petals elongate-
elhptical, extending more than haKway to the mai'gin. Apical system, central or shghtly excen-
tric anteriorly, forming the summit of the central conical area. Peristome small, circular, ambu-
lacral furrows simple and straight for more than one-third of the distance to the margin then
forking symmetrically. Periproct very small, subcircular, slightly more than one-third the way
from peristome to posterior border.

Dimensions. — Specimen A: Length 79 milhmeters; width 76 millimeters; height 16 milU-
meters. Specimen B: Length 65A milhmeters; width 67 milhmeters; height 14 millimeters.

Description. — Tliis species was fu-st described by Ravenel from the Eocene deposits of South
Carohna in 1844. His name, fileus-sinensis or "Mandarins hat," is most appropriate for the
form, as may readily be seen by a glance at the side view. The form is rather abundant in certain
locaUties, sometimes occurring in association with Periarchus lyelli and Periarchus -protuherans.
Tlie test is of medium size, ranging from 2J to SJ inches in chameter. In marginal outhne it is
almost circular, though slightly broader posteriorly than anteriorly. All around the area outside
the ambulacral petals it is greatly depressed and nearly flat; but within the petaloidal area it rises
in a laigh well-defined cone with straight or concave sides. The height of the cone is somewhat
variable but in the larger forms it usually rises to over half an inch. The margin of the test is
tliin and slightly undulating, both characters being most pronounced posteriorly. In some
specimens the submarginal area is thinner than the edge. Tliere is usually a more pronounced
notch in the margin opposite the ends of the posterior paired ambulacral petals. The under sur-
face is flat, even faintly concave between the margin and the region around the peristome. The
apex is slightly excentric anteriorly, at the summit of the central conical area.

Tlie ambulacral areas are narrow in the petaloid region, wider in the marginal region where
they equal or slightly exceed the width of the interambulacral areas. Tlie doreal portions are
petaloid. The petals are subecjual in length, the anterior paired petals being shghtlj- shorter
than the other three; elongate elhptical in form; extending more than haKway to the margin,
the odd petal usually approaching the margin more nearly than the rest; shghtly open at the
ends. The poriferous zones are rather wide, about equal to the interporiferous areas; the inner
row of pores oval, the outer slitlike; the pairs of pores conjugated. A few pairs of pores occiu-
beyond the ends of the petals.

The interambulacral areas are large, nearly unifomi, and composed of large polygonal plates.
The whole surface of the test is covered with small uniform tubercles, which are shghtly larger
on the under surface.

The apical system is subcentral or slightly excentric anteriorly at the summit of the conical
area. The madreporite is relatively large, occupA'ing the larger part of the area covered by the
system and is somewhat tumid. There are five genital pores near the edge of the madreporite
and five small radial plates each perforated by a small elhptical pore.

Tlie peristome is small, circular, central or slightly excentric anteriorly; ambulacral furrows
simple and straight for more than one-third the distance from peristome to margin, then forking
symmetrically, each pair of branches continuing nearty to the margin, each branch gi^^ng oti'
one important side branch at right angles at a point from one-tliird to one-fourth the radius of

136 MESOZOIC AXD CENOZOIC ECHINODEEMATA OF THE UNITED STATES.

the test from the margin, wlaich side branches soon bend and in turn approach the margin. A
small ridge extends along the center of each ambulacral furrow for a short distance away from
the peristome.

Tlie periproct is very small, subcircular, on the under surface at a little more than one-third
the distance from the peristome to the posterior margin. It is sometimes nearer, sometimes
farther from the peristome than are the forks m the ambulacral furrows.

Belated forms. — P. inleus-sinensis is very closely related to P. J]ieUi and P. protuherans.
From the former it is best distinguished by its higher and straight or concave-sided central cone;
and from the latter by its lacking the swollen anterior interporiferous area at the apex. No
foreign forms appear to be closely related to this species.

Localities. — The type was from ' 'about 6 miles south of Black Oak Lock of the San tee Canal,
St. Johns Parish, S. C." Tlie figured specimen came from "the Santee Canal, S. C." Other
locahties are Santee River, S. C; near TivoU, Beachhaven Park, Limestone Creek, Towers, Rich
Hill, Crawford County; Shellstone Creek, 2 miles south of Perry, Houston County; and Ring Jaw
Landing, Oconee River, Ga. ; 1 mile west of Cocoa, Choctaw Coxmty; and Claiborne and below
mouth of Cedar Creek, Clarke County, Ala. ; Cliickasawhay River at Shubuta, Shubuta Creek, 2^
miles north of Shubuta, and Shell Prairie near Pachuta, ^liss.

Geologic horizon. — Jackson formation, upper Eocene. In South Carolina in the Cooper
marl, of Jackson age. In Georgia in the Vicksburg or Jackson formation.

Collections. — U. S. National Museum (5133, A; 137791, B); Amherst College; Boston
Society of Natural History; American Museum of Natural History; University of South Carolina.

Family CLTPEASTRID^.

Genus CLYPEASTEB Lamarck.

Clypeastek eogersi (Morton).

Plate LXIV, figures 2a-d, 3a-d.

Scutella rogersi Morton, 1834, Synopsis organic remains Cretaceous, p. 77, PI. XIII, fig. 3.

Lagana rogersi Agassiz, 1840, Cat. syst. ectyporum Echinodermatum fossilium musei Neocomensis, p. 6. Merely

listed Morton's form,
non Scutella rogersi Agassiz, 1841, Men. echinodermes vivans et fossiles, vol. 2, Des scutelles, pp. 85, 86, PI. XIX,

figs. 1^. Described and figured Morlonella quinquefaria (Say) under the impression that he was dealing with

Morton's form.
Scutella rogersi Morton, 1842, Acad. Nat. Sci. Philadelpliia Jour., 1st ser., vol. 8, p. 218.
Scutella jonesii Forbes, 1845, Geol. Soc. London Proc, vol. 4, p. 574, text figure.
Scutella jonesii Forbes, 1845, Geol. Soc. London Quart. Jour., vol. 1, p. 440, text figure.
Scutella rogersi, Agassiz (pars), 1847, Cat. raisonne echinodermes, vol. 7, p. 135.
Scutella rogersi Bronn (pars), 1848, Index palseontologicus, vol. 1, p. 196; vol. 2, p. 1126.
Scutella jonesii Bronn, 1848, Index palaeontologicus, vol. 1, p. 196; vol. 2, p. 1126.
Clypeaster jonesii Desor, 1858, Synopsis des ^chinides fossiles, p. 243.

Mortonia rogersi Desor (pars) (figiu-e cited only), 1858, Synopsis des echinides fossiles, p. 231.
Scutella rodgersi Gabb, 1859, Cat. invert, fossils Cretaceous, p. 19.
non Clypeaster amhigenus Michelin, 1861, Soc. g^ol. France Mem., 2d ser., vol. 7, p. 113.
Clypeaster jonesii Diijardin and Hup6, 1862, Hist. nat. zoophytes Echinodermes, p. 573.
Mortonia rogersi Conrad (pars), 1865, Acad. Nat. Sci. Philadelphia Proc, p. 74.
Mortonia jonesii Conrad, 1865, Acad. Nat. Sci. Pliiladelphia Proc, p. 74.
Mortonia turgida Conrad, 1865, Acad. Nat. Sci. Philadelphia Proc, vol. 17, p. 184, no figure.
Clypeaster jonesii Conrad, 1865, Acad. Nat. Sci. Philadelphia Proc, p. 74.
7 Mortonia tumida Conrad, 1866, Smithsonian Misc. Coll., vol. 7 (200), pp. 22, 37 (note).
Clypeaster jonesii Conrad, 1866, Smithsonian Misc. Coll., vol. 7 (200), p. 22.
? Clypeaster tumidus Conrad, 1866, Smithsonian Misc. Coll., vol. 7 (200), pp. 22, 37 (note).
Clypeaster rogersi Conrad, 1866, Smithsonian ;\[isc. Coll., vol. 7 (200), p. 22.

Scutella (mortonia) rogersi De Gregorio (pars), 1890, Mon. faune Eocenique Alabama, p. 250, PI. XLIII, figs. 16-20.
Clypeaster rogersi De Loriol, 1890, Soc. phys. hist. nat. de Geneva MEm., vol. suppl. du centenaire, p. 99.
Scutella rogersi Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 77.
Echinanthus rogersi Ciregory, 1891 (discussion), Geol. Soc America Bull., vol. 3, p. 105.

Mortonia rogersi Gregory, 1891 (tabulation), Geol. Soc. America Bull., vol. 3, p. 105. This was evidently a lapsus calami.
Scutella rogersi Boyle, 1893, U. S. Geol. Survey Bull. 102, p. 263.

EOCENE ECHINODEEMATA. 137

Mortonia rogersi Dana, 1895, Manual of geology, 4th ed., p. 898, fig. 1491.

Chjpeasier douvilki Stefanini, 1911, Soc. geol. itaUana Boll., vol. 30, p. 682, PI. XXII, figs, la-c; p. 698.

Clypeaster jonesi Stefanini, 1911, Soc. geol. itaUana Boll., vol. 30, p. 705.

Clypeaster turgidus Stefanini, 1911, Soc. geol. itaUana Boll., vol. 30, p. 698.

Determinative characters. — Test medium in size; subpentagonal to suboval, anterior end
rounded, posterior end truncated at the corneis and centrally, longer than broad, usually
•widest opposite ends of anterior petals; much depressed, upper surface rising more or less gradu-
ally from the rather thick margin to the low central apex, sometimes regularly arched or of
.convex outline from margin to margin, sometimes subcorneal centrally; under surface flat around
the margin, concave centrally. Ambulacral petals large, tumid, elliptical, anterior pair shorter
than the rest wliich are about equal, all extending from about one-half to two-thirds the way to
ihe. margin, wide open at the ends ; poriferous zones wide, outer rows of j^ores depressed below
the general surface. Apical system central; genital pores five. Peristome medium in size,
central; ambulacral furrows simple, straight, well defined, reaching the margin. Periproct
small, inframarginal ; situated from one-fifth to one-sixth the distance from the margin to the
peristome.

Dimensions. — Specimen A: Length 70 millimeters; width 63.5 millimeters; height 16.5
millimeters. Specimen B: Length 45 millimeters; width 43.5 millimeters; height 17 millimeters.

Description. — The species, to judge from the number of specimens reported, is the most
abundant of American clypeasters, being rather common in the Jackson and Vicksburg forma-
tions of Mississippi, Alabama, and Georgia. It is also one of the first species of ecliinoids dis-
covered in American Cenozoic deposits, having been figured and described by Morton in 1834.
This species has been frequently confused with Mortonella quinquefaria (Say), partly because of a
resemblance in general appearance, but more because of certain mistakes in identification made
byL. Agassiz and byDesor. In 1841 Agassiz described and figured a specimen of Mortonella qain-
quefaria (Say) under the impression that he was dealing with one of Clypeaster rogersi (Morton).
In 1858 Desor made matters worse by describing Say's form and founding upon it the new genus
Mortonia; but, instead of figuring it, citing as a good illustration Morton's figure of 0. rogersi.
As a result of these mistakes many specimens were found mislabelled in the various collections
studied and the synonymy of the two forms was found to be in a tangle requiring considerable
labor to unravel. M. quinquefaria can easily be separated from the present species by its more
circular outline and chscoidal form, less tumid petals, less concave under surface, branching
ambulacral furrows, and the more distant position of its periproct from the posterior border.
About ten years after Morton's description of the present species was published, Lyell collected
in Georgia some specimens which were described and figured by Forbes and given the new spe-
cific name of Scutella jonesii, but a careful study of the figm-es and descriptions, aided by an
extensive series of specimens, although -without the types, fails to reveal any essential differences
between the two forms. Conrad's Mortonia. turgida, which he appears to have also caUed
Mortonia tumida and still later Clypeaster tumidus was probably a specimen of C. rogersi, wliich
was tumid centrally.

The test of Clypeaster rogersi is of medium size, ranging from about 1 i to about 3 inches in
length. In marginal outline it is somewhat variable, being subpentagonal in most specimens
though nearly oval in others ; the anterior end is usually rounded; the posterior end is truncated
centrally, with corners either truncated or rounded; the sides are either straight, slightly convex,
or slightly concave; the longitucUnal diameter exceeds the transverse; most specimens are
broadest opposite ends of anterior petals, but some are broadest centrally. The whole form is
greatly depressed, the upper surface either rising gradually and gently from the margin to the
apex and showing an almost regularly arched or convex outline from margin to margin when
viewed from the side or end, or rising centrally in a subcorneal mound involving the petaloidal
area; apex central, low, its height rarely exceecUng one-fourth the width of the test; margin
thick and rounded anteriorly, becoming tliiimer and more wedge-shaped posteriorh^ The
under surface flat, or nearly so, around a wide marginal area, concave centrally; the concavity
increasing more rapidly as the peiistome is approached, the depth of the concavity being about
one-tliird the height of the test.

138 MESOZOIC AXD CENOZOIC ECHIXODERMATA OF THE UNITED STATES.

The ambulacral areas are rather wide, both at the margin and across the middle of the
petals, in both cases wider than the interambulacral areas; dorsal portions petaloid. The
petals axe rather large, elliptical to subspatulate in form, anterior pair sUghtly shorter than the
rest which are about ecjual in length, all extending from about one-half to two-thirds the way
to the margin, moderately to widely open at the ends. The jjoriferous zones are wide, imier
rows of pores elevated, nearly straight, either nearly parallel or slightly diverging and consist
of round openings; outer row of pores depressed below the general surface, curving and com-
posed of slitlike openings; pairs of pores conjugated; interporiferous areas varjang in width
from only slightly wider than poriferous zones to nearly twice as wide, elevated so that the
petals are somewhat tumid.

The interambulacral areas are wide opposite the ends of the petals, rather narrow at the
margin. The whole surface of the test, including even the ridges between the j^airs of pores of
the poriferous zones, is covered with very small, uniform imperforate tubercles, set in rather
deep scorbicules. The tubercles are slightly larger on the under surface.

The apical system is central, coincident ^-ith the apex. There are five genital pores at the
tips of the points of the almost star-shaped madreporite; and five small ocular plates extencUng
between the points of the star, each perforated by a minute pore. The apical system, together
^^'ith a very small area immediately surrounding it and involving the inner ends of the petals, is
elevated slightly above the rest of the test.

The peristome is medium in size, central, subcircular to subpentagonal, and situated at the
deepest portion of the concavity on the under sm-face. The ambulacral furrows are simple,
straight, well defined, extending from peristome to margin; on well-preserved specimens they can
be seen to continue as a faint line over the margin and along the middle of the ambulacral petals
nearly to the apical system.

The periproct is small, subcircular, inframarginal, from one-foiu-th to one-sixth of the dis-
tance from the margin to the peristome.

Related forms. — Clypeaster rogersi is not closely related to any American species, but
resembles a number of foreign forms in general appearance, and is very similar to several of them.
C. hiarritzensis Cotteau, from the ujDper Eocene of France, greatly resembles the present species,
but its ambulacral petals are more nearly equal (or, if there is any difference, the odd petal is the
loiigest), its interporiferous areas are relatively wider, and its poriferoiis zones relatively nar-
rower, more divergent, and therefore more widely apart at the ends. C. simplex Duncan and
Sladen, from the OUgocene of Western Sind, India, also closely resembles C. rogersi, but differs
in ha\ang petals which are longer and tend to close more nearly at the ends. Two species from
the Miocene of Cuba, C. concaims Cotteau and C. cotteaui Egozcue, resemble C. rogersi in certain .
points; but both are relatively higher than the present species and C. cotteaui has straighter and
more ^\■idely divergent poriferous zones. Michelin ' stated that he regarded C. jonesvi Forbes
(which is here regarded as a synonym of C. rogersi) as the young of C. ambigenus De Blainville, a
recent West Indian species. The wi-iter can not agi-ee with this view, as C. ambigenus is con-
siderably higher, less concave on the under suiface, and has more elliptical interporiferous areas
due to the more cm-ving character of the inner rows of pores of the poriferous zones. Stefanini's
C. douvillei appears to be a C. rogersi with relatively thin margin and subcorneal upper surface,
such as the Avriter has found to grade into the more typical representatives of the species.

Localities. — Near Shubuta, 5 miles west of Shubuta, Vicksbm-g, and Jackson, Miss.; St.
Stephens Bluff, 9 miles north of St. Stephens, 5 miles south of Claiborne, Gainestown, near
Rescueville, Choctaw Comity, near Claiborne, and Clarksville, Ala.; Hawkinsville, and 5 miles
southwest of Hawkinsville, Ga.

Geologic horizon. — Jackson formation, upper Eocene; Vicksbm-g formation, lower OUgocene.
Collections. — ^U. S. National Museum (137801, A and 155377, B); Geological Smvey of
Alabama; Boston Society of Nat\u-al History; Academy of Natm-al Sciences of Philadelphia;
Wagner Free Institute of Science.

■ ilonographie des Clyp&stres fossiles: Soc. g^ol. France Mem., 2d ser., vol. 7, p. 113, 1861.

EOCENE ECHINODEBMATA. 139

Genus ECHINANTHTJS Leske.

EcHiNANTHus GEORGiENSis Twitchell, n. sp.

Plate LXV, figure la-d.

Determinative characters. — Test subpentagoiial, broadest posteriorly, anterior end straight,
posterior end jjointed, notched and rostrate, upper siirface depressed, convex, with a longi-
tudinal keel along the posteromedian area; under surface concave around the peristome; apex
forward of the center. Ambulacral areas narrow; dorsal portions petaloid, petals narrow and
rather short. Apical system small, anteriorly excentric. Peristome subpentagonal, transversely
elongate, anteriorly excentric, with well-developed floscelle. Periproct small, oval, marginal, at
the top of a vertical sulcus which notches the posterior end, and beneath a slightly overhanging
projection of the keel.

Dimensions. — Length 42 millimeters ; width 41 milhmeters; height IS millimeters.

Description. — The species, the first of the genus Echinanthus to be reported from the United
States, is very rare, only a single specimen having been found up to the present time. It is of
especial interest because it is one of the eai-liest of the Cenozoic echinoids, the type having been
found in the IMidway formation of Georgia. The test is subpentagonal in marginal outline,
broadest back of the center, from which it narrows both anteriorly to the stiaight anterior edge
and posteriorly to the pointed posterior end; margin angular all around, rostrate posteriorly,
with a notch at the posterior end which can be seen from both above and below. The upper
siuface is depressed, convex, declining rather steeply on all sides from the apex, with a rounded
longitudinal keel along the posteromedian area, on both sides of which the surface is obUquely
flattened; under surface concave around the peristome. The apex is slightly forward of the
center. '

The ambulacral areas are narrow tlu-oughout then* whole length; dorsal portions petaloid;
petals narrow, rather short, partly closing, the posterior pah" slightly longer than the anterior
pair wliich are longer than the odd petal. The poriferous zones are narrow, outer pores oval,
inner ones round, pairs of pores conjugate.

Tlie apical system is small, excentric anteriorly, slightly more so than the apex. There are
four genital pores, of which the anterior pair are nearer together than the posterior; and there
appear to be five very small perforated radial plates. The madreporite is very small and flush
with the sm-face.

The surface of the test is closely set with very small, apparently imperforate tubercles with
deep scrobicules. The tubercles are slightly larger on the under sm-face except along a rather
narrow neai'ly bare median band back of the peristome.

The peristome is excentric anteriorly, beneath the apical system, subpentagonal, trans-
versely elongate, -with, a weU-developed flosceUe.

The peripioct is small, oval, the greater diameter being vertical; marginal, or shghtly supra-
marginal, beneath a slightly overhanging projection of the keel, at the top of a vertical sulcus
which notches the posterior end of the test.

Related forms. — Echinanthus georgiensis is quite distinct from all other American echinoids,
the notched posterior end and the details of the periproct affording a ready means of separation
from all forms which in any way resemble it. Among foreign forms it resembles Echinanthus
suhcarinatus Goldfuss from the Oligocene of Germany but has a less regularly oval outline and a
less pronounced posterior rostration.

Locality. — Five miles south of Ellaville, Ga.

Geologic horizon. — Midway formation, lower Eocene.

Collection.— ^J . S. National Museum (1656836b).

140 MESOZOIC AND CENOZOIC ECHINODEEBIATA OF THE UNITED STATES.

Order ATELOSTOMATA.

Suborder ASTERNATA.

Family CASSIDITLID^.

Genus CASSIDXJLUS Lamarck. ,

Cassidulus californicus F. M. Anderson.

Plate LXV, figure 2a-b.

Casddulus californicus F. M. Anderson, 1905, California Acad. Sci. Proc, 3d ser., Geology, vol. 2, No. 2, p. 194, PI.

XIII, figs. 6, 7.
Cassidulus californicus Arnold, 1909, U. S. Geol. Survey Bull. 396, p. 13, 112, PL IV, figs. 1, la.

Cassidulus californicus Arnold and R. Anderson, 1910, U. S. Geol. Survey Bull. 398, pp. 70, 284, PL XXVI, figs. 1, la.
Cassidulus californicus Stefanini, 1911, Soc. geol. itaUana Boll., vol. 30, p. 696.

Description. — ^As the writer has not been able to obtain possession of any specimens of this
species the description of Anderson is given verbatim:

Test small, elliptical, robust and often somewhat globular; lower surface flattened, or concave, upper siu-face convex;
mouth not central, round, and occupying a position three-fifths of the distance from the anal margin ; anal pore terminal;
apical star nearly symmetrical, central, on dorsal surface; tuberculation distinct, the tubercles lying within rounded
pits. There is a tendency to form shoulder-like expansions on the periphery behind the position of the mouth.

Anderson does not mention a floscelle nor do his figures show one, but tlie figured specimen
of Arnold shows a flosceUe distinctly. Arnold's figures also show a test with a suboblong margi-
nal outline and a supramarginal periproct, apparently transverse, beneath an overhanging
expansion of the test. Arnold's form, here refigured, was 21 millimeters long.

Locality. — Four mUes west-northwest of CoaHnga, Cal.

Geologic horizon. — Tejon formation, upper Eocene.

Collections. — Cahfornia Academy of Natural Sciences; U. S. National Museum (165664).

Cassidulus (Rhtnchopygus ?) holmesi TwitcheU, n. sp.
Plate LXV, figures 3a-d.

Determinative cTiaracters. — Test small, broadly oval, slightlj' truncated at the posterior end;
upper surface convex, sides and ends rounded and inflated; under surface concave around the
peristome. Ambulacral areas narrow, petaloid; petals nearly equal, partly open. Apex cen-
tral; apical system excentric anteriorly. Peristome excentric anteriorly, pentagonal, longitu-
dinally elongate, with a flosceUe. Periproct elliptical, transverse, supramarginal; located in a
rather deep, oval indentation whose edges are almost flush with the posterior surface of the test.

Dimensions. — Length 25 mdhmeters: wddth 22.5 millimeters; height 14 millimeters.

Description. — Only a single specimen of this interesting species is kno\vn to the writer. It
was found in the F. S. Holmes collection, now owned by the American Museum of Natural
History, and as it was probably collected by Holmes is named in liis honor. The test is small,
broadly oval, being but shghtly longer than it is broad, slightly truncated at the posterior end.
The upper surface is regularly convex, somewhat elevated, sides and ends sloping nearly uni-
formly to the rounded and inflated margin; under surface tumid around the margin, concave
around the peristome; apex central.

The ambulacral areas are rather narrow, dorsal portions petaloid; petals nearly equal in
length, the posterior pair bemg but shghtly longer than the others, nearly closing at the ends.
The poriferous zones are rather broad, outer row of pores oval, inner row round, paii's of pores
conjugate.

The surface of the test is closely set mth small tubercles in deep scrobicules, which are
larger on the under surface except along a cribriform median band.

The apical system is excentric anteriorly. There are four genital pores of which the ante-
rior pair are nearer together than the posterior. No further details can be made out on the single
specimen known.

EOCENE ECHINODEKMATA. 141

The peristome is excentric anteriorly, immediately beneath the apical system, pentagonal,
longitudinally elongate, with a floscelle.

The periproct is elliptical, transverse, supramarginal, located in a rather deep, oval indenta-
tion at the top of the slight posterior truncation. The edges of the indentation are almost even
with the posterior margin. Below the periproct a vaguely defined, broad, shallow groove extends
downward across the margin.

Related forms. — Cassidulus Jiolmesi is not closely allied to any American form. Its broadly
oval and uniformly convex form, nearly equal ambulacral petals, and the details of its periproct
and peristome readity distinguish it. It does not appear to be closely related to any foreign
form.

Locality. — Santee River (?), S. C.

Geologic horizon. — Probably in the McBean formation of Claiborne group, middle Eocene.
The matrix is a fine-grained greensand such as is known to occur on Santee River.

Collection. — American Museum of Natural History.

Cassidulus (Rhynchopygus) lyelli (Conrad).

Plate LXV, figm-es 4a-d.

Nucleolites lyelli Conrad, 1850, Acad. Nat. Sci. Philadelphia Jour., 2d ser., vol. 2, p. 40, fig. 14.

Cassidulus lyelli Conrad, 1865, Acad. Nat. Sci. Philadelphia Proc, p. 75.

Pygorhynchus lyelli Cotteau, 1888, Paleontologie fran^aise, Echinides ^ocfenes, vol. 1, p. 550.

Nucleolites lyelli Boyle, 1893, U. S. Geol. Survey Bull. 102, p. 200.

Pygorhynchus lyelli Stefanini, 1911, Soc. geol. italiana BoU., vol. 30, p. 696.

Determinative characters. — Test low, oval in marginal outUne, truncated at the posterior end;
upper surface convex, depressed; under surface slightly concave around the peristome; apex
slightly excentric posteriorly. Ambulacral areas narrow, dorsal portions petaloid; petals long,
elliptical. Poriferous zones narrow; pores subequal; interporiferous areas rather wide. Apical
system excentric anteriorly. Peristome excentric anteriorly, beneath the apical system, sub-
pentagonal to subtriangidar, with a floscelle. Periproct suboblong to dumbbell shaped, trans-
versely elongate, supramarginal, nearly flush with the truncated posterior face of the test; with
an overhanging rostrum.

Dimensions. — Length 33 milhmeters; width 28 millimeters; height 1.5 millimeters.

Description. — The present whereabouts of the type of Conrad's Cassidulus lyelli is unknown;
but as the present species answers so well to Conrad's description and drawings and as it came
from about the same locality, it is thought highly probable that it is the same. However, as
only a single somewhat imperfect specimen is known, further collecting may show that it is not
Conrad's form, in which case the present species will have to receive a new name. The test is
regidarly oval or subeUiptical in marginal outline, vertically truncated at the posterior end. The
upper surface is low, almost uniformly convex, depressed, shghtly more elevated posteriorly
than anteriorly; under surface slightly convex posteriorly, faintly concave around the peristome.
The apex is sUghtly excentric posteriorly.

The ambulacral areas are narrow, dorsal portions petaloid, petals long, symmetrically
elliptical, somewhat open at the ends, the posterior pair longer than the others, which are nearly
equal in length. The poriferous zones are narrow, similar; pores subequal in size, outer row
oval, mner row round, pairs of pores conjugate; interporiferous areas relativel}' rather wide.

The surface of the test is closely set with small scrobiculate tubercles, which are larger on
the under surface. The under surface is poorly preserved on the single specimen obtained;
but there appears to have been a median band back of the peristome which was somewhat
smoother than the adjacent areas and was more or less pitted.

The apical system is excentric anteriorly, being about three-eighths the length of the test
fi-om the anterior end. The details can not be made out, beyond the fact tiiat there are four
genital pores of which the anterior pair are nearer together than the posterior.

The peristome is excentric anteriorly, immediately beneath the apical sj'stem. It is
poorly preserved; but there is enough to show that it is subpentagonal, though approaching a
subtriangular form, and surrounded by a somewhat inconspicuous floscelle.
39800°— 1.5 10

142 MESOZOIC AND CENOZOIC ECHINODEKMATA OF THE UNITED STATES.

The periproct is subelliptical to siiboblong, considerably elongated transvereely, supra-
marginal, at the top of and nearly flush ^vith the vertically truncated posterior surface of the
test. The rounded central part of the upper edge extends downward so as to break the ellipti-
cal contour of the periproct, and projects shghtty beyond the periproct so as to shghtly overhang
the vaguely defined broad and shallow groove wliich extends below the periproct across the
posterior margin.

Related forms. — Cassidulus lyeUi is quite disthict from all other representatives of the
genus from American strata. Its transversely suboblong periproct and its low regularly oval
form readily permit of its identification. It does not appear to be closely related to any foreign
form.

Locality. — In Baker County, Ga.

Geologic lioricon. — Jackson formation, upper Eocene.

Collection. — Boston Society of Natural History (15.52a).

Cassidulus (Rhynchoptgus) raveneli Twitchell, n. sp.

Plate LXV, figures 5a-cl; Plate LXA'I, figures la-f, 2a-b.

Pygorhynchus crucifer Bavenel, 1S48, Ecliinidse, recent and fossil, of South Carolina, p. 4, PI. II, figs. 9, 10.
Pygorhynchus crucifer Eavenel, 1850, Cat. recent and fossil Echinidae of South Carolina: Am. Assoc. Adv. Sci. Proc,

vol. 3, p. 160.
Ravenelia crucifer McCrady, 18.59, Elhott Soc. Nat. Hist. Charleston Proc, veil. 1, pp. 2S2, 283, no figure.
Pygorhynchus crucifer Agassiz, 1883, Mus. Comp. Zool. Mem., vol. 10, No. 1, p. 91.
non NucleoUtes crucifer Morton, 1834, Synopsis organic remains Cretaceous, p. 75, PI. Ill, fig. 15.
non Trematopygus crucifer Clark, 1891, Johns Hopkins I'niv. Circ, vol. 10, No. 87, p. 76.
non Trematopygus crucifer Clark, 1893. U. S. Geol. Survey Bull. 97, p. 63.

Determinative characters. — Test hemieUipsoidal, elUptical in margmal outline, truncated
at posterior end; upper surface considerably depressed, convex, dechnmg more gently to the
ends than to the sides; imder surface slightly concave longitudinally. Ambulacra petaloid,
the posterior petals longer than the others and bending outward toward their ends. On the
under side there is a wide, longitudinal, median band, where the tubercles are replaced by a
more or less pitted surface. Apex central; apical system excentric anteriorly. Peristome
pentagonal, excentric anteriorly, with a well-defuied floscelle. Periproct supramarginal,
rather large, elliptical, transverse, concealed beneath an overhanging rostrum at the head of a
short, broad sulcus.

Dimensions. — Specunen A (type): Length 40 millimeters; width 29 milUmeters; height 14
milluneters. Specimen C: Length 55 milUmetei-s. Largest specimen seen: Length 55 milli-
meters; width 39 milhmetei-s; height IS' millimeters.

Description. — Dr. Edmund Ravenel, of Grove, S. C, in 1S4S, in a pamphlet of which
but a few copies were printed,^ gave some good figures of a form which is evidently the same
as the one here described. He gave no description and did not regard the form as new; but
said it was the same as NucleoUtes crucifer Slorton and placed it in the genus Pygorhjmchus.
Ravenel was undoubted^ mistaken in regarding his form as the same as that of Morton, for
there is hardly more than a superficial resemblance between them. W. B. Clark assigns Morton's
form to the genus Trematopygus, whereas the form which Ravenel figured and which is here
described for the firet time is a Cassidulus of the Rhynchopygus tj^e. However, in view of
Ravenel having been the discoverer of the form and in recognition of liis interest in and additions
to the knowledge of the fossil Echinoidea of South CaroUna this interesting species is named
after him.

The test of this species is hemieUipsoidal in form, regularly' elliptical in marginal outlme,
and truncated and slightty indented at the posterior end.' The upper surface is low, depressed,
and rather uniformly convex, though more abruptly so transvei-sely than longitudinally; under
surface slightly concave along the longitudinal median area, the concave portion being limited
along the sides by the somewhat inferiorly projecting side edges. The apex is central.

* The Library of Congress at Washington possesses the copy which was studied by the writer.

EOCENE ECHINODEEMATA. 143

The ambulacra! areas are petaloid, the petals rather long and narrow, converging toward
their extremities, where they remain partly open; the posterior pair longer than the rest and
bending outwardly near their extremities ; the odd petal shorter than the posterior but slightly
longer than the anterior pair. The poriferous zones are rather narrow, but slightly more than
half the wiclth of the narrow interporiferous areas; outer row of pores shtlike, inner row round:
pairs of pores conjugated by narrow grooves separated by low, easily effaced ridges.

The interambulacral areas are broad; the posterior area slightly inflated from the apex to
the periproct, where it projects as an overhanging rostrum. The tubercles on the upper sides
of the test are numerous, luiiformly small, close together, and with deep scrobicules; the inter-
vening spaces being covered with still smaller granulations. On the under side the tubercles arc
larger, except along a rather wide, longitudinal, median band, which is free from tubercles but
dotted with numerous pits.

The apical system is excentric anteriorly, compact, and consists of four basal plates per-
forated by large pores, the two anterior pores being slightly nearer together than the posterior;
five small radial plates, each perforated by a minute pore ; and a large madreporite, which occupies
the center of the system.

The peri-^tome is of medium size, pentagonal, excentric anteriorly, directly beneath the
apical system, with a well-defined floscelle. The floscelle is composed of five prominent rounded
boun-clets mth granulated surfaces alternating with five large well-developed phyllodes. In
addition to outer rows of pores each phjdlode has two inner rows ending in two rather large pores,
which are located just between adjacent bourrelets.

The periproct is rather large, elliptical, transversely elongate, supraniarginal, and con-
cealed beneath an overhanging rostrum at the head of a broad and rather shallow sulcus, which
extends beyond the rostrum to the truncated posterior margin of the test.

Related forms . — Cassidulus raveneli from its size, shape, and details of structure is readily
separated from the other representatives of the genus occurring in the American and European
Cenozoic deposits. In several features it resembles RhyncJiopygiis calderi d'Archiac and Haime
from the Tertiary deposits of India, but it is more depressed and has a more regularly elliptical
marginal outline. In a less degree it resembles Eurhodia monisii d'Archiac and Haime, also from
the Tertiary deposits of India, but it is more depressed and lacks the very elongated peristome so
characteristic of the Indian form. The nearest American form is Cassidulus depressus, from
which it is readily distinguished by its greater size and the details of its periproct.

Localities. — South Carolina (Ravenel); San tee Canal (figured specimens), S. C; Rocky
Point and Wilmington, N. C.

Geologic horizon. — In North Carolina in the Castle HajTie limestone, upper Eocene or
Oligocene. In South Carolina probably in the Cooper marl (upper Eocene) or the upper part
of the McBean formation (middle Eocene) .

Collections. — American ^Museum of Natural History (A, B, ami C); U. S. National
Museum; Johns Hopkins University.

Cassidulus (Rhynchopygus ?) patei.liformis (Bouve).
Plate LXVI, figures 3 a-d.

Catopygus patelliformis Bouv6, 1851, Boston Soc. Nat. Hist. Proc, vol. 4, p. 2, text figures.

Cassidulus patelliformis Desor, 18.58, Synopsis des echinides fossiles, p. 290.

Cassidulus patelliformis Dujardin and Hup4, 1862, Hist. nat. zoophytes echinodermes, p. .583.

Cassidulus patelliformis Conrad, 1SC.5, Acad. Nat'. Sci. Philadelphia Proc., p. 7-5.

Cassidulus patelliformis Conrad, 1866, Smithsonian Misc. Coll., vol. 7, p. 22.

Cassidulus patelliformis Cotteau, 1888, Paleontolugie frangaise, Echinides eocenes, vol. 1, p. .521.

Cassidulus patelliformis Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, ji. 700.

Determinative characters. — Test elliptical, narrowing and rather pointed posteriorly; upper
surface somewhat elevated, convex, elongate-subconical; under surface flat, meeting the upper
surface in an angular margin; apex slightly forward of the center. Ambulacral areas narrow,
petaloid; petals rather long, the anterior pair shorter than the posterior pair and odd petal

144 MESOZOIC AXD CENOZOIC ECHINODEKMATA OF THE UNITED STATES.

which are nearly equal in length, closing at the ends. Peristome apparently sUghtly excentric
anteriorly. Periproct small, elliptical, transverse, supramarginal, in a shallow indentation
close to the posterior end of the test.

Dimensions. — ^Length 32 miUimeters; width 21 millimeters; height 15 millimeters.

Description.— This species was first reported in 1851 by T. T. Boiive of Boston. . The doubt
in regard to the generic position of Bouv6's form, which Desor recognized as existing because
of a lack of definite knowledge in regard to the inferior surface, is partly resolved by an exami-
nation of the type, which though not showmg a floscelle does show a cribriform median area
on the under surface. A valuable corroboration of this evidence is found in the fact that one
specimen of Cassidulus depressus, the form most nearly related to the present species, showa
a well-defined floscelle. The test of this species is elliptical in marginal outline, narrowing
noticeably toward the posterior end. The upper surface is somewhat elevated, convex, elongate-
subconical, sloping steeply to the margin, slightly less so posteriorly than on the sides and
anteriorly; under surface flat, meetmg the sides at the margin in an acute angle; apex slightly
forward of the center. The general appearance of the form, as the name given by Bouv4
impHes, is much like that of a limpet shell such as those of the genus Patella.

The ambulacral areas are narrow, narrower at the ambitus than in the petaloid region;
dorsal portions petaloid, the petals rather long, the anterior pair shorter than the posterior
pair and odd petal, which are neariy equal in length; petals closing at their extremities. The
details of the ambulacra and apical system are not discernible on the specimen.

The peristome is apparently slightly eccentric anteriorly; details can not be made out.
The periproct is small, elliptical, transverse, supramarginal; located in a small, shallow, trans-
verse indentation only slightly above the margin and very close to the rather pointed, truncated,
posterior end of the test.

The surface of the test is covered with numerous small tubercles, with scrobicules, larger
on the under surface except along a rather broad median area back of the peristome where the
surface is free from tubercles and more or less cribriform.

Related forms. — No other species of Cassidulus reported from the United States bears any
close resemblance to Cassidulus patelliformis. It is closely related to Cassidulus depressus but
can easily be distinguished by its greater size, more elevated and elongated subcorneal upper
surface, more steeply sloping posterior face, and lower placed periproct.

Locality. — Georgia, probably Baker County.

Geographic horizon. — Probably upper Eocene. May be lower Oligocene.

Collection. — Boston Society of Natural History (1558).

Cassidulus (Rhynchopygus) depressus Twitchell, n. sp.
Plate LXVI, figures 4a-e, 5a-b.

Determinative characters. — Test very small, subelliptical, upper surface much depressed,
convex, declining gently on the sides, the posterior end slopmg more steeply than the anterior;
undersm-face slightly concave. Apex central; apical system excentric anteriorly. Peristome
small, pentagonal, slightly elongate longitudmally, anteriorly excentric, with a well-defined
floscelle. Between the peristome and the posterior border there extends a wide, elUptical,
cribriform area. Periproct small, elliptical, transverse, situated rather high above the posterior
margin, in a shallow indentation.

Dimensions.— ^]yec\mn\ A (type): Length 16 millimetere ; width 12 millimeters; height

7 millimeters.

Description. — This small Cassidulus, one of the smallest representatives of the genus
occurring in American deposits, has a test which is subelliptical in marginal outline. The
upper surface is much depressed, longitudinally convex, declining gently on the sides. The
posterior median area, between the apical system and the periproct remains at nearly the
same elevation from which the sm-face slopes steeply to the posterior margm and less steeply
to the anterior. The undersurface is nearly flat, or slightly concave longitudinally, meeting
the sides at the margin in a somewhat acute angle. The apex is central or subcentral.

EOCENE ECHINODEEMATA. 145

The ambulacral areas are obscure on the specimens studied; but are apparently narrow
with petaloid dorsal portions. The narrow poriferous zones show an outer row of slitlike
pores and an inner row of round pores. The other details can not be made out. The apical
system is excentric anteriorly; its details are not discernible.

The peristome is small, pentagonal, slightly elongate longitudinally, anteriorly excentric,
beneath the apical system, with a well-defined floscello having promuient bourrelets and rather
extensive rounded phyllodes.

The periproct is small, elliptical, transverse, situated rather high above the posterior
mai-gin m an indentation in the test.

The surface of the test is covered with numerous small tubercles, with scrqbicules, larger
on the under surface. Between the peristome and the posterior border there extends a wide
elliptical, cribriform area.

Related forms. — This form is most closely related to Cassidulus fatelliformis (Bouve)
from which it is readily distmguishod by its smaller size, more depressed form, the higher
position of its periproct, and the greater relative elevation of the upper surface between the
periproct and the apical system. It also resembles Cassidulus raveneli but is very much smaller,
and its periproct has a less conspicuous overhanging rostrum in a shallower depression. In
several respects it resembles Rhynchopygus fygmxus Duncan and Sladen from the Tertiary of
India, but it is more depressed and much narrower posteriorly.

Locality. — Baker County, Ga.

Geologic horizon. — Probably upper Eocene. May be lower Oligocene. , :

Collection. — Boston Society of Natural History (1557a, A; .1557b, B).

Cassidulus (Pygoehynchxts) coneadi Conrad. . r

Plate LXVII, figures la-f.

Catopygus conradi Couper MSS., fid. Conrad.

Catopygus conradi Conrad, 1850, Acad. Nat. Sci. Philadelphia Jour., 2d ser., vol. 2, p. 39, PI. I, fig. 9. \—

Cassidulus conradi Conrad, 1865, Acad. Nat. Sci. Philadelphia Proc, p. 75.

Cassidulus conradi Conrad, 1866, Smithsonian Misc. Coll., vol. 7 (200), p. 22. ' / '

Catopygus conradi Agassiz, 1883, Mus. Comp. Zoology Mem., vol. 10, No. 1, p. 90.

Cassidulus conradi Stefanini, 1911, Soc. geol. ita,liana Boll., vol. 30, p. 700.

Determinative characters. — Test ovate in marginal outline, broad anteriorly, narrowino-
abruptly posteriorly; sides and anterior end somewhat flattened, posterior end trvmcated;
upper surface convex, depressed, flattened on top ; under surface flattened, sKghtly concave
around the peristome; apex xisually forward of the center. Ambulacral areas narrow. Apical
system very excentric anteriorly. Peristome excentric anteriorly, less so than the apical system
pentagonal, transversely elongate, with a floscelle. Periproct elliptical, transverse, supra-
marginal; beneath an overhanging expansion of the test, whose edge is even with the posterior
margin.

Dimensions. — Length 41 millimeters; width 35 millimeters; height 2.3 millimeters.

Description. — This species was first figured in 1850 by Conrad, who also gave a good descrip-
tion of the form. He, however, credits the species to a manuscript description by J. Hamilton
Couper and says that the name given was adopted at the particular request of Mr. Couper.
The test is ovate in marginal outline, broad anteriorly, narrowing abruptly posteriorly; maro-in,
somewhat flattened anteriorly, more so on the sides which are nearly vertical at the ambitus
but round over the edges to the upper and lower surfaces, obliquely trimcated posteriorly and
truncated vertically at the posterior end. The upper surface is convex, depressed, flattened
on top, and in the form of a low, rounded ridge above the periproct; undersurface flattened,
slightly concave around the peristome and slightly convex posteriorly. The lower edge at the
posterior end is somewhat prominent, angular and slightly rostrate. The apex is usually
forward of the center, when it is coincident with the apical system; but even then it is only
slightly higher than the surface of the posterior mterambulacrum, and in some forms the upper
surface is so depressed anteriorly as to make the apex excentric posteriorly.

146 MESOZOIC AXD CENOZOIC ECHIXODEEMATA OF THE Uis'ITED STATES.

The ambulacral areas are narrow, dorsal portions petaloid; petals long, narrow, and open
at their ends, the posterior pah- being longer than the others whicli arc nearly equal in length.
The poriferous zones are nari'ow, the adjacent zones of the anterior and posterior paired petals
being slightly broader and straighter than the othere; pores small, outer row slitlike, inner
row romid, pairs of pores conjugate.

The ai^ical system is very excentric anteriorly, being located less than a tliird of the length
of the test from the anterior end. There are fom- genital pores, of which the anterior pair
are nearer together than the jjosterior; and there are five small perforated radial plates. These
are the only details that can be made out on the specimens.

The sm-face of the test is closely set with very small imperforate tubercles with deep
scrobicules. The tubercles are slightly larger on the under sm-face except along a narrow
median band back of the peristome, which is free from tubercles, nearly smooth and dotted with
numerous very small pits.

The peristome is excentric anteriorly, less so than the apical system, pentagonal, trans-
vei-sely elongate, with a well-defined floscelle.

The periproct is rather large, elliptical, transverse, supramarginal, at the top of the pos-
terior truncation; beneath a romided, transverse, somewhat protruding expansion of the test
whose edge is about even with the truncated posterior margin.

Related forms. — Cassidulus conradi is readily distinguished from the other representatives
of the genus from American strata. It is most nearly related to Cassidulus carolinensis, but
can be separated by its more excentric apical system and more transverse peristome and by
being narrower posteriorly and less concave around the j)eristome. Its nearest European ally
appears to be Pygorliynclms rnaveri de Loriol from the Tertiarj' of S\\-itzer]and, but the latter
has both its apical system and peristome less excentric anteriorly and does not have its peristome
transversely elongated. C. conradi also resembles PygorJiipicJius grignonensis (Defrance)
Agassiz from the Eocene of France, but is narrower jjosteriorly and has its apical system less
excentric anteriorly.

Localities. — Palmjn-a, Lee County, Ga. (Conrad); Baker County, Ga.

Geologic liorizon.- — Upper Eocene or lower Oligocene or Ixith. Conrad gave the matrix of
the form as white hmestone.

Collections. — Acadezny of Natural Sciences of Philadelphia (1078) ; Boston Society of Natural
History.

Cassidulus (Ptgorhtnchus) caeolinensis TwitcheU, n. sp.

Plate LXVII, figures 2a-g.

Determinative cJiaracters. — Test thin walled, oval in marginal outline, posterior end trun-
cated; sides and anterior end rounded; upper surface convex, depressed, shghtlj- more elevated
posteriorty than anteriorty and vnth a rather prominent low, rounded ridge above the periproct;
under surface flat, concave arovmd the peristome; apex central or slightly excentric posteriorly.
Ambulacral areas naiTow. A narrow gi-anulated, median band back of the peristome. Apical
system excentric anteriorly; madre])orite sUglitlj' tumid. Peristome excentric anteriorly,
directly beneath apical system, pentagonal, with a floscelle. Peri])roct elliptical, transverse,
supramarginal beneath an overhanging expansion of the test, whose edge is even with the
posterior margin.

Dimensions. — Length .36 millimeters; vndth 32 millimeters; height IS millimeters. This
specimen is about a fourth larger than the average.

Descnption. — This species occurs in large numbei-s at several localities in North Carolma,
notably in association with EcMnolampas appendiculatus. The test is thin wailed, regularly
oval in marginal outline, the posterior end vertically truncated. The upper surface is uniformly
convex, depressed, sides and anterior end rounded, slightly more elevated posteriorly than
anteriorly and in the form of a low rounded ridge above the periproct; under surface flat, tumid
near the margin, concave around the peristome. The apex is central, or slightly excentric
posteriorly.

EOCENE ECHINODEKMATA. 147

The ambulacral areas are narrow, dorsal portions petaloid ; the petals long, rather narrow,
nearly closing, the posterior pair slightlj^ longer than the others wdiich are nearly equal in length.
The poriferous zones are rather narrow, faintly depressed, outer pores oblong, inner ones round,
pairs of pores conjugate.

The surface of the test, including the interjDoriferous areas and the ridges Ijetween the pairs
of i^ores, is closely set \\'ith small imperforate tul^ercles set in deep scrobicules. Between the
tubercles are minute granules. The tubercles increase in size on the under surface except along
a narrow band back of the peristome, which is somewhat smooth but dotted with numerous
granulations.

The apical system is excentric anteriorlj". There are four genital pores, the anterior pair
being nearer together than the posterior; and five perforated radial plates. The madreporite is
large, oval and faintly tumid, as are the adjacent portions of the interambulacral areas.

The peristojne is somewhat large, pentagonal, excentric anteriorly, directly beneath the
apical system, surrounded by a floscelle of which the bourrelets are rather prominent, granu-
lated, and together form a nearly circular ring around the peristome.

The periproctis elliptical, transverse, supramarginal, at the top of the ])osterior truncation;
beneath a rounded, transverse, somewhat protruding exiDansion of the test, whose edge is just
even with the truncated posterior margin.

Related forms. — Cassidulus caroliriensis is closely related to C. conradi and resembles it in a
number of features, notably in the details of the periproct; but it is to be separated bj^ its less
excentric apical system, b_y its less transverse peristome with the subcircular ring of bourrelets,
by being broader, more rounded and less rostrate posteriorly, and hj having a more marked
concavity around its peristome. C. carolinensis also resembles 0. georgiensis but is to be distin-
guished by the concavity around its peristome, its less obtuse and less angular posterior margin,
and its lower and less ol^lique ])03terior truncation. Among European forms C. carolinensis
greatly resembles Pygorhynchus maveri De Loriol from the Tertiary of Switzerland (more so than
does C. conradi), but differs iii having its periproct higher up on the posterior surface, and in the
failure of the expansion of the test over the periproct to protrutle noticeably beyond the j^osterior
margin. In a number of features 0. carolinensis is similar to Pygorhynchus grignonensis
(Defranco) Agassiz from the Eocene of France, but it can be separated by its more dejiressed
form and the higher relative position of its periijroct.

Localities. — Smith Creek (type), Rocky Point, and Wilmington, N. C.

Geologic horizon. — Castle Hayne limestone, upper Eocene or Oligocene.

Collections. — Johns Hojikins University (T 2004); U. S. National Museum.

Cassidulus amygdala Desor.

Cassidulus amygdala Desor, 1858, SjTiopsis des (^chinides fossiles, p. Ixv.
Cassidulus amygdala Conrad, 1865, Acad. Nat. Sci. Philadelphia Proc, p. 22.
Cassidulus amygdala Conrad, 1866, Smithsonian Misc. Coll., vol. 7 (200), p. 22.

This is a Swiss species described on page 290 of Desor's Synopsis and erroneously listed by
Desor in his table of distribution, page Ixv, as among the Eocene Echinodermata of America.
Conrad, failing to note the error, also listed the form in his catalogue and check list.

Pygorhynchus rugosus Ravenel.

Pygorhynchus rugosus Eavenel, 1848, Ecliinid*, recent and fossil, of South Carolina, p. 4, PI. II, figs. 7, 8.
Pygorhynchus rugosus Bavenel, 1850, Cat. recent and fossil Echinidse, South Carolina, p. 160.
Pygorhynchus rugosus Agassiz, 1883, Mus. Comp. Zoology Mem., vol. 10, No. 1, p. 91.

Ravenel, in 1S4S, j)ublished in an out of the way pamphlet two ];.(itr drawings, imaccom-
panied by a description, of a form from the Eocene of South Carolina for whicli he jn-oj/osed
the name Pygorhynchus rugosus. The species is not entitled to recognition; and the writer
has been unable to locate the t.ype or to recognize the form among the material studied.

148 MESOZOIC AXD CEXOZOIC ECHIXODEEMATA QF THE UNITED STATES.

Genus BBEYNELLA Gregory.
Breynella gregoryi Twitch ell, n. sp.
Plate LXVIII, figures la-f.
Breynella sp. Gregory, 1891, Geol. Soc. America Bull., vol. 3, p. 104. Nomen nudum.

Determinative characters. — Test suboval in marginal outline, broadest hack of the center,
narrowing posteriorly, truncated vertically at the posterior end ; sides and anterior end rounded;
upper surface convex, somewhat elevated, especially along the posterior median area, apex
slightly to the rear of the center; under surface rather flat, slightly concave near the peristome.
Ambulacral areas narrow, supetaloid; petals rather short, straight, flush, inconspicuous and
open at the ends. Apical S3'stem very excentric anteriorly. Peristome pentagonal, excentric
anteriorly, but somewhat less so than the apical system; with a floscelle. Periproct oblong-oval,
longitudinal!}^ elongate, supramarginal, at the top of, and flush with the vertical stirface of the
posterior tnmcation.

Dimension. — ^Length 34 millimeters; width 28 millimeters; height IS millimeters.

Description. — Tlais medium-sized Breynella is the first representative of the genus to be
reported from the United States. The specimens here described are probably the same which
J. W. Gregor}' saw at the American Museum of Natural History, and as he first recognized the
form as a Breynella it is named in his honor. The test of this species is suboval to subovate
in marginal outline, broadest back of the center, narroM-ing toward the posterior end, which
is vertically truncated. The sides are rounded and inflated; the upper surface convex, some-
what elevated, especially along the jjosterior median area, which, however, graduaUy declines in
the form of a low rounded ridge on approaching the region of the periproct; the under sur-
face rather flat, tumid around the margin, slightly concave near the peristome. The apex is
slightly to the rear of the center.

The ambidacral areas narrow, widest at the ambitus, where they are onty slightly wider
than the petaloid portions; dorsal portions subpetaloid, the petals being rather short, straight,
flush, inconspicuous, and open at the ends; the posterior pair slightly longer than the others,
which are nearly equal in length. The poriferous zones are rather narrow; outer row of pores
oval, inner row round; pairs of pores conjugate.

Tlie apical system is very excentric anteriorly, being situated about one-third the length
of the test from the anterior end. Its details are not weU sho-wm on the specimens studied; but
there are four genital pores of which the anterior pair are nearer together than the posterior.

The peristome is pentagonal, transvereely elongate, excentric anteriorly, but somewhat less
so than the apical sj'stem, with a floscelle. Tlie flosceUe is distmct, and the bourrelets are broad
and rather prominent; but the phyllodes are not verj' conspicuous.

The periproct is oblong-oval, longitudinally elongate, supramarginal, at the top of, and
nearly flush with the vertical surface of the jjosterior truncation. A poorly defined shallow
groove extends from the periproct down the middle of the posterior truncation.

The sm-face of the test is closely set with small tubercles, in deep scrobicules, which are
somewhat larger on the under surface. There apjiears to be a very narrow, somewhat pitted,
median band behind the peristome which extends along close to the zigzag suture line.

Belated form^. — Breynella gregoryi resembles in a general way several of the Tertiary species
of Cassidulus; but is readily separated b}^ its longitudinaUy elongate periproct. Its closest
American ally is EcJiinanihus antiUamm Cotteau, from the Eocene of the West Indies, from which
it differs in having its periproct overhung by an expansion of the test. It resembles E. honissenti
Cotteau, from the Eocene of France, but is smaller and has its apical sj'stem more excentric
anteriorly. It also closely resembles Breynella equizoata Gregory, from the lower Oligocene of
Malta, but may be distinguished by its higher posterior margin and the slightly more anteriorly
excentric position of both its apical sA'stem and peristome.

Locality. — ^Santee Canal, S. C.

Geologic horizon. — Probably either the Cooper marl (upper Eocene) or the upper part of
the McBean formation (middle Eocene) .

Collection. — American Museum of Natural Historv.

EOCENE ECHINODERMATA. 149

Genus ECHINOLAMPAS Gray.

ECHINOLAMPAS APPENDICULATUS EmmonS.

Plate LXVIII, figures 2a-h.

Eckinolampas appendiculatus Emmons, 1858, Agriculture Eastern (bounties: North Carolina Geol. Survey Rept., p. 307,

figs. 240, 241.
Eckinolampas appendiculatus Stefanini, 1911, See. geol. italiana Boll., vol. 30, p. 697.

Determinative characters. — Test suboval to subovate in marginal outline, broad and rounded
anteriorly, narrowing in nearly straight lines to the pointed, obUquely truncated posterior end;
sides and anterior end roiinded and inflated. The upper surface convex, depressed, and usually
rather flat on top, Avith a tumid, rounded ridge over the periproct; under surface very tumid
for a wide area around the margin, shghtly concave near the jieristome. Apex central or sub-
central. Ambulacral areas narrow, dorsal jDortions petaloid; petals narrow, some with porifer-
ous zones unequal in length. Apical system excentric anteriorly. Peristome large, elliptical,
transverse, excentric anteriorly, with an inconspicuous floscelle. Periproct large, subelliptical,
inframarginal, beneath the protruding posterior ridge.

Dimensions. — The figured form, which is about average size, gave length 33 millimeters;
width 28 mUhmeters; height 17 millimeters. The largest specimen gave length 48 miUimeters;
width 42 miUimeters; height 23 miUimeters.

Description. — This species was described and figured by Emmons in 1858. It appears to
be limited to North Carolina, where it is often found in association with Cassidulus carolinensis.
In actual nmnber of specimens it is the most abundant of the Cenozoic Cassiduloidea occurring
in the United States, the writer having had more than 300 specimens available for study. The
writer has also had the privilege of studying Emmons's type, which is in the collection of WilUams
College; and as a result has determined that in applying the name "appendiculatus" to the
species based upon the''subcordate sculptured plate with a pentagonal opening, in the center of
which there is a pore" which was said to occupy the apical disk, Emmons made a curious mis-
take. His type does show a plate of some such character as he described but it is evidently
foreign to the test, probably a fragment of some other fossil — possibly the plate of some cidaroid
form — which has by accident become cemented to the test in the neighborhood of the apical
system. Emmons's type is the only one of the 300 specimens examined by the writer which
possesses any such plate. Furthermore, it is difficult to conceive of any possible function for
such an appendix to an echinoid test. This species is somewhat variable in minor details, but
its broad characteristics are quite uniform and easily distinguished. The test is thin walled,
depressed-ovoid in general form; marginal outline suboval to subovate, rounded anteriorly,
broadening back of the middle, then rapidly narrowing in almost straight, converging lines to the
rather pointed, somewhat rostrate posterior end; margin very round and highly inflated, less
so along the narrowing part on both sides of the posterior end, and dov/nwardly and anteriorly
truncated at the posterior end. The upper surface is usuaUy rather low, regularly convex,
depressed, rather flat on top and in the form of a tumid rounded ridge over the periproct;
though occasional specimens are moderately elevated, and somewhat ridged along the whole
longitudinal median area; under surface very tumid for a wide area around the margin,
slightly concave near the peristome. The apex is central or subcentral.

The ambulacral areas are narrow, dorsal portions petaloid; petals narrow, rather long,
varjdng somewhat in details on the same specimen and from specimen to specimen, the posterior
pair usually slightly longer than the anterior three, which are nearly equal in length, partly open
at their extremities. The poriferous zones are narrow, flush, the imier zones of the posterior
petals slightly shorter than the outer zones, and in a less degree the anterior zones of the anterior
paired petals shorter than the posterior zones; outer row of pores oval, iianer row round; pairs
of pores conjugate, the ridges between the pairs of pores prominent and ornamented A\lth a row of
granules.

The surface of the test is highly ornamented. There are numerous smaU tubercles in wide,
deep scrobicules. On the imder surface the scrobicules are more nimierous, different in size and

150 MESOZOIC AXD CEXOZOIC ECHIXODEKMATA OF THE UKITED STATES.

shape and closer together; on the upper surface they are more .scattered and hi gi-anulated rin^s
between which the sui-face is dotted with numerous small pits.

The apical system is excentric anteriorly and consists of four perforated basal plates, the
anterior genital pores being closer together than the posterior, five small perforated radial plates,
and a large, central, granulated, faintly tumid madreporite.

The peristome is rather large, regularly eUiptical, transverse, excentric anteriorly, though
slighter less so than the apical system, surrounded by an inconspicuous floscelle with straioiit
feeble phyUodes and faintly defined, slightly tumid bourrelets.

The periproct is rather large, irregularly elliptical, the upper edge being less convex than the
lower edge and constituting the extreme protruding posterior end of the test, inframarginal,
beneath the overhangmg rouniled ridge of the posterior upper surface and level with the down-
wardly obhque trmication of the posterior margin.

Related forms. — Ecliinolampas appendicidatus is not closely allied to any other American
species. It is easily distinguished from E. aldrichi, the onlj- other representative of the genus
yet reported from the United States. It resembles rather closely Echinolampas francei Desor
from the Eocene of France but tUffei's in being relatively broader and in having a more regularly
elhptical peristome.

Localities. — Newbern, (Emmons), Eocky Point (figured form), Smith Creek, anil Wil-
mington, N. C.

Geologic horizon. — Castle Haj'ne limestone, upper Eocene or OHgocene.

Collections. — Williams College; U. S. National Museum (138017) ; Johns Hopkins University.

Suborder STERNATA.
Family SPATANGID.E.

Genus HEMIPATAGUS Desor.

Hemipatagus argutus Clark, n. sp.
Plate LXIX, figures la-d.

Determinative characters. — Test small, cordiform, depressed, highest just back of posterior
truncation, nearly as broad as long, nearly flat below, with broad anterior sulcus. Ambulacra
nearhr flush, ^\'ith sUghtly depressed poriferous avenues. Interanibulacra are broad, the paired
area A\dth several %\adely scattered rather large, crenulate and perforate tubercles, with deep
areolas giving the surface an irregularly pitted appearance. The lower flat surface has many
tubercles of similar character especially on the sides near the ambitus. The tubercles are much
worn on both the upper and lower surfaces of the specimen.

Description. — The single specimen of this A-'er}- beautiful form has a small test, cordiform in
outlhie, somewhat depressed and nearly as broad as long. The upper surface is flattened ante-
riorly and elevated posteriorly just back of the posterior truncation. A broad anterior sulcus
crosses the ambitus. The lower surface is nearly flat.

The ambulacra are nearly flush, the poriferouii avenues being slightly depressed, subpetal-
oidal, the anterior pair bemg shorter than the posterior.

The interanibulacra are broad, the paired areas with several wideh' scattered rather large,
crenulated and jDerforate tubercles, vnih. deep areolas giving the surface an irregularly pitted
appearance. Tlie lower flat surface has many tubercles of similar character especially on the
sides near the ambitus. The tubercles are much worn on both the upper and lower surfaces of
the specimen.

The apical system is mdistinct. The peristome is large and oA-al in outline. The periproct
is large and supramarginal in position. -

Related forms. — The species is similar in certain features to. II. subrostratus but is wider
anteriorly, has a more cordate form, and is higher posteriorly.

Locality. — Enterprise, Clarke County, Miss.

Geologic horizon. — Claiborne group, middle Eocene.

Collection. — U. S. National Museum (141107).

EOCENE ECHINODEBMATA. 151

Hemipatagus subrosteatus Clark, n. sp.

Plate LXIX, figures 2a-b.

Determinative characters. — Test medium size, subcorcliform, only slightly higher posteriorly,
longer than ^^'ide, nearly flat below, \nth broad anterior sulcus. Ambulacra broad, somewhat
depressed, the poriferous avenues subpetaloidal, the anterior pair longer than the posterior.
Interambulacra mth a number of large scattered tubercles in the paired areas ^vith deep areolas,
crenulate and perforate.

Dimensions. — Length 33 millimeters; width 29 millimeters; height 14 millimeters.

Description. — ^The single specimen of this species is much damaged on the lower surface
and posterior end, neither the peristome nor perip roc t being preserved. The testis of medium
size, subcordiform, only slightly higher on the posterior j^art than on the forward part of the
upper surface. It is longer than vnde, the widest portion being onlj^ slightly forward of the
middle of the test. A broad anterior sulcus extends from the apex over the ambitus. The
lower surface is nearly flat.

The ambulacra are nearly flush, somewhat depressed, the poriferous avenues subpetaloidal,
the anterior pair longer than the posterior. The pores are oval and comiected by prominent
furrows.

The interambulacra are somewhat elevated with a number of large, scattered tubercles in
the paired areas. The tubercles have deep areolas, and are crenulate and perforate.

Related forms. — ^This species is similar to H. argutus but is narrower anteriorly, has a less
cordate form, and is lower posteriorly.

Locality. — Wilmington, N. C.

Geologic horizon. — <]!astle Hayne limestone, upper Eocene or Oligocene.

Collection. — ^U. S. National Museum (164652).

Genus SCHIZ ASTER Agassiz.

SCHizASTEK LECONTEi Merrlam.

Plate LXIX, figures 3a-b.

Schizaster (?) sp. Merriam, 1S97, Jour. Geology, vol. 5, p. 773.

Schizaster Iccontei Merriam, 1809, California Acad. Sci. Proc, 3d ser., Geology, vol. 1, pp. 164, l(i5, PL XX, figs. 1, la.

Schizaster lecontei Stefanini, 1911, Soc. Geol. italianaBoll., vol. 30, p. 697.

Determinative characters. — ^Test smaU, cordiform, elevated, -svith a sharj:) ridge from apical
system to posterior truncation. Apex jjosterior to center of test. Ambulacra broad, dej^ressed,
petals of posterior pair less than half the length of anterior. Peripetalous fasciole distinct. •
Apical system posterior to center. Peristome well forward. Periproct high on truncated
posterior surface.

Dimensions. — Length 20 to 23 millimeters.

Description. — ^The specimens of this species are preserved only as impressions or casts,
badly crushed. The test is small, cordiform, upper surface much elevated, with a sharp ridge
running from the apical system to the posterior truncated surface. A broad groove notches
the anterior margin.

The ambulacra are broad, the poriferous zones depressed, petaloidal, the petals of the
posterior pair very short, less than half the length of the anterior, sometimes almost circular in
outline. Pores elongated, apparently yoked.

The interambulacra broad. Tubercles larger on the lower surface. Peripetalous fasciole
quite distinct on one specimen. Traces of what appears to be the lateral fasciole have been
seen beneath the periproct.

Apical system excentric, posterior, anterior to the summit.

Peristome well forward, broad two-lipped. Periproct high up on the triuicated posterior end.

152 MESOZOIC AXD CEXOZOIC ECHIXODEKMATA OF THE UNITED STATES.

Meniam says: " Numerous large spines much like those of Scliizaster hare been found at
one locality, but if they belong to this genus at all they were probably derived from another and
much larger species."

Locality. — Contra Costa County, Cal.

Geologic Jionzon. — Martinez and Tejon formations, Eocene.

Collection. — ^University of California. i

ScHiZASTEK AEMiGEE Clark, n. sp.
Plate LXX, figures la-d.

Determinative characters. — Test rather large, cordiform, depressed upper surface slopes at
first rapidly then more slowly from anterior margin to apical system, beyond which an elevated
sharp ridge continues to the truncated posterior margin. Ambulacra in broad deep furrows,
the paired ambulacra in moderately sunken petals, the anterolateral being about one and one-
half times as long as the posterolateral. Peripetalous and lateral fascioles distinct.

Dimensions. — Length 53 millimeters; vndth 46 millimetei-s ; height 22 millimeters.

Descnption. — Tliis species has a test of moderately large size, much depressed and clearly
cordiform in marginal outline. The upper surface slopes at first rapidly from a sharp anterior
margin to near the apical system when it becomes nearly flat for a short distance. Beyond
the apical system a sharp elevated ridge highest near the middle point continuous on to the
truncated posterior margin.

The ambulacra are broad, the single anterior ambulacrum being situated in a deep broad
groove that deeply indents the anterior margin. The paired ambidacra have broad deep petals,
the anterolateral being somewhat over one and a half times as long as the posterolateral.

The interambulacra are more or less fiat, slightly gibbous, the posterior much elevated
forming a sharp ridge. The sm-face is thickly covered with small perforate tubercles. The
peripetalous and lateral fascioles are very distinct.

The peristome is near the anterior margin in a shallow depression. The periproct is high
on truncated posterior margin.

Locality. — Cocoa post office, Choctaw County, Ala.

Geologic hoHzon.—St. Stephens limestone Gower part), upper Eocene.

Collection. — ^U. S. National Museum (141104).

SCHIZASTER sp.
Plate LXX, figure 2.
Fragment of spatangoid test, Clark, 1901, Maryland Geol. Siu^ey, Eocene, p. 232, PI. LXI, fig. 1.

Description. — ^A fragment of a spatangoid test found among the Eocene materials collected
at Evergreen, Va., apparently belongs to the genus Schizaster, to which it is here referred. A
portion of an ambulacrum with the adjacent portion of an interambulacrum, showing many
characteristic features, is preserved. The ambidacrum, probably one of the anterolateral pair,
is petaloidal, the petal sunken and rather narrow. The interambulacrum is somewhat gibbous
and has preserved a part of a peripetalous fasciole.

Locality. — Evergreen, Va.

Geologic horizon. — Nanjemoy formation, middle Eocene.

Collection. — Johns Hopkins University (T 2001).

Genus LINTHIA Merian.

LiNTHIA WILMINGTONENSIS Clark, U. Sp.

Plate LXX, figures 3a-c.

Determinative characters. — Test large, cordiform, gibbous above, nearly flat below, ambu-
lacra wide, anterior in deep groove, anterolateral with petals in long deep grooves, postero-
lateral wiih petals about one-half the length of the anterolateral and also deeply sunken. Inter-

EOCENE ECHINODEEMATA. 153

ambulacra wide, prominent, and covered witli numerous small tubercles. Peristome in promi-
nent depression.

Dimensions. — Length 56 millimeters; width 55 millimeters; height 34 millimeters.

Description. — This relatively large form has an elevated, gibbous upper surface and a nearly
flat lower surface except for the peristome dejiression. It is cordiform in marginal outline
about as wide as long and rounded laterally.

The ambulacra are wide, the single anterior ambulacrum being situated in a deep groove,
which deeply indents the margin. The anterolateral paired ambulacra have long, broad sunken
petals, while those of the posterolateral pair are only about half as long.

The interambulacral plates are covered mth small perforated tubercles. The peripetalous and
lateral fascicles can be readily traced.

The peristome is in a pronounced depression near the anterior margin. The periproct is not
shown on the type form.

Locality. — Wilmington, N. C.

Geologic horizon. — Castle Hayne limestone, upper Eocene or Oligocene.

Collection. — U. S. National Museum (1664S2).

LlNTHIA ALABAMEXSIS Clark, U. sp.
Plate LXXI, figures la-d, 2a-d.

Determinative clmracters. — Test small, nearly round, except for groove on anterior margin and
slight truncation posteriorly, low, somewhat depressed, the upper surface sloping gradually
toward the apex. Ambulacra narrow, not deeply sunken, the posterolateral petals much shorter
than the anterolateral. Peristome near anterior margin. Periproct relatively high on narrow
truncated posterior margin.

Dimensions. — Large specimen: Length 34 millimeters; width 35 miUimeters; height 19
millimeters. Small specimen: Length 22 millimeters; v^ddth 22 millimeters; height 14 milli-
meters.

Description. — The test of tliis species is small, low, somewhat depressed, nearly round in
ambital outline, except for the rather shallow groove on the anterior margin and the sUght, nar-
row truncation on the posterior margin. The upper surface slopes gradually from the anterior
margin posteriorly.

The ambulacra are narrow and not deeply sunken. The single anterior ambulacrum is
situated in a narrow, rather shallow groove. The anterolateral paired ambulacra have long,
narrow, rather shallow petals, and the posterolateral pair are short and shallow.

The interambulacral plates are covered with small perforate tubercles. The peripetalous
and lateral fascioles are not easily traced.

The peristome is in a shallow depression near the anterior margin. The periproct is situated
relatively liigh on the narrow truncated posterior margin.

Localities. — Prairie Creek, Wilcox County, Ala. ; near Grand Glaise, Jackson Count}', Ark.

Geologic horizon. — Midway group, lower Eocene.

Collection.— U . S. National Museum (166483, 173371).

Genus ETTPATAGtTS Agassiz.

EUPATAGUS CAROLIXENSIS Clark, n. sp.

Plate LXXI, figures 3a-d, 4.

Determinative characters. — Test medium size, oval, moderately tumid, ncai'ly flat along the
median line, mth slight keel. Ambulacra depressed, anterior very shghtly, paired ambulacra
in shallow grooves, long, the anterolateral pair shorter than the posterolateral. Interambulacra
shghtly tumid. Apical system excentric, well forward. Peristome excentric in front.

Dimensions. — Length 48 millimeters; width 39 milUmeters; height 22 mUlimeters.

Description. — This very beautiful form has a test of moderate size, oval, moderately tumid
on the upper surface and sloping up at a low angle along the median line toward the posterior

154 MESOZOIC AXD CEXOZOIC ECHIXODEEMATA OF THE UNITED STATES.

ridge, which is low. The posterior margin is sUghtly contracted. The lower surface is nearly
flat, with a slight posterior keel.

The ambulacra are broad, the anterior ambulacrum occupying a slight depression and the
paired ambulacra sUght grooves in the petaloidal portions. The petals are long, the postero-
lateral being longer than the anterolateral. The pore pairs are rather large and coimected by
furrows.

The interambulacra are sUghtly tunaid, the tubercles on the lower surface being much larger
than on the upper surface.

The apical sj^stem is small and situated well forward. The peristome is large, semilunar
in shape, and excentric in front. The peripetalous fasciole is clearly defuied.

Locality. — Wilmington, N. C.

Geologic horizon. — Castle Hayne limestone, upper Eocene or Ohgocene.

Collection. — U. S. National Museum (164674, 166484).

Genus BBISSOPSIS Agassiz.

Bkissopsis eimulatus Ravenel.

Brissopsis rimulatus Ravenel, 1848, EctinoidEe, recent and fossil, of South Carolina, p. 4, PI. II, figs. 3 and 4.
Brissopsis rimulatus Ravenel, 1850, Am. Assoc. Adv. Sci. Proc, vol. 3, p. 160.
Brissopsis rimulatus Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 708.

Description. — Ravenel did not describe this s})ecies in 1848 when he proposed the name,
biit he published two very distinctive figures, which should be sufficient to identify the form if
material representing the species should be found. No such material was at hand when this
monograph was under preparation.

Locality. — South Carolina (Ravenel).

Geologic horizon. — Eocene (?).

Collection. — Unknown .

Genus MACROPNETJSTES Agassiz.

ilACROPNEUSTES CAROLiNEXsis Clark, n. sp.

Plate LXXI, figures 5ar-d.

Determinative cJiaracters. — Test small, elevated, tumid, subpentagonal. Apical system
excentric forward. Ambulacra narrow, petaloidal portions in narrow, shallow grooves. Surface
of plates covered with numerous tubercles. Peristome about one-third the distance from the
anterior to the posterior margin.

Dimcnsiotis. — Length 28 millimeters; width 27 milUmeters; height 22 nulhmeters.

Description. — This attractive little form has an elevated test, tumid in form, and subpentag-
onal in ambital outline. The apex is excentric forward. The margin is rounded. The ambulacra
are narrow, the petaloidal portions being elongate in narrow, shallow grooves. The petals are
imperfectly closed. The surface of the plates is covered with numerous, irregularly dispersed
granules. The peristome is large, excentric, situated about one-third of the distance from the
anterior to the posterior margin ; irregularly dispersed tubercles. The interambulacra are slightly
gibbous above, the margin sharp, and the lower surface nearly flat. The fascicles axe rather
indistinct.

The peristome is large, semilunar, with large projecting posterior labrum. The periproct
is large and low on the imperfectly truncated posterior surface.

Locality. — Wilmington, N. C.

Geologic horizon. — Castle Hayne limestone, upper Eocene or Ohgocene.

Collection. — U. S. National Museum (1646.51).

EOCENE ECHINODEKMATA. 155

Maceopneustes MORTON! (Conrad).

Plate LXXII, figures la-d.

EoJnsler mortoni Conrad, 1850, Acad. Nat. Sci. Philadelphia Jour., 2d ser., vol. 2, p. 40, PI. 1, fig. 10.

HoJasler mortoni Boyle. l.'^9.3, IT. S. Geol. Survey Dull. 102, p. 150.

Macro pneusles mortoni Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 700.

Determinative characters. — Test large, elevated, tumid, slightly cordiform, nearly round,
apex excentric forward. Amljulacra broad, petaloidal portions elongate, in very shallow
depressions, nearly flush. Surface of both ambulacra! and interambulacral plates outside the
petals covered with numerous irregularly dispersed tubercles. Peristome forward about one-
third the distance from the anterior to the posterior margin. Periproct large, short distance
aljovo margin.

Dimensions. — Length 84 millimeters; width 86 millimeters; height 52 millimeters.

Description. — The test of the species is large, elevated, and tumid. It is slightly cordi-
foi-m in ambital outline, nearly round but for the slight anterior groove and the ill-defined
posterior truncation. The apical system is excentric forward, the high upper sm-face giving
the test a somewhat subconical form.

The ambulacra are broad, the petaloidal portions elongate, nearly flush in very shallow
depi'essions that reach far down the sloping sides.

The petals of the ambulacra outside the petaloidal portions of the ambulacra and the
inter ambulacra are covered with numerous irregularly dispersed tubercles.

The peristome is large, excentric forward, situated about one-thud of the distance from
the anterior to the posterior margin. The periproct is large and situated a short distance
above the margin.

Localities.- — Palmyra, Lee Comity, Ga. (type) ; Fail, Choctaw County, Ala. (figured specimen) .

Geologic liorizon. — -Jackson formation (upper Eocene) and Vicksburg formation (lower
Oligocene).

Collection.— \]. S. National Museum (146468).

Genus SARSELLA Pomel.
Saesella gregoryi Clark, n. sp.

Plate LXXII, figures 2a-d.
Sarsella sp. Gregory, 1892.

Determinative characters. — 'Test small, cordiform, depressed. Apical system nearly cen-
tral. Ambulacra very diverse anterior in broad deep group, petaloidal portions of paired
ambulacra slightly sunken, the posterolateral more than the anterolateral. Several large,
irregularly dispersed tubercles crenulate and perforate on the interambulacra. Peristome
semilunar. Periproct high on posterior trmication.

Dimensions. — Length IS. .5 millimeters; width 17.5 millimeters; height 9 millimeters.

Description.— Tliis small form was noted by Gregory in his cursory examination of Ameri-
can echinoids when in America in 1891 and was referred to the genus Sarsella. The tost is
small cordiform in ambital outline, depressed, only slightly higher on the posterior portion
of the upper surface than the anterior. The under surface is nearly flat.

The ambulacra are very diverse. The anterior ambulacrum is situated in a broad deep
groove. The paired ambulacra have diverse slightly sunken pt^taloidal areas, the petals of the
posterolateral pair being broader and shorter and closed below while those of the anterolateral
pair are only imperfectly closed.

The surface of the interambulacral plates bears a number of irregularly dispersed large
crenulate and perforate tubercles. They are confined to the paired interambulacra.

The apical system is small. The perforations in the four genitals are distinct on the type
specimen.

156 MESOZOIC AND CENOZOIC ECHINODEBMATA OF THE UNITED STATES.

The peristome is large, semilunar, and distinctly excentric forward. The periproct is
large, high on the posterior truncation.

Locality. — Santee Canal, S. C.

Geologic horizon. — Santee marl member of McBean formation, of Claiborne group, middle
Eocene.

Collection. — American Museum of Natural History.

Spatangus? pachecoensis (Pack).

Spatangm f pachecoensis Pack, 1909, Univ. Califdmia Dept. Geology Bull., vol. 5, No. 18, p. 276, PL XXIII, figs. 4, 5.
Spatangus f pachecoensis Lambert, 1910, Rev. crit. pali^ozoologie, 4" anii^e, No. 1, p. 55.
Spatangiis f pachecoensis Stefamni, 1911, Soc. geol. italiaua Boll., vol. 30, p. 705.

Description. — The species was established by Pack on casts of poorly preserved fragments.
It apparently belongs to the Spatangidse, but its generic relations can not be determined.
Lambert, on the other hand, positively refers it to the Scutellidse and considers the material
too fragmentary for specific description.

Locality.— "Northwest of Pacheco, Contra Costa County, Cal.

Geologic horizon.— Tejon formation, upper Eocene.

Collection. — University of California.

OLIGOCENE ECHINODERMATA.
Class ECmNOIDEA.
Subclass REGULARIA ENDOBRANC'HIATA.
Order CIDAROIDEA.

FamUy CIDARID.«.

Genus CIDARIS Leske.

CiDARis MORTONI Conrad.

Plate LXXIII, figure 1.

Cidaris mortoni Conrad, 1S50, Acad. Nat. Sci. Philadelphia Jour., 2d ser., vol. 2, p. 40, PL I, fig. 13.

? Cidaris sp. Bouve, 1S51, Boston Soc. Nat. History Proc, vol. 4, p. 3.

Cidaris mortoni Cotteau, 1S92, Paleontologie frangaise, fichinides ^ocfenes, p. 449.

Cidaris mortoni, Stefanini, 1911, Soc. geol. italiaua Boll., vol. 30, p. 698.

Description. — The fragment of a Cidaris test, wHch is here figured and referred to Cidaris
mortoni, has all of the essential characteristics of the form figured and briefly described by
Conrad. The species is large, globose, and circular in ambital outline. The ambulacra are
straight, the pore openings round and somewhat distinct. The interambulacra are composed
of large plates, each bearing a large perforate and apparently uncrenulate tubercle.

Localities. — Near Palmj-ra, Lee County, Ga. (type): Baker County, Ga. (figured specimen).

Geologic horizon. — Vicksburg formation, lower Oligocene.

Collection. — Boston Society of Natural History (1555).

Cidaris smithi Clark, n. sp.
Plate LXXIII, figures 2a-c, 3.

Determinative characters. — Test medium size, moderateh^ tall, subcircular in ambital out-
line. Ambulacra narrow, slightly flcxuous. Interambulacra broad, each with two rows of
primary tubercles perforate and crenulate, the areola surrounded by a row of secondarj^ tuber-
cles. Mihary space small.

Dimensions. — Diameter 35 milUmeters; height 24 millimeters.

Description. — The test of this species is of medium size, moderately tall, and subcircular
in ambital outline.

The ambulacra are narrow, slightl}^ flexuous, the poriferous zones separated by four rows
of granules at the ambitus, which become reduced to two rows both above and below.

The interambulacra are \nde, rather more than three times the width of the ambulacra.
Each plate bears a large primar}^ tubercle which is perforate and crenulate and has a medium-
sized areola surrounded by a row of granules. The relatively narrow miliar^' space is thicldy
covered with tubercles.

A large tubercle was found with the test that probably belongs to the same species. Cer-
tain Cidaris spines found at the Central Salt Works, Clarke County, Ala., may represent the
same species.

Locality. — The Rocks, Clarke Count}', Ala.

Geologic horizon. — St. Stephens limestone (upper portion), lower Ohgocenc.

Collection. — Alabama Geological Survey.

39800°— 15 11 157

158 MESOZOIC ASD CENOZOIC ECHINODEKMATA OF THE UNITED STATES.

Ctdaeis georgiana Clark, n. sp.
Plate LXXIII, figure 4.

Determinative characters. — Test moderately high, subcii'cular, medium size. Ambulacra
wide, with large primary tubercle on each plate, the tubercles on contiguous plates closely
approximate, wide miliary space between the rows of tubercles.

Dimensions. — Diameter 38 (0 millimeters; height 25 (?) millimeters.

Description. — The test of this species is only partly preserved. It shows, however, the
chief determinative characters. It is evidently unlike any other form hitherto described.
The test is of medium size, moderately high, and subcircular in ambital outline. The full
height and diameter can not be with certainty determined. The ambulacra are rather broad
and straight, with four rows of granules between the poriferous zones.

Locality. — Muckafoonee Creek, Ga.

Geologic lionzon. — Vicksburg formation, lower Ohgocene.

Collection. — U. S. National Museum (166485).'

CiDARis branneri Arnold.
Plate LXXIII, figure 5.

Cidaris branneri, Arnold, 1903, U. S. Nat. Mus. Proc, vol. 29, pp. 363, 364, PI. XXXIII. fig. 5.
Cidaris branneri Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 698.

Description. — Arnold says :

Test unknown. Spines, long, slender, circular in cross section, attaining a length of at least 25 millimeters and a
diameter of over 2 millimeters. .Surface of spine smooth for about one-fifth its length from the base; above this it is
ornamented by ten longitudinal rows of elongated nodes or granules which are liarely connected near the smooth
portion, but which partake more and more of the character of nodose ribs toward the distal end; the last one-fifth of the
spine is ornamented liy fi\e prominent, slightly nodose riljs; the extreme end is blunt and rounded; collar at base only
faintly developed.

The spines of this species are easily distinguishable from those of C. merriami, new species, from the Eocene, by
their smaller size, fewer but much more prominently nodose longitudinal ribs, and smooth basal portion. No complete
spine of C. merriami was obtained, so that the smooth basal section may possibly be a characteristic of this latter species
as well as of C. branneri.

Dimensions. — Length 20 milUmeters; diameter, basal end 2.2 millimeters, distal end 1.1
millimeters.

Localities. — Santa Cruz quadrangle, Santa Cruz County, locahty No. 109 on Bear Creek, 4
miles above its confluence with the San Lorenzo River, Cal.

Geologic horizon. — San Lorenzo formation, upper Ohgocene.

Collection. — U. S. National Museum (1056).

Subclass REGULARIA ECTOBRANCHIATA.

Order BIADEMOIDEA.

Suborder ARBACINA.

Family ARBACIID.E.

Genus CCELOPLEUKUS Agassiz.

C(ELOPLEURi;s ALDRiCHi Clark, n. sp.

Plate LXXIII, figures 6a-b, 7a-c.

Determinative characters. — Test large, subpentagonal, tumid at ambitus, depressed above,
nearly flat below. Ambulacra narrow, the two rows of primary tubercles becoming ver}^ small
toward the apex; poriferous zones narrow and straight, the pore pairs uniserial. Interam-
bulacra -wide, each with several rows of large primary tubercles at ambitus reduced to two
around peristome and on upper surface, leaving wide median area above. Tubercles with flat
areolas and large imperforate mamelons. Peristome with very slight brancliial incisions.

OLIGOCENE ECHINODEEMATA. 159

Dimensions. — Specimen A: Diameter 38 millimeters; height 20 millimeters. Specimen B:
Diameter 2S millimeters; height 12 millimeters.

Description. — The species is characterized by a rather large test, with subpentagonal out-
line. It is tumid at the ambitus and depressed on the upper surface. It is nearly fiat below.
The ambulacra are narrow, each bearing two rows of primary tubercles that diminish rapidly
in size from the ambitus toward the apex. The poriferous zones are narrow, the pore pairs
being uniserial and somewhat crowded toward the apex. The interambulacra are ^\\Ae with
several rows of primary tubercles at the ambitus which become reduced. to two toward the peri-
stome and above the ambitus, where a broad median area devoid of tubercles occurs. The
peristome is small with slight branchial incisions.

The several specimens examined are much broken and the surfaces much worn.

Locality. — Perdue Hill, Ala.

Geologic horizon. — St. Stephens limestone (upper portion), lower Oligocene.

Collection. — U. S. National Museum (T. H. Aldrich).

Suborder DIADEMINA.
Family CYPHOSOMATID^.

Genus GAGARIA Diifican.

Gagaria AMERICANA Clark, n. sp.

Plate LXXIII, figures 8a-b.

Determinative characters. — Test small, circular, tumid, subhemispherical, concave below.
Ambulacra narrow, each with two rows of small primary tubercles, perforate and crenulate;
each compound plate with three pairs of pores. Interambulacra wide, each with two rows of
primary tubercles. Apical system large, flush.

Dimensions. — Diameter 14 millimetere ; height 8 millimeters.

Description. — This beautiful form has a very small test, with a circular ambital outline.
It is tumid, subhemispherical, rather depressed above, concave below. The ambulacra are
narrow, each area provided with two rows of perforate and crenulate primary tubercles which
are longest at the ambitus and reach to the apical system, gradually diminishing in size. The
poriferous zones are narrow, the pore pairs being three in number on each compound plate.
The interambulacra are broad, each carrying two rows of primary tubercles similar to the ambu-
lacra between wliich are many small secondaries and granules. The apical system is large and
flush.

This species is based on a single specimen, the peristomial region of which is much damaged.

Locality. — The Rocks, Clarke County, Ala.

Geologic horizon. — St. Stephens hmestone (upper portion), lower OUgocene.

Collection. — U. S. National Museum (T. H. Aldrich).

Suborder ECHININA.
Family TRIPLECHINID.«.

Genus ECHINUS Litine.

Echinus ? sp.
Echinus sp. Cunningham, 1895, Am. Micr. Jour., vol. 16, pp. 193-196, figs.

Description. — Small spines and fi-agments of plates are figured by Cumiingham from "cal-
careous marl" in Clarke County, Miss., and referred to the genus Echinus. It is cjuite impossible
to determine definitely the generic relations of these forms.

Locality. — Red Bluff station, Chickasawhay River, Clarke County, Miss.

Geologic horizon. — Vicksburg limestone, lower Oligocene

Collection. — K. M. Cunningham, Mobile, Ala.

160 MESOZOIC AND CENOZOIC ECHINODEEMATA OF THE UNITED STATES.

Subclass IRREGULARIA.

Older GNATHOSTOMATA.

Suborder CLYPEASTRINA.

Family FIBULARIID^.

Genus ECHINOCYAMUS Phelsum.

EcHiNOCYAMUs VAUGHANi Twitchell, n. sp.

Plate LXXIV, figures la-d.

DetermirMtive characters. — Test very small, though larger than related American species,
thick walled, almost regularly egg shaped, though elongated longitudinally, about t-wice as long
as broad. Upper sm-face elevated, both upper and lower surfaces flattened along the longi-
tudinal median areas. Apical system anteriorly excentric, with four medium-sized genital
pores. Petals relatively short and potaloidal area smaller than in related forms. Peristome
relatively large, central, slightly depressed; periproct very small, close to peristome.

Dimensions. — Length, 8 millimeters; width, 4 millimeters; height, 4 millimeters.

Description. — This species is founded upon a specimen collected in Georgia by T. Wayland
Vaughan, of the United States Geological Survey, in whose honor it is named. The test,
though actually very small, is larger than in the other American representatives of the genus.
The test is thick walled, elongate egg shaped in general form, elongate subelliptical to elongate
subovate in marginal outline, somewhat pointed anteriorly, about twice as long as broad. The
upper surface is high (the height of the test equalling the breadth) and flattened longitudinally;
mider surface also'flattened somewhat along the longitudinal median area and slightly concave
around the peristome.

The ambulacral petals are rather well defined, relatively short, thus making the petaloidal
area relatively smaller than in allied American forms; petals wide open at ends; poriferous zones
diverge in almost straight lines to the ends and consist of small round pores in pairs not dis-
tinctly conjugated.

The peristome is relatively large, central, slightly depressed below the surface; periproct
very small, about one-third the diameter of the peristome and very close to the peristome.

Related forms. — E. vaughani is most closely related to E. texanus but can be readily sepa-
rated by its larger size, less oval marginal outline, more pointed anterior end, greater difference
between its longitudinal and transverse diameters, and smaller petaloidal area. E. vaughani
also resembles E. parvus and E. huxleyanus but differs from both in having its periproct near
the peristome. It also differs from E. huxleyanus in being less fragile and less depressed.

Locality. — Little Horseshoe Bend, Flint River, Ga.

Geologic horizon. — ^Vicksburg formation, lower Oligocene.

Collection.— U. S. National Museum (1664S6).

Family LAGANID^.
Genus LAGANUM Blainville.

Laganum eldridgei Twitchell, n. sp.

Plate LXXIV, figures 2a-d.

Determinative characters. — Test large, subpentagonal to subdccagonal in marginal outline,
longitudinally elongate, truncated at the anterior and posterior ends, more or' less undulating
along the sides. Whole form greatly depressed, margin thin but thicker than slightly concave
submarginal area, petaloidal region tumid. Apex and apical system subcentral. Lower surface
flat. Ambulacral petals long, elongate elliptical, extending two-thu-ds the way to the margin,
pointed and closed at the ends; pairs of pores conjugated by very narrow more or less wavy
grooves. Ambulacral areas very wide at margin, narrowing rapidly to ends of petals. Peri-
stome moderate in size, subcentral, subpentagonal to subelliptical, transversely elongate.

EOCENE ECHINODEBMATA. 161

Ambulacral groovos apparently simple and straight, each groove having a fine line on both
sides which rapidly diverge from the main groove. Periproct relatively large, suboval, longi-
tudinally elongate, one-fourth the way from the margin to the peristome.

Dimensions.— Length 9G millimeters; width 75 millimeters; height 10 millimeters.

Description.— The only specimens kno%vn of this large and handsome Laganum, the largest
representative of the genus from American deposits, were collected in Florida by the late
G. IT. Eldridge of the United Stat«es Geological Survey and the species is therefore named in
his honor. The tc^st is large, being 3 to 4 inches long and 2i to 3 inches wide. In marginal
outline, it is subpentagonal to decagonal, decidedly longer than broad; margin thin but thicker
than the submarginal area, truncated at anterior and posterior ends, more or less undulating
along the sides. The whole form is greatly depressed, the upper surface slightly concave around
the submarginal area, arising centrally in the form of a low mound which involves the whole
petaloidal area; apex subcenti'al; lower surface flat.

The ambulacral areas are very wide at the margin, being there about four times the width
of the interambulacral areas, narrowing rapidly to near the ends of the petals. The petals are
long, elliptical in outline, extending two-thirds the way to the margin, pointed and closed at
the ends. The anterior pair shorter than the other three, which are subequal in length. The
poriferous zones are wide, more than half the width of the rather narrow interporiferous areas,
inner row of pores elliptical, outer row veiy narrowly slitlikc, hardly discernible, pairs of pores
conjugated by very narrow more or less wavy grooves.

The interambulacral areas are very narrow at the margin, widen rather rapidly to near
the ends of the petals, and narrow again toward the apical region. The whole test is closely
set with very small tubercles, among which are scattered at irregular distances some larger ones
in deep scrobicules.

The apical system is subcentral, at the summit of the tumid area. There are four largo
genital pores, of which the anterior pair are set closer together than the posterior nair. No
other details could be made out on the specimens.

The peristome is of moderate size, subcentral, slightly to the rear of the apical system,
subpentagonal to subelliptical, transversely elongate. The details of the ambulacral grooves
could not bo made out satisfactorily on the specimens studied. As they leave the peristome
there appears to be a single straight groove on each side of which are two fuie lines which rapidly
diverge from the main groove. These side lines may be the boundary linos of what on better
preserved specimens would prove to be finely granulated areas, thus forming a peristomial star.

The periproct is relatively large, about half the size of the peristome, suboval, longitudinally
elongate, situated about one-fourth the way from the margin to the peristome.

Related forms. — L. eldridgei is readily distinguished from all other American forms. It
closely resembles L. elongatum Agassiz,' whose origin is unkno\vn and which is not even stated
to be fossil, being very similar in size, general form, and marginal outline, but differs from it
in having a suboval instead of circular periproct, placed a little farther from the posterior margiii.

Locality. — Suwanee River, Fla.

Geologic horizon. — Vicksburg group, lower Oligoceno.

Collection.— U. S. National Museum (1(34683).

Laganum archerensis Twitchell, n. sp.
Plate LXXV, figures la-d.
Determinative characters. — Test small, subpentagonal to subdecagonal in marginal outline.
General form subdiscoidal, upper surface very low, nearly parallel with lower surface, with a
slightly concave ring involving most of ambulacral petals between the faintly tumid apical
region and the notably thickened margin. Highest part of test along anterior margin. Lower
surface flat. Ambulacral petals subelliptical, extending two-thirds the way to the margin,
ends closed. Apical system slightly excentric anteriorly, with four genital poi'cs set unusiuilly
far apart. Peristome small, pentagonal, central; ambulacral grooves simple, straight lines

1 Monographies dVchinodermes vivans et fossiles, vol. 2, Des scutelles, pp. 117-118, Fl. XXIV, figs. 1-2.

162 MESOZOIC AKD CEXOZOIC ECHIXODEEMATA OF THE UNITED STATES.

flanked by finely granulated areas, tlie five constituting a peristomial star. Periproct small,
transversely suboval, about one-fourth the way from margin to peristome.

Dimensions. — ^Length 18 millimeters; mdth 16 millimeters; heiglit .3.5 millimeters.

Description. — Only a single specimen of this new Laganum has been discovered. It was
found at Archer, Fla., whence the name here given. Tlie test is small, subpentagonal or sub-
decagonal in marginal outline. The whole form is greatly depressed; subdiscoidal, the upper
surface being practically parallel with the lower; the apical region faintly tumid, the area
between the apical region and the margin slightly concave; the margm notably thickened,
slightly less so posteriorly than anteriorly. The lower surface is flat. The highest part of the
test is along the surface of the anterior margin, from whence the upper surface slopes gently
to the posterior margin, the central tumidity being hardly any higher than the side margins.

The ambulacral petals are subeUiptical, extending about two-tliirds the way to the margm,
the larger part of each petal being depressed so as to form a part of the concave ring on the
upper surface, the ends of the petals practically closed. The poriferous zones are rather wide,
about half as wide as the interporiferous areas, the proximal ends poorly defined, the imier
row of pores round, the outer row slitlike, the pairs of pores conjugated.

The interambulacral areas are vei-y narrow, especially at the margin, where they are hardly
more than one-third as mde as the ambulacral areas. The whole surface of the test, including
the interporiferous areas and apical region, is covered with small tubercles set in deep scrobicules,
which are larger on the under surface.

The apical system is sliglitly excentric anteriorly at the summit of the faintly tumid central
area. There are four large genital pores, set unusually far apart, the anterior pair being nearer
together than the posterior pair. The poriferous zones could not be seen to come together at
the proximal ends, and the perforations in the radial plates could not be discerned on the
specimen.

The pei'istome is small, central, pentagonal. The ambulacral grooves each consist of a
central impressed line and two narrow areas of fine granulation which are bounded by faint
lines; these gi'ooves are quite distinct for a short distance from the peristome, thus constituting
a well-defined peristomial star, they then become gradually less distmct, so that as the margin is
approached they can hardly be discerned.

The periproct is small, about half the diameter of the peristome, transversely suboval,
about one-fourth the way from the margin to the peristome.

Related forms. — L. archerensis is most closely related to L. dalli, but can be easily dis-
tinguished by the concave ring on its upper surface, by its narrower petals, its less depressed
and narrower poriferous zones, and by having its periproct closer to the margin. It is also
allied to L. Jloridanum, but has a less regularly oval marginal outline and a larger petaloidal
area. It diffei's from L. crustuloides in being lower centrally, in having a concave ring on its
upper surface, and in having a flat lower surface.

Locality. — ^Archer, Fla.

Geologic horizon. — Vicksburg group, lower Oligocene.

Collection. — U. S. National Museum (164667a).

Laganum johnsoni Twitchell, n. sp.
Plate LXXV, figures 2a-d.

Description and determinative characters. — The test of this new Laganum is moderate in
size and almost regularly oval in marginal outline. The upper surface is moderately elevated
centrally, the height being about one-third of the width, the tumid area extending to the ends
of the petals; the submarginal area about equal in thickness to the margin, wMch is slightly
undulating, very thick, liigh and rounded, tliicker and liigher than in related forms, slightly
thinner at the middle of the posterior end than elsewhere. The lower surface is decidedly
concave, the concavity reaching nearly to the margin and near the peristome being about
equal to one-half the height of the test. The apex is subcentral. Tlie posterior petals are

OLIGOCENE ECHINODEEMATA. 163

lanceolate, the anterior three subelliptical, all of them pomted and closed at the ends, extendmg
two-thirds or more of the way to the margin, the anterior paii- slightly shorter than the rest.
The poriferous zones are very narrow, much narrower than the slightly tumid interporiferous
areas, sometimes irregular, inner ends poorly defined, imier row of pores round, outer row
slitlike, pairs of pores conjugated. The whole surface of the test is covered %vith rather con-
spicuous small tubercles which are larger on the lower surface. The apical system is sub-
central, with four large genital pores. The peristome is small, subpentagonal, subcentral;
ambulacral grooves poorly defined, not well preserved on the specimen. The periproct is
small, subcircular to subpentagonal, about one-third the way from the margin to the peristome.

Dimensions. — Length 34 millimeters; -i^-idth 30 millimeters; height 10 m.illimeters.

Related forms. — ^This species is very closely related to L. crustuloides, in fact so close that
further collecting may lead to its being made a synonym of the latter species. Its chief dis-
tinguishing features are its greater height and the greater height and thickness of its margin.
These features distmguish it not only from L. crustuloides, but also from the other American
representatives of the genus, from which it differs also in its pronouncedly concave lower surface.

Locality. — Turks Cave, Ala.

Geologic horizon. — Probably Vicksburg formation, lower Oligocene.

Collection. — ^U. S. National Museum (137202); collected hj L. C. Johnson, after whom it is
named.

Lagaxum floridanum Tw-itchell, n. sp.
Plate LXXV, figures 3a-d.

Determinative characters. — Test small, oval in marginal outline. General form subdiscoidal,
the upper surface very low, almost parallel with the lower surface, -with a slightly concave ring
between the slightly tumid petaloidal area and the notably thickened margin. Apex and
apical system slightly excentric anteriorly. Lower surface flat. Ambulacral petals subelliptical,
very short, extending halfway to the margin, pointed and closed at ends. Petaloidal area notably
smaller than in related forms. Periproct small, circular, about one-third the way from margin
to peristome.

Dimensions. — Length 20 millimeters; mdth 18 millimeters; height 3 millimeters.

Description. — This new Laganum from Florida has a small test which is almost regidarly
oval in marginal outline. The whole form is greatly depressed; subdiscoidal; the upper sur-
face being almost parallel Avith the lower; the apical region slightly tumid, the tumidity involv-
ing the larger part of the petals; the region around the ends of the petals concave; the margin
notably thickened, slightlj^ more so anteriorly than posteiiorly. The lower surface is flat, or
nearly so. The apex is slightly excentric anteriorly, at the summit of the central tumid area,
which rises but very slightly above the height of the margin.

The ambulacral petals are subelliptical, somewhat pointed and closed at the ends; very
short, extending only about halfway to the margin, subequal in length. The poriferous zones are
very narrow, much narrower than the interporiferous areas, the proximal ends poorly defined,
inner row of pores round, outer row slitlike, pairs of pores conjugated. The whole surface of
the test is covered \dth small tubercles set in deep scrobicules, which are somewhat larger on
the lower surface.

The apical system is slightly excentric anteriorly, coincident with the apex. There are
four large genital pores, the anterior pair being set closer together than the posterior pair.
The poriferous zones can not be seen to come together at their proximal ends, and the perfora-
tions of the radial plates can not be made out.

The peristome is small, slightly excentric anteriorly, subpentagonal. The ambulacral
grooves are inconspicuous and could not be made out on the single specimen studied.

The periproct is small, about half the diameter of the jieristome, circular, hicated about
one-third the way from the margin to the peristome.

Related forms. — L.floridanwm is closely related to L. airherensis and tv L. crustuloides, but
differs from both in being more regularlv oval in marginal outline and in having a smaller

164 MESOZOIC Als^D CENOZOIC ECHINODEEMATA OF THE UNITED STATES.

petaloidal area. It differs further from L. crustuloules in having a flat under surface, a less
elevated central area, and a concave ring on the upper surface.

Locality. — Johnsons Sink, Fla.

Geologic. Jionzon. — ^Vicksburg group, lower Oligocene.

Collection.— JJ . S. National Museum (137SS4).

Laganum dalli Twitchell, n. sp.

Plate LXXV, figures 4a-d.

Determinative cJiaraciers. — Test small, subpentagonal in marginal outline. General form
subdiscoidal, the upper surface very low, almost parallel with the flat lower surface. Apex
and apical system slightly excentric anteriorly. Ambulacral petals broad, subovate, extending
two-thirds the way to the margin; poriferous zones mde, depressed below the general surface,
thus making the narrow interporiferous areas stand out in relief; madreporite tumid. Peri-
stome probably subcentral. Periproct small, circular, about midway between margin and
peristome.

Dimensions.— 'Length 16 millimeters; width 15 millimeters; height 4.5 millimeters.

Description. — The type of this handsome little Laganum was found at Archer, Fla., by
W. H. Dall of the United States National iluseum, ia whose honor the species is named. This
species occurs in association with Laganum arcJierensis. The test is small in size and subpen-
tagonal in marginal outline. The whole form is greatly depressed, subdiscoidal, the upper
surface being almost i^arallel vnih the lower. The margin is notablj^ thickened, slightly less so
at the middle of the posterior end. The lower surface is flat or nearly so. The apex is subcentral
or very slightly excentric anteriorly, though it is but slightly higher than the margin of the test.
There is no distinct concave ring on the upper surface, but the poriferous zones of the ambu-
lacral petals are slightly depressed below the general surface.

The ambulacral petals are subovate in outline, broad, extending nearly two-thirds the way to
the margin, rounded, blunt, and closed at the ends. The poriferous zones are very wide, as
wide as the interporiferous areas, slightly depressed below the general surface; toner row of
pores rotmd, outer row slitlike, pairs of pores conjugated by very narrow grooves. Inter-
poriferous areas narrow, standkig in relief by reason of the depression of the poriferous zones.
The whole surface of the test, including the interporiferous areas, is covered with small tubercles,
set in deep scrobicules, which are larger on the under surface.

The apical system is subcentral or slightly excentric anteriorly, coincident with the apex.
There are four large genital pores of which the anterior pair are nearer together than the
posterior pair. The madreporite is tumid. No other details can be made out.

The imder surface is damaged on the single specimen known and the details ia regard to
the peristome and ambulacral grooves can not be given, though it is evident that the peristome
was central or subcentral in position.

The periproct is small, circular, about midway between the margin and the peristome.

Related forms. — L. dalli is most closely related to L. archerensis, differing chiefly in having
no concave ring on the upper surface and in having its periproct farther from its margin.

L. dalli closely resembles Sismondia antillarum Cotteau from the Eocene of the island of
St. Barthelemy but is distiaguished by being thicker as a whole, esi^ecially on the borders.

Locality. — Archer, Fla.

Geologic Jionzon. — Vicksburg group, lower Oligocene.

Collection. — ^U. S. National Museum (164667b).

OLIGOCENE ECHINODEEMATA. 165

Order ATELOSTOMATA.

Suborder ASTERNATA.

Family NUCLEOLITIDiE.

Genus AMBLYPYGUS Agassiz.

Amblypygus merrilli T^v^tchell, n. sp.

Plate LXXVI, figures la-d; Plate LXXVII, figures la-b, 2a-b; Plate LXXVIII, figures la-b.

Determinative characters. — Test large to very large, subhemisplierical to depressed sub-
conical; cii-cular or subcircular in marginal outline; sides rounded; under surface concave. Apex
central or subcentral. Ambulacral areas tumid, broad, widest between apex and ambitus;
petals wide open, nearly reaching the ambitus, poriferous zones wide, slightly depressed. Peri-
stome large, irregidarly subtriangidar, oblique, slightly excentric anteriorly. Periproct very
large, larger than the peristome, subelliptical to subpyriform, longest longitudinally, about
midway between peristome and posterior margin.

Dimensions. — Specimen A (type): Length 115.5 millimeters; width 114 millimeters; height
62 miUimeters. Specimen B : Length 73 millimeters ; width 69 millimeters; height 40 millimeters.

Description. — This superb Amblypygus, which is one of the largest of American ecliinoids,
is the first representative of this rather rare genus to be reported from the United States. The
type specimen was collected by G. P. Merrill, of the United States National Museum, and
the species is therefore named in his honor. The test of the present species is large to very
large, ranging from about 70 milUmeters to ai)out 115 millimeters in diameter. It is sub-
hemispherical to depressed subcorneal in form, the upper surface decUning immediately and
equally on all sides from the central or subcentral apex; circular or subcircular in marginal
outline. The margin is rounded and inflated; the under surface concave centrally.

The ambulacral areas are broad, widest about midway between apex and ambitus, thence
narrowing to the apex and peristome; they are slightly tumid, thus forming five tumid ridges
from apex to peristome. The dorsal portions of the areas are subpetaloid, the petals being
long, about reaching the ambitus, wide open at their extremities. The poriferous zones are
wide, slightly depressed; both outer and inner rows of pores round, pairs of pores conjugated by
long, narrow grooves.

The interambulacral areas are broad. The surface of the whole test, including the inter-
poriferous areas, is covered with numerous small perforate tubercles, with sunken scrobicules.

The apical system is large, central or subcentral. Most of the area of the system is occu-
pied by the large, slightly tumid, granulated madreporite, which appears to be the enlarged
right anterior basal plate. There are four large genital pores, the two anterior being nearer
together than the posterior pair. The i-adial plates and their perforations can not be discerned
on the specimen.

The peristome is very large, irregularly subpyriform, slightly excentric anteriorly. It is
placed in an oblique position, its longest diameter being about 30° to the transverse axis of the
test.

The periproct is very large, larger than the peristome, subelliptical to subpyriform, situated
about halfway between the peristome and posterior margin, though slightly nearer the peri-
stome; its longer diameter extending longitudinally.

Related forms. — AmUyfygus inerrilli is not closely related to any other echinoid from the
United States. Of foreign forms it resembles both A. americanus ]\Iichelin from the Tertiary of
Jamaica ' and A. alius Duncan and Sladen f i-om the Tertiary of India, being intermediate between
them in relative height. The proportion of the mean diameter to the height in A. merrilli is
1:55, whereas in the Jamaican form, according to Duncan and Sladen, it is 1:409 and in the

1 The only good description of A. americanus Michelin is given l>y Duncan and Sladen in The Tertiary Echinoidca of Kachh and Kattywar,
p. 13, which contains additions to Desor's descrij, Jon liased on a specimen in the British Museum. So far as the \\Titer has been able to ascertain
the form has never been figured.

166 MESOZOIC AND CEXOZOIC ECHINODEEilATA OF THE UNITED STATES.

Indian 1:0.62 or 1:0.63. A. merrUli also differs from ^1. a/<«,s in having its peristome more
angular and less oblique and its periproct more pointed posteriorly and farther from the pos-
terior margin. It is nearer A. americanus but is less depressed and has a more subcorneal upper
surface.

Localities. — Kendrick lime quarries near Ocala, Marion County (type), and Clarke, Alachua
County, Fla.

Geologic Tionzon. — Ocala limestone of Yicksburg group, lower OUgocene.

Collection.— \J . S. National Museum (164934, A; 137S70, B).

Genus OLIGOPYGUS De Loriol (amended).

Oligopygus was founded in 1SS7 by De Loriol on the species OJujopygus uietTierbiji from
the Tertiary of Florida and so far as known has few representatives outside of the United
States. De Loriol possessed but a few specimens and, although his diagnosis is well drawn,
the large number of specimens studied by the -WTiter (over sixty) has shown the necessity of
amending the description of the genus in a number of important particulars, of which the most
important is noting the fact that it includes forms in wliicli the periproct is inframarginal.

Test moderately large, with tliick walls, especially at the ends; usually oval, may be
subcircular, or subpent agonal; sides tumid; under surface sUghtly concave, with a deep, trans-
verse depression around the peristome; upper surface convex, more or less depressed; apex
central or anteriorly excentric.

Apical system central or subcentral, compact, small, with four perforated basal plates; the
five radial plates small, with minute pores; madreporite central, tumid, extending to or between
the posterior radial plates.

Ambulacral areas broadest at the ambitus, the anterior paired areas curving posteriorly
near the peristome; faintly tumid on the upper surface; dorsal portions varying from sub-
petaloid to petaloid, the petals differing slightly in length and more or less open, otherwise
similar. Poriferous zones broad; pores equal or nearly so, pairs united by a long groove.
Beyond the petaloid portions to and beyond the ambitus each plate is perforated at its outer
end by two or three pairs of very small pores.

Peristome central, or subcentral, peiitagoiial, slightly elongate transversely, at the bottom
of the transverse depression in the under surface; floscelle and jaws wanting. Periproct very
small, circular, openmg on the inferior face between the peristome and the postei'ior margin;
may be inframarginal. Tubercles small, equal, more or less scattered, surrounded by deep
scrobicules and imperforate.

Oligopygus wethekbyi De Loriol.

Plate LXXVIII, figures 2a-d, 3a-b.

Oligopygus welherbyi De Loriol, 1S87, Ret-ueil zool. Suisse, vol. 4, No. 3, pp. 396-398, PI. XVII. figs. 7-8.

Oligopygus wetherbyi Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 70.5.

Oligopygus wetherbyi Stefauini, 1911, Bevista itaUana di paleontologia, vol. 17, pt. 2, p. 11.

Determinative cMracters. — Test with tliick walls, oval, sides tumid, upper surface depressed
and rather flat on top; under surface mth a very deep, long, flarhig, transvei-se depression around
the peristome. Ambulacral areas wide at the ambitus; doi-sal portions petaloid, constric-
tions at the ends of the petals somewhat pronounced. Apex and apical system central or
subcentral. Peristome pentagonal, opening at the bottom of the depression in the under sur-
face. Periproct very small, circular, situated about midway between the peristome and pos-
terior margin.

Dimensions. — Specimen A: Length 34 millimeters; width 29 millimeters; height 16 milli-
meters.

Description. — The ^^Titer has not had the opportunity of seeing the type of this species,
but De Loriol's full and clear description and excellent drawmgs have permitted its ready iden-
tification among the material studied. The test is unusually tliick, especially at the ends;

OLIGOCENE ECHIKODEKMATA. 167

quite regularly oval in marginal outline, though sometimes narrowing anteriorly; margin rounded
and inflated, the anterior end somewhat more so than the posterior, giving that end a bulging
appearance forward. The upper surface is uniformly convex; but depressed and rather flat on
top; under surface slightly concave near the middle and Avith a very deep, transverse depression
around the peristome. The apex is subcentral, or slightly forward of the center.

The ambulacral areas are ^vide at the ambitus from which they narrow to the peristome
and apex, but with somewhat pronounced constrictions at the ends of the petaloid portions;
the anterior paired ambulacra curving posteriorly on approacliing the peristomial depression ;
dorsal portions petaloid, the odd petal being longer than the others, which are equal or nearly
equal in length. The poriferous zones are broad, more than half the \vidth of the interporiferous
area, moderately aj)art at their extremities; the pores equal or nearly so, small, elliptical; pairs
of pores united l)y long, narrow, oblique grooves. Beyond the petaloid portions the small
narrow plates of those portions give place to broad plates, each of which to and beyond the
ambitus has two or three pairs of very small round pores placed obliquely near together at
the extreme outer ends of the plates. The interporiferous areas are shghtly tumid and stand
out in reUef .

The apical system is central or subcentral. The madreporite is large and tumid, central,
pentagonal, the posterior edge being straight and coincidmg with those of the posterior radial
plates. There are four genital pores situated at the edge of the madreporite, the posterior pair
being farther apart than the anterior; and there are five small subtriangular radial plates, each
perforated by a very small pore.

The peristome is pentagonal, slightly elongated transversely, opening at the bottom of a very
deep, long, flaring transverse depression in the middle of the under surface. The size and shape
of this depression varies, but its length at the surface is usually about one-half the width, and
its depth about one-half the height of the test. Its anterior and posterior walls slope at
nearly the same angle but in opposite directions toward the peristome forming a broad, deep,
V-shaped conca-\nty.

The periproct is very small and circular, and situated at about midway between the
peristome and the posterior margin.

Numerous small, uniform, imperforate tubercules, surrounded by deep scrobicules, are
scattered irregularly over the entire surface of the test.

Related forms. — Oligopygus wetherbyi is most closely related to 0. floridanus from wliich it
can be distinguished by its more depressed form, more petaloid ambuhxcra, broader poriferous
zones, and its deeper, longer and more open peristomial depression. It also resembles 0. lialder-
mani, but is readily separated by the more anterior position of its periproct.

From most foreign forms 0. wetherhyi can be readily separated by its more profound
depression aroimd the peristome. 0. costulatus (Desor), its nearest ally, accordmg to De Loriol,
has more markedly ridged ambulacra, a more swollen and shghtly conical test, and periproct
nearer the peristome. 0. oimin^serpentis (Guppy), from supposedly Eocene deposits of Trini-
dad, is similar but, as noted by Stefanmi, difl^ers in having a less profound peristomial cavity
and a more tumid test.

Localities. — Near Gainesville, Alachua County (De Loriol) ; 6 imles southwest of Gainesville,
Santa Fe River, Alachua County; and Johnsons Lime Sink, Levy County, Fla.

Geologic liorizon. — VicksbiU'g group, lower Oligocene.

Collection.— V . S. National Museum (137881a, A; 137S81b, B).

Oligopygus haldermaxi (Conrad).
Plate LXXVIII, figures 4a-cl, 5a-d.

Discoidea haldermani Conrad, 1850, Acad. Nat. Sci. Philadelphia Jour., 2d ser., vol. 2, p. 40, PL I, fig. 12.
Discoidea haldermani Coiirad, 1865, Acad. Nat. Sci. Philadelphia Proc, p. 75.
Discoidea haldermani Conrad, 1866, Smithsonian Misc. Coll., vol. 7 (200), p. 22.
Discoidea haldermani Agassiz, 1883, Mus. Comp. Zoology Mem., vol. 10, No. 1, p. 88.

Determinative characters. — Test with tliick walls, marginal outline oval to subpentagonul
and slightly undulating; sides tumid; upper surface usually elevated anteriorly and depressed

168 MESOZOIC AND CENOZOIC ECHIXODEKMATA OF THE UNITED STATES.

posteriorly, sometimes depressed subconical; under surface with a deep and more or less long
and flaring transverse depression around the iDeristome. Ambulacral areas wide at the ambitus,
dorsal portions petaloid, with a shght constriction at the ends of the petals. Apex forward
of the center. Apical system central or subcentral. Peristome pentagonal, opening at the
bottom of the depression in the under surface. Periproct very small, circular, inframarginal.

Dimensions. — Specimen A: Length 38 millimeters; width 3.3 millimeters; height 17 milli-
meters. Specimen B: Length 3S.5 millimeters; width 31 miUimeters; height 17 millimeters.

Description. — It is thought highly probable that we have here the same species which Conrad
described in 1850 under the name of Discoidea Tialdermani, as some of the specimens studied
came from near the same place that Conrad's form did and correspond fairly well with his
figures and description. The type can not be located; and as Conrad did not figure the under
surface of his form there is some doubt regarding the position of the periproct and the presence
of a pronounced peristomial depression. The fact that Conrad assigned liis species to the genus
Discoidea, points to an inframarginal position for the periproct. Should Conrad's type ever be
found, and prove to be different from the present species, then it will be necessary to give a new
name to this OHgopygus.

This species appears to be the most abundant and also the most variable of the genus.
The writer has had the opportunity of studying over 35 specimens, including both young
and adult forms, varying in size from three-eighths inch to 1^ inches in length. The test is
unusually thick. The marginal outline varies from regularly oval to subpentagonal, the former
being more usual in the smaller and younger, and the latter in the larger and older forms, and is
slightly undulating, which is chiefly due to broad and shallow creases in the middle of the inter-
ambulacral areas. The margin is rounded and inflated, the anterior end usually more so than
the posterior, giving that end a bulging appearance in a forward direction, though at times the
two ends are nearly eciually inflated. The upper surface is somewhat convex, but more or less
depressed and flat on top, sometimes more elevated anteriorly than posteriorly, sometimes
depressed subconical in form; under surface tumid, but more or less flattened, and with a deep
transverse depression around the peristome. The apex is subcentral or excentric anteriorly.

The ambulacral areas are wide at the ambitus, from which they gradually narrow to the
peristome and apex, with a slight constriction at the ends of the petaloid portions; the anterior
paired ambulacra cui-ving posteriorly on approaching the peristomial depression; dorsal por-
tions varying from subpetaloid to slightly petaloid, the odd petal being slightly longer than the
others, which are equal or nearly equal in length. Poriferous zones rather broad, gradually
diverging toward their extremities, then converging shghtly but still wide apart at the ends;
outer edges slightly depressed, forming ten more or less well defined linear grooves on the upper
surface of the test; the pores equal or nearly so, small, elliptical, and conjugate. There are also
several pairs of very small pores near the outer end of each plate from the ends of the petals
to beyond the ambitus. The interporiferous areas are sUghtly tumid.

The apical system is central, or slightly excentric anteriorly. The madreporite is large,
tumid and subcircular, and extends to and between the posterior radial plates. There are
four genital pores, situated at the edge of the madreporite, the posterior pair being farther apart
than the anterior; and there are five small radial plates, each perforated by a minute pore.

The peristome is pentagonal and opens at the bottom of a rather deep transverse depression in
the middle of the under surface. This depression varies in length from one-third to one-half the
width of the test, and in depth from one-fourth to one-third the height of the test; and is more
or less open and flaring in form.

The periproct is very small, uniform, circular, and inframarginal.

Numerous small, uniform, imperforate tubercles, surrounded by deep scrobicules, are scat-
tered irregularly over the entire surface of the test.

Belated forms. — OHgopygus Tialdermani resembles 0. wetTieriyi and 0. jloridanus but is
readily separated from both by the inframargmal position of its pei'iproct. Of foreign forms,
0. ovum-serpentis (Guppy), from supposedly Eocene deposits of Trinidad, is closely aUied but
has its periproct farther from the margin.

OLIGOCENE ECHINODEEMATA. ' 169

Localities. — Richards Quarry, Ocala, Marion County, and Johnsons Lime Sink, Levy
County, Fla.; Flint River near Bainbridge, Baker County, Ga. Conrad's specimen came from
a well near Bainbridge, Ga.

Geologic liorizon. — Vicksburg group, lower Oligoceiie. The specimens from Ocala are from
the Ocala limestone.

Collections. — U. S. National Museum (112.506, A; 164661, B) ; Wagner Free Institute of
Science.

Oligopygus floeidanus Twitchell, n. sp.

Plate LXXIX, figures la-f.

Determinative cTiaracters. — Test with thick walls, oval, narrowing anteriorly; sides tumid;
upper surface convex, elevated anteriorlj^, slightly depressed posteriorly; under sm'face with a
deep, relatively short and narrow transverse depression around the peristome. Ambulacral
areas wide at the ambitus, from which they gradually narrow to the peristome and apex; dorsal
portions subpetaloid; petals wide open. Apex excentric anteriorly; apical system central or
slightly excentric anteriorly. Peristome pentagonal, opening at the bottom of the depression
in the under surface. Periproct very small, circular, situated about midway between the peri-
stome and posterior margin.

Dimensions. — Length 37 millimeters; width 31 millimeters; height 19 millimeters. The
dimensions of another specimen were, length 48 millimeters; width 42 millimeters; height 26
millimeters.

Description. — This new species of Oligopygus is rather rare, only three specimens being
known to the writer. De Loriol may have possessed a specimen, for some of the characters he
ascribes to 0. wetJierhiji apply more correctly to this species. The test is usually thick, especially
at the ends; oval on marginal outline, though somewhat narrower toward the anterior end;
margin rounded and inflated, the anterior end more so than the posterior, giving that end a
bulging appearance in a forward direction. The upper surface is convex, somewhat elevated
forward of the center, declining gradually toward the posterior end and sloping somewhat
steeply on the sides; under surface tumid but slightly concave transversely near the middle,
with a deep transverse depression around the peristome. The apex is forward of the center.

The ambulacral areas are wide at the ambitus, from which they gradually narrow to the
peristome and apex, there being hardly any constriction at the ends of the petaloid portions,
the anterior paired ambulacra curving posteriorly on approaching the peristomial depression ;
dorsal portions subpetaloid, the odd petal being somewhat longer than the posterior pair, which
are somewhat longer than the anterior pair. The poriferous zones are narrow, nearly straight,
and gradually diverge from their origin at the apex to their extremities, which are wide apart;
pores small, oval, equal and conjugate. There are also several pairs of very small pores near
the outer end of each plate from the ends of the petals to beyond the ambitus The interporif-
erous areas are slightly tumid, standing out in relief in the unweathered specimen, so as to form
five straight radial ridges from apex to ambitus.

The apical system is central or somewhat excentric anteriorly. The madreporite is large
and tumid, central, shield shaped ; the posterior end being pointed and extending between the
posterior radial plates. There are four genital pores, situated at the edge of the madreporite, the
posterior pair being farther apart than the anterior; and there are five small radial plates, each
perforated by a very small pore.

The peristome is pentagonal and opens at the bottom of a deep, transverse depression in
the middle of the under surface. This depression is relatively short and narrow; its length at the
siu'f ace being about one-third tlie width and its depth about one-third the height of the test. Its
anterior wall is nearly vertical or even inclined slightly toward the anterior end but at a much
steeper angle than the posterior wall, thus forming a deep, narrow, anteriorly projecting
concavity.

The periproct is very small and circular; and situated about midway between the peristome
and the posterior margin.

170 MESOZOIC AND CEKOZOIC ECHINODERMATA OF THE UXITED STATES.

Numerous small, uniform, imperforate tubercles, surrounded by deep scrobicules, are
scattered irregularly over the entire surface of the test.

Belated forms. — OUgopngus forldanus is closely related to 0. wetlierhyi, from which it can be
separated by its higher and less flattened upper sm-face, its subpetaloid ambulacra, narrower
poriferous zones, and its shorter, less flaring, anteriorly projecting peristomial depression. It
also resembles Oliqojiijgus JtaJderwani but can at once be distuiguished by the more anterior
position of its periproct.

Of foreign forms, 0. ovum-serpentis (Guppy), from supposedly Eocene deposits of Trinidad,
is closely aUicd; but its periproct is nearer the margin and its peristomial depression less
pronounced.

Iiocality. — Nigger Sink, 2 miles south of Gainesville, Alachua County, Fla.

Geologic horizon. — ^^^icksburg group, lower Oligocene.

Collection.— \] . S. National Museum (164660).

Family CASSIDULID.E.

Genus CASSIDTJLUS Lamarck.

Cassidtjlus (Pygorhtnchtjs) georgiensis Twitchell, n. sp.

Plate LXXIX, figures 2a-(l.

Determinative characters. — Test broadly oval, upper surface convex, moderately elevated,
sides and anterior end rounded; posterior end obliquely truncated, under surface flat, curving
upward slightly posteriorly to meet the posterior truncation in an angular margin; apex sub-
central. Ambulacral areas narrow; petals narrow, nearly closing, the posterior pair having the
nnier poriferous zone of each petal shorter than the outer zone. Apical system excentric ante-
riorly. Peristome excentric anteriorly, pentagonal, transversely elongate, with a floscelle.
Periproct small, subrhomboidal, transverse; located at the top of the rather high posterior trun-
cation, beneath a rounded, somewhat protruding expansion of the test.

Dimensions. — -Length 26 millimeters; width 22.5 millimeters; height 15 millimeters. An-
other specimen, of nearer average size gave, length .35 millimeters; width 32 millimeters; height
20 millimeters.

Description. — -Tliis new Cassidulus, which is rather rare, only throe specimens bemg reported,
has a test which is broadly oval in marginal outline, more obtusely rounded posteriorly than
anteriorly, and obliquely truncated at the posterior end. The upper surface is regularly convex,
moderately elevated, in the form of a low, rounded ridge above the periproct, sides and anterior
end rounded and inflated; under surface flat, curving upward slightly posteriorly to meet the
oblique posterior trimcation in an angular margin, the angle formed being about 75°. The apex
is subcentral.

The ambulacral areas are narrow, dorsal portions petaloid, the petals narrow, partly open
at the ends, the posterior petals longer than the others, which are nearly equal in length. The
poriferous zones are narrow; the inner zone of each of the posterior pak of petals shorter than the
outer zone; outer row of pores slitlike, inner row round; pairs of pores conjugate.

Tlie surface of the test is closely set with numerous small tubercles which increase in size
on the under surface except along a rather wide median band which is free from tubercles and
dotted with numerous small pits. Tlie tubercles are set in scrobicules which are shallow and
irregularly shaped on the upper surface; but become larger, deeper and more regular in form on
the under surface.

The apical system is excenti-ic anteriorly. The only details which can be made out are the
existence of four genital pores, of which the anterior pair are nearer together than the posterior,
and five small perforated radial plates.

Tire peristome is excentric anteriorly, immediately beneath the apical system, pentagonal,
transversely elongate, mth a floscelle of which the phyllodes are rather well defined and the bom-
relets are large and prominent.

OLIGOCENE ECHINODEKMATA. 171

Til P. poriproct is relatively small, about 3 or 4 millimeters in length, subelliptical to sub-
rhomboitlal, transverse; and located relatively high up on the posterior surface, at the top of the
rather high posterior truncation, beneath a rounded, transverse, somewhat protruding expansion
■ of the test.

Related forms. — Ceissklulus georgiensis is readily separated from the other representatives of
the genus from American deposits. In some features it resembles Cassidulus carolinensis, but
it can bo distinguished by its flatter under surface, more obtusely rounded and more angular pos-
terior margin, higher and more ol)liquo posterior truncation, and smaller periproct. Of foreign
forms C. georgiensis resembles some forms of Pygorhi/iichus grignonensis (Defiance) Agassiz from
the Eocene of France, but can be separated by its more oblique posterior truncation, more
angular posterior margin, and higher placed periproct.

Localities. — -Flmt River, near Bainbridge, Baker Countj^, and 2^ miles north of Cuthbert,
Ga. ; Alabama (exact location unknown).

Geologic horizon. — -Vicksburg formation, lower Oligocene. Possibly also Jackson formation,
upper Eocene. The matrix is a yellow mass of foraminiferal remains.

Collections. — -U. S. National Museum (164347); Yale University.

Cassidulus (Pygorhynchus) gouldii (Bouve).

Plate LXXIX, figures 3a-d; Plate LXXX, figures la-f, 2a-d.

Pygorhynchus gouldii Bouvo, 1846, Boston Soc. Nat. History Proc, vol. 2, p. 192.

Pygorhynchus gouldii Bouv<5, 1847, Am. Jour. Sci, 2cl ser., vol. 3, p. 437.

Pygorhynchus gouldii Bouv^, 1847, Annals and Mag. Nat. History, 1st ser., vol. 20, p. 142.

Nucleolites mortoni Conrad, 1850, Acad. Nat. Sci. Philadelphia Jour., 2d ser., vol. 2, p. 40, PI. I, fig. 11.

Pygorhynchus gouldii Bouve, 1851, Boston Soc. Nat. History Proc, vol. 4,*pp. 2-4, two figures in text.

Pygorhynchus gouldii Desor, 1858, Synopsis des echinides fossiles, p. 299.

Ravenelia gouldii McCrady, 1859, Elliott Soc. Nat. History Charleston Proc, vol. 1, pp. 282, 283, no figure.

Pygorhynchus gouldii Dujardin and Hupe, 1862, Histoirenat. zoophytes echinodermes, p. 585.

Pygorhynchus gouldii Conra.d, 1865, Acad. Nat. Sci. Philadelphia Proc, p. 74.

Pygorhynchus gouldii Conriid, 1866, Smithsonian Misc. Coll., vol. 7 (200), p. 22.

Pygorhynchus gouldii Agassiz, 1883, Mus. Comp. Zoology Mem., vol. 10, No. 1, p. 91.

Pygorhynchus gouldii Cotteau, 1888, Paleontologie I'ranfaise, Echinides eocenes, vol. 1, p. 550.

Pygrohynchus gouldii Clark, 1891, Johns Hopkins Univ. Circ, vol. 10, No. 87, p. 77.

Nucleolitts mortoni Boyle, 1893, U. S. Geol. Survey Bull. 102, p. 200.

Pygorhynchus gouldii Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 696.

Determinative characters. — Test irregularlj- subconical, broadly ovate, broadest back of
middle; variable m height; margin flat along the sides, angular at the ends, sharply angular under
periproct; upper surface elevated anteriorly, more or less obliquely flattened and depressed
posteriorly, under surface slightly concave longitudinally. Apex excentric anteriorly. Ambu-
lacral areas broad in petaloidal region, narrow beyond; petals long, rather sharply pointed at
both ends, almost closing. Apical system excentric anteriorly or subcentral. Peristome trans-
vei'sely elongate, excentric anteriorly, more so than the apical system, M'ith floscelle. Periproct
elliptical, transverse, supramarginal, at the top of a shallow groove, and beneath an ovei hanging
expansion of the test.

Dimensions. — Specimen A (type): Length .52 millimeters; width 49 millimeters; height 25
millimeters. Specimen B: Length 3.5 millimeters; width 33 millimeters; height IS millimeters.
Specimen C (unusually high): Length 38 millimeters; width 36 millimeters; height 24 milli-
meters.

Description. — -The species was reported and an excellent description given as early as 1S46
by T. T. Bouve of Boston, whose type specimen the writer has had the privilege of studying.
The form, which though one of the best known in the literature was formerly considered rather
rare, has been shown by recent collections made by the members of the United States Geological
Survey and others to be one of the most abundant of American Cenozoic echinoids. It is
especially abundant in Florida, where it has been found at many localities. The species is very
variable, its extreme specimens differing so much in a number of details that they might be

172 MESOZOIC A]S^D CEK'OZOIC ECHIXODEKMATA OF THE UNITED STATES.

regarded as different species were it not for the intermediate forms found in the large amount
of available material. Many of the specimens are only well-preserved casts.

The test is irregularly subconical in form; the marginal outline broadly ovate, broadest
back of the middle ; margm thick and vertically flattened along the anteriorly converging side
portions, more or less angular at the ends, sharply angular beneath the pcriproct. The upper
sm-face varies from rather low and depressed to moderately high. It is irregularly subconical ;
the apex being more or less excentric anteriorly, the side and anterior surfaces sloping nearly
equally and somewhat steeply though with a more or less rounded contour, and the posterior
surface sloping less steeply and being more or less flattened, except for a slight tumidity above
the periproct. The under sm-face is concave along the longitudinal median area. The apex is
excentric anteriorly, sometimes coincident with, sometimes anterior to the apical system.

The ambulacral areas are narrow at the ambitus, dorsal portions petaloid; petals rather
wide, long, the posterior pan- slightly longer than the anterior pair which are slightly longer than
the odd petal, rather sharply pointed at both ends, almost closing at their extremities. The
poriferous zones are rather wide, slightly depressed; pores subequal, outer row oval, imier row
round; pairs of pores conjugate; interporiferous areas slightly tumid.

The surface of the test is closely set with small scrobiculate tubercles which mcrease in size
on the under surface except along a rather narrow pitted median area.

The apical system is excentric anteriorly in most specimens, but is subcentral m some. In
most it is coincident -with the apex but in some it is slightly back of it. Because of the poor
character of the specimens, the details can rarely be made out. There are four perforated basal
plates, the anterior genital pores being nearer together than the posterior, and five small perfo-
rated radial plates.

The peristome is pentagonal, somewhat elongate transversely, excentric anteriorly, more so
than the apical system, bemg about three-eighths the length of the test from the anterior margin;
and apparently more fixed in its relative position than the apical system. It is surrounded bj^ a
well-defined floscelle with rather prominent bourrelets. On the casts the phyllodes form prom-
inent radial ridges around the peristome.

The periproct is moderately large, elliptical, transverse, supramarginal, rather low and near
the posterior end, beneath a low, romided, transverse expansion of the test. Beneath the peri-
proct there is a depression which renders the margin at this point thiimer or more sharply angular
than it is elsewhere.

Related forms. — Among American forms Cassidulus gouldii is most nearly related to C. ala-
hamensis but can readily be distinguished by its smaller size, less subquadrate form, and more
steeply sloping sides. It does not appear to very closely resemble any foreign forms.

Localities. — -Baker County (type); Laurenden Creek; Hawkuisville ; A. E. Belcher's well,
Decatm- County; 32 miles south of Macon, on Georgia & Florida Railroad; EUaville; 2i miles
north of Cuthbert, Ga. Two miles south of Gainesville; 6 miles southwest of Lake City; Santa
Fe River, Alachua County, Pembertons Ferry, Withlacoochee River 4 and 5 miles west of Live
Oak; deep wells at Padlock, 7 miles south of Live Oak; Sulphur Sprmgs Ferry, Suwannee
County, Fla.

Geologic horizon.— Vicksburg group, lower Oligocene, possibly Eocene also. Bouve said
his form was from the "Millstone grit" and Conrad said his was from the "Buhrstone"; con-
sequently the species has hitherto been regarded as Eocene; but nearly all of the large nmnber of
specimens studied by the writer came from Oligocene deposits.

Collections.— Boston Society of Natural History (17.56, A); U. S. National Museum (1.37904,
B; 137904a, C); Academy of Natural Sciences of Philadelphia; Wagner Free Institute of
Science.

Cassidulus (Pygorhynchus) alabamensis Twitchell, n. sp.

Plate LXXX, figures 3a-cl.

Determinative characters.— Test large, subquadrate, depressed; upper surface convex,
declining from apex nearly equally on all sides; mider surface concave longitudinally. Apex
subcentral, slightly to the rear of the anteriorly eccentric apical system. Ambulacral areas

OLIGOCENE ECHINODEKMATA. 173

broad in petaloidal portion, narrow beyond; petals long, subcqual in length, almost closing.
Peristome rather large, pentagonal, transversely elongate, exccntric anteriorly, more so than the
apical system, with a floscelle. Periproct rather large, elliptical, transverse, supramarginal, at
the top of a broad shallow groove and beneath an overhanging expansion of the test.

Dimensions. — Length 69 millimeters; width 63 millimeters; height 29 millimeters.

Description. — This large Cassidulus, the largest representative of the genus from American
Cenozoic deposits, is very rare, only a few specimens having been discovered. The test is
moderate to large in size, momidlike in form, depressed, subquadrate in marginal outlme; margin
thick, somewhat flattened on the sides, more angular at the ends, sharply angular beneath the
periproct. The upper surface is convex, and declines gently from the apex nearly equally on
all sides, though the side outlines tend to be straight while the end outlines tend to be curving;
a slight tumidity exists along the medial line above the periproct. The under surface is decidedly
concave along a broad, longitudinal median area. The apex is nearly central, being but slightly
excentric anteriorly.

The ambulacral areas are narrow at the ambitus, dorsal portions petaloid; petals rather
wide, long, of nearly equal length, almost closing at their extremities. The poriferous zones are
rather wide, slightly depressed ; pores subequal, outer row oval, imier row round ; pairs of pores
conjugate; interporiforous areas slightly tumid.

The surface of the test is closely sot with small scrobiculate tubercles which increase in size
on the under surface except along a rather narrow median pitted area.

The apical system is large and slightly excentric anteriorly, somewhat anterior to the apex.
There are four genital pores, the anterior pair being nearer together than the posterior, and there
are five minute pores perforating the radial plates.

The peristome is rather large, pentagonal, transversely elongate, excentric anteriorly, more
so than the apical system, being about three-eighths the length of the test from the anterior
margin. It is surrounded by a large, well-defined floscelle, with prominent bourrelets.

The periproct is rather large, elliptical, transverse, supramarginal, rather high up, at the
top of a broad shallow groove and beneath a rounded overhanging expansion of the test.

Related forms. — Cassidulus alahamensis is closely related to C. gouldii, from which it is readily
separated by its greater size and its relatively low almost regularly convex upper surface. It
does not appear to be closely related to any foreign form.

Localities. — Natural Bridge, St. Stephens, Ala.; A. E. Belcher's well, Decatur County, Ga.

Geologic horizon. — St. Stephens limestone (upper part), lower Oligocene.

Collection. — -Johns Hopkins University (type).

Genus EdnNOLAMPAS Gray.

EcHiNOLAMPAS ALDRicHi Twitchell, n. sp.

Plate LXXXI, figures la-d,2.

Determinative characters. — ^Test large, subcuxular; margin rounded; upper surface depressed
subcorneal, sloping more steeply anteriorly than posteriorly; under surface concave, posterior
end slightly rostrate; apex forward of the center. Ambulacral areas rather narrow, dorsal por-
tions petaloid; petals long, open at the ends, poriferous zones of some petals unequal in length,
interporiferous areas tumid. Apical system excentric anteriorly. Peristome large, excentric
anteriorly, slightly less so than apical system, pentagonal, transversely elongate, surroundeil by a
floscelle with feeble phyllodes and bourrelets. Periproct large, elliptical, transverse, infra-
marginal.

Dimensions. — Specimen A (type, smaller than the average): Length 56 millimeters; width
54 millimeters; height 26 millimeters. Largest specimen: Length SO millimeters; width 75
millimeters; height 37 millimeters.

Description. — Of this fine Echuiolampas the only specimens so far reported belong to T. H.
Alth'ich, of Birmingham, Ala., in whose honor the species is named.* The test is large (ranging

1 The Aldrich collection is now owned by the Johns Hopkins University.
39800°— 15 12

174 MESOZOIC AND CENOZOIC ECHIKODEEMATA OF THE UNITED STATES.

from 2 to 3 inches in diameter) and about half as liigh as broad. The marginal outline is broadly
oval to subcircular; sometimes, especially in the larger and older forms, slightly broader pos-
teriorly than anteriorly and broadly V-shaped at the posterior end; margin tumid and rounded.
The upper surface is dt?pressed subconical, though at times approaching a depressed subhemi-
spherical contour, sloping more steepty anteriorly and on the sides than posteriorly; under sur-
face concave, though slightly tumid around the margin except along the posterior ambulacral
areas where there are broad and very shallow depressions which give the posterior end of the
test a slightly rostrate appearance. The apex is forward of the center, about two-fifths of the
length of the test from the anterior end, coincident with the apical system.

The ambulacral areas are rather narrow, dorsal portions petaloid; petals long, rather narrow,
open at their extremities, the posterior pair slightly longer than the anterior pair which are
slightly longer than the odd petal; interporiferous areas tumid. The poriferous zones are
rather narrow, slightly depressed, the inner zone of each of the posterior petals and the anterior
zone of each of the anterior paired petals being slightly straighter and shorter than its fellow,
the differences being the more pronounced in the anterior pair; outer pores slitlike, inner pores
round, pairs of pores conjugate.

The whole surface of the test is closely set with very small, uniform tubercles in sunken
scrobicules.

The apical system is excentric anteriorlj'. There are four perforated basal plates, the
anterior pair of genital pores being nearer together than the posterior, and five small perforated
radial plates. The madreporite is large, occupying the larger part of the system, and extending
back between the posterior radial plates.

The peristome is rather large, excentric anteriorly, slightly less so than the apical system,
pentagonal, transversely elongate, at the deepest portion of the concave under surface, and
surrounded by a floscelle with feeble, straight phj'llodes and low, broad, tumid bourrelets.

The periproct is rather large, elliptical, the posterior side slightly less convex than the
anterior, transverse, inframarginal, very close to the posterior margin.

Related forms. — EcMnolampas aldrichi is quite unlike EcTiinoJampas appendiculatus, the
onty other representative of the genus found in the Cenozoic deposits of the United States. Of
foreign forms it is very similar to EcMnolampas affinis (Goldfuss) Agassiz, which occurs in the
Eocene of Belgium and France, but it is to be distinguished bj' its more anteriorly excentric
apex and the somewhat unequally excentric positions of its apical system and peristome. It
also resembles EcMnolampas insignis Duncan and Sladen from the Nummulitic series of the
Tertiary of India, from which, however, it differs in being smaller, less elevated, and having its
apex more excenti'ic anteriorly.

Localities. — Gainestown, and Choctaw Bluff, Alabama River, Alabama; Mississippi (exact
locality unknown).

Geologic horizon. — St. Stephens limestone, Alabama; Vicksburg limestone, Mississippi;
lower Oligocene.

Collection. — Johns Hopkins University (T 1099, A).

Suborder STERNATA.

Family SPATANGIDiE.
Genus AGASSIZIA Valentin.

Agassizia coneadi (Bouve).

Plate LXXXI, figures 3a-fl.

Eemiaster conradi Bouvi?, 1851, Boston Soc. Nat. Hist. Proc, vol. 4, p. 3, figures in text.

Bemiaster conradi Desor, 1858, Sjiiopsis cchiiiodermes fossiles, p. 373.

Eemiaster conradi Conrad, 1865, Acad. Nat. Sci. Philadelphia Proc, p. 75.

Eemiaster conradi Conrad, 1866, Check list, Eocene and Oligocene.

Ditremaster conradi Cotteau, 1887, Paleontologie franfaise, Echinides eocenes, vol. 1, p. 427.

Agassizia floridana De Loriol, 1887, Recueil zool. Suisse, vol. 4, pp. 398— iOl, PI. XVII, fig. 9.

Opissaster conradi Stefanini, 1911, Soc.. geol. italiana Boll., vol. 30, p. 700.

Agassizia floridana Stefanini, 1911, Soc. geol. italiana Boll., rol. 30, p. 705.

OLIGOCENE ECHIXODERMATA. 175

Determinative characters. — Test small, ovoid, iippei" surface high. Apical system very
excentric posteriorly. Ambulacra narrow, anterior indistinct in shallow depression and with
short petals in shallow groove. Surface covered with very small tubercles. Peripetalous
fasciole indistinct. Peristome large. Periproct high on posterior truncation.

D'unensions. — Length 18 millimeters; width 16 millimeters; height 14 millimeters.

Description. — This small delicate form is different from any other Tertiary species. The
test is ovoid, much elevated, the high apex giving a subcorneal appearance to the upper surface.
The apex is very excentric posteriorly and the upper surface slopes from it in all du'ections.
The under surface is convex except for the peristomial depression.

The ambulacra are narrow, the anterior hardly distinguishable on a nearly flush surface
which shows a slight depression. The paired ambulacra have short petals in shallow grooves,
the posterolateral pair being not half the length of the anterolateral.

The interambulacra are broad, the upper portions of the paired areas near the apex being
gibbous and terminating in short, narrow ridges. The posterior interambulacruni has a pro-
nounced truncation, which slopes inward so that the periproct is not visible from above but is
from below.

The fascioles are very narrow and only traces of them can be seen here and there.

The peristome is large and bilabial. The periproct is quite large, transverse oval, slightly
overhung by the projecting interambulacrum.

The apical system consists of four genital plates, the perforations of which are near together.

Related forms. — This species is easily distinguished from other species of this genus by its
much elevated upper surface, slightly conical at the apex, and its very excentric apex posteriorly.
The sharp truncation of the posterior surface is very characteristic. These and other characters
distinguish it from A. excentrica, which still lives in the Caribbean Sea and near the coasts of
Florida and also from A. clevei of the iliocene of the island of St. Barthelemy.

Localities. — Georgia (Bouve) ; near Bainbridge (figured specimen) and 3^ miles south of
Sasser on Dawson-Albany public road, Georgia; near Gainesville, Fla.

Geologic horizon. — Lower Oligocene.

Collection. —\J. S. National iluseum (164744) ; Geological Survey of Georgia.

Genus SCHIZASTEB Agassiz.
ScHiZASTER FLOEIDANUS Clark, n. sp.

Plate LXXXII, figures la-c.

Determinative characters. — Test rather large, cordiform, high posterior upper surface, nearly
flat lower surface. Ambulacra in broad, deep grooves, the petals of the paired ambulacra being
very pronounced. Posterior truncation prominent with high perinroct. Peristome near anterior
margin.

Dimensions. ^Length 50 millimeters; width 24.5 millimeters; height .30 millimeters.

Description. — The species is represented only by forms in which the test has been replaced
by silica, obliterating some of the features but admirably preserving others.

The test is of rather large size, cordiform, with a sloping upper surface which extends up
from the depressed anterior margin to the much elevated posterior margin. The lower surface
is nearly flat.

The ambulacra are broad, the anterior ambulacrum being in a broad deep groove which
passes over the anterior margin. The paired ambulacra have broad deep petals, the antero-
lateral pair being about one and one-half times as long as the posterolateral.

The interambulacra are wide and are sUghtly gibbous near the apex. The posterior area
has a sharp ridge reaching to the posterior margin. A pronounced truncation characterizes this
area, the slope being actually inward and the periproct being found high on the surface. The
peristome is large and near the anterior margin.

Locality. — Johnsons Sink, Levy County, Fla.

Geologic horizon. — Vicksburg group, lower Oligocena

Collection. — U. S. National Museum (164655).

176 ' MESOZOIC AND CEKOZOIC ECHINODEEMATA OF THE UNITED STATES.

SCHIZASTER AMERICANA Clark, 11. Sp.
Plate LXXXII, figures 2a-d.

Determinative characters. — Test medium size, subpeiitagonal, as wide as long, upper surface
elevated posteriorly. Ambulacra narrow, the anterior deeply sunken in deep groove; the paired
ambulacra with short petals, the posterior about one-half the length of the anterior. Interam-
bulacra broad, prominent. Peristome near anterior margin, in weU-marked depression. Peri-
proct high on truncated posterior margin, peripetalous and lateral fascioles clearly marked.

Dimensions. — ^Length 39 millimeters; width 39 millimeters; height 25 millimeters.

Description. — The species has a test of medium size, rather taU, subpentagonal, as wide as
lono-, sloping up from the anterior margin to the nearly central apical system, beyond which a
sharp rise continues toward the posterior margin, its highest point being about midway.

The ambulacra are narrow, the anterior one situated in a deep, moderately wide groove that
indents the anterior margin. The paired ambulacra have deep short petals, the anterolateral
being about twice as long as the posterolateral.

The interambulacra are broad and somewhat gibbous on the sides. The posterior inter-
ambulacrum is much elevated and rather narrow. The surface is covered with numerous small
but clearly distinct tubercles with small granules between them. The peripetalous and lateral
fasciole can be readily traced.

The apical system is small and nearly central in position. The peristome is near the anterior
margin m a well-marked depression. The periproct is high on the truncated posterior margin.

Localities. — Yost limekiln near Brandon station, Rankin County (type), and Clarke County,
Miss. ; 5 mUes south of EllaviUe, on EllaviUe-Americus pubhc road, Georgia.

Geologic horizon. — Vicksburg formation, lower Ohgocene.

Collection. — U. S. National Museum (165695) ; Geological Survey of Georgia.

Etjpatagus floridanus Clark, n. sp.
Plate LXXXII, figures 3a-cl; Plate LXXXIII, figures la-c, 2a-<l.

Determinative characters. — Testlarge, elongate, subcordiform, depressed, sloping from anterior
margin to point half way from apical system to posterior truncation. Ambulacra nearly flush,
poriferous zones somewhat sunken, paired ambulacra with long petals. Interambulacra with
large perforate and crenulate tubercles irregularly scattered over surface. Fascioles distinct.
Peristome small. Periproct large.

Dimensions. — Specimen A: Length 65 millimeters; width 56.5 millimeters; height 31.5
miUimeters. Specimen B: Length 67 millimeters; width 56 millimeters; height 30 millimeters.
Specimen C: Length 49 millimeters; width 39.5 milUmetei-s; height 23 mUUmeters.

Description. — A number of specimens of this striking form have been found in the Oligocene
of Florida. The test is large, elongate, subcordiform, and depressed. The upper surface slopes
from the low anterior margin gradually to the high posterior apex which is situated about half-
way from the apical system to the beginning of the posterior truncation. The lower surface is
nearly flat.

The ambulacra are wide nearly flush and the poriferous zones somewhat sunken. The paired
ambulacra have long, closed petals the posterolateral longer than the anterolateral. The pore
openings of the petaloidal portions are small and round, the pore pairs connected by deep furrows.

The interambulacra consist of large plates covered somewhat irregularly with large per-
forate and crenulate tubercles, the greater number occurrmg in more or less horizontal rows along
the upper part of the plates above the ambitus.

The apical system is anterior to the center of the upper surface, is small and nearly flush.

The fascioles are distinct here and there. The peristome is small and semicircular. The
periproct is large, occupying much of the truncated surface.

Related forms. — Tliis species has many points of similarity to E. clevei Cotteau of St. Bar-
thelemy Island, although it dift'ers in some minor particulars. It may prove to be the same
species.

OLIGOCENE ECHINODEKMATA. 177

Locality. — Johnsons Sink (type specimen A), Levy County (type specimens B and C), Fla.
Geologic Ttorizon. — Vicksburg group, lower Oligocene.

Collections. — U. S. National Museum (137881, A); "Wagner Free Institute of Science (B.);
Museum of Comparative Zoology.

Class HOLOTHITETOTDEA.

Order PARACTINOPODA.

Family SYNAPTID.f;.

Genus CHIRODOTA Eschscholtz.

Chirodota sp.

Chirodota sp. Cunningham, 1895, Am. Micr. Jour., vol. 16, pp. 193-196, and figs. 1 and 2.

Description. — -Small holothurian plates are figured by Cunningham and referred to the genus
Chirodota. No material has been accessible for the present investigation.

Locality. — -Near Red Bluff station, Chickasawhay River, Clarke County, Miss.
Geologic horizon. — Vicksburg limestone, lower Oligocene.
Collection. — -K. M. Cunningham, Mobile, Ala.

Genus SYNAPTA Eschscholtz.

Synapta sp.

Synapta sp. Cunningham, 1S95, Am. Micr. Jour., vol. 16, pp. 193-196, and figs. 3-6.

Description.- — Fragments of small plates and a spicule are figured by Cunningham and
referred to the genus Sjoiapta. No material has been accessible for the present investigation.
Locality. — Near Red Bluff station, Cliickasawhay River, Clarke County, Miss.
Geologic horizon. — Vicksburg limestone, lower Oligocene.
Collection. — -K. M. Cunningham, Mobile, Ala.

MIOCENE ECHINODERMATA.

Class STELLEKOIDEA.

Subclass ASTEROIDEA.

Order CRYPTOZONIA.

Family ASTERIID.E.

Genus ASTERIAS liinne.

ASTERIAS EEMONDII Gabb.

Ast-eriasremondiiGahh, 1869, Geol. Survey California, Paleontology, vol. 2, pp. 37, 38, PI. XIII, fig. 69.
Asterias remondi Cooper, ISSS. State ilineralogist California Seventh Ann. Kept., p. 270.
Asterias nmondi Weaver, 1909, Univ. California Dept. Geology Pub., vol. 5, No. 16, p. 261.

Description. — -Since, no material representing this species has been accessible for study the
description of Gabb is given verbatim:

Animal large, robust, five rayed; rays more than twice as long as the diameter of the disk, thick on the margin.
Upper surface covered by short, club-shaped spines, narrow toward the base, and bluntly rounded above; on the sides
these same spines are more closely placed, and on the undersurface they are so close that they are in contact; ambu-
lacroe broad, bearing numerous small, A"ery slender spines.

Localitxj. — Star Fish Point, Martinez, Contra Costa Cotmty, Cal. (Cooper), Sau Pablo Bay,
Cal. (Weaver).

Geologic Jionzon. — ^Sau Pablo formation, upper Miocene.
Collection. — Unknown.

Subclass OPHIUROIDEA.

Order ZYGOPHIUR^.

Family OPHIODERMATID.F.

Genus OPHIODERMA Muller and Trosch.

Ophioderma (?) sp.

Plate LXXXIV, figure 1.

Ophioderma ? sp. Clark, 1904, Maryland Geol. Survey, Miocene, p. 433, PI. CXX, fig. 3.

Description. — ^Fragments of the arms of an Ophiurian occur in the indurated ledge just above
sea level along St. Marys River. It is impossible to determine the relations of the form with
accuracy, but it is probably an Ophioderma. The fragments were found in the interior of the
shells of large gastropods.

Locality. — St. Marys River, Md.

Geologic Jionzon. — St. Marys formation, middle Miocene.

Collection. — Johns Hopkins University (T 1000).

Family AMPHIURID^.

Genus AMPHIURA Fcirbes.
Amphiura sANCTiBCRUCis Ai-nold.
Plate LXXXIV, figures 2 and 3.
Amphiura sanctiecmcis Arnold, 1903, U. S. Nat. Mus. Proc, vol. 34, pp. 403-406, PI. XI, figs. 1, 2.
Description.^X.vi\o\A describes the species as follows:

Disk attaining a diameter of 13 millimeters, delicate, covered with small naked overlapping scales. Arms five,
long, slender, even or tapering very slightly and more or less flattened. Ann spines moderately short and sharp
178

MIOCENE ECHINODEKMATA. 179

pointed, approximately equal in length to the width of the doi-sal median plates. Under arm plates simple, breadth
about IJ length; lower arm plates deeply grooved in the median line.

Disk pentagonal in outline, the arms pas.sing out from the sides rather than from the angles, this being due to the
spreading of the disk upon compression by the containing fine clayey sediments; whole dorsal surface of disk covered
with overlapping scales, which, in the cast serving as the type, are minutely shallowly punctuate corresponding to
numerous microscopic protuberances in the original animal. Radial shields moderately large, of a short, pear-seed
shape, pointed within, outer edge sharply rounded, inner edges nearly straight and separated by five prominently
overlapping scales (the continuation of the upper arm scales, but shorter than the latter) which narrow rapidly toward
the points of the shields. Between the radial shields of adjacent arms are about seven rows of small overlapping
plates, the middle row apparently much larger than the othere. The specimen exhibiting the ventral side is
BO much crushed that its characteristics are unrecognizable. Upper arm plates simple, small, breadth about IJ
length, slightly narrowed within, broader without, straight front, back, and sides. Side plates small, triangular,
with sharp cornered, beveled edges. Under arm plates quite similar to upper, except deeply medially longitudinally
grooved. Spines at least four to a segment; about IJ times length of upper arm plates, rounded, sharp.

Dimensions. — Specimen exhibiting dorsal surface: Diameter of disk 13 millimeters; arms at least 25 millimeters
long and probably several times this amount; width near disk 2 millimeters, upper arm plates 0.7 to 0.8 millimeter
long.

Specimen exhibiting ventral surface: Diameter of disk 6.5 millimeters; arm at least 20 millimeters long and
probably at least twice this length judging by taper.

Notes. — The two specimens upon which this species is founded are beautifully preserved molds, the larger one,
which is taken as the type, showing the dorsal surface, the smaller one the ventral. As would be expected, the surfaces
of the disks are considerably crushed and distorted, but enough characteristics are visible to admit of the above
specific description. The specimens have been compared with the recent alcoholics in the collection of the United
States National Museum, but no forms agreeing even remotely with the fossils were found. Both A. H. Clarke and
the writer are of the opinion that the fossils belong to the genus Amphiura, although, as might be expected in
molds, some of the diagnostic characters are lacking. The species is named in honor of the Santa Cruz quadrangle,
near which the types were obtained.

Locality. — Hills immediately southeast of Scott Valley, 6 miles north-northeast of Santa
Cruz, Santa Cruz County, Cal.

Geologic Tiorizon. Santa. Margarita formation, middle or upper Miocene.
Collection. — Stanford University (107S); U. S. National Museum (165431).

Class ECHINOIDEA.

Subclass REGULAEIA ENDOBRANCHIATA.

Order CIDAROIDEA.

Family CIDARID^.

Genus CIDARIS Leske.

CiDARis THOUAEsii (?) Valencienncs.

Cidaris thouarsii Valenciennes, 1846, Agassiz and Desor, Cat. raisonn^ des echinodermes, Soc. nat. Ann., vol. 6, v. 326.
Cidaris sp. a Arnold, 1908, U. S. Nat. Mus. Proc, vol. 34, pp. 351, 359.
Cidaris sp. a Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 701.

Description. — This species, wliich Arnold has referred to under the name of Cidaris sp. a, is
regarded by H. L. Clark as probably C. thouarsii. He says in a letter quoted by Arnold:

The wax cast [Cidaru sp., a] is a spine of a true Cidaris and very much like many spines of some individuals of the
species of Cidaris conmion on the west coast of Lower California, Mexico, and Central America, C. thouarsii. I do not
think it shows a single feature by which it can be distinguished from thouarsii, it is certainly from the ancestor of that
species.

Locality. — Santa Cruz quadrangle, Cal.

Geologic horizon. — Monterey shale, middle Miocene.

Collection. — ^U. S. National Museum.

180 MESOZOIC AND CEjSTOZOIC ECHIXODEEMATA OF THE UNITED STATES.

Subclass REGUIAKIA ECTOBRANCHIATA.
, Older DIADEM OIDEA.

Siztooider ARBACINA.
Family ARBACIIDjE.

Genus ECHINOCIDABIS Duncan.

EcHiNOCiDAEis sp. McCrady.

Echino-cidaris sp. McCrady, 1S55, in Tuomey and Holmes, Pliocene fossils of South Carolina, PL II, figs. 5, 5a.
Arbacia sp. Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 707.

Description. — ^An illustration of tliis form "restored from several fragments" is given by
McCrady but no description is furnished. Its generic relations are veiy questionable because of
doubt as to the accuracy of the drawing.

Locality. — South Carolina.

Geologic liorizon. — Miocene ( ?).

CoZZec^ion,. ^Unknown.

Genus CCELOPLEUlltrS Agassiz.

CcELOPLEUBUS iMPKOCERXJs (Conrad).
Plate LXXXIV, figures 4a-c.

Echinus improceriis Conrad, 1843, Acad. Nat. Sci. Philadelphia Proc, vol. 3, p. 310.
Psammechinus improccras Stefanini, 1911, Soc. geol. italiana Boll., \ol. 30, p. 705.

Determinative cTmracters. — Test large, circular, depressed, concave below. Ambulacra
narrow, each with two rows of primaiy tubercles extending from peristome over ambitus about
two-thirds of way from latter to apical system, secondary tubercles above; poriferous zones
narrow, slightly flexuous. Interambulacra wide, the two rows of primary tubercles on upper
surface small. Peristome large, with slight brachial incisions.

Dimensions. — Diameter 35 millimeters; height 15 millimeters.

Description. — This species was first described by Conrad in 1843. No illustration accom-
panies the description, but the species is without doubt the form found by the authors in the
Yorktown formation near the James River and figured and described in tliis monograph. It
corresponds in all particulars to the mcomplete description which Conrad gives to it.

The test is large, cuxular and depressed. The slope of the upper surface is very low toward
the apex. The lower surface is concave.

The ambulacra are narrow, each bearing two rows of prunary tubercles which are much
larger at the ambitus than on the lower or upper surface. They cUminish rapidly in size on the
upper surface and about two-tliirds of the way to the apical system become secondaries or
diminish altogether. One or more isolated primaries also occur at tliis point of disappearance
with a secondary between. The poriferous zones are narrow and somewhat sinuous, the pore
pairs uniserial.

The interambulacra are broad with four rows of prhnaiy tubercles at the amibitus similar
to those of the ambulacra. They become smaller, reduced in number, and more or less irregularly
crowded together near the peristome. Above the ambitus the rows of primary tubercles are
soon reduced to two wliich with diminished size continue to the apical system. A large, mUiai-y
median space is found in the upper portion of each interambulacrum.

The apical system is large but much broken in the tj'pe specimen. The peristome is large
with small brancliial incisions. The periproct is large and elongate.

Localities. — James River, near Smithfield (type); J. T. Williams's marl pit, Smith Creek,
half a mile below Suffolk, Va. (figured specimen).

Geologic horizon. — ^Yorktown formation, upper Pliocene.

Collection. — ^U. S. National Museum (166487).

MIOCENE ECHINODEEMATA. 181

CcELOPLEUKUs SLOANi Clark, n. sp.

Plate I.XXXIV, figures 5a-b.

Determinative characters. — Test moderate size, circular, elevated. Ambulacra narrow,
each with two rows of primaiy tubercles which rapidly diminish in size above the aml^itus.
Interambulacra with median space on upper surface without tubercles. Apical system prom-
inent. Peristome small. Periproct large, subpentagonal.

Dimensions. — Diameter 27 millimeters; height 15 milluneters.

Description. — This species has a test of medium size, circular in ambital outline and much
elevated. The apex is liigh and the upper surface slopes regularly and rapidly from the ambitus
to it. The lower surface is concave.

The ambulacra are narrow, the poriferous zones being nearly straight and flush. Each am-
bulacrum has two I'ows of primary tubercles imperforate and noncrenulate, which are very much
larger at the ambitus than above or below. These tubercles are veiy rapidly reduced in size
on the upper surface and entirely disappear or are replaced by small secondaries as the apical
system is approached.

The interambulacra have similar tubercles to those of the ambulacra, the two outer rows
only on each area continuing to the apical system.

The apical system is simple and distinct. The peristome is small and the periproct large
and of subpentagonal outline.

Related forms. — C. sloani is quite distinct from C. itnprocerus, the oidy other Miocene species
known at the present time. It is much higher and has a quite different distribution of the
primaiy tubercles.

Locality. — ^Basticks Landing, Great Peedee River, S. C.

Geologic horizon. — ^Miocene.

Collection.— \J. S. National Museum (166488).

Suborder ECHININA.
Family TRIPLECHINID.E.

Genus PSAMMECHINTJS Agassiz.
PSAMMECHINUS PHILANTHEOPUS (Conrad).

Plate LXXXIV, figures 6a-c.

Echinus philanihropus Conrad, 1843, Acad. Nat. Sci. Philadelphia Proc, vol. 1, p. 310.

Echinus ruffini Forbes, 1845, Geol. See. London Quart. Jour., vol. 1, p. 426, figs. a-d.

Echinus ruffini Forbes, 1845, Geol. Soc. London Proc, vol. 4, p. 560, text figs.

Echinus jjhilanthropu-s Conrad, 1846, Am. Jour. Sci., 2d ser., vol. 1, No. 2, p. 220.

Psammechinus ruffini Desoi, 1S5S, Synopsis fehinides fossiles, p. 121.

Echinus ruffini Emmons, 1858, Agriculture eastern counties: North Carolina Geol. Survey, pp. 306, 307, figs. 239a-d .

Psammechinus philanthropus Jleek, 1864, Check list, Miocene, p. 2.

Psammechinus ruffini Stefaniui, 1911, Soc. geol. italiana Boll., vol. 30, p. 75.

Determinative characters. — Test small, subhemisphcrical, tumid at the ambitus, somewhat
depressed above, nearly flat below. Ambulacra with two main rows of primary tubercles extend-
ing from peristome to apical system, with a thick median row a portion of distance, poriferous
zones narrow; joore pairs in triplets in oblique rows. Interambulacra \vith four regular and two
median somewhat irregular rows of subequal primary tubercles at ambitus, the latter reduced
toward peristome and apical system. Peristome rather wide, branchial incisions distinct.

Description. — This species which was described by Conrad in 1843 from material secured
near Smithiield, Va., was described by Forbes two j'cars later as E. ruffini. The test is small
and subhemispherical, with a nearly circular ambital outlme. It is tumid at the ambitus, some-
what depressed above and nearly flat below, with a slight depression near the peristomial margin.

The ambulacra are rather narrow, the median portion of each area being covered with two
main rows of primary tuberclss, imperforate and mmcrenulate, which extend from the peristome

182 MESOZOIC AND CENOZOIC ECHINODEEMATA OF THE UNITED STATES.

to the apical system. A third row lies between the other two, and in the larger forms there are
additional tubercles that are best developed near the ambitus and do not reach either peristome
or apical system. The poriferous zones are narrow, and the pore pairs are foimd in triplets
arranged obliquely.

The interambulacra are covered with tubercles similar to the ambulacra. Six or more rows
of primary tubercles occur, four being very regular and two reaching all the way from the peri-
stome to the anal system. The remaining two rows and in some cases additional rows or extra
subequal tubercles are chiefly developed at the ambitus. The entire surface of both inter-
ambulacra and ambulacra are thickly studded with so many tubercles of about the same size as
to give it a very uniform appearance.

The apical system is small. The peristome is rather wide with moderately distinct brancliial
incisions.

Localities. — James River and York River (type and figured specimen), Va.

Geologic Jionzon. — Yorktowai formation, upper Miocene.

Collections. — Johns Hopkins University (T 1001); Academy of Natural Sciences of PliUa-
delphia.

PsAMMECHiNUS EXOLETUS ]\IcCrady.

PsammecMnus exoletus McCrady, 1S57, in Tuomey and Holmes, Pliocene fossils of South Carolina, p. 4, PL II, fig. 6.
Psammechinus exoletus Meek, 1864, ('heck list, Pliocene, p. 2. .
PsammecMnus exoletus Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 707.

Description. — The fragment briefly' described and figured by McCrady is the only material
so far as kno-wn that has been found representing this species. The description and figure are
insufficient to separate with certainty this form from other species.

Locality. — Goose Creek, S. C. (Smith.)

Geologic hori.zon. — Duplin marl, upper Miocene.

Collection . — ^Unknown .

Subclass IRREGULARIA.

Order GNATHOSTOMATA.

Suborder CLYPEASTRINA.

Family FIBULARIID^.

Genus SISMONDIA Desor.

SiSMONDiA (?) ARNOLDi T\vitchell, n. sp.

' Plate LXXXV, figures la-b.

Astrodapsis sp. indet. Arnold, 1909, U. S. Geol. Survey Bull. 396, p. 30, PI. XXMII, fig. 5, 5a.
Astrodapsis sp. indet. Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 703.

Descnption and determinative cTmracters. — Tliis little echuioid, one of the smallest occurring
m the Tertiary deposits of the Pacific coast, was first figured but not described by Ralph Arnold,
of the U. S. Geological Survey, in whose honor the species is named. The test is veiy small,
being less than half an inch in diameter. In marginal outline it is suboval, with a slight tend-
ency toward the subpentagonal, the anterior end being slightly angulated, the posterior broader
and rounded. The whole form is much depressed, slightly convex above, slightly concave below;
margin of moderate thickness. Apex central. The ambulacral j^etals are long, reachmg the
margin; .poriferous zones narrow, diverging in straight Imes from apex to margin; pores of both
rows round. The whole test is covered mth small but rather conspicuous tubercles. The apical
system is central, with a conspicuous tumid madreporite. The other details could not be made
out on the specimen. The peristome is relatively large, central, subcircular to subpentagonal.
The ambulacral grooves appear as rather well defined, simple, straight lines for a short distance
out from the peristome, beyond which they become obscure. The peripi'oct is very small, circu-
lar, inframarginal, almost marginal.

Dimensions. — Length 10.5 millimeters; width 9.5 millimeters.

MIOCENE ECHINODEKMATA. 183

Related forms . — S . arnoldi vesembles Sismondia (?) coalinffaensis undScuteUa (?) merriami, '
but differs from both in having petals extending to the margin, with straight, diverging porifer-
ous zones.

Locality. — Four miles southeast of northwest end of Kettleman Hills, Coalinga district,
California.

Geologic horizon. — Etchegoin formation, upper ^Miocene and lower Pliocene ( ?) .

Collection.— V. S. National Museum (16553S).

Sismondia(?) coalingaensis Twtchell, n. sp.
Plate LXXXV, figures 2a-c.

Description and determinative characters. — The test of this species is very small, rarely ex-
ceeding one-half inch in length. In marginal outline it is suboval to subovate, broader posteri-
ori}' than anterioid}'. The whole form much depressed, shghtly tumid centrally; margin rather
thin. Apex sul)central or shghtly excentric posteriorly. Lower surface concave.

The ambulacral petals are subelliptical in outline, extending a little more than halfway to
the margin; the posterior pair shorter than the anterior pair: pores round, pairs of pores con-
jugated. The whole test is covered M"ith small but conspicuous tubercles, scattered irregularly.

The apical system is subcentral or slightly excentric posteriorly, coincident \\\i\\ the apex.
The details could not be made out on the specimen studied.

The peristome and ambulacral grooves could not be made out. The periproct is small,
inframarginal, almost marginal.

Dimensions. — Length 12 milUmeters; width 10 millimeters; height 2 milhmcters.

Related forms. — <?. coalingaensis resembles Sismondia (?) arnoldi and Scutella (?) m,erriami.
From the former it differs in having shorter, subelliptical petals and from the latter in lacking
the tumid petals and in having a more longitudinally oval marginal outhne.

Locality. — Jacahtos Creek, half a mile east of KJreycnhagen's, Coahnga district, Cahfornia.

Geologic horizon. — Etchegoin formation, upper Miocene and lower Pliocene (?).

Collection. — LT. S. National Museum (16.5717).

Family SCUTELLID^.

Gonus SCTJTEIiLA Lamarck.
Sc^TTELLA ANDERsoNi Twitchell, n. sp.
Plate LXXXV, figures 3a-cl.
Scutella sp. A., F. M. Anderson 1905, California Acad. Sci. Proc, 3d ser., Geology, vol. 2, No. 2, p. 193, PI. XIII. fig. 8.

Determinative characters. — Test small; suboval to broadly subovate, broadest posteriorly;
margin thin, more so posteriorly than anteriorly, with rather pronounced notches opposite the
posterior petals; the whole form greatly depressed, the upper surface ridged along the longitu-
dinal median hne, sloping rather steeply away from the ridge to the side edges; apex excentric
anteriorly; under surface slightly concave longitudinally. Apical system decidedly excentric
anteriorly, about coincident with the apex. Posterior ambulacral petals slightly longer than the
anterior paired petals which are slighth' longer than the odd petal. Peristome excentric anteri-
orly. Periproct very small, supramarginal.

Dimensions. — Length 25 miUimeters; M-idth 25 millimeters; height 5 millimeters.

Description. — This interesting species was liriefly described and figured in 1905 by F. M.
Anderson but was not given a specific name. It is here named in honor of Mr. Anderson. The
test is small, ranging from less than a half to slightly more than an inch in diameter. In mar-
ginal outline it is suboval to broadly subovate; broadest posteriorly, usualh' about as long as
wide. The margin is thin, more so posteriorly than anteriorly, with rather pronounced notches
opposite the posterior petals and sometimes with faintly defined notches opposite the anterior
paired petals. The whole form is greatly depressed; the upper surface having a more or less
weU defuied ridge extenduig along the longitudinal median line and involving the otUl petal.

184 MESOZOIC AND CENOZOIC ECHINODERMATA OF THE UNITED STATES.

the inner ends of the other petals, and the inner portion of the posterior interambulacrum; from
the median ridge the surface slopes at first steeply then gi-adually away to the side edges. The
under surface is slightly concave longitudinally. The apex is excentric anteriorly, at the highest
point of the median ridge.

The ambulacral areas are rather naiTow; the dorsal portions petaloid. The petals are
moderate in size, subelliptical, extending more than halfway to the margin, open at the ends, the
odd petal more ^\'idely open than the others. The poriferous zones are relatively A\-ide, though
shghtly less so than the interporiferous areas; pores oval, pairs of pores conjugated.

The interambulacral areas are rather broad with the exception of the odd posterior area,
which is narrow. The surface of the test is covered ^^^th small uniform tubercles.

The apical sj'stem is decidedly excentric anteriorly, about coincident \nth the apex. There
is a large, subcircular madreporite, four large genital pores, of which the anterior pair are some-
what nearer together than the posterior pair, and five small radial plates each perforated by a
minute pore.

The peristome is excentric anteriorly. The character of the ambulacral furrows can not
be made out on the specimens studied.

The periproct is very small, circular and supramarginal, almost marginal.

Related forms. — S. andersoni is readily distinguished from all other American scuteUas
by its longitudinally ridged upper surface, its longitudinally concave lower surface, and its
pronounced marginal notches opposite the posterior paired petals.

Localities. — West of Coahnga (Anderson), and Devils Den district, Kern County (figured
specimen), Cal.

Geologic horizon. — Tejon formation, upper Eocene; Vaqueros sandstone, lower Miocene.

Collections. — U. S. National Museum (165719); Cahfornia Academy of Sciences.

SCUTELLA FAIRBANKSI Pack.

Plate LXXXV, figures 4-6.

IScutella gabhi Merriam, 1S99, California Acad. Sci. Proc, 3d ser., Geology, vol. 1, No. 5, p. 168, PI. XXII, figs. 5, 5a.
Scutdlafairbanksi{UeTTiAm,US.) Arnold, 1907, U. S.Nat.Mus. Proc, vol 32, p. 542, PI. XLII, flg. 3, PI. XLIII, fig.

3. No description.
Scutclla/airbanlcsi Eldridge and Arnold, 1907, U. S. Geol. Survey Bull. 309, pp. 13, 17, 230, 232, PI. XXIX, fig. 3,

PI. XXX, fig. 3. No description.
Scutdla fairbanksi Pack, 1909, Univ. California Dept. Geology Bull., vol. 5, No. 18, pp. 276-277, PI. XXIII, fig. 1.
?Scutdla mciriami Arnold, 1909, U. S. Geol. Survey Bull. 396, PL VI, fig. 4. Figiire only.

'!Scutdla merriami Arnold and R. Anderson, 1910, U. S. Geol. Survey Bull. 398, PI. XXVIII, fig. 4. Figure only.
Echinarachnius fairbanksi Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 703.

Determinative characters. — Test medium in size; subcircular, transversely oval or broadly
subovate, slightly broader than long; margin markedly thin and faintly vmdulating, submarginal
area wide; the whole form greatlj^ depressed, the upper surface rising gradually and very gently
from the margin to the low central or subcentral apex; under surface flat or nearly so. Apical
system central or slightly excentric anteriorly and about coincident with the apex. Ambula-
cral petals relatively short, subequal in size, subsymmetrical as a group; the odd petal differing
from tlie rest in having its inner row of pores diverging gradually to the end, which is wide open,
much more so than in the other petals. Peristome central or subcentral; main ambulacral
furrows deep and probably simple and straight for most of the distance to the margin, then
branchmg. Periproct very small, supramarginal.

Dimensions. — Specimen A (type): Length 53 millimeters; width 49 millimeters (Pack).
Specimen B: Length 3-3 millimeters; width 36 millimeters.

Description. — This new Californian Scutella has a test which is of medium size, ranging
from about 1 to 2^ inches in diameter. In marginal outline it is somewhat variable, being
sometimes subcircular, sometimes transversely oval, sometimes broadly subovate. The margin
is markctUy thin and faintly undulating, submarginal area wide. The whole form is greatly
depressed; the upper surface rising gradually' and very gently from the margin to the low, central
or subcentral apex. The under surface is flat or nearly so.

MIOCEKE ECHINODEEMATA. 185

The ambulacral areas are rather wide at the margin, where they equal or exceed the inter-
ambulacral areas, witlening rapidly from the ends of the lateral and posterior petals, less rapidly
from the odd petal; dorsal portions petaloid. The petals are relatively short, almost symmetrical
as a group, almost equal in size, extending from one-half to almost two-thirds the way to the
margin, all but the odd petal subelhptical in outline, tending to close at the ends; the odd petal
noticeably differs from the rest in form, having its inner rows of pores diverging gradually to the
end, which is wide open, much more so than that of the other petals. The poriferous zones are
relatively -vvide; pores oval; pairs of pores conjugated; interporiferous areas of the anterior
paired and posterior petals rather narrow, not much wider than the poriferous zones, that of the
odd petal considerably wider, especially at the outer end of the petal. Several pairs of pores, in
strongly diverging rows, extend beyond the ends of the petals.

The interambulacral areas are all rather narrow between the petals, broad from about oppo-
site the ends of the petals to the margin. The surface of the test is covered with small uniform
tubercles, which are somewhat larger on the under surface, especially near the peristome.

The apical system is central or sHghtly excentric anteriorly and about coincident with the
apex. The details are obscure on the specimens, but there arc four large genital pores of which
the two anterior are nearer together than the posterior pair.

The peristome is central, or subcentral, shghtly depressed; ambulacral furrows, according to
Pack, are "deep and traceable to the margin," where thej- '"show asUght tendency to branch."
On the specimens studied they are not well shown.

The periproct is very small, supramarginal; sometimes located at a distance from the edge
equal to its own diameter.

Related forms. — S.fairbanksi is most closely related to S. gabhi (Remond) Merriam, Init dif-
fers from it, according to Pack, in " attaining a greater size, in having a slightly undulating mar-
ginal outline, in having deeper and better marked fuiTows on the actinal surface, and in having
the anal pore entirely upon the upper surface." S. fairianJcsi is also allied to Dendraster
intcrliTieatus and D. oregonensis, but may lie easily separated from both by its more central
apical system, shorter and more equal petals, and wider marginal area. It also differs from
D. oregonensis in having the posterior poriferous zones of its paired petals curving.

The specimen figured by Arnold as ScuteUa merriami was probably a young specimen of
S.fairhanlcsi.

Localities. — Near Torrey Canyon wells, southwest of Piru, Ventura County, Cal. (Arnold);
Sespe Canj'on, Ventura County, Cal. (Pack, Arnold).

Geologic Tiorizon. — Vaqueros formation, lower IVIiocene.

Collections.— v. S. National Museum (164963, B, C); University of California (A).

ScrxELLA (?) MERRIAMI (Anderson) .
Plate LXXXV, figures 7a-c, 8a-b.

Astrodapsis merriami F. M. Anderson, 1905, California Acad. Sci. Proc, 3il ser. Geology, vol. 2, No. 2, pp. 193-194, PI.

XIV, figs. 33, 34.
ScuteUa merriami Arnold, 1909, U. S. Geol. Survey Bull. 396, p. 18.
IScutella merriami Arnold, 1909, figure, U. S. Geol. Survey Bull. 396, PL VI, fig. 4.
ScuteUa merriami Arnold and R. Anderson, 1910, U. S. Geol. Sur-\-ey Bull. 398, pp. 85, 86, 87.
^ScuteUa merriami Arnold and R. Anderson, 1910, figure, U. S. Geol. Survey Bull. 398, PI. XXVIII, fig. 4.
Sismondiamerriami Steianiai, 1911, Soc.geol. italianaBolL, vol. 30, p. 702.

Description. — This Uttle echinoid was first described and figured by F. II. Anderson in 1905.
Its button-Uke appearance and its abimdance m certain deposits in the Coalinga district of Cali-
fornia have led to these deposits being designated Button beds. The AVTiter has had about 20
specimens from the Button beds available for stud}', most of which probably belong to this
species; but most of them were in poor condition and as the type could not be secured for com-
parisons the description of F. M. Anderson is here given verbatim:

Disk small, circular, depressed; margin only slightly notched at the ambulacral extremities; apex central, only
slightly elevated, star symmetrical, petals equal but not reaclimg the margin of the disk, and slightly elevated; anal

186 MESOZOIC AXD CEXOZOIC ECHINODEEMATA OF THE ITNIIED STATES.

pore marginal; ambulacral furrows of inferior surface straight and simple. The largest specimens have a diameter of IJ
inches, though the usual size is three-foiu-ths of an inch. The disk is thin and flattened but sliowa a decided tendency
to form elevated stars on the upper stirface.

The ^vl■iter's study of the specimens from the Button ])eds ahead}- referred to suggests a few
comments in connection with this description. The size of the specimens studied ranged from 8
to 15 miUimeters in diameter. The marginal outline was usually circular, Init sometimes longi-
tudinally oval. The marginal notches are often hardly discernible. The petals extend from
hah to two-thirds the way to the margin. In some specimens the petals were practically flush
with the surface and in some were slightly tumid. In some the poriferous zones of all the petals
diverge continuously and are \nde open at the ends, though the odd petal is somewhat more
widely open than the rest; in others those of all but the odd petal are partly closed, as in the
form figured by Anderson. In the form figured by Arnold (which has been examined by the
writer) the poriferous zones of aU but the odd petal diverge for about half their length, then con-
verge to a less degree so that at then-, ends they are only slightly nearer together than
midway, those of the odd petal diverging continuously to their ends, where they are far apart,
the inner hues of pores forming a well-defined V. In view of the variations indicated it
seems probable that among the small echinoids of the Button beds there are several forms,
possibly distinct species, which closely resemble each other in general appearance, while differing
in details. The lines between these forms can only be drawn by one who has access to the tvpe
and to an extensive series of good specimens. However, the ^mter is of the opinion that, in view
of Anderson's significant remark that the test "shows a decided tendency to form elevated stars
on the upper surface, " the small button like forms with shghtly tumid petals are most tj-pical of
the species S. mirriami. Some of the larger specimens assigned to S. mernami — such as the one
figured by Arnold — strongly resemble Scutella fairlanlcsi and, with further collecting and com-
parative study With the types of the forms involved in hand, may prove to be young specimens
of that species. Aside from its smaller size, the only important apparent difference between
Arnold's figured form and S. fairbanlsi is that the periproct is exactly marginal, visible from
above and below; but it may be found that S.fairlanlcsi, which is somewhat variable in regard to
this feature, may varj' enough to include forms with a marginal periproct.

There is some doubt in regard to the generic position of the present species. There seems to
be no good ground for placing it in the genus Astrodapsis, as it lacks the depressed apical system
and deeply impressed interambulacral areas characteristic of that genus. Anderson says that
the ambulacral furrows are straight and simple, which, if true, would suggest placing it in the
genus Sismondia, but on the other hand in the figure of the under surface given by Anderson the
furrows appear to be simple and straight for about two-thirds of the way to the margin and then
bifurcate symmetrically, which fact points toward the genus Scutella. It is not improbable that
both genera may be represented. The ambulacral furrows are not discernible upon the speci-
mens studied by the writer, and the form is therefore, for the present, placed doubtfully in the
genus Scutella.

Localities. — Tar Springs, Ki-eyenhagen's and Temblor, Mount Diablo Range, CaUfornia
(F. W. Anderson) ; Garza Creek gorge in Reef Ridge, C'anoas Canyon, near Hugo Kreyenhagen's
place, and 8^ miles north of Coalinga, all in the Coahnga district, Cahfornia (Arnold) ; Wagon-
wheel Mountain, Devils Den district, Kern County, Cal. (Arnold).

Geologic horizon. — Yacpieros formation, lower Miocene. Occurs in the Button beds, which
are near the middle of the formation.

CoUections.—V. S. National ]\Iuseum (165584, B; 165716, A); Cahfornia Academy of
Sciences; F. M. Anderson.

Scutella xorrisi Pack.

Plate LXXXV, figure 9.

Scutella (?) norrisi Pack, 1909, fniv. California Dept. Geologj' Bull., vol. 5, Xo. 18, pp. 277-278, PL XXIII, fig. 3.
Echinarachnius norrisi Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 703.

Descriptioji. — Since no opportunity has been had of studying any specimen of this species
the description of Pack is given verbatim:

MIOCENE ECHINODEEMATA. 187

Test siibcircular in general outline, with deep, broad, marginal notches in the edges of the ambulacral areas. The
two posterior notches are much deejier tlian are the anterior ones, and truncate the posterior interambulacral space on
either side of the median line, shaping the posterior end of the test into a prominent process. The test when viewed
from above lias a leaf- like appearance. Test much depressed, edges markedly tliin, abactinal surface very slightly
arched, apex central; actinal surface fiat or gently concave. Mouth central, slightly sunken; ambulacral furrows
poorly shown in the specimens examined, but eT.ddently branch but little, if at all. Main ambulacral grooves continue
from the mouth to the margin, entering the marginal notches. Anal pore small, inframarginal. Ambulacral star cen-
tral. Petals extend about three-fourths the distance to the margin and not entirely closed at the ends.

Dimensions. — Longitudinal diameter, 55 millimeters.

As only a single figure of this form is given by Pack/ and as that too is one of the under sur-
face of a weathered specimen, it is hardly possible to discuss the form intelUgently. However,
it mtij be said that the marginal outline, with its five large ambulacral notches alternatmg with
broad, blunt, rounded projections difl'erentiates the form from all other known Californian echi-
noids. From the description and figure the form appears to be a Scutella. The resemblance of
the present species to Astrodapsis whitneyi which Pack remarks upon in connection with his
description of A. antiselU is but a slight one, as the notches of A. whitneyi are not nearly as large.

Localities. — Five miles northwest of the Stone Canyon coal mine, Monterey County, and at
San Juan River near La Panza, San Luis Obispo Countj-, Cal.

Geologic horizon. — Vacjueros formation, lower Miocene.

Collection. — University of Cahfornia.

Scutella aberti Conrad.

Plate LXXXVI, figures la-b; Plate LXXXVII, figures la-d.

Scutella aberti Conrad, 1842, Nat. Inst. Promotion Sci. Proc, 2d Bull., p. 194, no figure.

Scutella alberli Bronn, 1848, Index palseontologicus, vol. 1, p. 1125, vol. 2, p. 196.

Scutella alberti Meek, 1864, Smithsonian Misc. Coll., vol. 7 (183), p. 2.

Scutella alberti Dall, 1892, U. S. Geol. Survey Bull. 84, p. 52.

Scutella aberti Clark, 1904, Maryland Geol. Survey, Miocene, p. 432, PI. CXXIX, figs. 2, 2a, and PI. CXX, figs, la,

lb, 2a, 2b.
Scutella aberti Clark, 1906, Maryland Geol. Sui-vey Kept., vol. 6, p. 258, PL XXII, fig. 17.
Scutella aberti Stefanini, 1911, Soc. geol. itaUana Boll., vol. 30, p. 705.

Determinative characters. — Test large to very large, subcircular to subcjuadrate in marginal
outhne, the whole form much depressed, less so within the large jjetaloidal area where it rises in
the form of a low, broad mound whose flattened summit is excentric anteriorly, margin relatively
thin, with three large, broad notches in the posterior border, between which the test extends in
the form of two large, broad, blunt projections; under surface flat. Ambulacral petals very
large, subspatulate, extendmg more than two-thirds the way to the margin. Apical system
slightly excentric anteriorly but less so than the apex. Peristome small, subpentagonal, ambu-
lacral furrows simple and straight for a short distance from the peristome, then forking, the
branches proceedmg somev/hat smuously and divergingly to the margin. Periproct very small,
subcircular, inframarginal, near the head of the pouited central notch in the posterior border.

Dimensions. — Length 120 millimeters; width 121.5 milhmeters; height 14 millimeters.
The largest specimen examined was 178 millimeters in diameter.

Description. — This species, the largest of American Scutellas, was first reported in 1842 by
Conrad, who described but did not figure it, and who named it after Col. J. J. Abert, of Washing-
ton, D. C. It was first figured by Clark in 1904. The form has been but little known owing to
its limited distribution and to the obscure and out of the way character of the publication in
which Conrad's description was published. Perfect specimens are rare; imperfect ones and
fragments are very abundant in the thin bed in which it occurs and to which it appears to be
restricted. It is not known positively to occur outside of Maryland. Several authors have

1 Since the above description was written Paclc lias publislied additional details regarding 5. norrisi, based on recently discovered material
(Univ. California Dept. Geology Bull., vol. 7, No. 13, pp. 299-300, PI. XV, fig. 1). The new material establishes on firm foundation this new
species, which is unlike all other California scutellid forms.

188 MESOZOIC AND CENOZOIC ECHINODEEMATA OF THE UNITED STATES.

given the name of the form as S. alberfl instead of S. aherti, as it should be. The test is large to
very large in size, ranging from 90 milUmeters to about ISO milhmeters in diameter. In mar-
ginal outline it is subcircular to subquadrate, broader posteriorly than anteriorly, sometimes
very noticeably so. The whole form is much dejiressed although more so around the margin,
within the large area covered by the ambulacral petals it rises in the form of a low broad gently
rounded mound which varies in height from about -i to about | inch, and the summit of which is
flattened and excentric antei'ioi'ly. The margin of the test is relatively thin and undulating;
with a faint, broad, shallow curved notch opposite each of the three anterior petals, two large,
broad, deep, curved notches opposite the posterior pair of petals and one large, broad, deep,
pointed notch in the middle of the posterior edge. Between the large central notch and each
of the large curved notches the test extends in the form of a large, broad, blunt projection; the
two projections and three large notches together forming the whole posterior border of the test.
The under surface is flat. The apex is decidedly excentric anteriorly, at the summit of the
tumid central area.

The ambulacral areas are narrow m the petaloid region, but xory broad in the niargina
region, where they are considerably wider than the interambulacral areas. The dorsal portions
of the ambulacra are petaloid. The petals are very large, subequal in length, the posterior pair
being somewhat longer than the others; subspatulate to Indian-club shape in form; nearly
closed at the ends; extendmg more than two- thirds the way from the center to the margin.
The poriferous zones are wide, wider than the interporiferous areas; the inner row of pores oval,
outer row slithke, pairs of pores conjugated, the groove lines continuing beyond the inner row of
pores to the center of the mterporiferous areas, and the spaces between the grooves very narrow.

The interambulacral ai"eas are broad near the ends of the petals, but become narrower toward
both center and margin. The plates are polygonal and are very large, especially those on the
imder surface. Single plates are often found in a more or less weathered condition showmg on
both their upper and under surfaces numerous grooves and ridges. The whole surface of the test
is covered with small uniform tubercles which are slightly larger on the under surface.

The apical system is relatively large, sHghtly excentric anteriorly, on the flattened surface
posterior to the apex of the test. The madreporite is relatively large, subpentagonal, occupying
the larger part of the area covered by the system and flush with the surface. There are five
small genital pores near the points of the madreporic pentagon and five small triangular radial
plates each perforated by a very small elUptical pore.

The peristome is relatively small, subcircular to subpentagonal, subcentral; the ambulacral
furrows simple and straight for a short distance from the peristome, then forking and diverging
nearly symmetrically, each jjair of branches proceeding in a more or less sinuous course and with-
out branching for over half the way to the margiii, then brandling considerably, the branches
being given ofl^ on the inside of the more important furrow, which continues to diverge more and
more as the margin is approached.

The periproct is both relatively and actually very small, subcircular, inframarginal, a short
distance in from the point of the lai"ge, central notch in the posterior border.

Related fonns. — This species is not closely allied to any other American form. It bears a
superficial resemblance to Periarchus lyelli and P. alius but is readily separated from each of
them by the character of its ambulacral furrows, its inframarginal periproct, and the large
projections and notches in its posterior margin. It is similar in general features to two foreign
forms — S. subrotunda Lamarck,' from the lower Miocene of Bordeaux, France, and S. tarra-
conensis Lambert, from the Burdigalien Miocene of Barcelona, Spain. From each, however, it
can be easily distinguished by its much more pronounced posterior notches and projections and
by its less central apex.

Localities. — Jones Wharf, St. Marys County, (figured specimen), Governor Run, C'alvert
County, and Dover Bridge, Dorchester County, Md.

1 Agassiz's monograph Des scutelles, pp. 7&-78, PI. XVII, figs. 1-9. Desor, in Synopsis des ^ckinides, p. 232, says that *S. siibrotunda Lamarctt
is from the lower Miocene.

MIOCENE ECHINODEEMATA. 189

Geologic horizon. — Choptank formation, middle Miocene.

Collections. — Maryland Geological Survey; Johns Hopkins University; U. S. National
Museum; Academy of Natural .Sciences of Philadelphia.

ScxrTELLA GABBi (Remond) Merriam.
Plate LXXXVIII, figure la-b.

IClypeaslcT gabbi Remond, 3S63, Califciniia Acad. Sci. Proc, Vol. 3, pp. 53, 54, no figure. See description on page 211

of the present work.
IClypeaster gabbi'Meek, 1864, Smitlisoiiian Misc. Coll., vol. 7 (183), p. 2.

IClypeaster gabbi Gabb, 1869, Geol. Survey California, Paleontology, vol. 2, pp. 36, 109, PI. XII, figs. 04, 64a.
ICly-peaster gabbi Cooper, 1888, Cat. California fossils: State Mineralogist Seventh Rept., p. 271.

Scutella gabbi Merriam, 1899, California Acad. Sci. Proc, 3d ser., Geologj', vol. 1, No. 5, p. 168, PL XXII, figs. 5, 5a.
Echinarachnius gabbi Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 703.

Description. — The writer has been unable to obtain any specimens ' of this form. The
description of Merriam will therefore be repeated verbatim :

Test circular, much depressed, margin thin. Average specimens 25 to 30 mm. in diameter, largest specimens
ranging up to 40 and 45 mm. in diameter.

Petals short, not extending more than two-third.s of the distance to the margin; excepting the anterior one, they are
nearly closed at the ends. Anterior petal wide open. Except in the anterior area the ambulacral plates suddenly
enlarge and the area rapidly widens beyond the ends of the petals. In these areas, pairs of small, round pores, diverging
strongly from the ends of the petals, may be present almost to the margins. In the anterior petal the plates do not
enlarge as noticeably toward the margin as in the others, neither do the more persistent j)ore pairs diverge as much.

Apical sliield with four genital pores, there being none at the end of the posterior interambulacral area. Anus
marginal to supramarginal ; in quite a number of specimens it is found to be entirely on the upjier surface. No marked
difference is noticeable between the tubercles of the upper and lower surfaces.

The ambulacral furrows of the actinal surface are not usually well preserved and have been clearly seen on only a
few specimens; they divide dichotomously a little less than half way to the margin.

Related forms. — The form described and figured by Merriam differs in several respects from
that originally described by Remond. Remond's was subelevated, comparatively thick and
with margin rounded. Merriam's is much depressed, and with margin thin. The petals of
Remond's form were elongated and open at their extremities — those of Merriam are short and,
excepting the anterior one, are nearly closed at the ends. In Remond's form the ambulacral
furrows are straight, which led to his placing the form in the genus Cl3^easter; in Merriam's
the furrows divide dichotomously a little less than half way to the margin, which indicates a
Scutella. These differences are too important to be ignored and raise the cjuestion whether
Merriam has described and figured identically the same form as Remond. The location of
Remond's type is imknown and he failed to give any figures ; but his other work is of too high an
order to justify any radical departure from his description, and his form is therefore placed in the
synonomy of the present species with an interrogation mark as indicative of the doubt that
exists in regard to the matter. It is not at all improbable that the investigator who obtains con-
siderable material from Remond's locality, San Pablo Bay, south of Mare Island, Cal., may dis-
cover a form more nearly corresponding to Remond's description than the one here described.

Merriam's Scutella gahhi is most closely related to S. fairhanlsi, which, however, differs,
according to Pack, in ' ' attaining a greater size, in having a slightly imdiilating marginal outline,
in having deeper and better marked furrows on the actinal surface, and in having the anal pore
entirely upon the upper surface."

Localities. — San Pablo Bay (Remond, Gabb, Merriam, Weaver) ; Walnut Creek (Gabb,
Weaver) ; and Martinez (Gabb) , Cal.

Geologic horizon. — San Pablo formation, upper Miocene. Merriam states that it occurs in
the lowest beds of the San Pablo formation.

Collection. — University of California (19425).

1

1 Since this description was written the specimen figured was lent to the writer by Merriam. A study of thL; specimen strengthens the writer's
doubt as to its being the same form as that described by Remond. It has also made him inclined to regard Merriam's S. gabbi as very probably
the same as S.fairbanksi Pack.

39S00°— 15— 13

190 MESOZOIC AND CENOZOIC ECHINODEKMATA OF THE UNITED STATES.

Genus DENDRASTEB Agassiz emend.

Deudraster L. Agassiz, 1847, Cat. raisonn^ ^chinodermes; Soc. Nat. Ann., vol. 7, p. 135.

Echinarachnius. A. Agassiz, 1872 (subgenus) pars, Revision of the Ecliini, Mus. Comp. Zoology IIlus. Gat. 7, pp. 107, 524,
Echinarachnius Duncan, 1801 (subgenus) pars. Revision genera and great groups Echinoidea, p. 158.
Echinarachnius Grabau and Shimer, 1910, North American index fossils, p. 592.

The genus Dendraster as used here is that of Agassiz with a slight amendment enlarging it.
It is here regarded as including the Scutella-like forms having a decidedly posteriorly excentric
apical system, very unequal petals, ambulacra! furrows bifurcating near the peristome, and the
periproct inframarginal, marginal, or supramarginal. The species D. excentricus is the type of
the genus.

Some confusion exists in regard to the forms included in the present genus by reason of the
use of the generic term Echmarachnius by some authors as a subgenus of ScuteUa for the forms
having an excentric apical system. Duncan is partly responsible for this, having proposed it
in his revision of the Echinoidea. In Eastman's translation of Zittel's Paleontology the sug-
gestion of Duncan was carried out, and in Grabau and Shimer 's "Index fossils of North
America" more positive action was taken by divorcing Echinarachnius from Scutella and still
ascribmg it, and basing it essentially upon, the excentric apical system.

The genus Echinarachnius was established by Leske in 1778, what is evidently his type
species being Echimis flacenta Linne. Neither this species nor any of the aUied forms he
incidentally mentioned had an excentric apical system. The species 'placenta is now recognized
(though with doubtful propriety) as the type of the genus Arachnoides Klein. (See p. 124.)
Gray, in 1825, redrew and enlarged Echinarachnius Leske, retaining placenta as the type species
and adding ScuteUa parma Lamarck and ScuteUa lenticularis Lamarck, neither of which has an
excentric apical system. A. Agassiz, in 1872, reduced Echinarachnius to the rank of a sub-
genus under Scutella; distmguishing it chiefly by having "interior pillars more or less coiicentric
with the edge," and inclucUng both forms with central apical system, E. parma, and excentric
apical system, E. excentricus. In view of these facts it is difficult to see any grounds for the
use of the name Ecliinarachnius for forms with an excentric apical system.

As a result of the discovery in California deposits of many specimens, including several
new species, having an excentric apical system, the writer has been led to differ with A. Agassiz
and regards the excentricity of the apical system as a fundamental and satisfactory basis of
separation and thei'efore regards the genus Dendraster L. Agassiz as well founded. Stefanani^
appears to have come to the same conclusion.

Dendraster perrini (Weaver).
Plate LXXXVIII, figures 2, 3a-c.

Scutella perrini Weaver, 1908, California ITniv. Dept. Geology Bull., vol. 5, No. 17, p. 273, PI. XII, fig. 2.
Astrodapsis perrini Rathbun, 1908, U. S. Nat. Mus. Proc, vol. 35, -p. 342. Listed on authority of R. Arnold and

erroneously ascribed to Merriam.
Scutella perrini Arnold, 1909, U. S. Geol. Survey Geol. Atlas, Santa Cruz folio (No. 163), p. 6.
Scutella perrini Arnold, 1909, U. S. Geol. Survey Bull. 396, pp. 30, 34, 38, 162, PI. XXVIII, flgs. 1, 2.
Echinodiscus (?) perrini Lambert, 1909, Rev. crit. pal6ozoologie, vol. 13, p. 122.
Scutella perrini Arnold and Anderson, 1910, U. S. Geol. Survey Bull. 398, p. 338, PI. L, figs. 1, 2.
Merriamaster perrini Lambert, 1911, Rev. crit. paleozoologie, vol. 15, p. 64.
Merriamaster perrini Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 704.

Determinative characters. — Test medium in size; usually circular rarely longitudinally oval
m marginal outHne, broadest centrally; upper surface greatly depressed, slightly convex, rising
gradually from the unusually tliick margin to the low ajiex which is slightly excentric anteriorl3';
under surface concave. Tubercles conspicuous, nearly equally so over the whole test; not
close together. Apical system excentric posteriorly, fi'om about one-sixth to about one-fifth
the radius from the center. Ambulacral petals large, wide, broadly subelUptical, all of them
extending nearly to the margin, wide open at the ends; interporiferous areas very wide, some-
times faintly tumid, the posterior paired petals shorter than the others, though less so than in

1 Stetanani, G., Soc. geol. italiana Boll., vol. 33, p. 704.

MIOCENE ECHINODEKMATA. 191

allied forms and less divergent than the anterior pair. Peristome small, slightly excentrio
posteriorly; ambnlacral furrows straight and simple for a short distance from the peristome,
then forking, the branches diverging and extending nearly to the margin. Periproct very
small, circular, inframarginal, nearly marginal.

Dimensions. — Largest specimen studied: Length 58 milUmeters; width 58 milhmeters:
height 10 milhmeters. Specimen A: Length 46 millimeters; width 43 milhmeters; height
9 milhmeters. Specimen B : Length 45 milhmeters ; width 4.3 milhmeters ; height 9 milhmeters.

Description. — The test of this recently described Cahfornian species is medium in size,
ranging from about 1^ to nearly 2 J inches in diameter. In marginal outhne it is usually circular,
though sometimes longitudinally oval; broadest opposite the middle. The upper surface is
greatly depressed, slightly convex, rising gradually from the margin to the apex, which is low, and
shghtly excentric anteriorly. The margin is unusually tliick for a scutellid form and the sub-
marginal area beyond the ends of the petals is very narrow. The under surface is concave; the
concavity gradually increasing from the margm to the peristome, where it is from a fourth to
a third of the height of the test.

The ambulacral areas are wide, widest at the margin where they are %vider than the inter-
ambulacral areas; dorsal portions petaloid. The petals are large, the total area covered by
them being greater relatively than in most related forms, wide, and widening rapidly near the
apical system; broadly subelhptical in outhne; the anterior pair longer than the posterior pair
though less so than in alhed forms, the odd petal slightly longer than the anterior pair, all
of them extending nearly to the margin and wide open at the ends; the posterior pair less
divergent than the anterior pair. The poriferous zones are of moderate mdth, pores oval;
pairs of pores conjugated. The interporiferous areas are unusually wide, from three to four
times as wide as the poriferous zones and sometimes faintly tumid on unweathered specimens.

The interambulacral areas are rather narrow and nearly equal in width between the petals,
wide at the margin. The whole surface of the test, including the margin and the interporiferous
areas, is covered with perforate tubercles which are relatively larger and more conspicuous than
in most related forms and which project above the edges of the wide scrobicules in wiiich they
are placed. The tubercles are only shghtly larger on the under than on the upper surface and
they are not very close together.

The apical sj^stem is excentric posteriorly, though less so than in most related forms, being
situated from about one-sixth to about one-fifth the distance from the center to the posterior
margin. There is a large subpentagonal madreporite, four genital pores situated at the points
of the pentagon, the anterior two being nearer together than the posterior two, and five small
radial plates each perforated by a minute jjore.

The peristome is small, circular, shghtly excentric posteriorly just beneath the apical
system; ambulacral furrows straight and simple for a short distance from the peristome, then
forking, the branches diverging and extending almost to the margin.

The periproct is very small, circular, inframarginal, nearly marginal.

Related forms. — D. perrini is closely related to D. arnoldi, but can be separated from it by
its larger petaloidal area, its wider and less tumid interporiferous areas, its broader and less
gradually ■widening petals, and its relatively longer posterior petals.

In its circular form and its thick margin D. perrini presents an interesting resemblance to
Mortonella quinquefaria, but is easily separated by its posteriorly excentric apical system, its
relatively larger petalloidal area and narrower submarginal area, and by the inframarginal
position of its periproct.

Lambert's genus Merriamaster is not recognized, as it is based on the erroneous idea that the
ambulacral furrows are simple as in Laganum.

Locality. — Zapato Creek, one-half mile south of A. Kreyenhagen's place, Conhnga district,
California.

Geologic horizon. — Etchegoin formation (apparently limited to the upper portion), upper
Miocene and lower Phocene (?)•

Collections. — U. S. National Museum (165560, A, B); University of Cahfornia.

192 MESOZOIC AND CENOZOIC ECHISTODEKMATA OF THE UNITED STATES.

Dendeaster arnoldi Twitche!^, n. sp.
Plate LXXXVIII, figures 4a-d.

Astrodapsis? sp. a Arnold, 1909, U. S. Geol. Survey Bull. 396, p. 162, PI. XXVIII, figs. 3, 3a.
Astrodapsis? sp. a Arnold, 1910, U. S. Geol. Survey Bull. 398, p. 338, PI. L, figs. 3, 3a.

^ Determinative characters. — Test small to medium in size; subcircular to broadly oval in
marginal outline, usuall}' longitudinallj' elongate, more rarely transversely elongate, broadest
centrally; upper surface greatly depressed, sligbtly convex, rising gradually from the mod-
erately thick margin to the low, central apex; under surface concave. Tubercles crowded
and conspicuous, notably so witliin the interporifei-ous areas and between the ambulacral
furrows. Apical sj'stem excentric jjosteriorlj-, from about one-fifth to about one-fourth
the radius from the center. Ambulacral petals of medium size, extending from one-half to
two-tliirds the way to the margin, vade open at the ends, moderately wide; interporiferous
areas notabl}- tumid; the posterior paired petals decidedly shorter than the rest and relatively
shorter than in closely related forms. Peristome small, central or subcentral; ambulacral
furrows straight and simjDle for a short distance from the peristome, then forking, the branches
diverging and extending nearly to the margui. Periproct veiy small, circular, ioframarginal,
nearly marginal.

;>> Dimensions. — Type specimen: Lenglh 45 millimeters; mdth 43 millimeters; height 7
millimeters. Small, transverselj- elongate specimen: Length 22.5 millimeters; width 24
millimeters; height 5 milUmeters.

Description. — Tliis species is found in association with D. ferrini and D. coalingaensis
in the Etchegoin formation of California. It is rather an abundant form. A number of specimens
were collected b}- Dr. Ralph Arnold, of the United States Geological Survey, and one was
figured by him. The species is therefore named in liis honor. The ^vl•iter found several specimens
among the material studied wliich showed bifurcating ambulacral furrows, thus proving the form
to be alUed to Scutella, instead of belonging to Astrodapsis, the genus to which Arnold doubtfully
referred the form he figured. The test of tliis species is small to medium in size, ranging from
less than one-half to nearly 2 inches in diameter. In marginal outhne it is subcircular to broadly
oval, usually longitudinally elongate more rarely transversely elongate, broadest opposite the
middle or shghtl}- to the rear of the middle. The ujiper surface is greatly depressed, shghtly
convex, rising gradually' from the margin to the apex, wliich is low and central or subcentral.
The margin is of moderate tliickness, though somewhat variable, sometimes approaching the
tliickness of that of D. perrini. The imder surface is concave, the concavity graduall}' increasing
from the margin to the peristome.

The ambulacral areas are wide, widest at tlie margin, where they are wider than the inter-
ambulacral areas; dorsal portions petaloid. The petals are of medium size, moderately wide
and tending to widen gradually to near their distal ends, extending from one-half to two-thirds
the way to the margin, the anterior pair decidedly longer than the posterior pair, the odd petal
slightly longer than the anterior pair; more subspatulate than subeUiptical in outhne; wide open
at the ends. The poriferous zones are wide, pores oval, pairs of pores conjugated. The inter-
poriferous areas are rather wide, usually from two to three times the width of the poriferous
zones, and notably tumid.

The interambulacral areas are rather narrow between the petals, wide at the margin. The
whole surface of the test is covered with tubercles which are crowded and relatively conspicuous,
projecting above the edges of the rather wide scrobicules and being especially conspicuous A^athin
the interporiferous areas and between the ambulacral furrows.

The apical system is excentric posteriorly, situated from about one-fifth to about one-
fourth the distance from the center to the posterior margin. The madreporite is large and there
are four genital pores, the anterior two being nearer together than the posterior two, and five
small radial plates each perforated by a minute pore.

The peristome is small, subcircular, central, or subcentral; ambulacral furrows straight and
simple for a short distance from the jjeristome, then forking, the branches diverging and extend-
ing nearly to the margin.

MIOCENE ECHINODEKMATA. 193

The pei-iproct is very small, circular, inframargiiial, nearly marginal.

Related forms. — D. arnoldi is closely related to D. perrini, but can be separated from it by
its smaller petaloidal area and broader submarginal area, its relatively shorter posterior petals,
its narrower interporiferous areas, and its narrower and less rapidly widening petals. D. eirnoldi
is Uable to be confused with D. coalingaensis at times, but is to be distinguished from the latter
by its thicker margin, less symmetrically elliptical petals wide open at the ends, its more con-
spicuous tubercles, and its less posteriorly excentric apex.

Localities. — Near A. Kreyenhagen's place and south of Lucile Well, 2 miles southwest of
Coalinga in Coahnga district, California.

Geologic horizon. — Etchegoin formation, upper Miocene and lower PHocene (?).

Collection. — U. S. National Museum (16.5707).

Dendr.vster gibbsii (Remond).
Plato LXXXIX, figs, la-b, 2-4; Plate CVIII, B.

Scutella gibbsii Remond, 1863, Califomia Acad. Sci. Proc, vol. 3, pp. 13, 14.

Scutella gibbsii Meek, 18G4, Smithsonian Misc. Col., vol. 7 (183), p. 2.

Scutella gibbsii Gabb, 1SG9, Geol. Survey Califomia, Paleontology, vol. 2, pp. 37, 109, PI. Xlll, figs. 66, 66a.

Scutella gibbsii Cooper, 1888, Cat. California fossils, State Mineralogist Seventh Kept., p. 271.

Echinarachnius gibbsii Merriam, 1899, California Acad. Sci. Proc, 3d ser., Geology, vol. 1, No. 5, p. 169, PL XXII,

fig. 7.
fScutella gibbsii F. Anderson, 190.5, California Acad. Sci. Proc, 3d ser.. Geology, vol. 2, p. 180.
Echinarachnius ashleyi (Merriam, MS), Arnold, 1907, U. S. Geol. Survey. Bull. 322, PI. XXIV, figs. 6, 7.
1 Echinarachnius excentricus Eschscholtz var. Arnold and Anderson, 1907, U. S. Geol. Survey Bull. 322, PI. XXIV,

fig. 8. This is apparently a somewhat variant form of Dendraster gibbsii.
Echinarachnius gibbsii Arnold, 1909 (pars), U. S. Geol. Survey Bull 396, pp. 24, 2.5, 27, 31, 34 (pars); 38, 42 (pars), 132,

144, 146; PI. XIII, figs. 1, 2; PI. XIX, figs. 1, 2; Pi. XX, fig. 7.
non Echinarachnius gibbsii Arnold, 1909, (pars), TJ. S. Geol. Survey Bull. 396, pp. 34 (pars), 42 (pars), 162; PI. XXVIII,

figs. 4, 4a.
Echinarachnius gibbsii Arnold and R. Anderson, 1910 (pars), U. S. Geol. Siirvey Bull. 398, pp. 316, 318; PI. XLI, figs.

1, 2;PI. XLIl, fig. 7.
non Echinarachnius gibbsii Arnold and R. Anderson, 1910 (pars), U. S. Geol. Survey Bull. 398, p. 338; PI. L, figs. 4, 4a,
Dendraster ashleyi Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 706.
Dendraster gibbsii Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 704.

Determinative characters. — Test small to large, suboblong, subquadrate, suboval, or sub-
ovate in marginal outhne, length usually equal to or greater than width, though sometimes
considerably less, usually broadest back of the center; upper surface convex, much depressed,
though less so posteriorly than anteriorly, rising directly from the thin margin to the low,
posteriorly excentric apex; undersurface flat. Apical system very exceiatric posteriorly, from
one-third to more than one-half the radius from the center. Ambulacral petals large, all but
the odd petal approaching rather close to the margin; the posterior pair shorter than the others,
more divergent than the anteriorly curving anterior pair and with widely divergent poriferous
zones. Peristome small, excentric posteriorly, though less so than apical system; ambulacral
furrows fork near the peristome, the branches at first diverging then converging slightly and
proceeding nearly to the margin, giving off only a few branches. Periproct very small, cir-
cular, inframarginal, nearly marginal.

Dimensions. — Specimen A (PI. LXXXIX, figs, la, lb): Length 62 millimeters; width 59
milhmeters; height 13 miUimeters. Specimen B (PI. LXXXIX, fig. 2): Length 87 millimeters;
width 81 miUimeters; height 11 mUlimeters. Specimen C (PI. LXXXIX, fig. 3): Length 81
miUimeters; width 95 miUimeters; height 16 miUimeters. Specimen D (PI. LJOCXIX, fig. 4):
Length 32 miUimeters; width 33 miUimeters; height 7 miUimeters.

Description. — A very good description of this mteresting Calif ornian species was given as
early as 1S63 by Remond. It was first figured by Gabb in 1869. The test is variable in size,
ranging from about 1 to 3J inches in diameter and from one-eighth to one-half inch in height.
In marginal outline it varies considerably, being usuaUy suboblong or subc^uadrate; sometimes

194 MESOZOIC AND CENOZOIC ECHINODERMATA OF THE UNITED STATES.

suboval or subovate; length usually equal to or greater than width, though sometimes con-
siderably less, usually broadest back of the center but in front of the apical system. The upper
surface is somewhat irregularly convex; much depressed though less so posteriorly than ante-
riorly, rising directly from the margin to the low apex which is more or less posteriorly excen-
tric, sloping more steeply posteriorly than anteriorly. The margm is thin and is usually shghtly
notched in the middle of the posterior end. The imder surface is flat or shghtly concave.

The ambulacral areas are wide, widest at the margin, where they are wider than the inter-
ambulacral areas; dorsal portions petaloid. The petals are large, the total area covered by
them being greater relatively than in most related forms; the anterior three longer than the pos-
terior two, the odd petal equal to or shghtly longer than the anterior pair; aU of them except
the odd petal approaching rather close to the margin. The anterior paired petals curve toward
each other, so as to be less divergent than the posterior pair, which are very short, widely
divergent, and have their anterior side the longer and their poriferous zones widely divergent.
The poriferous zones are of moderate width, those of the odd petal usually being narrower than
the rest; pores oval and conjugated. The interporiferous areas are wide, much wider than the
poriferous zones.

The interambulacral areas are very narrow between the petals, wide at the margin. The
surface of the test is covered with small uniform perforate tubercles which are slightly larger
on the under surface.

The apical system is very excentric posteriorly, being situated from one-third to more
than one-half the distance from the center to the posterior margin. The specimens which
are larger and more elongate longitudinally are those with the most excentric apical system.
The madreporite is large, subpentagonal, with four genital pores as the anterior points of the
pentagon, the two anterior nearer together than the two posterior. There are also five very
small I'adial plates each perforated by a minute pore.

The peristome is small, excentric posteriorly, though decidedly less so thaa the apical system.
The ambulacral furrows are simple and straight for a short distance from the peristome,
then fork nearly symmetrically into two strong furrows which diverge for a short distance,
then converge slightly and continue nearly to the margin. In yoimg specimens they diverge
continuously to the margin. There do not appear to be many branches given off, though the
specimens are rarely sufficiently well preserved to show this feature.

The periproct is very small, circular or subcircular, inframarginal, nearly marginal, usually
1 or 2 milhmeters from the inner edge of the shght notch in the posterior border.

Belated forms. — Dendraster giihsii is most closely related to D. exceniricus, but differs
from the latter in having its apex less central, its apical system more excentric, its posterior petals
less widely divergent and with less widely divergent poriferous zones, and its periproct usually
somewhat nearer to the border. Some of the younger specimens of D. gibhsii also resemble
D. coalingaensis, but can be separated from it by its more excentric apical system, its less sym-
metrically ehiptical ambulacral petals, and its more divergent posterior petals. No foreign
forms appear to be closely related to D. gibhsii. The Patagonian species Scutella patagonensis
Desor ' resembles D. gibhsii in occurrence in two quite different forms, one longitudmally
elongate and one transversely elongate, which yet evidently belong to the same species, for
they grade into one another and they occur together.

Localities. — Kern Lake, Buena Vista County (Remond); near Buena Vista Lake, Kem
County (Gabb, Merriam); near Santa Cruz (Ashley); 8 miles north of Coahnga (PL LXXXIX,
figs, la, lb) ; ridge south of Garcas County, Coahnga district (PI. LXXXIX, figs. 2, 3) ; 10 to 12
miles southeast of northwest end of Kettleman Hills, Coahnga district (PI. LXXXIX, fig. 4);
numerous other locahties m Coahnga district (includmg U. S. Geol. Survey locahties Nos. 3849,
4751, 4753, 4755, 4757, 4767, 4768, and 4806); San Jacmto; Capitola (Pack); San Gregorio
(Pack) ; Graciosa Ridge near Orcutt, Santa Maria district, California.

1 See Reports of the Princeton University expeditions to Patagonia, 1S95-1899, vol. 4, pt. 2, pp. 55-60; PI. XI, figs. 4a, b, c, d, e.

MIOCENE ECHINODEEMATA. 195

Geologic horizon. — .Jacalitos and Etchegoin formations, in Coalinga district, upper Miocene
and lower Pliocene (?). Fernando formation in Santa Maria district, upper Miocene or lower
Pliocene.

Collections.— U. S. National Museum (165547, A; 165G11, B, C; 165704, D); University
of California, California Academy of Sciences; Yale University.

Dendraster oregonensis (Clark).

Plate XC, figure 1.

Scuiella (Echinarachnius) oregonensis Clark, 1909, in Dall, U. S. Geol. Survey Prof. Paper 59, p. 140, PI. VII, fig. 2.

Determinative cJiaracters. — Test small; subcircular in marginal outline, broader posteriorly
than anteriorly; the whole form greatly depressed, the upper surface moderately convex,
rising directly from the rather thin margin to the low, anteriorly excentric apex; under surface
flat. Apical system excentric posteriorly, about one-fourth the radius from the center. Ambu-
lacral petals relatively large, approaching rather close to the margin; the two posterior shorter
than the anterior three and with posterior poriferous zones straight or nearly so; open at their
ends. Peristome circular, subcentral. Ambulacral furrows feeble. Periproct small, sub-
circular, supramarginal.

Dimensions. — Length 20 miUimeters; width 20 millimeters; height 3 milUmeters.

Description. — This recently described Pacific coast Dendraster is one of the smallest
representatives of the genus, rarely exceeding an inch in diameter.

In marginal outUne it is subcircular; though broader posteriorly than anteriorly. The
whole form is greatly depressed, the upper surface being evenly rounded and rising directly
from the rather thin margin to the low apex which is situated foi-ward of the center. The
under surface is flat or faintly concave.

The ambulacral areas are rather iiarrow; dorsal jjortions petaloid. The petals are rela-
tively large, approaching rather close to the margin, the two posterior shorter than the anterior
three, of which the odd petal is the longest. The petals are straight or nearly so, the anterior
pair sUghtly more divergent than the posterior pair, and all are ojjen at their ends. The
poriferous zones are broad, jjores oval, pairs of pores conjugated; the posterior zones of both
pairs straight or nearly so. The interporiferous areas are narrow, about as wide or sHghtly
wider than the poriferous zones.

The interambulacral areas are broad, about equally so between the petals. The surface
of the test is closely set with small tubercles, apparently imperforate, set in deei) scrobicules,
the tubercles being slightly larger on the under surface.

The apical system is excentric posteriorly, being situated about one-fourth the distance
from the center to the posterior border. The details could not be made out upon the specimens
studied.

The peristome is small, circular, subcentral; the ambulacral furrows feeble, not showing
very well upon the s^^ecimens; but apparently sim2:)le and straight for a short distance from
the peristome, then forking symmetrically.

The periproct is small, subcircular, supramarginal, about 1 millimeter from the posterior
ends.

Related forms. — D. oregonensis is closely allied to D. interllneaius , the superficial resemblance
being very striking, but differs in having all the petals open at the ends and the posterior and
anterior paired petals less symmetrically subeUiptical in form by reason of the fact that the
posterior poriferous zones are straight or nearly so. D. oregonensis also differs m being relatively
higher in proportion to its width and has a relatively larger periproct. These differences are
not very pronounced, and further collecting may result in the merging of the two species.

Localities. — Near Empire City and Fossil Point, Coos Bay, Oreg.

Geologic horizon. — Empire formation, upper Miocene.

Collection. — U. S. National Museum (15.3975).

196 MESOZOIC AND CE^^OZOIC ECHINODERMATA OF THE UNITED STATES.

Dendeaster coauxgaexsis Twitchell, n. sp
Plate XC, figures 2a-c.

Echinarachnius gibbsii Arnold, 1909, pars, V. S. Geol. Survey Bull. 39G, pp. 34 pars, 42 pars, 162; PL XXVIII, fio^.

4, 4a.
Echinarachnius gibbsii Arnold, 1910, pars, U. S. Geol. Survey Bull. 39S, p. 338, PI. V, figs. 4, 4a.

Determinative charaeters. — Test small; broadly ovate in marginal outline; broadest about
opposite or to the rear of the apical system; upper surface convex, greatly depressed though
less so posteriori}^ than anteriorly, arising directty from the thin margin to the apex which is
excentric posteriorly and about coincident with the apical s3-stem; under surface concave
around the peristome. Apical system excentric posteriorly, about one-fourth the radius from
the center. Ambulacral petals vnde, straight and symmetricallj' subellipical; the posterior
pair shorter than the others, and usually less divergent than the anterior pair. Peristome
small, shghtly excentric posteriorly; ambulacral furrows simple and straight for about one-
third the radius, then forking, each jvair of branches diverging continuously nearly to the margin,
where they spht into several small branches. Periproct small, circular, inframarginal, almost
marginal.

Dimensions. — Length .3.3 milhmeters; width 31 millimeters; height 5 milHmeters. One of
the smallest specimens studied was only 14 millimeters in diameter.

Description.- — This small Dendraster is found in association with D. perrini in the CoaUnga
district, Cahfornia, whence the name given. A number of specimens were collected and one
was figured by Ai-nold. The test is small, ranging from one-half to IJ inches in diameter;
broadly ovate in mai^inal outUne, broadest opposite or sUghtly to the rear of the apical system.
The upper surface is somewhat irregularly convex, greatly depressed, though less so posteriorly
than anteriorly, rising directly from the margin to the low, posteriorly excentric apex. The
mai^n is thin.

The ambulacral areas are ^\^de, widest at the margin, where they exceed the interambu-
lacral areas in width; dorsal portions petaloid. The petals are of medium length, wide, straight,
and symmetrically subelhptical, svide open at the ends; the anterior three longer than the pos-
terior two, the odd petal sHghtly longer than the anterior pair; the posterior pair usually less
divergent, sometimes about as equally divergent as the anterior pair. The poriferous zones
are wide, outer row of pores subeUiptical, inner row subcircular; pairs of pores conjugated. The
interporiferous areas are \\'ide, and sUghtly tumid.

The interambulacral areas are narrow between the inner ends of the petals, wide from the
outer ends of the petals to the margin, each area of about equal width ^^^th the others. The
sm-face of the test is covered with small, uniform, perforate tubercles in deep scrobicules. The
tubercles and scrobicules are sUghtly larger on the under surface and larger than in related
forms.

The apical system is excentric posteriorly, being situated about one-fourth the distance
from the center to the jiosterior border and coincident or very nearly coincident mth the apex.
There is a large pentagonal madreporite, four genital pores of which the anterior pair are nearer
together than the posterior pair; and five small radial plates each perforated by a minute pore.

The peristome is small, subcircular, sUghtly excentric posteriorly, but sUghtly less so than
the apical system. The ambulacral furrows are simple and straight for about one-third the
way to the margin, then fork symmetrically, each pair of branches diverging continuously to
near the margin where thej' spUt into several small branches.

The periproct is small, circular, inframarginal, almost marginal, usuaUy less than a milli-
meter from the posterior edge.

Belated forms. — D. coalingaensis is closely related to D. excentricus, of which it may be an
ancestral form. It differs from the latter, however, in being much smaller and less tumid
centrally, in ha\'ing its apex less central and more nearly coincident with the apical system,
and in having its periproct nearer to the margin. D. coalingaensis also closely resembles D.
gibbsii, especially the young specimens of the latter species, but can be readily separated by its

MIOCENE ECHINODERMATA. 197

much less excentric apical system, its more symmetrically elliptical ambulacral petals, and the
fact that its posterior petals diverge less wddely and also have poriferous zones which are less
widely divergent at their ends and more equal in length. Some specimens of D. arnoldi resemble
D. coalingaensis; but they have tliicker margins, more widely open ambulacral petals, more con-
spicuous tubercles, more tumid interporiferous areas, and a central apex wliich is also not coin-
cident -with the apical system.

Localities. — Near A. Kreyenhagen's place (type), and 1,244-foot liill 4 miles southeast of
northwest end of Kettleman Hills, in CoaUnga district, Cahfornia.

Geologic horizon. — Etchegoin formation (apparently Umited to the upper jjortion of the
formation), upper Miocene and lower Phocene ( ?).

Collection. —V. S. National Museum (165.537).

Dendeaster sp. (Conrad).

Scutella sp. Conrad, 1857, U. S. Pacific R. R. ExpL, vol. 7, PI. X, figs. 3, 4; no description.
Dendraster sp. Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 704.

As Conrad gave no description of this form its exact relationships can not be determined
with certainty. It resembles Dendraster interlineatus in some respects, but not closely enouo-h
to justify its identification with that species.

EcHiNARACHNius sp. Conrad.

Echinarachnius sp. Conrad, 1857, U. S. Pacific R. R. ExpL, vol. 7, PL IX, fig. 5; no description.

This is only a poor figure of an imperfect specimen, unaccompanied by a description. It
is not entitled to recognition and the exact relationships can not be determined from such data.

Genus ASTBODAPSIS Conrad (amended).

Astrodapsis Conrad, 1869, Acad. Nat. Sci. Philadelphia Proc, voL 8, p. 315.
Astrodapsis Conrad, 1857, U. S. Pacific R. R. ExpL, vol. 7, Pal. Rept., p. 196.
Astrodapsis R^mond, 1863, California Acad. Nat. Sci. Proc, vol. 3, p. 52.

The wi-iter does not agree with Duncan ^ in regai'ding Conrad's genus Astrodapsis as a
synonym of Brey:iius's genus Arachnoides. The inframarginal position of the i^eriproct,
the depressed apical system, and the elevated ambulacral areas alternating with depressed
interambulacral areas sufficiently distinguish Astrodapsis from Arachnoides.

Conrad's description of his genus is as follows: "Suboval; depressed; ambulacral areas
elevated or ridged; ambulacra nearty straight, widely open at the extremity; mouth central;
anus submarginal, beneath; radiating grooves as in Laganum." This description was good
in view of the small amoimt of material Conrad had, but it now becomes necessary to redraw
tlie diagnosis of the genus in order to make a few emendations.

Description. — Test depressed, subdiscoidal to broadly subconical in general form, circular
to subelHptical in marginal outhne, margin varying from thin to very thick, with or without
notches opposite the ambulacral petals. Ambulacral areas elevated or ridged; interambula-
cral areas depressed. Ambulacral petals straight, extending nearly to the margin, widely open
at the ends ; poriferous zones nearly parallel, continuously diverging, or diverging, converging,
and again diverging. Apical system more or less depressed. Peristome central or subcentral.
Main ambulacral grooves simple and straight from peristome to margin, continuing as fainter
gi-ooves or processes over the margin and along the middle of the ambulacral ridges nearly to
the apical system; two faint lines or processes are given off from the main grooves from one-
half to two-thirds the way to the margin, which continue over the margin and along the upper
surface between the tops of the ambulacral ridges and the bottoms of the ambulacral depres-
sions nearly to the apical system. Periproct small, inframarginal, almost marginal.

1 Duncan, P. M., Revision of genera and great groups of the Echinoidea; Linn. Soc. Jour. Zoology, vol. 23, p. 165, 1891.

198 MESOZOIC AND CENOZOIC ECHINODEEMATA OF THE UNITED STATES.

AsTRODAPSis ANTisELLi Conrad.

Plate XCIV, figures 3, 4a-b.

Astrodapsis antiselli Conrad, 1856, Acad. Kat. Sci. Philadelphia Proc, vol. 8, p. 315; no figures.

Astrodapsis antiselli Conrad, 1857, U. S. Pacific R. R. ExpL, vol. 7, p. 196, PI. X. figs. 1, 2.

Astrodapsis antiselli Meek. 1864, Smithsonian Misc. Coll., vol. 7 (183). p. 2.

Astrodapsis antiselli Gabb, 1869, California Geol. Survey Rept., Paleontology, vol. 2. p. 110.

Astrodapsis antiselli Cooper, 1888, State Mineralogist California Seventh Rept.. p. 270.

Astrodapsis antiselli Arnold, 1908, U. S. Nat. Mus. Proc, vol. 34, PI. XXXV, fig. 10; no description.

Astrodapsis antiselli Arnold, 1909, U. S. Geol. Survey Geol. Atlas, Santa Cruz folio (No. 163), PI. II, fig. 58.

non Astrodapsis antiselli var. amoldi Pack. 1909, Univ. California Dept. Cxeology Bull., vol. 5, No. 18, pp. 279-281, PI.

XXIV, figs. 1, 2. See Astrodapsis amoldi.
Astrodapsis antiselli Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 702.

Determinative characters. — Test medium in size; regularly oval in marginal outline, longer
than broad, slightly truncated at anterior end, slightly pointed at posterior end, with faint
notches opposite ends of petals; margin roimded and very thick, ahnost as thick as rest of
test. The whole form is considerably depressed, almost equally so from edge to edge, and
therefore subdiscoidal; the upper surface with broad, flattened ambulacral ridges alternating
with narrow inter ambulacral depressions; apex excentric anteriorly, in front of depressed
apical system; lower surface shghtly concave. Ambulacral petals large, broad, tumid, espe-
cially near apical system ; poriferous zones narrow, at first diverging, then converging slightly
from one-fourth to one-third the way to the margin, and again diverging to the wide-open ends
which are nearly at the margin. Peristome central; the main ambulacral grooves straight,
well defined, and rather deep from peristome to margin and continuing as faint lines over
margin to near apex, two faint Unes are given oflf about halfway to margin, which continue
over margin to near apical system. Periproct small, inframarginal, almost marginal.

Dimensions. — Specimen B: Length 57 millimeters ; width 50 miUimeters; height 14
millimeters.

Description. — This species was one of the first of the Tertiary echinoids to be reported
from the Pacific coast of the United States, having been described by Conrad as early as 1S56.
Conrad founded his new genus Astrodapsis upon this species. The test is medium in size,
averaging about 2 inches in length. In mai-ginal outUne it is regularly oval, longer than
broad, usually slightly truncated at the anterior end and somewhat pointed at the posterior
end, with very slight notches opposite the ends of the petals ; margin rounded and very thick,
almost equal in thickness to the rest of the test, somewhat thicker anteriorly than poste-
riorly. The whole form considerably depressed, subdiscoidal; the upper surface with broad
flattened ambulacral ridges alternating with narrow interambulacral depressions; apex excen-
tric anteriorly in front of apical system; under surface shghtly concave.

The ambulacral areas are wide; dorsal portions petaloid. The petals are large, broad,
tumid, widest and most tumid near the apical system, constituting broad ridges, all of them
extending nearly to the margin, wide open at the ends ; interporif erous areas very wide ; porif-
erous zones narrow and of nearly equal breadth throughout their length, at first diverging,
then converging shghtly from one-fourth to one-third the way from the mai^in, and again
diverging; inner row of pores round, outer row broadly shthke, paire of pores conjugated.

The interambulacral areas are narrow, decidedly depressed, forming radial grooves in
the upper surface. The whole surface of the test is covered with small but conspicuous
tubercles, which make the surface feel rough; they are larger and more conspicuous in the
interporif erous areas.

The apical system is shghtly excentric anteriorly, in a star-shaped depression below the
level of the ambulacral ridges. There appear to be only four genital pores wliich are located
at four of the points of the star-shaped depression. No further details could be made out.

The peristome is central, circular to subpentagonal. The main ambulacral gi-ooves are
straight, well defined and rather deep from peristome to margin and continue as faint lines over
the margin and along the middle of the ambulacral ridges to the apical system; two faintly

MIOCENE ECHINODEEMATA. 199

defined processes are given off about halfway from the peristome to the margin, whicli extend
to and over tlie margin and on the upper surface between the top of the ridges and the bottom
of the depressions, becoming indistinct as the apical system is approached.

The periproct is small, subciiTular, inframarginal, almost marginal.

Related forms. — Duncan' regarded Conrad's genus Astrodapsis as a synonym of Breynius's
genus Arachnoides; but, though there are certain points of resemblance, the inframarginal
position of the periproct, the more or less depressed apical system and the elevated, ridgeUke
ambulacral areas alternating with depressed groovelike interambulacral areas on the upper
surface would appear to sufficiently differentiate the genus Astn)dapsis.

The present species is readily separated from the other representatives of the genus,
although some confusion has arisen in the literature and in various collections because of the
obscure location of Conrad's description and figures. A. whitneyi differs in being broadly sub-
conical and in ha%ang a thin margin, more circular outline, more pronounced marginal notches,
higher ambulacral ridges and deeper interambulacral depressions. A. tumidus differs in being
smaller and in having a greater difference between the height of the ambulacral ridges and
interambulacral depressions.

Localities. — Monterey County (type), and 2 miles south of San Lucas, Monterey County
(specimen B), Cal. Conrad also cites Estrella, and Gabb gives near Buena Vista Lake, both in
■Califorma.

Geologic horizon. — Santa Margarita formation, middle or upper Miocene.

Collection.—U. S. National Museum (165466, A; 16.5466a, B). (Both the type and the
specimens collected by Ai'iiold, which include si^ecimens A and B.)

Astrodapsis arnoldi Twitchell, n. sp.

Plate XCV, figure 1.

Astrodapsis whitneyi Arnold, 1909, U. S. Geol. Survey Bull. \o. 396, p. 63, PI. XI, fig. 1.

Astrodapsis antiselli var. arnoldi Pack, 1909, California Univ. Dept. Geology Bull., vol. 5, No. 18, pp. 279-281, PI.

XXIV, figs. 1, 2.
Astrodapsis whitneyi Stefanini, 1911, pars, Soc. geol. italiana Boll., vol. 30, p. 703.

Determinative characters. — Test large, larger than most representatives of the genus; circu-
lar in marginal outline; margin and wide submarginal area notably thin, undulating, with pro-
nounced posterior notches and less pronounced anterior notches. The whole form considerably
depressed, greatly and nearly equally so for half the distance from margin toward the center,
moderately elevated centrally, mth rather broad and somewhat flattened ambulacral ridges
alternating with broad deep interambulacral depressions. The inner ends of the ambulacral
ridges ahnost coalesce around the slightly depressed apical system and form the somewliat
flattened subcentral apex of the test. Lower surface fiat or nearly so. Petals moderately
wide, elongate subelliptical, nearly reaclung the margin where wide open; imier halves elevated
and tumid, outer halves depressed and merging with submarginal area; inner rows of pores
of each petal nearlj- parallel for most of their length. Peristome small, circular, central; main
ambulacral grooves simple, straight and deep to the margin, continuing as faint lines straight
and deep over margin and along middle of ambulacral ridges nearly to apex; two faint processes
are given off about half way to margin wliich continue over margin and on upper surface to near
the apex. Periproct very small, inframarginal, almost marginal.

Dimensions. — Length 76 millimeters; mdth 75 millimeters; height 10 mdlimeters.

Description. — The test of this new Astrodapsis is unusuaUy large. In marginal outline it
is circular; the margin is markedly thin, undulating, \\'ith well-defined notches opposite the
ends of the petals, the posterior notches being slightly larger than the anterior pair, which are
larger than the odd one; the submarginal area for nearly half the way toward the center is also
thin, about as tliin as at the margin. Centrally, within the area circumscribed by tlie thin and
flattened submarginal area, the upper surface is moderately elevated A\dth rather broad and

I Duncan, P. M., Revision of genera and great groups of tlie Echinoidea: Linn. Soc. Jour. Zoology, vol. 23, p. 165, 1891.

200 MESOZOIC AND CESrOZOIC ECHINODEEMATA OF THE UNITED STATES.

somewhat flattened ambiilacral ridges alternating with broad deep interambulacral depressions,
the central elevation being flattened on top around the slightly depressed apical system. The
ambiilacral ridges ahnost coalesce around the apical system. The apex is central or subcentral;
the lower surface flat or but very slightly concave from margm to center.

The ambulacral areas are wide, sUglitly wider at the margin tlian the interambulacral areas,
narromng rapidly to a point about midway between the margin and the center of the test,
where narrower than the interambulacral areas; dorsal portions petaloid. The petals are of
moderate widtli, elongate subelliptical, long, nearly reaching the margin, the iiuier half of
each petal elevated, tumid but somewhat flattened on top, the outer half depressed, gradually
broadening and merging \\dth the flattened submarginal area; the poriferous zones are narrow,
the inner rows of pores nearly straight and parallel for most of their length, wide apart at the
ends, composed of large, round openings; outer rows diverging for about half the distance to
tlie margin then drawing near inner rows, j^ores slitlike; pairs of pores conjugated. The sur-
face of the odd petal is sligiitlj- higher than that of tlie anterior pair, which is shglitly higher
than that of the posterior pair.

The interambulacral areas at the margin are somewhat narrower than the ambulacral
areas, near the apex they are much narrower, almost obliterated; they become depressed rather
rapidly from near the apex to about halfway to the margin, whence they merge with the flat-
tened submarginal area, though keeping slightly more depressed tlian the adjacent ambulacral
areas. The surface of the test is covered uith small but rather conspicuous tubercles, most
conspicuovis in the interporiferous areas.

The apical sj-stem is central, slightlj' depressed below the top of the ambulacral ridges.
The details could not be made out on the specimen studied.

The peristome is small, circular, central. The main ambulacral grooves are simple, straight,
and deep from peristome to margin; they continue as faint Unes over the margin, and along
the middle of tlie ambulacral ridges nearly to the apex; two faintly defined processes are
given off about halfway from peristome to margin which extend to and over the margin and
along the upper surface between the top of the ridges and the bottom of the depressions, near
the suture line between tlie ambulacral and interambulacral plates, disappearing near the
inner ends of the mterambulacral depressions.

The periproct is very small, inframarginal, almost marginal.

Related forms. — A. arnoldi is most closelj' related to A. wJiitneyi. In fact specimens of
each species answer to Remond's description, and in view of the loss of Remond's type it is
not possible to be sure which form was really his. Merriam, evidently influenced by Gabb's
figure, and before Arnold's and Pack's specmiens were chscovered, redescribed and figured as
A. whitneyi the broadly subcorneal form. Arnold's specimen, with the arch of the upper sur-
face commencing some distance in from the edge, was identified by him as an Astrodapsis
whitneyi. Pack describes and figures a specunen which is evidently identical with that of
Arnold just referred to but errs in treatmg it as a variety of A. antiseUi, from which it differs
considerably, in fact, much more than it does from the ^-1. loMtneyi of Gabb and Merriam.
The present form, represented by the specimens of Arnold and of Pack, appears to be entitled
to recognition as a distinct species, and as the writer agrees with Merriam in regarding the
broadly subcorneal form figured by Gabb as most probabty Remond's A. tchitneyi the present
species is named after Ai'nold, who collected the type in the Coalinga cUstrict, California.
A. arnoldi is readily distinguished from A. whitneyi in having the arch of the upper surface
commencing almost halfway in from tJie edge, the margin and ^vide submarginal area being
notably tliin, also in having the outer portions of tlie petals greatly depressed and merging
with the submarginal area, and the ambulacral ridges somewhat broader and more flattened
near the apex. A. antiselU has a much thicker margin and is subdiscoidal in form besides
differing in other ways. ^i. jacalitosensis has its apical region much more depressed, and into
this depression extend the interambulacral depressions; the odd petal is higher and more con-
spicuous and the inner lines of pores of the petals diverge instead of being nearly parallel.

MIOCENE ECHIKODERMATA. " 201

Localities. — Above Big Blue, west of Peerless Oil pi'operty, 9 miles north of Coalinga
(type), and Salinas Valley, Monterey County, Cal.

Geologic horizon. — Santa Margarita formation, middle or upper Miocene.
Collections. — U. S. National Museum (1G5594); Universitj" of California.

AsTRODAPSis wHiTNEYi Remond.
Plate XCV, figures 2a-c.

Astrodapsis whitneyi Esmond, 1863, California Acad. Nat. Sci. Proc, vol. 3, p. .52; no figure.

Aslrodapsis whitneyi Meek, 1S64, Smithsonian Misc. Coll., vol. 7 (183), p. 2.

Astrodapsis whilnetji Gabb, 1869, California Geol. Survey Kept., Paleontology, vol. 2, pp. 37, 110, PL XIII, figs. 67, 67a.

Astrodapsis whitneyi Cooper , 1888, State Mineralogist of California Seventh Rept., p. 271.

Astrodapsis whitneyi Merriam, 1899, California Acad. Sci. Proc, 3d ser.. Geology, vol. 1, No. 5, p. 167, PL XXI, figs.

4, 4a.
non Astrodapsis whitneyi Arnold, 1909, U. S. Geol. Survey Bull. 396, p. 63, PL XI, fig. 1. See Astrodapsis arnoldi.
Astrodapsis whitneyi Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 703.

Determinative characters. ^-Test medium to large; circular in marginal outline, broadly
subconical in general form; margin thin, with small subequal ambulacral notches. Upper sur-
face rising directly from margin to the relatively high, slightly anteriorly excentric apex; with
high, narrow, steep-sided ambulacral ridges alternating with broad, deep interambulacral
depressions. Lower surface concave. Petals relatively narrow, elongate subelliptical, nearly
reaching margin, wide open at ends; inner rows of pores nearly parallel for most of their length.
Apical system slightly excentric anteriorly, faintly depressed below top of petals. Peristome
central; main ambulacral grooves simple, straight, and deep to the margin, continuing as faint
lines on upper surface nearly to apex; two faint processes given off about halfway to margin,
which also continue to and over margin and on upper surface nearly to apex. Periproct small,
subcircular, inframarginal, almost marginal.

Dimensions. — Length 50 millimeters; width 50 millimeters; height 13 millimeters.

Description. — This species was one of the first fossil echinoids to be reported from the
California Tertiary deposits, having been described, but not figured, by Remond in 1863. The
test is medium to large, ranging, according to Merriam, up to 65 millimeters in diameter. In
marginal outline it is circular; margin thin, with small but well-defined, subequal notches oppo-
site all the ambulacral petals. The whole form is depressed, but less so than in related species,
the upper surface being broadly subconical, rising directly from the margin to the relatively
high, slightly anteriorly excentric apex; with high, narrow, steep-sided ambulacral ridges alter-
nating with broad, deep, interambulacral depressions. The under surface is concave, the con-
cavity gradually deepening to the peristome, where it is about one-third of the height of the
test.

The ambulacral areas are wide, wider than the interambulacral areas; dorsal portions
petaloid. The petals are relatively narrow, elongate subelliptical, long, nearly reaching the
margin; the poriferous zones are narrow, about half as wide as the tumid interporiferous areas,
the inner rows of pores elevated, nearly straight, and parallel for most of their length, wide apart
at the ends, composed of large, round openings; outer rows depressed, diverging for about half
the distance to the margin, then drawing near the inner rows, pores slitlike; pairs of pores con-
jugated; several pairs of pores occur beyond and diverge from the ends of the petals.

The interambulacral areas at the margin are somewhat narrower than the ambulacral areas;
near the apex they are much narrower, almost obliterated; they arQ gradually depressed from
near the apex to the margin. The surface of the test is covered with small, inconspicuous
tubercles, varying in size and set in shallow scrobicules; the tubercles are somewhat larger in
the interporiferous areas than elsewhere.

The apical system is slightly excentric anteriorly, faintly depressed below the tops of the
ambulacral petals. The details could not be matle out on the specimen.

The peristome is ceiitral. The main ambulacral grooves are simple, straight, and deep
from peristome to margin; they continue as fainter lines over the margin and along the middle

202 MESOZOIC AlfD CENOZOIC ECHINODEKMATA OF THE UNITED STATES.

of the ambulacral ridges nearly to the apex; two faintly defined processes are given off about
halfway from peristome to margin, which extend to and over the margin and on the upper
surface between the tops of the ridges and bottom of the depressions.

The periproct is very small, subcircular, inframarginal, almost marginal.

Related forms. — As the location of the type is unknown, some doubt exists as to the exact
form which should be called A. whitneyi. The species described under the name of A. arnoldi
(p. 199) agrees with Remond's description of ^-1. ivhitnei/i as well as if not slightly better
than that described and figm-ed by Merriam as A. idntneni, which is here adopted. However,
Gabb figured as A. whitneyi a specimen similar to the present form, and the writer here foUows
Merriam in regarding it as probably similar to Remond's original form. A. whitneyi is most
closely related to A. arnoldi, which differs in having the arch of the upper surface commence
nearly halfway in from the margin to the center, in having a markedly thin margin and submar-
ginal area, and the outer half of each petal greatly depressed and merging with the submarginal
area. A. whitneyi is also closely related to A. jacalitosensis, which differs in much the same way
as A. arnoldi, and further in having a more deeply depressed apical system, the interambulacral
depressions extending to and joining the apical depression, and' the inner line of pores of the
petals diverging. A. whitneyi is also allied to A. tumidus, which is smaller, has a thicker margin,
and a less defuiitely broadly, subconical upper surface.

Localities. — Kirkers Pass, north of Mount Diablo, and south shore of San Pablo Bay, Cal.

Geologic horizon. — San Pablo formation (upper part) , upper Miocene.

Collection. — University of California (19426).

AsTRODAPSis TUMIDUS Reniond.

Plate XCV, figures 3a-b; Plate CVIII, A.

Astrodapsis tumidus R6moiid, 1863, California Acad. Nat. Sci. Proc, vol. 3, pp. 52, 53; no figure.

Astrodapsis tumidus Meek, 1864, Smithsonian Misc. Coll., vol. 7 (183), p. 2.

Astrodapsis tumidus Gabb, 1869, California Geol. Survey Rept., Paleontology, vol. 2, pp. 37, 110, PI. XIII, figs. 68, 68a.

Astrodapsis tumidus Cooper, 1888, State Mineralogist of California Seventh Rept., p. 270.

Astrodapsis tumidus Merriam, 1899, California Acad. Sci. Proc, 3d ser., vol. 1, No. 5, p. 166, PI. XXI, fig. 3.

Astrodapsis tumidus Stefanini, 1911, Soc. geol. itaUana Boll., vol. 30, p. 703.

Determinative characters. — Test small, circular to oval in marginal outline; margin thick,
especially opposite petals, faintly notched opposite petals. Whole form greatly depressed;
upper surface slightly and more or less regularly convex from edge to edge, with high, moder-
ately wide ambulacral ridges alternating with rather narrow interambulacral depressions. The
ridges are conspicuous for two-thirds the way from center to margin, then become nearly flush
with the adjacent surfaces; the depressions extend down the middle of the interambulacral
areas from apex to margin, widening between the petals. Apex low, subcentral; under surface
slightly concave. Petals wide in proportion to length, subelliptical, nearly reaching the margin;
poriferous zones about one-third width of tumid interporiferous areas, inner row of pores ele-
vated, outer row depressed. Apical system subcentral, slightly depressed below tops of petals.
Peristome small, circular, subcentral; main ambulacral grooves simple, straight, and deep to
margin, continuing over margin and nearly to apex as a faint line. Periproct very small, cir-
cular, inframargmal, almost marginal.

Dimensions. — Length 30 millimeters; width 30 millimeters; height 8 millimeters.

Description. — This species is one of the earliest reported Pacific coast fossil echinoids, having
been described, but not figured, by Remond in 1S63. The test is small, rarely exceeding IJ
inches in diameter. In marginal outline it is somewhat variable, though usually oval or circu-
lar; miargin moderately thick and rounded, quite thick opposite the ends of the petals, where
equal to more than half the height of the test, with faint notches opposite the ends of the petals.
The whole form is greatly depressed ; the uf)per surface slightly ami more or less regularly convex
from edge to edge, with high, moderately wide ambulacral ridges, which are conspicuous for
two-thirds of the way from the center, alternating with rather narrow, deep, interambulacral
depressions. The apex is low, subcentral; under surface slightly concave.

MIOCENE ECHINODERMATA. 203

Tho ambulacral petals are relatively wide in proportion to their length, subelliptical,
nearly reaching the mai-gin, wde open at the ends, inner two-thirds or more tumid and promi-
nent, outer ends nearly flush with the adjacent surfaces; poriferous zones narrow, about one-
thhd the width of the interporiferous areas; the inner row of pores elevated, pores round,
outer row depressed, pores slitlike, pairs of pores conjugated.

The inter ambulacral areas are deeply depressed along the middle from apex to margin.
The surface of the test, including the margm and interporiferous areas is covered with small,
conspicuous tubeicles in deep scrobicules.

The apical system is subcentral, slightly but distinctly depressed below the tops of the
petals. ITie details could not be made out on the specimen.

The peristome is small, circular, subcentral. The main ambulacral grooves are simple,
straight, and deep from peristome to margin, continuing as faint Imes over the margin and
along the ambulacral ridges nearly to the apex. The two faint processes usually given off
from the main grooves on species of this genus could not be clearly made out on the specimen
studied.

The periproct is very small, circular, inframarginal, almost marginal.

Related forms. — A. tumulus is most closely related to A. whitneyi, but has a thicker margia,
especially opposite the ends of the petals, is, in general, smaller, lower, and not subcorneal, has
only famt marginal notches, petals which are broader in proportion to their length, a more
depressed apical system and a less concave lower surface. A. tumulus presents some features
similar to A. antiselli, which make descriptions sound alike; but the forms are quite distinct,
A. tumulus bemg readily distinguished by its smaller size, less thickness, much narrower and
higher ambulacral ridges, and wider interambulacral depressions.

Localities. — Kirkers Pass and 2 miles west of Walnut Creek House (Remond); San Pablo
Bay, Cal. (Merriam).

Geologic liorizon. — San Pablo foi'mation (middle part), upper Miocene.

Collection. — -University of California (19424).

AsTRODAPSis JACALiTosENSis Arnold.

Plate XCV, figure 4.

Astrodapds jacalitosensis Arnold, 1909, U. S. Geol. Survey Bull. 39G, pp. 63-64, PI. XV, fig. 5.
Astrodapsis jacalitosensis Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 703.

Determinative characters. — Test large; broadly subovate in marginal outline, broadest
posteriorly; margin thin, deeply notched opposite the posterior petals. The whole form con-
siderably depressed, gi'eatly and equally so for half the way in from edge; centrally the upper
surface is higher, with conspicuous ambulacral ridges, of which the odd anterior one is the
highest, thus forming the anteriorly excentric apex of the test, and pronounced interambu-
lacral depressions which merge with the deep depression in the apical region, the posterior
depression being deeper and narrower than the rest. Petals tumid and elevated proximally,
depressed distally; inner rows of pores div.^rging in nearly straight lines to near the margin,
where wide apart outer row curving at first away from and then toward the inner row. Apical
system excentric anteriorly, deeply depressed. Details of lower sm-face could not be made
out. Periproct small, inframarginal, almost marginal.

Dimensions. — Length 77 millimeters; width 74 millimeters; height 15 millimeters.

Description. — This new Astrodapsis, which Arnold regards as a characteristic fossil of the
Jacalitos formation in California, is large in size, being one of the largest representatives of the
genus. In marginal outline it is bi'oadly subovate, broadest posteriorly, slightly longer than
wide, -svith deep notches opposite the posterior petals and faint notches opposite the other
petals; margin thin. TTie whole form is considerably depressed, the marginal and submargi-
nal areas greatly so and about evenly so all around. Within the inner portion of the petaloidal
region there are alternating ambulacral ridges and interambulacral depressions. The depres-
sions extend to and niei'ge with the deep depression in the apical region, the posterior depression

204 MESOZOIC AND CENOZOIC ECHINODEEMATA OF THE UNITED STATES.

being deeper, narrower, and more pronounced than the rest. The ridges are all conspicuous,
but the odd anterior one is the highest and most pronounced, constitutmg the anteriorly excen-
tric apex of the test. The details of the under surface could not be made out on the specimen.

The aml)ulacral areas are wide, slightly wider than the interambulacral areas at the mar-
gin; dorsal portions subpetaloid. The inner parts of the peatals are tumid and elevated,
the outer parts depressed. The inner rows of pores gradually and continuously diverge to about
one-fourth inch from the margin. Tlie outer rows first diverge and then converge around the
tumid parts of the petals and approach near to the inner row, beyond which point both rows
diverge slightly to the margin. The inner rows of pores are large and round, the outer rows
oval. There are one or two extra rows of pores within the main inner row. The pairs of pores
are conjugated.

The apical system is excentric anteriorly, decidedly depressed below the surface of the
petals. The details could not be made out.

The under surface not being exposed the details in regard to the peristome and ambulacral
grooves can not be given. The pcriproct is small, inframarginal, almost mai-ginal.

Related forms. — A. jacalitosensis is most closely related to A. arnoMi, which differs in
having a less depressed apical region and not having the interambulacral depressions continu-
ing to and joining the apical depression; also in having the inner rows of pores of each petal
nearly parallel.

Locality. — -South of Garza Creek, a mile southeast of Clark's place, Coalinga district, Cal.

Geologic horizon. — -Jacalitos formation, upper Miocene.

Collection.— U. S. National Museum (165610).

Genus MELLITA Agassiz.

Mei.lita cakolixiaxa Ravenel.

Plate XCI, figures la-b; Plate XCII, figures la-b.

Scutella caroUniana Ravenel, 1841, Acad. Nat. Sci. Philadelphia Jour., 1st ser., vol. 8, pp. 333, 334, text figure.

non MellUa hexapora L. Agassiz, 1841, Mon. ^chiuodermes vivans et fossiles; Des scutelles, p. 41, PI. IV, figs. 11, 12.

ilellita caroUniana Ravenel, 1848, Echinidse, recent and fossil, of South Carolina, p. 160.

Scutella carolinensis Tuoniey, 1848, Geology South Carolina Rept., p. 208,

Ilellita caroUniana Ravenel, 1850, Am. Assoc. Adv. Sci. Proc, vol. 3, p. 160.

Mellita caroUniana Tuomey and Holmes, 1855, Pliocene fossils South Carolina, pp. 3, 4, PI. I, fig. 4.

non Mellita hexapora Desor, 1858, Synopsis des echinides fossiles, p. 237.

Mellita caroliniata Meek, 1864, Smithsonian Misc. Coll., vol. 7 (183), p. 2.

Mellita caroUniana Conrad, 1865, Acad. Nat. Sci. Philadelphia Proc, p. 74.

Mortonia {Periarchus) carolinensis Conrad, 1866, Smithsonian Misc. Coll., vol. 7 (200), p. 21.

non Mellita sexforis, A. Agassiz, 1872, Revision of the Echini, pp. 141, 320.

non Mellita sexforis Gregory, 1891, Geol. Soc. America Bull., vol. 3, p. 107.

Scutella caroUniana Boyle, 1893, U. S. Cieol. Survey Bull. 102, p. 262.

Periarchus carolinensis ? Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 699.

Mellita caroUniana Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 708.

Determinative characters. — Test small to very large; subcircuhir to subpentagonal in mar-
ginal outUne, broadest between the anterior and posterior pairs of petals; six lunules, the odd
posterior one much longer than the posterior pair which are longer than the rest ; margin thin ;
the whole form greatly depressed, the upper surface rising gradually and but sHghtly from the
margin to the very low, subcentral or posteriori}^ excentric apex; under surface flat. Ambu-
lacral petals large, the posterior pair longer than the othei-s. Apical system excentric ante-
riorly. Peristome small, subcircular, excentric anteriorly; ambulacral furrows simple and
straight near tlie peristome, then forking, each pair of branches diverging and again converging
near the margin. Periproct very small, elliptical, between the inner end of the odd posterior
lunule and the peristome.

Dimensions. — The large form figured gave: Length 159 millimeters; width 152 millimeters;
height about 10 miUimeters.

MIOCENE ECHINODEKMATA. 205

Description. — This beautiful Mellita, first reported and described by Ravenel in 1S41, is
probably the oldest representative of the genus, as it undoubtedly existed in America in Mio-
cene time. Hitherto the genus has not been positively known to have existed prior to the
Pliocene. The species is rather rare, only a few specimens having been reported up to the
present time. The test is small to very large in size, ranging from 1 to 6 inches in diameter.
In marginal outline it is somewhat variable, being either subcircular, subpentagonal, or broadly
subovate. It is usually about as long as broad; broadest between the anterior and posterior
pair of petals, usually about the middle, but sometimes back of the middle of the test ; rounded
or truncated posteriorly. There are six lunules, one opposite each petal and very near the
margin and one in the middle of the posterior ambulacrum, distant from the margin. The
three anterior lunules are short and either pyriform or narrowly oblong, the posterior pair
longer and usually narrowly oblong, and the odd posterior one much longer and frequently
wider than all of the others, and either narrowly oblong or elongate subpyriform or elongate
subelliptical. In yomig ' specimens the odd posterior lunule is much longer and more con-
spicuous relatively than in older ones. The whole form is greatly depressed, the upper surface
rising gradually from the margin to the very low apex which is either central, slightly excentric
anterioily or excentric posteriorly, and rarely rises to a height of half an inch in even the largest
specimens. The margin is thin, sometimes with faint notches opposite the posterior paired
petals. The under surface is flat, or nearly so.

The ambulacral areas are relatively narrow in the petaloid dorsal portions, wide between
the ends of the petals and the margin where they are wider than the interambulacral areas,
narrowing again at the margin. The petals are large, and somewhat variable, extending half-
way or decidedly more or less than halfway to the mai'gin; subelliptical to subspatulate in form;
usually narrower than those of Mellita pentapora; the posterior pair longer than the others,
which are subequal in length. The poriferous zones are broad, equal to or broader than the
interporiferous areas; pores oval, pairs of pores conjugated by very narrow, flexuous grooves.

The interambulacral areas are broad, broadest at the margin, where they are wider than
the ambulacral areas. The surface of the test is closely set with very small, imperforate
tubei'cles, set in deep scrobicules. The tubercles are larger on the under siirface except along
and near the ambulacral furrows.

The apical system is excentric anteriorly, large and stellate; four genital pores at the tips
of the points of the star, the two posterior farthest apart; five small pores at the inner ends of
the reentrant angles of the star.

The peristome is small, subcii'cular, excentric anteriorly; the ambulacral furrows simple
and straight near tlie peristome, then forking, each pair of branches diverging and again con-
verging near the margin so as to surround the lunules.

The periproct is very small, elliptical, between the inner end of the odd posterior lunule
and the peristome.

Related forms. — M. caroliniana is closely related to M. pentapora, which is readily sepa-
rated by its having only five lunules, by the greater height and mere anterior position of its
apex, and by having its lunules subequal in length and farther from the margin. M. caroliniana
is still more closely related to the n^cent species M. sexforis A. Agassiz, which, however, diflFers
in having its five ambulacral lunules oU of the same length and its odd posterior lunule a little
shorter than the others; another difference is that the distance between the pairs of food grooves
in M. sexforis is greater than it is in M. caroliniana.

Localities. — Ravenel's type came from The Grove, Cooper River, 17 miles from Charleston,
S. C. The large form figured in this paper came from South Carohna; but the exact locaUty is
not known. Other localities are Goose Creek, Cooper River, and Bostick Landing, Great
Peedee River, S. C. ; Wihnington, and .3 miles north of Grif ton, Pitt County, N. C. ; Yorktown, Va.

Geologic horizon. — Duplin marl in South Carolina, and Yorktown formation, in North
Carohna and Virginia, both upper Miocene.

Collections. — Academy of Natural Sciences of Philadelphia (10S.3); American Museum of
Natural History; U. S. National Museum.
39800°— 15 14

206 MESOZOIC AND CENOZOIC ECHINODEKMATA OF THE UNITED STATES.

Genus SCUTASTER Pack.

Scutaster Pack, 1909, California Univ. Dept. Geology Bull., vol. 5, No. 18, p. 278, PI. XXIII, fig. 2.

Description. — Test circular depressed, ambulacral star small. Lunules in the prolongation
of the petals of the trivium, and either lacking in the bivium and posterior interambulacral
space or not placed in the same relative positions as on the anterior portion of the test (Pack).

This genus was founded on a single imperfect specimen found in the Aliocene deposits of
Cahfornia, which is also the t3'pe of the following species. Judging from the single figure M-liich
Pack gives, there are good grounds for beheving that the new genus should be recognized.'

Scutaster andersoni Pack.

Plate XCIII, figure 1.

ScutasUr andersoni Pack, 1909, CaUforiiia Univ. Dept. Geology Bull., vol. 5, No. 18, pp. 278-279, PI. XXIII, fig. 2.
Scutaster andersoni Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 704.

Description. — Only a single imperfect specimen of this species is known to exist/ and as
the Avriter has had no opportunity of studying it, the description of Pack is given verbatim:

Test subcircular in outline, edges markedly thin. Upper surface regularly arched from the margin; apex anterior
to the center. Apical system small and apparently central. Ambulacral star small; petals extending sUghtly less
than halfway to the margin of the test, closed at the ends. Lateral petals broader than the posterior ones, but of almost
the same length. Poriferous zones broad, and continuing full width almost to the ends of the petals. In the posterior
petals the interporiferous area forms about one-third the width of the petal. Poriferous zones of the lateral petals
equal in width to those of the posterior petals, but inclosed area broader. In the extension of the three anterior petals
are broad lunules, over half as long as the petals; shallow grooves extend from the lunules to the margin. Anterior
lunule slightly farther from the apical system than are the lateral ones. From the ends of the posterior petals the
plates enlarge and the area broadens rapidly. No lunules were seen here, nor in the posterior interambulacral space.
They may be represented by marginal notches, as the posterior edge of the specimen is lacking.

Dimensions. — Transverse diameter 44 mUlimeters; height 8 millimeters.
Locality. — East of Muir, Contra Costa County, Cal.
Geologic horizon. — Miocene.
Collection. — University of California.

Genus ENCOPE Li. Agassiz.
Encope macrophora Ravenel.

Plate XCIII, figures 2a-e; Plate XCIV, figures la-f, 2.

Saitella macrophora Ravenel, 1842, Acad. Nat. Sci. Philadelphia Jour., 1st ser., vol. 8, pt. 2, pp. 334, 335, text figure.

Encope macrophora Ravenel, 1S48, Echinidse, recent and fossil, of South Carolina, p. 2.

Scutella macrophora Tuomey, 1848, Geology South Carolina Rept., p. 208.

Encope macrophora Ravenel, 1850, Am. Assoc. Adv. Sci. Proc, vol. 3, p. 160.

Encope macrophora Tuomey and Holmes, 1855, Pliocene fossils of South Carolina, pp. 2, 3, PI. I, fig. 3.

Non Scutella hexapora Desor, 1858, Synopsis des echinides, p. 237. Desor e^idently meant to give 5. caroliniana

Ravenel as a synonym of S. hexapora but gave S. macrophora instead.
Encope macrophora Meek, 1864, Smithsonian ilisc. Coll., vol. 7 (183), p. 2.

Rarenellia macrophora Lutken, 1863, Bid. til Kunds. om Echinoderme; Vidensk. Medd. Kjabenhavn.
Macrophora macrophora Conrad, 1865, Acad. Nat. Sci. Philadelphia Proc, p. 74.
Macrophora raveneli Conrad, 1865, Acad. Nat. Sci. Philadelphia Proc, p. 74.
Ravenellia macrophora Agassiz, 1883, Mus. Comp. Zoology Mem., vol. 10, No. 1, p. 89.
Scutella macrophora Boyle, 1893, U. S. Geol. Survey Bull. 102, p. 263.
Encope macrophora Stefanini, 1911, Soc geol. italiana Boll., vol. 30, p. 70S.

1 Since the above descriptions were written Pack has published some new information regarding this unique Californian form, based on
material recently discovered (California Univ. Dept. Geology Bull., vol. 7, No. 13, pp. 300-302, ri. XV, figs. 2a-b, 1913). The new data establish
the genus Scutaster on a firm basis. It is characterized by having but three lunules, which are situated in the anterior ambulacral areas. The
new specimens show that Scutaster andersoni is transversely suboval in marginal outline, with narrow notches opposite the three anterior petals
and broad shallow notches opposite the posterior pair. The apex is anteriorly and the apical system posteriorly excentric. Longitudinal
diameter 53 millimeters; transverse diameter C2 millimeters; height 5 to 6 millimeters. The new locality is on the north slope of the San
Emigdio Mountains, at the southern end of the San Joaquin Valley, where the tests are said to occur in great abundance. In regard to geologic
horizon Pack says, "known only in the lower half of the Miocene."

MIOCENE ECHIjSTODEEMATA. 207

Determinative characters. — Test small to large in size, suboval to subovate in marginal
outline; truncated or convex posteriorly; shallow notches opposite the anterior petals, deep
ones opposite the posterior pair; one large lunule in the posterior interambulacrum ; margin
tliick; much depressed, being low and nearly flat along the front and sides, but rising toward
the center and posteriorly in a low longitudinally elongate mound. Apex slightly excentric
posteriorly, under surface flat. Ambulacral petals large, the posterior pair longer than the
rest and curved around the lunule. Apical system excentric anteriorly. Peristome small,
subcircular, excentric anteriorly; ambulacral furrows simple and straight for a short distance
from the peristome, then forking. Periproct very small, subelliptical, at the edge of the lunule
nearest the peristome.

Dimensions. — Specimen A: Length 97 millimeters; wddth 79 millimeters; height IS milli-
meters. Specimen B: Length 62 millimeters; width 5S millimeters; height 11 miUimeters.
Specimen C: Length .31 millimeters; \\adth 28 millimeters; height .5 millimeters.

Description. — This handsome species, the only representative of the genus Encope yet reported
from the Cenozoic deposits of the Atlantic coast, was described by Ravenel as early as 1842. At
first he placed it in the genus ScuteUa, but a few years later assigned it to the genus Encope.
Both Lutken and Conrad founded new genera upon this species, but there appears to be no good
ground for the recognition of either. Conrad's new species, Macrophora raveneli, is believed
to have been merely a young specimen of Ravenel's species. This species is rather abundant
in a few localities in South Carolina and Florida, but is rare elsewhere. The test is variable in
size, ranging from less than an inch to nearly 4 inches in longitudinal diameter. In marginal
outline it is either suboval, somewhat ovate or obovate, or subquadrate; usually broader near
the posterior end than near the anterior end; posterior border usually truncated, sometimes
convex; a shallow notch opposite the odd petal, slightly deeper rounded ones opposite the
anterior paired petals, and large deep angular ones opposite the posterior petals; the posterior
notches vary from a flaring and subrectangular form in small specimens to a less open and more
acute form, or one with parallel sides in larger specimens. A large lunule occupies the larger
part of the posterior interambulacrum, which varies in form from circular in very small speci-
mens to oval, subovate, or subspatulate in larger ones, the elongation being longitudinal when
occurring; the width of the lunule is usually greater near the under surface, especially in large
specimens. The whole form, including the margin, is thick, particularly so in large individuals.
The whole test is much depressed, being nearly flat along the front and sides; but rising toward
the center in a low longitudinafly elongate mound which extends from about the middle of the
odd petal to the posterior border. The height of the mound varies directly with the size of the
specimen, ranging from less than an eighth to more than three-fourths of an inch. The apex
is central or subcentral, being usually shghtly excentric anteriorly, though sometimes slightly
excentric posteriorly at the summit of the central mound, which is usually the anterior end
of the raised and thickened margin of the lunule. The depressed marginal area is more or
less distinctly corrugated by alternating low ridges and shaUow troughs, there being two or
three troughs between the notches in the margin. The under surface is flat or slightly concave,
usuaUy increasingly concave near the margin of the lunule.

The ambulacral areas are narrow in the petaloid region, wide in the margmal region where
they about equal the interambulacral areas. The dorsal portions are petaloid. The petals are
large, unequal m length, divisible into a bivium and a trivium; those of the trivium usuaUy sub-
equal in length, sometimes with the odd petal shorter than the other two, subelliptical or some-
what spatulate in form; those of the bivium much longer than the others, tapering gradually
from the distal ends toward the apical system, gracefully curved around the lunule, all the petals
open at the ends and extending about two-thirds the way to the margin. The poriferous zones
are wide, as wide as or sUghtly wider than the interporiferous areas ; the inner rows of pores nearly
paraUel and composed of rather large oval pores, outer row of smaUer oval or elliptical pores at
the bottom of deepened portions of very narrow grooves by which the pairs of pores are
conjugated.

208 MESOZOIC AND CENOZOIC ECHINODEEMATA OF THE UNITED STATES.

The iiiterambulacral areas, except the posterior area, are narrow in the petaloid region,
wider in the marginal region; the posterior interambulacral area is wider and its plates differ
considerablj' in form from those of the other areas, because of the presence of the lunule. The
whole surface of the test is covered with small uniform tubercles which are larger on the under-
surface and inside the lunule.

The apical system is excentric anteriorly, in front of and below the apex on the more or less
steeply sloping anterior side of the central mound. The madreporite is large, stellate or sub-
pentagonal, nearly flush with the surface. There are five genital pores a short distance away
from the points of the madreporic star, their relative positions varying somewhat, and five
small radial plates each perforated by a small pore, on the proximal side of which there is a very
small swelling. The posterior genital pore is sometimes somewhat displaced from the median
line.

The peristome is small, subcircular to subpentagonal, excentric anteriorly; the ambulacral
furrows rather deep, simple and straight for a short distance from the peristome, then forking,
each pair of branches diverguig somewhat, the three anterior pairs more so than the posterior
two, extending to the margin and endmg close alongside of the marginal notches. Each branch
gives off one side branch on the outside at nearly right angles about halfway from the peristome
to the margin, which soon bend and proceed to the margin. A very thin ridge extends out from
the peristome along the middle of the short unbranched portion of each ambulacral furrow.

The periproct is very small, much smaller than the peristome, usually elUptical or sub-
elliptical, sometimes subcircular or subpjrrif orm, situated usually on the sloping edge of the lunule
nearest the peristome, sometimes on the inner wall of the lunule, but near the under surface of
the test.

This species presents variable features which illustrate in an interesting way changes due to
the development of the individual. As the forms increase in size and age the lunule enlarges and
becomes more elongate and irregular, the posterior marginal notches become less flaring and tend
to close, the posterior edge changes from a truncated one to one more and more convexly rounded,
the posterior end becomes at first relatively broader then relatively narrower than the anterior
end, the height of the central mound and thickness of the margin increase, the corrugations on
the upper surface become more accentuated, and irregularities appear in the poriferous zones.
Lack of space forbids a more complete discussion of these features here; but a comparison of the
figures given will bring them out in a stronger light. Specimen A, for instance, presents geruntic
features, the effect of the elongation of the lunule in pushing out and rounding the posterior
border, nearly closing the posterior notches and so changing the marginal outline as to make the
form seem at least varietal in value if not a different species.

Related forms . — The only American fossil echinoid resembling this species is E. tenuis Kev/,^
from the upper Miocene or lower Pliocene of the Pacific coast. ■ E. macrophora is easily separated
by its larger lunule, shallower anterior notches, posterior petals curving around the lunule, and
having the periproct at the edge of the lunule. The recent species Encope grandis L. Agassiz,
reported by A. Agassiz ' from the Gulf of California, is the most closely related to the present
form, the very features which A. Agassiz notes as remarkable in E. grandis being those most
characteristic of E. macropJiora. E. grandis differs, however, in having aU five marginal notches,
and especially the three anterior ones, larger and more deeply incised, in having wider interpo-
riferous areas, and the posterior margin concave. Encope emarginata Agassiz, a recent species
from the coast of Brazil and the West Indies, is similar in general outUne to E. macropTiora, the
young forms of the two species being quite similar, although the lunule of the young E. macro-
phora is usually more circular than that of the young E. emarginata. The older forms of E.
emargirmta also differ in that the marginal notches become lunules, a change which appears
never to take place in E. macrophora. Possibly the present fossil form may be ancestral to E.
emarginata. Encope dse De Cartazar, from the uj^per Miocene of Cuba, presents some points
of similarity to the present species, but its lunule is smaller and more rectangular in form, its

1 Revision of the Echini, p. MS and PI. XIII, flg. d.

- The description of E. tenuis Kew appeared while the present worli was in press. See California Univ. Dept. Geology Bull., vol. 8^ No. 5,
pp. 47-48, PI. I, flg. 1, and PI. II, fig. 1, 1914.

MIOCENE EC^INODEEMATA. 209

posterior marginal notches are less pronounced and have one side merging into its more rounded
posterior margin.

Localities. — Dr. Ravenel's plantation, known as "The Grove," on Cooper River, 17 niiles
from Charleston, and Goose Creek, S. C. ; AlHgator Creek, Monroe County, and near Punta Garda,
Alligator Creek, Monroe County, Fla.

Geologic horizon. — Duplin marl, upper Miocene, in South Carolina, Caloosahatchee marl,
Pliocene, in Florida.

Collections. — Academy of Natural Sciences of Philack^phia ( 1086, A) ; U. S. National Museum
( 164658, B; 9970, C) ; American Museum of Natural History; Boston Society of Natural History;
Wagner Free Institute of Science.

Family CLYPEASTRID.f].

Genus CIiYPEASTER Lamarck.

Clypeaster bowersi Weaver.

Plate XCVI, figures la-b.

Clypeaster bowersi Weaver, 1908, California Univ. Dept. Geology Bull., vol. 5, No. 17, pp. 271-272, PL XXI, fig. 1;

PI. XXII, fig. 1.
Clypeaster bowersi Stefanini, 1911, Soc. geol. itaUana Boll., vol. 30, p. 701.

Description. — As the writer has had no opportunity of studying the single specimen' of
this large Clypeaster that has been discovered the description of Weaver is here given verbatim:

The test of this form is very large and thick. The largest specimens measured 119 millimeters in diameter. The
outline seen from above is circular to elliptical. The margins are swollen and the summit very slightly elevated.
On the posterior margin is a faint reentrant angle opposite the anal opening. The petals are broad and nearly closed
at the extremity. The median interporiferous zones are broad, while the outer rows of pores converge at the ends
so as almost to inclose them. The tuberculation is uniform on both the upper and lower surfaces and the tubercles
are of nearly the same size over the whole test. The actinal siKtace is strongly concave and the actinostome deeply
sunken. The ambulacral furrows are very deep and extend from the actinostome to the margin.

Dimensions. — Maximum width 100 millimeters; maximum length 119 millimeters; maxi-
mum thickness 37 millimeters.

Related forms. — Weaver makes the following remarks on related forms:

Clypeaster bowersi differs considerably from the other members of this genus on the Pacific coast. It is not tar
removed from C. breunigei Laube, which occurs in the Eocene in the Lybian Desert of Africa. C. bowersi is nearly
twice as large as C. breunigei and is elUpsoidal in outline with thick margins, while the latter is pentagonal and has
thin margins. The upper surface of the former is only slightly arched, while the apical system of the latter is conical
and then gradually slopes to the margin. They differ also in the character of the petals and in the position of the
anal pore. In C. bmoersi the petals are broad and the poriferous zones lie nearly parallel. The anus is situated on
the actinal surface at a distance from the margin about equal to its diameter.

Clypeaster bowersi shows a close relationship to Diplothecanthus rosaccus (Lamarck). It differs in that it is much
flatter, the superior surface of D. rosaceus being more strongly convex. The actinostome of the former is sunken in a
cavity which narrows gradually and is of much greater extent than in D. rosaceus. In D. rosaceus the ambulacral
areas are more or less swollen and rise above the general level of the test, while in C bowersi they are nearly at the
same level as the interambulacral areas. The posterior ambulacral petals are the longest and the odd ambulacral
petal is the shortest in D . rosaceus. In C. bowersi the odd ambulacral petal is the longest and the remaining four are of
equal size.

Locality. — Colorado Desert (Weaver).'

Geologic horizon. — Associated with a fauna presumed to be of Miocene age (Weaver).'

Collection. — University of California.

• Since the above description was written William S. W. Kew has published some additional data relative to C. bowersi based on new
material collected by him (California Univ. Dept. Geology Bull., vol. 8, No. 3, p. 50, Pis. IV, V, 1914). He supplements Weaver's description
by mentioning that there are faint reentrant angles opposite all the interambulacral areas, that the petals are obovate, that the anterior petal is
somewhat raised, and that the periproct is large, depressed, and inframarginal. Kew gives.several new localities, all being near Coyote Moun-
tain, Carrizo Creek region, California. He also says that C. bowersi occurs at all the localities, in his lower division of the Carrizo Creek forma-
tion, the age of which has not yet been definitely determined. Arnold, in 1910 (Willis and Salisbury, Outlines of geologic history, p. 245),
regarded the Carrizo Creek beds as equivalent to the Etchegoin formation which is now thought to be upper Miocene and lower Pliocene (?).

210 MESOZOIC AKD CEXOZOIC ECHINODEBMATA OF THE UNITED STATES.

Clypeaster? breweeianus (Remond).

Plate XCVI, figures 2a-c, 3.

Echinarachnius brewerianus Remond, 1863, Califurnia Acad. Sci. Proc, vol. 3, p. 53; no figure.

Echinarachnius brexverianus Meek, 1864, Smithsonian Misc. Coll., vol. 7 (183), p. 2.

Echinarachnius brewerianus Gabb, 1869, Geol. Survey CaUfomia, Paleontology, vol. 2, pp. 36, 109, PI. XII, fig. 65, 65a.

Echinarachnius brewerianus Cooper, 1888, Cat. California fossils: State Mineralogist Seventh Rept., p. 271.

Clypeaster (?) brewerianus Merriam, 1899, California Acad. Sci. Proc, 3d ser.. Geology, vol. 1, No. 5, p. 166, PL XXI,

fig. 2.
Astrodapsis brewerianus Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 702.

Determinative characters. — Test small, subelliptical to subcircular in marginal outline,
faint]}' notched opposite posterior petals, longer than broad. The whole form is much depressed;
upper surface somewhat convex, flattened near center, margin rather thick, rounded; apex
central; under surface flat near margin, slightly concave near center. Ambulacral petals sub-
equal, plates long and narrow, poriferous zones divergmg from apical region to near margin,
^vith a slight constriction about two-thirds the way. Apical system central. Peristome
probably central. Periproct very small, subcircular, inframarginal, almost marginal.

Dimensions. — Specimen A: Length 32 millimeters; width 28 millimeters; height 9 milli-
mieters. Specimen B; length 36 millimeters; width 31 millimeters; height 12 millimeters.
j, Description. — This species was described but not figured by Remond as early as 1863, was
first figured by Gabb in 1869; and was redescribed and refigured by Merriam in 1899. The
test is small, rarely exceeding 1| inches in length. In marguial outline it is subelliptical to
subcircular, faintly notched opposite posterior petals, longer than broad. The whole form is
considerably depressed; the upper surface rising in gentle convex curves from the moderately
thick, rounded margin to a flattened area near the centrally located apex; the under surface
flat near the margin, slightly concave toward the center.

The ambidacral areas are wide, wider throughout than the interambulacral areas, the
plates bemg long and narrow in the petaloid region and just at the margin; the dorsal portions
petaloid. The petals aj-e subequal in length, sharply pointed near the apical system, widening
rapidly for two-thirds their length, then narro^ong slightly and again widening rapidly to their
ends where they are wide open. Several pairs of pores continue beyond the petals proper,
diverging from the ends of the petals to the margin. The interporiferous areas are very wide,
from thi-ee to four times as -wdde as the poriferous zones, flush or slightly tumid; poriferous
zones very narrow near apical system, rather wide near ends of petals; pores oval, pairs
conjugated.

The interambulacral areas are relatively narrow, very narrow near the apical system.
The test is covered with small, nearly uniform tubercles, which are of nearly the same size on
the upper and lower surfaces.

Tne apical system is central and coincident with the apex. The details can rarely be
made out on the specimens.

The peristome and ambulacral grooves could not be clearly made out on the specimens
studied. One fragment examined indicated that the peristome is small, central, or subcentral
and circular.

The periproct is very small, subcircular, and inframarginal, almost marginaL

Related forms. — This species does not appear to be closely related to any other American
species. It resembles Astrodapsis turnidus somewhat, as noted by Merriam, but lacks the
alternating tumid petals and depressed interambulacral areas characteristic of that species.
Until s])ecimens showing the ambulacral grooves are found the generic position can not be
determined with certainty.

Localities. — Near Lafayette, Concord quadrangle; 2 miles east of Walnut Creek House,
Walnut Creek, Cal.

Geologic horizon. — "Upper Contra Costa Miocene," probably San Pablo formation, upper
Miocene.

Collections. — University of California (19423, B); Academy of Natural Sciences of Philadel-
phia (1088, A).

MIOCENE ECHINODEKMATA. 211

Cltpeaster? gabbi Remond.

Clypeaster gabbi Remond, 1863, California Acad. Sci. Proc, vol. 3, pp. 53, 54, no figure.
Chjpeastcr gabbi Meek, 1864, Smithsonian Jlisc. Coll., vol. 7 (183), p. 2.

Clypeaster gabbi Gabb, 1869, Geol. Survey California, Paleontology, vol. 2, pp. 36, 109, PI. XII, figs. 64, 64a.
Clypeaster gabbi Cooper, 1888, Catalogue of California fossils: State Mineralogist Seventh Rept., p. 271.
{"?) Scutella gabbi Memam,18Q9, California Acad. Sci. Proc, 3d ser., Geology, vol. 1, No. 5, p. 168, PI. XXII,
figs. 5, 5a.

Description. — As the writer has been unable to examine any specimens which can be posi-
tively referred to this species, Remond's description is given verbatim:

Disk rather small, comparatively thick, varying from circular to subpentagonal and irregular suboval. Apex
nearly central, subelevated; margin rounded; genital apparatus subangular. Ambulacral star almost symmetrical;
petals about equal in length, elongated, open at their extremities. Inferior surface flat near the edge and gently
concave in the center. Mouth depressed, subcentral. Ambulacral fmTows straight, slightly marked. Anal aper-
ture very small, marginal. Tubercles of the upper sm-face nimierous, especially in the ambulacra, round and
prominent.

Dimensions. — ^According to Remond the " greatest diameter is 1.16 inches, smallest diame-
ter 1.10 inches, height 0.28 inch."

Belated forms . — As Remond imfortimately failed to figure his form, and as no specimens
answering satisfactorily to his description are available, considerable uncertainty exists regard-
ing this species and its relations to other Cahfornian echinoids. As stated in the discussion of
Scutella gabbi (Remond) Merriam (p. 189), the form described and figured by Merriam differs
in several important particulars which can not be ignored, and this renders it doubtful whether
Merriam has described and figured identically the same fonn as Remond. Additional collect-
ing at Remond's locality may result in discovermg specimens answering to his description,
otherwise the species must remain of doubtful character.

Locality and geologic liorizon. — According to Remond, this species " occurs abundantly
on the eastern shore of San Pablo Bay, south of Mare Island, Cal., in soft sandstones of
Miocene age."

Order ATELOSTOMATA.

Suborder ASTERNATA.

Family CASSIDULID^.

Genus CASSIDTJLTJS Lamarck.
Cassidixlus bassleri Twitchell, n. sp.

Plate XCV, figures 5a-d.

Determinative cJiaracters. — Test small, subovate to subcircular in marginal outline, broadest
posteriorly; upper surface convex, somewhat flattened on top, sides equally dechning; margin
rounded on the sides and anteriorly, somewhat angular at the rostrated posterior end; under-
surface concave centrally. Apex central; apical system excentric anteriorly. Ambulacral
areas rather broad in petaloidal dorsal portions, narrower elsewhere; poriferous zones broad,
outer row of pores slitlike or elongate elliptical. Peristome small, central, pentagonal to sub-
stellate, with large weU-defiiied floscelle. Periproct oval, situated rather high above the margin,
in a short sulcus.

Dimensions. — Length 28 miUimeters; width 25 milUmeters; height 14 millimeters.

Description. — Specimens of this species have been known for some years; but it has usually
been confused with the Cretaceous species Cassidulus sequoreus Morton and so labeled in the
collections. It is named in honor of Ray S. Bassler, of the U. S. National Museum. The test
is smaU, rarely exceeding an inch in diameter; subovate to subcircular in marginal outhne,
usually shghtly broader posteriorly than anteriorly and shghtly longer than broad. The upper
surface is moderately elevated, the height being equal to about half the diameter, convex, some-
what flattened on top from above the periproct to the apical system, equally dechning anteriorly
and on the sides, posteriorly it slopes from above the periproct to the margin in a steep, oblique.

212 MESOZOIC AND CENOZOIC ECHINODEKMATA OF THE UNITED STATES.

nearly straight line; margin rounded along the sides, less so at the anterior end, somewhat
angular at the rostrated posterior end; undersurface flattened, concave centrally. The apex is
central or subcentral.

The ambulacral areas are rather broad in the petaloid dorsal portions, less so at the ambitus,
and narrow at the ends of the petals and actinaUy: the petals are relatively large, broad, sub-
equal in length, extending two-thirds or more of the distance to the ambitus; the poriferous
zones are broad, though less so than the interporiferous areas, outer row of pores slithke or
elongate eUiptical, inner row round, pairs of pores conjugate.

The surface of the test is closely set with small imperforate tubercles set in deep scrobi-
cules. The tubercles increase in size on the undersurface except along a median band which
is somewhat smooth but dotted with numerous granulations-.

The apical system is excentric anteriorly. There are four genital pores, the anterior pair
being nearer together than the posterior. The right anterior genital plate, which is modified
to form the madreporite, is very large, occupjTiig the larger part of the system. There are
five small radial plates, each perforated by a small pore.

The peristome is small, central, pentagonal to substellate, with a large floscelle with promi-
nent bourrelets and well-defined, broad, oval phyUodes.

The periproct is oval, or subelliptical, longitudinally elongate, in a short sulcus situated
rather high above the posterior margin. The ends of the posterior petals are about opposite the
middle of the periproct.

Related forms . — This species is similar m a number of features to Cassidulus ierryi, but it
is more elevated, has a more rounded margin and has its peristome central instead of anteriorly
excentric. It also presents interesting resemblances to the Cretaceous species C. sequoreus,
and C. micrococcus, but can be separated from the former by its more subcircular marginal out-
line, its central peristome, the slightly higher position of its periproct, and the more elongate
character of the outer row of pores of its petals, and from the latter by its much smaller size,
its relatively larger floscelle, and the somewhat lower position of its periproct.

Locality and geologic horizon. — The specimens on which this species is founded are said to be
from the Miocene of North CaroUna. They can not be more definitely located.

Collection. — U. S. National Museum (9476).

Galerites oregonensis Dana.

Gakrites oregonends Dana, 1849, Repi,. U. S. Expl. Exped., Geology, vol. 10, p. 729, PI. II, figs. 5, 6, 6a.
Galerites oregonensis Gabb, 1869, Geol. Survey of California, Paleontology, vol. 2, p. 123.

TMs species was based by J. D. Dana on a few fragments and spines obtained from the
argillaceous Astoria shale of the lower Miocene of Oregon. The spines are said to be "half an
inch long, very slender, delicately striate, with the striae punctate or subcrenulate." No descrip-
tion of the test is given and Dana himself said the "specimens are so imperfect that we refer it
with hesitation to the genus Galerites." In view of the imperfect character of the specimens,
the acceptance of the species is reserved until additional material has been obtained.

Suborder STERNATA.
FamUy SPATANGID^.

Genus AGASSIZIA Valentin.

Agassizia poritera (Ravenel).

Plate XCVII, figures la-d.

Brissopsis poriferus Ravenel, 1848, Echinidas, recent and fossil, South Carolina, p. 4, PI. II, figs. 5, 6.

-Brmopsi's pofi/erus Ravenel, 1850, Am. Assoc. Adv. Sci. Proc, vol. 3, p. 160.

Agassizia porifera McCrady, 1857, Pliocene fossils, South Carolina, pp. 5, 6, PI. I, fig. 5, PI. II, fig. 4.

Agassizia 'porifera Meek, 1864, Check list, Miocene, p. 2.

(?) Agassizia excentrica A. Agassiz, 1872, Revision of the Echini, pt. 1, p. 88.

Agassizia porifera A. Agassiz, 1874, Revision of the Echini, pt. 4, p. 751. i

Agassizia porifera Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 707.

MIOCENE ECHINODEEMATA. 213

Determinative characters. — Test moderate, ovoid, tall, apex slightly excentric forward, no
anterior groove, nearly flat below. Ambulacra narrow, paired in shallow grooves, antero-
lateral much longer than the posterolateral; pairs small, sUtlike. Interambulacra broad,
covered with very small tubercles. Fascicles indistinct. Peristome near forward margin.

Dimensions. — Length 42 miUimeters; width .37 millimeters; height .35 milhmeters.

Description. — Tliis species was figured by Ravenel in 1848, and described and figured by
McCrady in 1858. The test is of moderate size, ovoid, and tall. The apex is slightly excentric
forward. There is no anterior groove, a slight depression extending from the apex part way
to the margin. The lower surface is nearly flat.

The ambulacra are narrow, the j^osterolateral pair bent outward toward the margin. The
anterolateral nearly straight. The paired ambulacra in shallow depressions, long, open below,
the posterolateral shorter than the anterolateral pair.

The interambulacra are wide, the paired interambulacra sUghtty gibbous at their upper
ends. Portions of the peripetalous and lateral fascioles are rather inchstinctly shown.

The peristome is near the anterior margin with a well-developed labrum. The periproct
is not shown on the single specimen of tliis species studied.

Locality. — Near Oakle}' Inlet, Waccamaw, S. C.

Geologic Jtorizon. — iliocene.

Collection. — American Museum of Natural History.

Genus ECHINOCARDITJM Gray.

ECHINOCARDIUM ORTHONOTUM Courad.

Plate XCVII, figs. 2a-c; Plate XCVIII, figs, la-c, 2a-c.

Spatangus orthonotus Conrad, 1843, Acad. Nat. Sci. Philadelphia Proc, vol. 1, p. 327.

Amphidetus virginianus Forbes, 1845, Geol. Soc. London Quart. Jour., vol. 1, pp. 425, 426, 3 figs.

Amphidetiis virginianus Forbes, 1846, Geol. Soc. London Proc, vol. 6, pp. 559, 560, 3 figs.

Amphidetus orthonotus Tuomey and Holmes, 1855, Pliocene fossils, South Carolina, pp. 6, 7, figs. 1, la-c.

Amphidetus virginianus Emmons, 1858, North Carolina Geol. Survey Kept., p. 310, fig. 245a-c.

Echinocardium virginianum Desor, 1858, Synopsis echinides fossiles, p. 408.

Echinocardium orthonotus Conrad, 1805, Acad. Nat. Sci. Philadelphia Proc, vol. 17, p. 75.

(?) Echinocardium pennatijidum A. Agassiz, 1872, Revision of the Echini, pt. 1, p. 111.

Echinocardium orthonotum A. Agassiz, 1874, Revision of the Echini, pt. 4, p. 751.

Amphidetus virginianus Schluter, 1899, Deutsche Geol. Gesell. Zeitschr., vol. 51, p. 113.

Echinocardium orthonotum Clark, 1904, Maryland Geol. Survey, Miocene, pp. 430^132, PI. CXIX, figs. la-c.

Echinocardium orthonotum Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 706.

Determinative characters. — Test large, ovate to cordiform, elevated, upper surface nearly
flat forward, deep and broad, anterior groove higher posteriorly with truncated surface, tumid
plastron below. Ambidacra wide, anterior in broad groove, paired ambulacra in shallow
grooves triangular in outline, widely open above, narrow below; pore pairs large and not numer-
ous. Interambulacra narrow above, mde below; fascioles distinct. Peristome large, slitlike.
Periproct high on posterior truncation.

Dimensions. — Specimen A: Length 58 millimeters; width 52 milhmeters; height 29 milh-
meters. Specimen B: Length 51 millimeters; width 46 milhmeters; height 29 millimeters.

Description. — This species was first described by Conrad in 1843, but not figiu"ed. Forbes,
in 1845, redescribed and figured the form luuler the name of Amphidetus virginianus. The
test is rather large, irregularly ovate to cordiform, elevated but more posteriorly than anteriorly.
The upper surface is mostly flat forward. A broad and rather deep anterior groove with shghtly
gibbous edges indents the upper surface but narrows and shallows toward the margin. The
posterior portion is elevated into a broad ridge which continues nearly to the truncated posterior
margin. The lower surface is nearly flat except for the elevated plastron.

The ambulacra are wide, the anterior being situated in the broad anterior groove. The
paired ambulacra are situated in shallow grooves on the upper surface. They are triangular
in outhne, widely open above and narrow below, the anterolateral being wider above than the

214 MESOZOIC AND CENOZOIC ECHINODEEMATA OF THE UNITED STATES.

posterolateral. The pore pairs are large and not numerous. They appear again on the lower
surface near the peristome.

The interambulacra are narrow above and widen rapidly. They have numerous large
tubercles below which become few and irregularly scattered above the lower margin. The
fasciole can be plainly traced.

The apical system is small. The peristome is large and shtlike, ver}^ much elongated
transversely. The periproct is moderate in size, high on the posterior truncation.

Locality. — James River, Ya.

Geologic horizon. — Yorktown formation, upper Miocene.

Collections. — Academy of Natural Sciences of PMladelpliia (1079); American Museum of
Natural History; U. S. National Museum; Johns Hopkins University (T. 1002).

ECHINOCAEDIUM DEPEESSUM Clark, U. Sp.
Plate XCVIII, figures 3a-c.

Determinative characters. — Test moderate, cordiform, low, depressed, both upper and
lower surfaces nearly fiat, anterior groove shallow, posterior truncation. Ambulacra wide,
anterior in shallow groove, paired in grooves, triangular in outline, open above, narrow below.
Interambulacra narrow above, widening rapidly toward the ambitus. Peristome small.

Dimensions. — length 40 millimeters; width 37 millimeters; height 13 milhmeters.

Description. — This species is represented only by casts, which, however, are very different
in their characters from E. orthonotum , the only other Miocene representative of tliis genus from
American deposits. Tlie test is of moderate size, cordiform, low, much depressed, nearly flat.
Tlie anterior groove is shallow and broad- The posterior margin is truncated.

The ambulacra are wide, the paired ambulacra being situated in shallow grooves triangular
in outline. They are open above and narrow below. The interambulacra are narrow above,
forming a very obtuse angle, but Madening rapidly below toward the ambitus. The fascioles
are absent. The peristome is small and apparently transversely elongated.

Locality. — Near old Chattahoochee Landing, Apalachicola River, Fla.

Geologic horizon. — Lower Miocene.

Collection. — U. S. National Museum (164454).

EcHiNOCAKDiuM GOTHicus (Ravcuel).

Amphidetus gothicus Ravenel, 1848, Eclunidse, recent and fossil, South Carolina, p. 4 and figure.
Amphidetus mnpUphorus McCrady, 1855, Pliocene fossils, South Carolina, pp. 7, 8, PI. 11, fig. 2.
Amphidetus gothicus McCrady, 1855, Pliocene fossils, South Carolina, pp. 7, 8, PI. II, fig. 3.
(?) Echinocardium cordatiim A. Agassiz, 1872, Revision of the Ecliini, pt. 1, pp. 109, 110.
Amphidetus gothicus A. Agassiz, 1874, Revision of the Ecliini, pt. 4, p. 751.
Echinocardium ampliflorus. Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 707.
Echinocardium gothicum Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 707.

Description. — No material has been secured and it is therefore impossible to satisfactorily
describe this species. A. Agassiz regards E. gothicus and E. ampliphorus as the same species
and refers it doubtfully to E. cordatum, which is found widely distributed in the Atlantic Ocean
to-day.

Locality. — Tlie Grove, Cooper River, S. C.

Geologic horizon. — Duplin marl, upper iliocene.

Collection. . — LTnkno\^^l .

Genus LINTHIA Merian.

■ LiNTHLA? CALiFORNicA Weaver.

Plate XCVIII, figure 4.

Linthia (?) californica Weaver, 1908, Univ. California Dept. Geology Bull., vol. 5, No. 17, pp. 272, 274, PI. XXI, fig. 2.
Brissopsis californica Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 705.

MIOCENE ECHINODEKMATA. 215

Description. — Weaver says :

The outline of the test from above is elliptical. The anterior groove is deep. The apical system is small and
situated slightly anterior to the center. The central portion of the lateral interambulacral plates forms a series of
irregular ridges extending from the apical system to the margin. The posterior interambulacral area is elevated. The
three anterior ambulacra are nearly equal in size and larger than the posterior areas as far as kno^vn. The poriferous
zones of the ambulacra are narrow, but the pores are large. The specimen is a poorly preserved cast and further data
are lacking. Tliis sjsecies has been referred to Lintliia rather than to Schizaster on account of the more central position
of the apical system.

Dimensions. — Length 19 millimeters; width 14 millim.eters ; height 7 millimeters.
Locality. — One mile west of Bear Valley, Contra Costa County, Cal.
Geologic horizon. — Lowest member of the Monterey shale, middle Miocene.
Collection. — University of California.

Genus BRISSUS Leske.

Brissus spatiosus (Ravenel).

Pericosmus spatiosus Ravenel, 1848, Ecliinidfe, recent and fossil. South Carolina, p. 4.

Heminster (Pcricosmos) spatiosus Ravenel, 1850, Am. Assoc. Adv. Sci. Proc, vol. 3, p. 160.

Brissus spatiosus McCrady, 1855, Pliocene fossils. South Carolina, p. 8, PL III, figs. 1, la-c.

Brissus spatiosus Meek, 1864, Check list, Miocene, p. 2.

Meoma ventricosa A. Agassiz, 1872, Revision of the Echini, pt. 1, p. 143.

Meoma spatiosa Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 707.

Description. — This species, which was named by Ravenel, was subsequently figured and
described by McCrady. It is regarded by A. Agassiz as a synonym of Meoma ventricosa. No
specimens have been found for the present study, and in the absence of material it is difficult to
determine the true relations of the species, althougli it may well belong to the genus Meoma.

Locality. — Tlie Grove, Cooper River, S. C.

Geologic horizon. — Duphn marl, upper Miocene.

Collection. — Unkno-\vn.

Genus METALIA Gray.

Metalia eaveneliana (McCrady).

Plagionotusravenelianus McCTudy, 1855, Pliocene fossils. South Carolina, pp. 10, 11, PI. Ill, figs. 3, 3a.

Plagionotis ravenelianus Meek, 1864, Check list, Miocene, p. 2.

Plagionotus ravenelianus A. Agassiz, 1874, Revision of the Ecliini, pt. 4, p. 751.

Plagiobrissus ravenelianus Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 707.

Description. — No material has been secured and it is therefore impossible to satisfactorily
describe tliis species. The genus Plagionotus is now regarded as a synonym of Metalia.
Locality. — The Grove, Cooper River, S. C.
Geologic horizon. — Duplin marl, upper Miocene.
Collection. — Unknown.

Metalia holmesi (McCradj^).

Plagionotus holmesii McCrady, 1855, Pliocene fossils. South Carolina, pp. 9, 10, PL III, figs. 2, 2a.

Plagionotus holmesii Meek, 1864, Check list, Miocene, p. 2.

Plagionotus holmesii A. Agassiz, 1874, Revision of the Echini, pt. 4, p. 751.

Plagiobrissus holmesi Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 707.

Description. — No material has been secured and it is therefore impossible to satisfactorily
describe this species. The genus Plagionotus is now regarded as a synonym of Metalia.
Locality. — Goose Creek, S. C.
Geologic Jiorizon. — Duplin marl, ujJiDer Miocene.
Collection. — Unknown.

PLIOCENE ECHINODERMATA.

Qass EC'HINOIDEA.

Subclass REGULAEIA ECTOBRANCHIATA.

Order DIADEMOIDEA.

Suborder ECHININA.

Family STRONGTLOCENTROTID^.

Genus STBONGYLOCENTBOTUS Brandt.

• Strongylocentkotus drobachiensis (Miiller).

Plate XCIX, figures la-c.

Description. — Two specimens have been examined from the PUoccne beds of Caloosahatchie
River that evidently belong to this common and widespread Recent species. The characters are
similar to those of hving forms, and it seems therefore that the specimens must be regarded as
representing the same species. A. Agassiz' points out the great variability in the different
individuals of the species, forms much more extreme than those of the two Pliocene specimens
studied occurring.

Dimensions. — Diameter 55 millimeters; height 27 millimeters.

Locality. — Caloosahatchie River, Fla.

Geologic horizon. — Pliocene.

Collection. — Wagner Free Institute of Science (4350).

Subclass IRREGULARIA.

Order GNATHOSTOMATA.

Suborder CliYPEASTRINA.

Family SCUTELLID.E.

Genus DENDRASTER Agassiz.

Dendraster iNTERLiNEATUs (Stimpson).

Plate C, figures 2a-b.

Scutella interlineata Stimpson, 1856, Pacific Kailroad Repts., vol. 5, pp. 153, 154. PI. IV, fig. 30.

S cutella interlineata 'Remond, 1863, California Acad. Nat. Sci. Proc, vol. 3, pp. 14, 15.

Scutella interlineata (Blake) Meek, 1864, Smithsonian Misc. Coll., vol. 7 (183), p. 2.

Scutella interlineata Gabb, 1869, Geol. Survey California Kept., Paleontology, vol. 2, p. 110.

Scutella interlineata Cooper, 1888, Cat. California fossils: State Mineralogist Seventh Rept., p. 271.

Scutella interlineata Merriani, 1899, California Acad. Nat. Sci. Proc, 3d ser.. Geology, vol. 1, No. 5, p. 169, PI. XXII,

fig. 6.
Dendraster (?) interlineatus Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 706.

Description and determinative characters. — The writer has been unable to secure for study
more than a few specimens of this species. Among these is Stimpson's type — a greatly weath-
ered and fragmentary specimen. As Merriam, on the other hand, has had considerable material
to work with, his description is here repeated:

Test pentagonal to circular, angular or truncated posteriorly, somewhat arched above; summit nearly central and
in front of the excentric apical system, specimens ranging up to over 120 millimeters in diameter.

1 Revision of the Echini, pp. 2T7-2S1.
21C

PLIOCENE ECHINODEKMATA. 217

Ambulaci'a rather broad, of unequal length, anterior three of about the same length and longer tl>an the posterior
pair. Anterior petal open at the end, the others nearly closed. Few if any pores continuing beyond the ends of the
petals.

The distance fi-om the excentric apical system to the posterior margin is to the distance to the anterior margin as
1 to 1.5. The anus is supramarginal, being separated from the margin in adult specimens by about the width of one
of the marginal interambulacral plates.

No specimens have been seen by the writer in which the ambulacral furrows are well shown. On such specimens
as show the lower side, the furrows seem to be dichotomously divided near the mouth. This agrees with Remond's
description, which also states that the furrows are not as well marked nor as much branched as in Dendraster excentricus.

The spines of the upper surface are about 1 millimeter long; they are longitudinally striated and at the distal
end are strongly swollen and obliquely truncated or bent. The spines of the lower surface are slender striated rods
about 2 to 3 millimetei-s long. The tubercles differ little in size on the upper and lower surfaces.

The internal skeleton comprises numerous in-egular pillars and plates near the margin and a pair of radial plates in
each interambulacral space.

Dimensions. — The specimens vary from small to large, ranging, according to MeiTiam, up
to 120 millimeters in diameter. The specimen figured gave: Length 56 millimeters; width 56
milUmetei's ; height 5 millimeters.

Belated forms. — D. interlineatus is very closely related to D. oregonensis. There appear to
be differences, however, which justify the separation of the two forms, to judge from the speci-
mens studied. D. oregonensis is to be distinguished by the details of its ambulacral petals. In
both the anterior and posterior paired petals the posterior poriferous zones are straight, while in
D. interlineatus all are curving, or at most only the posterior zones of the posterior pair become
nearly straight. In D. oregonensis all of the petals are weU open at the ends, the poriferous zones
converging shghtly or not at all toward the ends and diverging sharply at the ends, with several
pairs of pores occurring between the ends of the petals and the margin; while one of the most
striking characters of D. interlineatus is the curving around abruptly toward each other of the
poriferous zones so as to practically close the petals in all but the anterior petal . D. oregonensis
differs further in having less symmetrically subelUptical petals, in being relatively higher in
proportion to its width, and in ha\ang a relatively larger periproct.

D. interlineatus also resembles S . fairhanlcsi and S. gahhi; but both of these forms can be
easily distinguished by the central or sUghtly anteriorly excentric position of their apical systems,
their relatively smaller and more equal petals, and their wider marginal areas.

Locality. — In the sea cliffs about one-fourth mile above Mussel Rock (figured specimen) ;
south of Point Lobos, near San Francisco (type) ; Ano Nuevo Creek, near Felt Lake aiid in the
sea chffs between Santa Cruz and Capitola, and at Rio Dell DiUer, Cal. (Arnold).

Geologic horizon. — Merced formation, upper Pliocene.

Collections. — U. S. National Museum; University of California (19427).

Genus ASTRODAPSIS Conrad.
ASTRODAPSIS FERNANDOENSIS Pack.

Plate CI, figures 1,2.

Astrodapsis fernandoensis Pack, 1909, California Univ. Dept. Geology Bull., vol. 5, No. 18, p. 279, PI. XXIV, figs. 3, 4.
Astrodapsis fernandoensis Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 706.

Description. — As the writer has had no opportunity to study any specimens of this species,
the description of Pack will be given in full.

Test small; suboval in outline, anterior end rounded, posterior end slightly pointed; much depressed, upper
surface very slightly convex, apex central; edges rounded. Apical system central; petals extend to margin, wide
open at the end, raised near the apical system but almost flush with the surface of the test near the margin. Poriferous
zones very narrow, together forming about one-fourth the \vidth of the petal. The two posterior petals are gently
convex toward the median line through the posterior interambulacral space. A broad, shallow depression occupies
the center of the interambulacral areas; the two secondary depressions so prominent in Astrodapsis antiselli are almo.st
entirely lacking. Actinal surface gently concave, furrows poorly marked, but apparently branched as in Astrodapsis
antiselli. Anal pore submarginal, large, and oval in outline. The posterior end of the test is jM-oduced beyond the pore
to a small point, particularly noticeable in the smaller specimens. Tubercles very large, and set in well-defined pits
apparently the same on upper and lower surfaces.

218 MESOZOIC AND CENOZOIC ECHINODEKMATA OF THE UNITED STATES.

Dimensions. — Length 51 millimeters; width 39 millimeters; height 8 millimeters.

Related forms. — Judging from Pack's figures and description A. fernandoensis is very closely
allied to A. antiselli Conrad, the most notable points of resemblance being the oval outline, the
slight pointing of the posterior end, the rounded edges and the slight convexity of the upper
surface. The points of resemblance are so striking as to raise the question, whether A. fernando-
ensis ought not to be regarded as a synonym of A. antiselli; but as Pack does not state that the
margin of A. fernandoensis is very thick and as the figures suggest a greater contrast between
the elevation of its ambulacral ridges and the depth of its interambulacral depressions than
occm's in A. antiselli, decision is reserved until authentic specimens of Pack's form can be
examined.

Locality. — Elsemere Canyon, Los Angeles County, Cal.

Geologic horizon. — Fernando formation, lower Pliocene beds.

Collection. — University of California (A, B).

Family CLYPEASTRID.t:.

Genus DIPLOTHECANTHTJS Duncan.
DiPLOTHECANTHUS DALLi Twitchell, n. sp.
Plate XCIX, figures 2a-b; Plate C, figures la-b.

Determinative characters. — Test large; pentagonal in marginal outline, longer than broad,
broadest opposite the ends of the anterior petals, pointed anteriorly, posterior end truncated
centrally; upper surface irregularly convex, high, highest back of center, whence sloping gently
and in a straight line to the blunt, tumid anterior edge and quite steeply and in a straight line to
the thinner, wedge-shaped posterior etlge ; inider surface deeply concave, the concavity beginning
near the margin and increasing at first gradually then rapidly to the center. Ambulacral petals
large, broad, very tumid, almost reaching the margin, nearly closing, the posterior pair slightly
longer than the odd petal which is slightly longer than the anterior pair. Apical system central,
sloping downward anteriorly; five genital pores a short distance from the slightly depressed
madreporite. Peristome large, slightly excentric posteriorly, subpentagonal, deeply sunken ;
ambulacral furrows simple, straight, reaching the margin. Periproct rather large, subcircular;
inframarginal, almost marginal.

Dimensions. — Length 112 millimeters; width 92 millimeters; height 50 miUkneters.

Description. — Only a few specimens of this handsome clypeastroid form have been dis-
covered. The test is large; pentagonal in marginal outline, the corners of the pentagon being
rounded and the sides straight or faintly concave; longer than broad, broadest opposite the ends
of the anterior petals, pointed anteriorly, posterior end truncated centrally; margin very thick
and rounded opposite the petals, thinner between them, thinnest along the wedge-shaped pos-
terior edge. 'The upper surface is irregularly convex, high, relatively higher than in other
American clypeastroid forms. The apex is slightly excentric posteriorly, being located at the
posterior part of the apical system from which point the upper surface slopes gently (the angle
being about 30° from the horizontal) , and in a straight line to the wedge-shaped posterior margin.
The outline along a longitudinal median section is therefore angular at the apex. The under
surface is strongly concave; the concavity beginning near the margin and increasing gradually
for about half the way, then very rapidly for the rest of the way to the deeply sunken peristome,
where it is about one-half the height of the test. The rapid increase in the concavity begins
somewhat farther from the anterior end than it does elsewhere.

The ambulacral areas are wide, the dorsal portions petaloid. The petals are very large and
conspicuous, broad, very tumid, almost reaching the margin, nearly closed at the ends, the pos-
terior pair slightly longer than the otld petal which is slightly longer than the anterior pair. The
poriferous zones are wide, narrowing and converging rapidly at the ends so as to almost com-
pletely inclose the interporiferous area, the inner row of pores notably higher than the outer row;
pores round, subequal, pairs of pores conjugated. The interporiferous areas are very wide, very
tumid, the inner portions uniting to form a narrow tumid ring around the madreporite.

PLIOCENE ECHINODEEMATA. 219

The interambulacral areas are narrow throughout their whole length, though wider between
the ends of the petals than elsewhere, much narrower than the ambulacral areas. The whole
surface of the test is thickly set with small tubercles which are somewhat larger on the under
surface.

The apical system is central, sloping downward anteriorly from the apex ; the madreporite
large, pentagonal, slightly depressed. There are five genital pores situated a short distance
from the madreporite; and there are five small radial plates at the edge of the madreporite, per-
forated by minute pores.

The peristome is large, subpentagonal, slightly excentric posteriorly at the deepest point
of the deep concavity on the under surface. The ambulacral furrows are simple, straight
shallow grooves extending from the peristome almost to the margin, which are deeper midway
than toward the peristome.

The periproet is rather large, circular, inframarginal, almost marginal.

Related forms. — B. (?aZZi is very closely related to the recent American form generally known
as Echinanihus rosaceus (which, if Duncan be followed, sliould be Diplothecanthus rosaceus),
differing from it chiefly in being. relatively higher, in having tlie apex slightly excentric posteriorly
and angular, with a straighter slope anteriorly and a steeper slope posteriorly, in having the
apical system sloping downward anteriorly, and in having tlie interporiferous areas more tumid
and coalescing around the madreporite. D. dalli rather closely resembles in many features the
foreign forms Clypeaster crassicostatus ' Agassiz, from the Miocene of Austria-Hungary, Italy,
and Corsica, but differe from it in being less elongate longitudinall}' and more elevated, in hav-
ing more difference between its anterior and posterior slope, and in having its petals broader,
slightly less open and somewhat longer.

Locality. — Near Fort Thompson, Caloosahatchee River, Fla.

Geologic horizon. — Caloosahatchee marl, PUocene.

Collection.— U. S. National Museum (164670). Collected by W. H. Dall, after whom the
species is named.

Diplothecanthus rosaceus (Lamarck).

Plate CXI, figures la-b; Plate CIII, figures la-b

Echinus retindatus Linne, 1758, Systema naturse, p. 3191.

Clypeaster rosaceus Lamarck, 1840, Animaux sans vertfebres, 2d ed., p. 289.

Echinanthus rosaceus A. Agassiz, 1872, Revision of the Echini, pp. 106, 311, 514.

Description. — This well-known recent species is so fully described elsewhere it is needless
to give a detailed description here. The specimen here figured was reported as found in the
Pliocene deposits of Florida. The test is very large; pentagonal in marginal outline, the corners
of the pentagon being rounded and the sides and posterior end slightly concave; somewhat
longer than broad, pointed anteriorly; margin thick and rounded opposite the petals, less so
between them. The upper surface is convex, moderatelj^ high, of uniform height at the highest
parts of each of the petals. The apex is central, coincident with the apical system, and the
upper surface is nearly level for nearlj' an inch out from the center in rather steep curves along
the ambulacral areas and in steep nearly straight fines along the interambulacral areas to the
margin. The outline along a longitudinal median section is nearly level for the central third
of the length of the test whence it slopes nearly equaUy to each end. The under surface is
nearly flat around the margin and rather strongly concave around the peristome, where it is
less than one-half the height of the test.

The ambulacral areas are very wide, the dorsal portions petaloid. The petals are very
large, very broad, moderately tumid, well apart at the ends, subequal in length. The poriferous
zones are very wide, the inner row of pores moderately elevated above the outer.

The interambulacral areas are very narrow, especiaUy at the margin, where they are only
about one-third as -wide as the ambulacral areas.

' See Michelin's Monographie des Clyp&stres, p. 115, PI. XVII, figs. la-f.

220 MESOZOIC AND CENOZOIC ECHINODEEMATA OF THE UNITED STATES.

The apical system is central, coincident .with the apex, about on a level with the highest
portions of the ambulacral petals. The specimen is too weathered to permit of making out
the details.

The peristome is large, subpentagonal, central, at the deepest point of the concavity on the
under surface. The ambulacral furrows are simple, straight shallow grooves extending from
the peristome nearly to the margin.

The periproct is large, circular, inframarginal, almost marginal.

Dimensions. — Length 134 millimeters; width 116 miOimeters; height 50 miUimeters.

Related jorms. — It is unnecessary to discuss here the related recent forms. The nearest
fossil form is Diflothecanthus dalJi, which is to be distinguished by being relatively higher, in
having the apex slightly excentric posteriorly and angular, with a straighter slope anteriorly
and a steeper slope posteriorly, in having the apical system sloping downward anteriorly, and
in having the interi^oriferous areas more tumid and coalescing around the madreporite.

Locality. — Near LabeUe Landing, Caloosahatchee River, Fla.

Geologic horizon. — Pliocene (?).

Collection. — U. S. National Museum (16569.3).

Order ATELOSTOMATA.

Suborder ASTERNATA,

FamUy CASSIDULID^.

Genus CASSIDTJLTIS Lamarck.

Cassidulus berryi Twitchell, n. sp.

Plate CI, figures 3a-d.

Determinative characters. — Test small, subcircular in marginal outline; upper surface much
dej^ressed, convex; sides and ends equally and gently dechning; margin angular, posterior end
rostrated; under surface concave, more so anteriorly around the peristome. Apex central;
apical system excentric anteriorly. Ambulacral areas rather broad in petaloidal dorsal portions,
very narrow above the margin. Peristome small, anteriorly excentric, pentagonal, with a
floscelle. Periproct oval, supramarginal, in a short, shallow sulcus.

Dimensions. — Length 2S millimeters; width 27 millimeters; height 11 millimeters.

Description. — The only specimen of this species so far reported was found recently in North
Carolina by E. W. Berry, of Johns Hopkins University, in whose honor the species is named.
Unfortunately, the specimen is damaged, so that a number of important details can not be made
out; but the characters which can be made out prove it to be distinct from the other American
representatives of the genus. The test is small, about an inch in diameter; subcircular in
marginal outline, the longitudinal diameter slightly exceeding the transverse. The upper sur-
face is much depressed, convex, sides and ends equally and gently dechning; margin rather
sharply angular all aroimd ; posterior end rostrated and faintly notched beneath the periproct;
under surface concave, more so anteriorly around the peristome than elsewhere. The apex
is central.

The ambulacral areas are rather broad in the petaloid dorsal portions, very narrow above
the margin and actinally; the. petals are rather broad, subeUiptical, subequal in length, nearly
closing at the ends. Tlie details are obscure.

The apical system is excentric anteriorly. Tlie details can not be made out on the specimen.

The peristome is small, anteriorly excentric, beneath the apical system, pentagonal, with a
floscelle having prominent bourrelets.

The periproct is oval, longitudinally elongate, supramarginal, in a short, rather wide, shal-
low sulcus, which extends to and faintly notches the posterior margin.

PLIOCENE ECHINODEBMATA. 221

Related forms. — The nearest related American form is Cassidulus hassleri, from which it is
readily distinguished by its more depressed form, its angular margin, and the anteriorly excentric
position of its peristome.

Locality. — Neills Eddy Ijanding, Cape Fear River, N. C.

Geologic liorizon. — Waccamaw mai-1, Phocene.

Collections. — U. S. National Museum; Johns Hopkins University (T 1).

Suborder STERNATA.
Family SPATANGID^.

Genus SCHIZ ASTER Agassiz.

ScHiZASTER (?) STALDEEi Weaver.

Plate cm, figure 2.

Schizaster (?) stalderi Weaver, 1908, California Univ. Dept. Geology Bull., vol. 5, No. 17, p. 274, PL XXI, fig. 3.
Schizaster stalderi Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 705.

Description. — Weaver says :

Test distinctly cordate in form, with all of the petals deeply sunken. The depression of the anterior petal deeply
notches the anterior margin. The petals of the hivium are very short. The mouth opening is situated very far for-
ward. The anal opening is not shown. As all of the known specimens are casts, the nature of the plates of the test is
only imperfectly shown.

Dimensions. — Maximum length 30.5 millimeters; maximum widtli 28 millimeters.
Locality. — Humboldt County, Cal.
Geologic horizon. — Wildcat series of Ijawson, Pliocene.

Collection. — University of California. '

39800°— 15 15

PLEISTOCENE ECHINODERMATA.
Class STELLEROIDEA.
Subclass ASTEROIDEA.
Order CRYPTOZONIA.

Family ASTERIIDiE.
Genus ASTEBIAS Linne.
ASTERIAS STELLIONUEA Poiret.
Asterias stellionura Sears, 1905, Physical geography, etc., Essex County, Mass., pp. 369, 370.

Description. — Sears describes the discovery in 1903 in the Richard Graham clay pit at
Lynn, Mass., of a thick bed of fossil starfish, material from which was collected and sent to
A. E.Verrill, of Yale University, for identification. Of the two forms fomid one is miqu&stionably
referred to A. stellionura. Verrill states that "the pedicellariae, both major and minor, are
remarkably well preserved and very characteristic," and that "it is a very arctic species, com-
mon at Spitzbergen and the northern Norwegian coasts."

Locality. — Richard Graham clay pit, Lynn, Mass.

Geologic horizon. — Pleistocene.

Collection. — Peabody Museum, Salem, Mass.

Asterias lincki Miiller.

Astemcanthion lincki Sears, 190.5, Physical geography, etc., Essex County, Mass., pp. 369, 370, fig. 202.
Description. — Verrill says:

The pedicellariae, both major and minor, are remarkably well preserved and very characteristic. On theAstera-
canthion the latter form large and dense clusters around all the spines. The same appears in your fossils. The major
ones are very large, ovate, subacute, especially along the adambulacral plates, but also many of the dorsal surfaces as
in your examples. Dorsal plates are very delicate and form a slender network. Adambulacral spines are small and
slender, tapered, acute, and a large tubed spine stands siiigly back of every fourth or fifth plate (sometimes third or
fourth) as in yours. In all of these characters and others it differs from A. vulgaris.

Locality. — Richard Graham clay pit, Lynn; Liberty Street, Dan vers, Mass.

Geologic Tiorizon. — Pleistocene.

Collection. — Peabody Museum, Salem, Mass.

Class ECHINOIDEA.

Subclass REGULARIA ECTOBRANCHIATA.

Order DIADEM OIDEA.

Suborder ECHINTNA.

Family TRIPLECHINID.^.

Genus TOXOPNETJSTES A. Agassiz.

ToxoPNEUSTES VARiEGATUs (Lamarck).

Echinus variegatus Holmes, 1858, Post-Pliocene fossils South Carolina, PI. II, fig. 1.
Anapesus carolinus Holmes, 1858, Post-Pliocene fossils South Carolina, PI. II, fig. 2.
Toxopneustes variegatus A. Agassiz, 1872, Revision of the Echini, p. 168.

Description. — A. Agassiz regards the form referred by Holmes to Anajyesus carolinus as
T. variegatus. No material has been available for study.

Locality.— Simmons Bluff, St. Paul's, Wando, and Charleston, S. C. (Holmes).
Geologic horizon. — Pleistocene.
Collection. — Unknown.
222

PLEISTOCENE ECHINODEEMATA. 223

Family STRONGYLOCENTROTID,*!.

Genus STRONG YLOCENTBOTXJS Brandt.

Stkongylocentrotus drobachiensis Miiller.

(?) Echinus granulahi-s, Billings, 1856, Canadian Naturalist and Geologist, 1st ser., vol. 1, p. 346.
Slrongylocentrotus drobachiensis Verrill, 1875, Am. Jour. Sci., 3d ser., vol. 10, p. 375.
Strongylocentrotus drobachiensis Cooper, 1894, California Min. Bur. Bull. 4, p. 32.

Description. — Fragments of tests and spines regarded as representing this species have been
reported from Pleistocene deposits from Nantucket northward and also in California.

Localities. — Canada (Billings); Sankaty Head, Nantucket, Mass. (Verrill); San Nicolas
Island, Cal. (Burns).

Geologic horizon. — Pleistocene.

Collection. — Unknown.

Strongylocentrotus franciscanus A. Agassiz.

Strongylocentrotus franciscanus Arnold, 1903, California Acad. Sci. Mem., vol. 3, p. 90.
Strongylocentrotus franciscanus Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 706.

Description. — Arnold in discussing the occurrence of this species in the Pacific coast Pleis-
tocene says:

This is the large aea urchin of the west coast. Spines which are probably of this species have been found in the
lower San Pedro series of Deadman Island. The spines of this species are distinguishable by their large size and longi-
tudinal striations. Some of the spines found are 20 millimeters long and 3 millimeters in diameter.

Locality. — San Pedro, Cal.

Geologic horizon. — San Pedro formation (lower part), Pleistocene.

Collection. — Leland Stanford Junior University.

Strongylocentrotus purpuratus (Stimpson).

Strongylocentrotus purpuratus Arnold, 1903, California Acad. Sci. Mem., vol. 3, pp. 90, 91.
Strongylocentrotus purpuratus Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 707.

Description. — Arnold, who mentions the discovery of spines of this species in the Cali-
fornia Pleistocene, says:

Numerous spines of this small purple sea urchin have been found in the San Pedro series. No part of the test
ha.s ever been discovered in these deposits, to the writer's knowledge, Several nearly perfect tests of this species were
found in the Pleistocene (lower San Pedro series) deposits at the bathhouse, Santa Barbara. A nearly perfect test
was also found in the upper horizon of the San Diego formation (Pleistocene (?) ) at Pacific Beach, near San Diego.

Localities. — San Pedro, Santa Barbara, and San Diego, Cal.

Geologic horizon.— San Diego formation (upper part), PHocene; San Pedro formation
(lower part), Pleistocene.

Collection. — Leland Stanford Junior University.

Subclass IRREGULARIA.

Order GNATHOSTOMATA.

Suborder CLYPEASTRINA.

Family SCUTELLID.*;.

Dendraster excentricus (Eschscholtz) .

Plate CIV, figures la-d; Plate CV, figures la-d.

Scutella striatula De Serres, 1829, G6ognosie terr. tert. du midi de France, p. 156.

Scutella excentrica Eschscholtz, 1831, Zool. atlas, p. 19, PI. XX, figs. 2, 2a, 2b.

Echinarachnius excentricus Valenciennes, 1846, Voyage Venus, Zooph., PI. X.

Dendraster excentricus L. Agassiz, 1847, Cat. raisonne des ^chiuodermes, Soc. Nat. Ann., vol. 7, p. 135.

Dendraster excentricus Gray, 1855, Cat. Recent echinoderms, p. 16.

Dendraster excentricus Stimpson, 1857, Boston Soc. Nat. Hi.st. Jour., vol. 6, pp. 520-527.

224 MESOZOIC AND CENOZOIC ECHINODEEMATA OF THE UNITED STATES.

Scutella striatula Conrad, 1857, U. S. Pacific R. R. Expl. 32d Par. and California, vol. 7, pi. IX, figs, la, lb; non

Dendraster excentricus Dujardin and Hupe, 1862, Hist. nat. zoophytes ^chinodermes, p. 564.

Scutella striatula Meek, 1864, Smithsonian Misc. Coll., vol. 7 (183), p. 2.

Scutella striatula Gabb, 1869, California Geol. Survey. Paleontology, vol. 2, p. 110.

Scutella (Echirmrachnius) excentricus A. Agassiz, 1S72, Revision of the echini, Mus. Comp. Zoology Illus. Cat. No. 7,

pp. 107, 524-526. PI. Xllla, figs. 1 to 4.
Echinarachnius excentricus Cooper, 1888, Cat. California fo.ssils: State Mineralogist Seventh Rept., p. 271.
Echinarachnius excentricus Gregory, 1891, Geol. Soc. America Bull., vol. 3, p. 107.
Echinarachnius excentricus Memam, 1899, California Acad. Sci. Proc, 3d ser.. Geology, vol. 1, No. 5, p. 170, PL XXiI,

fig. 8.
Scutella {Echinarachnius) excentricus Arnold, 1903, California Acad. Sci. Mem., vol. 3, p. 91.
(?) Echinarachnius excentricus Eschscholtz var. Arnold, 1907, U. S. Geol. Survey Bull. 322, PI. XXIV, fig. 8. [This

is probably a vai'iant form of Dendraster gibbsii.)
Scutella striatula Schuchert, 1908, U. S. Nat. Mus. Bull. 53, pt. 1, p. 594.

Echinarachnius excentricus Pack, 1909, California Univ. Dept. Geology Bull., vol. 5, No. 18, pp. 2?1-2S2.
Dendraster excentricus Stefanini, 1911, Soc. geol. italiana Boll., vol. 30, p. 707.

Determinative characters. — Test medium to large; subcircular to broadly subovate in margi-
nal outline, broader posteriorly than anteriorly; upper surface gi-eatly depressed around the
margin, more or less tumid centrally; margin thin; under surface flat. Apex central or sub-
central. Apical system excentric posteriorly; from one-fourth to one-third the radius from
the center. Ambulacral petals large; posterior pair shorter than the others, less divergent,
equally divergent, or slightly more divergent than the anterior pair. Peristome small, circular,
central or subcentral; ambulacral furrows fork near the peristome, the branches at first diverg-
ing then converging shghtly, each giving off one important and many small branches on the way
to the margin. The stronger branches continue abactinally, but they are rarely discernible
on fossil specimens. Periproct very small, circular or subeUiptical, inframarginal.

Dimensions. — Specimen A: Length 83 millimeters; width S.3 millimeters; height 12 milli-
meters. Specimen B: Length 97 millimeters; width 105 millimeters; height 19 millimeters.

Description. — This well-knowm Recent form, abundant on the Pacific coast, is so fully
described in other works, that it is necessary to give here onty the special points of interest in
regard to the fossil specimens. Most of these have already been given in the determinative
characters, but a few additional details will be presented. The size varies from less than 2 to
more than 4 inches in diameter and less than one-fourth to about 1 inch in height. In marginal
outline the smaller forms are usually subcircular while the large ones are usually broadly subovate
and broader than loiag. The apex is usually between the center and the apical system, but is
sometimes central or shghtly excentric anteriorly. The area between the ends of the petals
and the margin is wider than in forms which resemble this. The under surface is flat or shghtly
concave.

The ambulacral areas are wide, widest at the margin, where they are wider than the inter-
ambulacral areas; dorsal portions petaloid, the petals somewhat variable in details. The petals
are large, the anterior three longer than the posterior pair, the odd petal longer than the anterior
paired petals, though sometimes appearing of equal length or shorter by reason of the shortening
of the distance between the pairs of pores of the poriferous zones for a greater or less distance
from the end of the petal. The anterior paired petals are straight or nearly so and more widely
divergent or equally divergent or shghtly less divergent than the posterior pair. The posterior
pair is usually less widely divergent and the ]5oriferous zones of each petal are less widely diver-
gent than in similar forms. The interporiferous areas of all the petals are rather wide and some-
what tumid.

The apical system is excentric posteriorly, being situated from one-fourth to one-third the
distance from the center to the posterior margin ; the madreporite is large and substellate with
four genital pores at the anterior points of the star, the two anterior nearer together than the
two posterior. There are also five small radial plates each perforated by a minute pore.

The peristome is central or slightly excentric posteriorly. The ambulacral furrows are simple
and straight for a very short distance from the peristome, then fork nearly symmetrically into

PLEISTOCENE ECHINODEEMATA. 225

two strong furrows which diverge for a short distance then converge slightly and continue
nearly to the margin, giving off one large and many small branches on the way. Near the
margin the large furrows sjjlit up into many small ones which on weU-preserved fossil specimens
and in recent specimens can be seen to continue over the margin and on the upper surface for a
considerable distance.

The periproct is very small, usually circular, but sometimes subelliptical by longitudinal
elongation; situated from 1 to 10 millimeters from the posterior border, being more distant in
the large specimens.

Related forms. — D. excentricus is closely related to both D. coalingaenms and D. gibhsii.

D. coalingaensis differs in behig smaller, more uniformly depressed and therefore less tumid
centrally, in having its apex more excentric posteriorly and more nearly coincident with the apical
system and its pei-iproct usually nearer the margin. The features in which D. coalingaensis
resembles D. excentricus are so fundamental as to suggest that it is probably an ancestral form.
D. gihhsii differs from D. excentricus in having its apex and apical sj'stem much more excentric
posteriorly, its posterior ambulacral petals more widely divergent and with poriferous zones
also diverging more widely from each other as well as differing more in length and its peri])roct
usually nearer the posterior border. There do not appear to be any foreign forms closely related
to the present species.

Localities. — San Diego (figured specimen A) ; Ventura County (figured specimen B) ; San
Luis Obispo (Conrad's type); Riverside County; San Pedro (Cooper, Arnold), Santa Barbara
(Gabb, Arnold); Seven Mile Beach, San Mateo County (Cooper); San Fernando, Los Angeles
Cormty (Cooper); all in California.

Geologic horizon. — San Pedro formation, Pleistocene.

Collections. — Wagner Free Listitute of Science (2473, A); U. S. National Museum; Yale
University; California Academy of Natural Sciences; Johns Hopkins University (T 2, B).

Genus MELLITA Agassiz.

Mellita pentapora (Gmehn).

Plate CVI, figure 1; Plate CVII, figures la-c.

Echinus pentaporus Gmelin, 1788, Linne, Systema naturae, vol. 1, pt. 6, p. 3189.

Mellita testudinata Klein, 1734, Nat. disp. Echinodermata, p. 25, PI. XXI, fig. C, D. (Copied in Enc. M., PI. CXLIX,

figs. 3, 4.)
Scutella quinquefora Lamarck, 1816, Animaux sans vertebres, p. 9.
Scutella quinquefora Lamarck, 1840, Animaux sans vertlbres, 2d ed., p. 280.

Mellita testudinata Agassiz, 1841, Mon. echinodermes vivans et fossiles, Des scutelles, p. 40, PI. IV, figs. 7-9.
Mellita quinquefora Agassiz, 1841, Mon. echinodermes vivans et fossiles, Des scutelles, p. 36, PI. III.
Mellita ampla Holmes, 1847? MS.

Mellita ampla Raveuel, 1848, Echinidae, recent and fossil. South Carolina, p. 2.
Mellita ampla Tuomey, 1848, Rept. Geology South Carolina, p. 205.
Mellita ampla Ravenel, 1850, Am. Assoc. Adv. Sci. Proc, vol. 3, jj. 160.
Mellita ampla Michelin, 1855, Soc. geol. France Bull., 2d ser., vol. 12, p. 759.
Mellita texana Conrad, 1856, Acad. Nat. Sci. Philadelphia Proc, vol. 8, p. 316.
Mellita testudinata Desor, 1858, Synopsis des echinodermes fossiles, p. 237.
Mellita ampla Michelin, 1858, Rev. et mag. zool., 2d ser., vol. 10, pp. 362, 363, PL IX, fig. 1.
Mellita quinquefora var. ampla Holmes, 1860, Post-Pliocene fossils South Carolina, pp. 3, 4, PL I, fig. 6.
Mellita ampla, Dujardin and Hupe, 1862, Hist. nat. zoophj-tes echinodermes, p. 567.
Mellita pentapora Liltken, 1864, Bid. til Kunds. om Echinodermes, Vidensk. Medd. Kj0benhavn.
Mellita texana Meek, 1864, Smithsonian Misc. Coll., vol. 7 (183), p. 2.
Mellita testudinata Agassiz, 1872, Re-\-ision of the Echini, pp. 141, 142.

Mellita testudinata Hilgard and Hopkins, 1878, Rept. Com. Engineers of Jan. 1875; suppL, pp. 23-33, 49, PL III, fig. 12.
Mellita pentapora Clark, 1902, U. S. Fish Com. Bull., p. 565, PL X.
Mellita ampla Stefanini, 1911, Soc. geol. itaUana Boll., vol. 30, p. 708.

Determinative cliaracters.— Test medium to very large; subpeutagonal in marginal outhne,
broadest opposite anterior paired petals; five long narrow lunules equal or subequal in length;
margin thin, with a shallow notch at the anterior end ; the whole form much depressed, the upper

226 MESOZOIC AND CENOZOIC ECHINODEKMATA OF THE UNITED STATES.

surface rising gradually from the margin to the moderately elevated, anteriorly cxcentric apex;
under surface flat. Ambulacral petals large, the posterior pair longer than the others. Apical
system excentric anteriorly. Peristome small, subcircular, excentric anteriorly; ambulacral
furrows simple and straight near the peristome, then forking, each pair of branches diverging
and again converging near the margin. Periproct very small, elliptical, between the inner end
of the odd lunule and the peristome.

Dimensions. — Figured specimen, one of the largest found: Length 152 millimeters; width
159 millimeters; height 19 millimeters. Smaller specimen; Length 106 millimeters; width 111
millimeters; height 12 milUmeters.

Description. — The specimens herein described are believed to be representatives of the
recent species Mellita penta/pora (Gmelin) which has been known under the names of M. testu-
dinata Klein and M. quinquefora Lamarck. Evidently, as Holmes recognized, the conditions
were especially favorable to development along the South Carolina coast during Pleistocene
time, a fact which is shown by the large size of the molluscan forms as well as by the Echinidse.

As this well-known recent species is fully described in other works, it is necessary to give
here only the special points of interest in regard to the specimens occurring as fossils. Conrad's
species Mellita texana, of which what is probably the type is in the collection of the Academy
of Natural Sciences of Philadelphia, presents no marked and constant points of difference
from the recent species and therefore can not be recognized. Holmes's variety ampla is not
entitled to separate recognition and description, as, aside from the unusual size of the South
Carolina specimens, there are no decided and constant differences. Some specimens of the
so-called variety ampla present differences in regard to the lunules which make them appear
varietal in value, but a careful study of the large number of specimens in the collections of the
United States National Museum and the Johns Hopkins University has demonstrated that
the form of the lunules is so variable as to be unsafe as a feature for separation. This
species is very abundant and occurs in a beautiful state of preservation at a few localities in.
South Carolina, but is rare elsewhere. Most of the important features of the test have been
set forth in the determinative characters, but a few additional details will be given here. The
size of the fossil forms from South Carolina is very great, ranging from 4 to 7 inches in diame-
ter and from i to | inch in height, while those from Texas are rather small, being between 2 and
3 inches in diameter, which is about the same as that of the average recent forms. The test is
usually sUghtly broader than long. The margin is truncated and especially thin posteriorly.
The lunules are long narrow slits of about the same width from end to end, bluntly rounded
at the ends, the length and width quite variable even on the same specimen, the odd posterior
lunule usually wider .and of equal length or slightly longer or shorter than the rest; the average
length in the South Carohna forms is about 1 inch and the width one-eighth of an inch. The
petaloid region is large; the petals are long and wide, subelliptical to subspatulate in form,
extending about halfway to the margin, well open at then' ends, vnth very broad poriferous
zones which about equal in ^vidth the interijoriferous areas. The apical system is large; madre-
porite large and stellate; four genital pores at the tips of the points of the star, the two pos-
terior farthest apart; five small pores at inner ends of reentrant angles of the star. The main
branches of the ambulacral furrows ai'e more or less flexuous and each branch gives off one
important lateral branch as it bends to approach the margin. The undersurface, though flat
in general, has shallow grooves along the middle of each ambulacrum.

Related forms. — The only American fossil form which is closely related to the present
species is Mellita caroliniana which, however, is readily distinguished by its having a sixth
lunule in the middle of the anterior ambulacrum, by having its ambulacral lunules nearer the
margm and its posterior paired lunules longer than the anterior pair; and having the relative
height of its test less than in M. pentapora.

Localities. — Simmons Bluff, Youngs Island, Wadmalaw Sound, S. C; Brunswick Canal,
Glynn County, Ga. ; Texas ( ?).

Geologic horizon. — Pleistocene.

PLEISTOCENE ECHINODEKMATA. 227

Collections. — Johns Hopkins University (T 2, T 4); American Museum of Natural History;
U. S. National Museum; Wagner Free Institute of Science; Academy of Natural Sciences of
Philadelphia.

Order ATELOSTOMATA.

Suborder STERNATA.

Family SPATANGID^.

Genus SCHIZASTER Agassiz.

ScHizASTER ATROPOS (Lamarck).

Schizaster atropos Ravenel, 1848, Echinidse, recent and fossil, South Carolina, p. 4.
Schizas'er atropos Holmes, 1858, Post-Pliocene fossils South Carolina, pp. 5, 6, PL II, fig. 3.
M(em lachesis Desor, 1858, Synopsis echinides fossOes, p. 394.
Schizaster atropos A. Agassiz, 1874, Revision of the Echini, p. 751.

Description. — No material has been found that can be referred to this species.
Locality. — Abbapoola Creek, Johns Island, S. C. (Holmes).
Geologic Jiorizon. — Pleistocene.
Collection. — Unknown.

PLATES.

39800°— 15 16 220

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE I

la

lb

2a

2c

r ' 1: "■»>

/>/tli::/i.-—

r--

J
^ ^

*v »-

--N^'

J

TRIASSIC CRINOIDEA AND ECHINOIDEA.

PLATE I.

IsocRiNUS sMiTHi Claik, n. sp. (p. 21).

U. S. Nat. Mus. 31184, type.

Figure la. Articular surface of a detached joint of the column, X 4.
lb. Lateral view of a detached joint of the column, X 4.

ISOCRINUS CAUFORNICUS Claik, 11. sp. (p. 21).

U. S. Nat. Mus. 31185, type.

Figure 2a. Articular surface of a detached joint of the column, X 6.
2b. Lateral view of a portion of the column, X 6.
2c. Several specimens of column joints.

Encrinus hyatti Clark, n. sp. (p. 22).

U. S. Nat. Mus. 31186, type.

Figure 3a. Articular surface of a detached joint of the column, X If.
3b. Lateral view of a portion of the column, X If.

AsPiDURA (?) iDAHOENSis Clark, 11. sp. (p. 23).

U. S. Nat. Mus. 31187, type.
Figure 4. Cast of two specimens.

CiBARis SHASTENsrs Clark, n. sp. (p. 2.3).

U. S. Nat. Mus. 31188, type.

Figure 5. Fragment of interambulacral plate, X 3.

CiDARis DiLLERi Clark, n. sp. (p. 23).

U. S. Nat. Mus. 31189, type.
Figure 6. Portion of test.
230

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE I

JURASSIC CRINOIDEA.

PLATE II.

IsoCRiNUS KNiGHTi Springer (p. 25).

U. S. Nat. Mus. Springer A-H, type. (After Springer.)

Figure 1. Large specimen A; with bifurcating arms complete and i>art of stem; cirri mostly lost,
la. Syzygy at IIIBr 79+80 of same specimen.

2. Large specimen, B, with stem 140 millimeters, and part of arms. Some arms of another individual

attached.
2a. Detail of stem at "a" of same specimen, showing interarticular pores, X 2.
2b. Detail of same at "b", showing cirrus sockets, X 2.

3. Small specimen, C, with part of arms, some not bifurcating.

3a. Calyx and lower IIIBr of same specimen, showing form and proportions of basal and radial plates, X 2.

4. Small specimen, D, with part of arms, one with an axillary, and some apparently simple.

5. Small specimen, E, with two arms simple and one bifurcating at 23d IIIBr, stem detached, exposing

infrabasals.
5a. Basal view of same specimen, showing infrabasals, X 4.
6-8. Portions of different stems, F, G, H, showing cirri.

7a. The longest cirrus on specimen G, X 2.
9-13. Weathered stem joints associated with the other specimens: 9, 10, 11 are mature inlernodals: 12 is the
proximal face of a nodal incised by the cirrus sockets; 13 is a deeply stellate joint from the youngest part
of the stem; all X 2.

231

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE III

^^

;^af

-JS

£^

£^^1^

s

3c

^Ji

.,^r.

JURASSIC CRINOIDEA AND STELLEROIDEA.

PLATE III.

IsocRiNUS KNiGHTi Springer (p. 25).
U. S. Nat. Mus. 682.

Figure la. Column with attached piiinule.s.

lb. Articular .surface of a detached joint of the column, X 4.

Ic. Lateral view of a portion of the column, X 4.

Id. Enlarged pinnule, X 2.

Pentaceinus asteriscus Meek and Hayden (p. 26).
II. S. Nat. Mus. 220, type. (After Meek and Hayden.)
Figure 2. Upper surface of a detached joint, X 5.

Pentacrinus whitei Clark (p. 27).

U. S. Nat. Mus. 8588, type.

Figure 3a. Articular surface of a detached joint of the column, X 2.
3b. Same, X 2.
3c. Lateral view of a portion of the column.

Pentaceinus shastensis Clark, n. sp. (p. 2S).

U. S. Nat. Mus. 31180, type.

Figure -1. Articular .surface of a detached joint of the column, X 3.

Ophioglypha utahexsis Clark, n. sj). (p. 29).

U. S. Nat. Mus. 22839, tyi^e.

Figure 5. Upper surface of specimen, X 3.

Asterias (?) DUBiuM Whitfield (p. 28).

U. S. Nat. Mus. 12325, type.

Figure 6. Gutta-percha cast of three individuals.
232

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE IV

Ic

4b

1 1

4d

JURASSIC ECHINOIDEA.

PLATE IV.

CiDAKis cALiFORNicus Clark (p. 30).

II. S. Nat. Mus. 30184, tyi>e.
Figure la. Spine,
lb. Same.
Ic. Articular surface of lb, X 2.

CiDARIS TAIXOKENSIS Clark (j). 30).

U. S. Nat. Mus. 30183, tyjje.

Figure 2a. Fragment containing two contiguous interambulacral plates of tlie same series.
2b. Spine.

CiDARIS PLUMASENSIS Clark, 11. sp. (p. 31).

U. S. Nat. Mus. 31191, type.
Figure 3. Portion of interambulacral area.

Hemicidaris intumescens Clark (j). 31).
U. S. Nat. Mus. 30187 and 30188, types.

Figure 4a. Upper surface of the test. Partly restored.
4b. Lower surface of the test. Partly restored.
4c. Lateral view of the same. Partly restored.
4d. Two interambulacral plates, X 5.
4e. Lower portion of interambulacrum, X 5.
4f. Upper portion of the same, X 5.
4g. Portion of ambulacrum, X 4.
4h. Tubercle from above, X 8.
4i. Lateral view of the same, X 8.

233

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE V

Id

2e

2d

le

^«^^£^.

JURASSIC ECHINOIDEA.

PLATE V.

PsExnJODiADEMA EMERSONi Clark (p. 32).

U. S. Nat. Mus. 30186, type.

Figure la. Lateral surface of the test.

lb. Portion of interambulacrum, X 3.
Ic. Portion of ambulacrum, X 3.
Id. Tubercle from the side, X 5.
le. The same from above, X 5.

Stomechinus hyatti Clark (p. 33).

U. S. Nat. Mus. 30185, tyije.

FiGURK 2a. Lateral surface of the test, slightly distorted.
2b. Portion of ambulacrum, X •!.
2c. Portion of interambulacrum, X -1.
2d. Tubercle from above, X 8.
2e. The same from the side, X 8.

HoLECTYPUs PEALEi Clark, n. sp. (p. 33).

U. S. Nat. Mus. 31192, type.

Figure 3a. Lateral surface of the test.
3b. Upper surface of the test.

HoLECTYPUS CRAGiNi Clark, 11. sp. (p. 34).
U. S. Nat. Mus. 31193, type.

Figure 4. Upper surface of the test.
234

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE VI

CRETACEOUS CRINOIDEA.

PLATE VI.

Pentacrinus tehamaensis Clark, n. sj). (p. 35).

U. S. Nat. Mus. 31194, type.

Figure 1. Articular surface of a detached joint of the column, X 2.

Pentacrixus bryani Gabb (p. 35).

Acad. Nat. Sci. Phila.ldphia 145S, type.

Figure 2a. Lateral view of a portion of a joint colnmn.
2b. Articular surface of the column.

Uintacrinus socialis GiimioU (j). 36).

Mils. Comp. Zoolojiy, ('ambri<lge. (Figures after Springer.)

Figure 3a. Monocyclic; regular; centrale of maximum size.
3b. Monocyclic; irregular; double centrale.
3c. Dicyclic; irregular; double centrale and 1 IB.
3d. Dicyclic; regular; IBB fully developed.
3e. Specimen, with three individuals, showing dicyclic and monocyclic forms of base, and maximum and

small size, lying together in close contact on the slab; the black membrane lining the calyx is also shown

at the edge of the broken plates.
3f. Uintacrinus west/aliens Schlueter. Figure of the type specimen for comparison (after Schlueter).
3g. Specimen laterally compressed ; showing the fixed and proximal free pinnules, and the anal tube in natural

position.
3h. Articulating surfaces of brachials, enlarged X 2.2; to show the diagonal direction of the fulcral ridges.

235

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE VII

CRETACEOUS CRINOIDEA AND STELLEROIDEA.

PLATE VII.
UiNTACRiNUS sociALis Grinnell (p. 36).

U. S. Nat. Mils. 8044.
Figure la. Lateral view of the test,
lb. Test showing pinules.
Ic. Part of test, X 2.

Marsupites americanus Springer (p. .39).

Figure 2a. Side of calyx, with bases of arms, and a strong interbraehial passing in between them.
2b. Base of the same.

Collection of Frederick Brawn.
3. Infrabasal plate of much larger specimen.
Collection of Frank Springer.

Rhizocrinus alabamestsis (Do Lnriol) (p. 39).

Cincinnati Soc. Nat. Hist., type.
Figure 4a. Side of the basal cone.

4b. Upper surface of the same.
4c. Lower surface of the same.

Rhizocrinus cylindricus Weller (p. 40).
New Jersey Geol. Survey, type.

Figure 5a. Lateral view of a complete body, X 2.

5b-g. Various sides of several column j(jiuts, probably belonging to this species (enlarged). Johns Hopkins
Univ.

Astropecten (?) MONTANUS Douglas (p. 41).

Carnegie Mus. 601, type.
Figure 6. Impression of skeleton.

Pentagonaster browni Weller (p. 41).

Walker Mus., Chicago, type.
Figure 7. Dorsal surface (?).
236

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE VIII

CRETACEOUS STELLEROIDEA.

PLATE VIII.

GONIASTER MAMMn.LATA Gabb (j). 42).
Acad. Nat. Sci. Philadelphia 1457, type.

Figure la-g. Various sides of four different plates, X 2.
Ih. Surface of plate, X 20.

Figure 2a. Tup of plate.
2b. Side of plate.

Pentaceros asperulus Clark (p. 42).
Johns Hopkins Univ. T 3014, type.

Ophioglyph.4 texana Clark (p. 43).

U. S. Nat. Mus. 21884, type.

Figure 3a. Oral surface.

3b. Portion of aboral surface, X 5.
3c. Portion nf oral surface, X 5.

Ophioglypha bridgerensis (Meek) (p. 4.3).
U. S. Nat. Mus. 7820, type.

Figure 4a. Skeleton, natural size.

4b. Portion of the upper surface.

39800^—15 17

237

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE IX

CRETACEOUS ECHINOIDEA.

PLATE IX.

CiDARis TEHAMAENsis Clark, n. SJJ. (p. 44).

U. S. Nat. Mus. 31195, type.
Figure 1. Lateral view of spine.

CiDARis TEXANUs Clark (p. 45).

U. S. Nat. Mus. 8381, type.
Figure 2a. Test, natural size.

2b. Test, restored, slightly enlarged.

2c. Arrangement of the interambulacral plates in the vicinity of the apical disk, with adjacent ambulacral

plates. SUghtly enlarged.
2d. Portion of ambulacrum, X 6.
2e. Interambulacral plate, sUghtly enlarged.
2f. Tubercle, X 3.

CiDARis WALCOTTi Clark (p. 45).

Acad. Nat. Sci. Philadelphia 1451, type.

Figure 3a. Portion of the test.

3b. Interambulacral plates, X 2.
3c. Portion of ambulacrum, X 8.
3d. Tubercle, X 4.

CiDARIS SPLENDENS Mopton (p. 46).
Johns Hopkins Univ. T 3001.

Figure 4a. Upper surface of the test.
4b. Lateral surface of the test.

CiDARIS SPLENDENS Mortoil (p. 46).

Acad. Nat. Sci. Philadelphia, type.
Figure 5a. Portion of test.

5b. Interambulacral plate, X 2.
5c. Portion of ambulacral area, X 5.
5d. Tubercle, lateral view, X 2.
5e. Spine, X 2.
5f. Base of same, X 6.

CiDARIS SPLENDENS Mortoil (p. 46).

Johns Hopkins Univ. T 3002.
Figure 6. Genital plate.

CiDARIS DixiENSis Clark, n. sp. (p. 47).

Geol. Survey Texas, type.
Figure 7a. Interambulacral ])late.
7b. Same.
238

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE X

le

If

y^M

Ic

la

lb

CRETACEOUS ECHINOIDEA.

PLATE X.

Leiooidaris hemigranosus (Shuniard) (p. 48).

Figure la. Upper surface of the test, X J.
lb. Lower surface of the test, X f.
Ic. Lateral surface of the test, X i-
Id. Interambulacral plate,
le. Portion of ambulacrum, X 5.
If. Tubercles, X 2.
Ig. Apical system.

U. S. Nat. Mus. 21768.

239

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XI

CRETACEOUS ECHINOIDEA.

PLATE XI.

Leiocidarls hemigranosus (Shumaid) (p. 48).
U. S. Nat. Mus. 21768.

Figure la. Upper surface of the test restored, natural size,
lb. Lateral view of the same.
240

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XII

Id

li

t-.-^rff.

If

Ih

le

Ic

CRETACEOUS ECHINOIDEA.

PLATE XII.

Salenia texana Crednor (p. 49).

U. S. Nat. Mua. 8329, specimen A.

Figure la. Lateral view of tlie test slightly enlarged.

lb. Upper surface of the test restored, slightly enlarged.

Ic. Lower surface of the same.

Id. Lateral surface of the same.

le. Interambulacrum, X 3.

If. Ambulacrum, X 4.

Ig. Portion of the same, X 10.

111. Tubercle.

li. Apical system, X 1|.

241

U S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XIII

CRETACEOUS ECHINOIDEA.

PLATE XIII.

Salenia tumidula Clark Cp. 50).
Acad. Nat. Sci. Philadelphia 1448, tjrpe.

Figure la. Upper surface of the test, X 2.
lb. Under surface of the test, X 2.
Ic. Lateral surface of the test, X 2.
Id. Interambulacrum, X 5.
le. Single plate of same, X 8.
If. Portion of ambulacrum, X 10.
Ig. Apical system, X IJ.
Ih. Genital plate of same, X G.
li. Peristome, X 3.
Ij. Tubercle, X 10.

Salenia bellula Clark (p. 51).
Acad. Nat. Sci. Philadelphia 1446, type.

Figure 2a. Upper surface of the test, X 2.
2b. Under surface of the test. X 2,
2c. Lateral surface of the test, X 2.
2d. Three interambulacral plates, X 6.
2e. Three ambulacral plates, X 10.
2f. Apical disk enlarged.
2g. Tubercle, X 10.
242

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XIV

Ic

uiy

^.

2a

,»;:«^3sfE5», ^

3c

3a

3b

CRETACEOUS ECHINOIDEA.

PLATE XIV.

Salenia texana Credncr (p. 49).
Johns Hopkins ITniv. T 3003, specimen B.

Figure la. Upper surface of the test.
lb. Lower surface of the test.
Ic. Lateral surface of the test.

Hypodiadema elegans Clark, n. sp. (p. 52).

U. S. Nat. Mus. 31196, type.
Figure 2a. LTpper surface of the test.
2b. Lateral surface of the test.

GoNioPYGUs ziTTELi Clark (]i. 52).

U. S. Nat. Mus. 12234, type.
Figure 3a. Upper sm'face of the test.
3b. Lower surface of the test.
3c. Lateral surface of the test.

243

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XV

~%?s

lb

If

le

o

O

/

/{o?

'■ •■■ /

Q O

D

Q ;

■■■ ■' - /

"o o

O;

O.

o

o

■o

o

o

o

o

G

_/^.,

Ic

Ih

CRETACEOUS ECHINOIDEA.

PLATE XV.

GoNiOPYGUS ziTTELi Clark (p. 52)
U. S. Nat, Mus. 12234, type.

Figure la. Upper surface of the test,
lb. Lower surface of the same.
Ic. Interambulacrum, X 3.
Id. Ambulacrum, X 3.
le. Side of tubercle, X 10.
If. Apical system, X 4.
Ig. Portion of interambulacrum, X 4.
Ih. Lower portion of ambulacrum, X 10.
244

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XVI

le

X

V

la

2a

CRETACEOUS ECHINOIDEA.

PLATE XVI.

Leptarbacia argutus Clark, n. sp. (p. 53).

Johns Hopkins Univ. T 3004, type.

Figure la. Upper surface of the test,
lb. Lateral surface of the test.
Ic. Apical system, X 8.
1(1. Portion of ambulacrum, X 8.
le. Portion of ambulacrum, X 15.
If. Portion of interambulacrum, X 4.

Orthopsis planxjlata Clark, n. sp. (p. 54).

Johns Hopkins Univ. 7300.5, type.

Figure 2a. Upper and lower surfaces of two forms.
2b. Lateral surface of the test.
2c. Portion of ambulacrum, X 6.

39800°— 15 18 245

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XVII

lb

la

CRETACEOUS ECHINOIDEA.

PLATE XVII.

Orthopsis occidentalis Cragin (p. 54).
Geol. Survey Texas, type.

Figure la. Upper surface of the test.
lb. Lower surface of the test.
Ic. Lateral surface of the test.
Id. Ambulacrum, X 3.
le. Portion of ambulacrum, X 6.
If. Portion of interambulacrum, X 3.
Ig. Portion of apical system, X 4.
246

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XVIII

"«^

2a

Ic

2c

Vi ---^^

Ih

Id

2f

2e

CRETACEOUS ECHINOIDEA.

PLATE XVIII.

PSEUDODIADEMA TEXANUM (Roenicr) (p. 55).

U. S. Nat. Mus. 31197.

FiouKE la. Upper surface of the test, X 2.
lb. Lower surface of the same, X 2.
Ic. Lateral surface of the same, X 2.
Id. Interambuhicrum, X 4.
le. Ambulacrum, X 4.
If. Three interambulacral plates, X 8.
Ig. Tubercle, X 12.
Ih. Portion of interambulacrum, X S.
li. Portion of ambulacrum, X 8.

Heterodiadema ornatum Clark, n. sp. (p. 56).
Johns Hopkins Univ. T SOOii, type.

Figure 2a. Upper surface of the test.
2b. Lower surface of the test.
2c. Lateral surface of the test.
2d. Portion of ambulacrum, X 10.
2e. Portion of interambulacrum, X 10.
2f. Lateral view of tubercle, X 20.

247

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XIX

la

If

3a

CRETACEOUS ECHINOIDEA.

PLATE XIX.

PSEUDODIADEMA DIATKETUM (Mortoil) (p. 5(j).
Acad. Nat. Sci. Philadelphia 1471, type.

Figure la. Lower surface of the test.
lb. Lateral view of the test.
Ic. Two interambulacral plates, X 5.
Id. Tlvree ambulacral plates, X 8.
le. Same, X 8.
If. Tubercle, X 8.

Cyphosoma niLLi Clark (p. 59).
U. S. Nat. Mus. 8311, type.

Figure 2a. Upper surface of the test.
2b. Lower surface of the test.
2c. Lateral surface of the test.
2d. Upper portion of an ambulacrum, X 5.
2e. Three plates of the same, X 8.
2f. Tliree interambulacral plates, X 4.
22. Tubercle.

CoPTOsoMA sPECiosuM Clark (p. 61).

Acad. Nat. Sci. I'hihidelphia 1468, type.

Figure 3a. Upper surface of the test.
3b. Lower surface of the test.
3c. Lateral surface of the test.
3d. Upper portion of an interambulacrum, X 4.
3e. Three plates of the same, X 5.
3f. Three plates of ambulacrum, X 4.
3g. Same, X 4.
3h. Tubercle, X 10.
248

U- S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XX

CRETACEOUS ECHINOIDEA.

PLATE XX.

CoTTALDiA ROTULA Clark, n. sp. (p. 57).

Johns Hopkins Univ. T 3007, type.

Figure la. Side nf test of large specimen,
lb. Side of test of small specimen.
Ic. Portion of ambulacrum, X 10.
Id. Portion (if interamljulacrum, X 10.

DiPLOPODIA TAFFI Ciagiii (p. 58).

Geol. Survey Texas, type.

Figure 2a. Upper surface of the test.
2b. Lower surface of the test.
2c. Lateral surface of the test.
2d. Portion of ambulacrum, X 5.
2e. Portion of interambulacrum, X 5.

DiPLOPODIA STREERUVITZI Ciagiii (p. 58).
Geol. Survey Texa.s, type.

Figure .3a. Upper surface of the test.
3b. Portion of ambulacra, X 8.
3c. Portion of interambulacrum, X 8.

249

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XXI

CRETACEOUS ECHINOIDEA.

PLATE XXI.

Cyphosoma texanum Roemcr (p. 60).
U. S. Nat. Mus. 9838.

Figure la. Upper surface of the test,
lb. Lower surface of the test.
Ic. Lateral surface of the test.
Id. Tubercle, X 10.
le. Ambulacrum, X 3.
If. Portion of interambulacrum, X 3.
Ig. Portion of amljulacrum, X 8.

Cyphosoma volanum Cragin (p. 61).

Geol. Survey Texas, type, specimen A.

Figure 2a. Upper surface of the test, X 2.
2b. Lower surface of the test, X 2.

Cyphosoma volanum Cragin (p. 61).
Geol. Survey Texas, type, specimen B.
Figure 3. Upper surface of the test.
250

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XXII

lb

2i

2d

^.-sjm^s.

2c

CRETACEOUS ECHINOIDEA.

PLATE XXII.

COPTOSOMA MORTONI (De Loi'iol) (p. 62).

Collection P. de Loriol, type.

Figure la. Upper surface of the test.
lb. Lateral surface of the test.
Ic. Three arabulacral plates, X 8.
Id. Interambulacrum, X 3.
le. Three interambulacral plates, X 6.

PsAMMECHiNUs ciNGULATUS Clark (p. 63).

Acad. Nat. Sci. Philadelphia 1467, type.

Figure 2a. Upper surface of the test.
2b. Lower surface of the test.
2c. Lateral view of the test.
2d. Interambulacrum, X 5.
2e. Three plates of the same X 8.
2f. Ambulacrum, X 5.
2g. Four plates of the same, X 8.
2h. Peristome, X 2.
2i. Tubercle, X 20.

251

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XXIII

CRETACEOUS ECHINOIDEA.

PLATE XXIII.

Pedinopsis symmetrica (Cragin) (p. 64).
Geol. Survey Texas, type.

Figure la. Upper surface of the test.
lb. Lower surface of the test.
Ic. Lateral surface of the test.
Id. Apical system, X 5.
le. Ambulacrum, X 3.
If. Portion of ambulacrum, X 8.
Ig. Interambulacrum, X 3.
Ih. Portion of interambulacrum, X 8.
252

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XXIV

CRETACEOUS ECHINOIDEA.

PLATE XXIV.

Pedinopsis pondi Clark (p. 65).
Johns Hopkins Univ. T 3008, type.

Figure la. Upper surface of the test,
lb. Lower surface of the test.
Ic. Lateral view of the test.
Id. Four ambulacral plates, X •!•
le. Four interambulacral plates, X 2.

BoTRioPYGUs ALABAMENSis Clark (p. 68).

Acad. Nat. Sci. Philadelphia, type.
Figure 2a. Upper surface of the test.
2b. Lower surface of the test.
2c. Lateral surface of the test.

2d. Portion of an ambulacrum at base of petaloidal region, X 3.
2e. Same in center of petaloidal region, X 6.
2f. An interambulacral plate, X 3.

39800°— 15 19 253

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XXV

la

2a

3b

2b

2e

3c

3a

CRETACEOUS ECHINOIDEA.

PLATE XXV.

MiCEOPsis LiNEATUs Clark, n. sp. (j). 63).

U. S. Nat. Mus. 31198, type.

Figure la. Upper surface of the test.
lb. Lower surface of the test.
Ic. Lateral surface of the test.

HoLECTYPUs PLANATUS Roemer (p. 65).

TJ. S. Nat. Mus. 12236, figured specimen A.

Figure 2a. Upper surface of the test restored.
2b . Lower surface of the test restored.
2c. Lateral surface of the test restored.
2d. Two interambulacral plates, X 3.
2e. Portion of the ambulacrum, X 5.
2f. Apical system, X 5.

HoLECTYPus PLANATUS Roeiuer (p. 65).

U. S. Nat. Mus. 1223G, figured specimen B.
Figure 3a. Upper surface of the test.
3b. Lower surface of the test.
3c. Lateral surface of the test.

HoLECTYPUS PLANATUS Roemer (p. 65).

Johns Hopkins Univ. T 3008, figured specimen D.

Figure 4. Lateral surface of the test.
254

U. S. GEOLOGICAL SURVeV

Monograph liv plate xxvi

la

le

CRETACEOUS ECHINOIDEA.

PLATE XXVI.

HoLECTYPUS PLANATUS Koempr (p. 65).

Gecil. Survey Texas, figured specimeu C.

Figure la. Upper surface of the test.
lb. Lower surface of the test.
Ic. AjJical system, X 5.
Id. Portion of ambulacrum, X 3.
le. Portion of interambulacrum, X 3.

255

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XXVII

Is

.ly

Hl5
ij

li

3a

=?*' "i^o 5*^0

Ih

CRETACEOUS ECHINOIDEA.

PLATE XXVII.

Pyrina parryi Hall (p. 67).
IT. S. Nat. Mus. 9854.

Figure la. Upper surface of the test,
lb. Lower surface of the test.
Ic. Lateral surface of the test.
Id. Posterior surface of the test,
le. Portion of ambulacrum, X 5.
If. Portion of ambulacrum, X 1.
Ig. Two interambulacral plates, X 3.
Ih. Portion of interambulacral plate,
li. Apical system.
Ij. Portion of madreporite.

EcHiNOBRissus ANGUSTATUS Clark, n. sp. (p. 69).

Johns Hopkins Univ. T 3009, type.

Figure 2a. Upper surface of the test.
2b. Lower surface of the test.
2c. Lateral surface of the test.

Cassidulus coNOiDEiTs Clark, n. sp. (p. 80).
U. S. Nat. Mus. 31199, type.

Figure 3a. Upper surface of the test.
3b. Lower surface of the test.
3c. Lateral surface of the test.
3d. Posterior surface of the test.
256

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XXVIII

Ig

2d

CRETACEOUS ECHINOIDEA.

PLATE XXVIII.

EcHiNOBRissus EXPANsus Clark (p. 60).

Acad. Nat. Sci. Philadelphia 1465, type.

Figure la. Upper surface of the test,
lb. Lower surface of the test.
Ic. Lateral surface of the test.
Id. Posterior surface of the test,
le. An interambulacral plate, X 3.

If. Portion of the petaloidal region of the right anterolateral ambulacrum, X 8
Ig. Apical system, X 5.

EcHiNOBRissus TEXANUs Clark (p. 70).

U. S. Nat. Mus. 20266, type.
FicjuRE 2a. Upper surface of the test.
2b. Lower surface of the test.
2c. Lateral surface of the test.
2d. Posterior surface of the test.

2e. Portion of the right anterolateral ambulacrum, X 10.
2f. Pour interambulacral plates, X 5.

Trematofygus cruciferus (Morton) (p. 71).

Acad. Nat. Sci. Philadelphia 1464, type.

Figure 3a. Upper surface of the test.
3b. Lower surface of the test.
3c. Lateral surface of the test.

257

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XXIX

le

C^:::

&

^

Ic

^^>*yk,

■' Id ''■'■

If

2c

•m

2b

2e

4c

4d

CRETACEOUS ECHINOIDEA.

PLATE XXIX.

Teematopygus crucifer (Morton) (p. 71).

Acad. Nat. Sci. Philadelphia 1464, type.

Figure la. Posterior surface of the test.

lb. Lower portion of the petaloidal region of the right posterolateral ambulacrum, X 5.

Ic. Several plates of the same, X 10.

Id. Apical system, X 5.

le. Tubercle from above, X 20.

If. Lateral view of the same, X 20.

Catopygus oviformis Conrad (p. 72).
Acad. Nat. Sci. Philadelphia 1477, type.

Figure 2a. Upper surface of the test.
2b. Lower surface of the test.
2c. Lateral surface of the test.
2d. Posterior surface of the test.
2e. Portion of right posterolateral amliulacruiii, X 3.
2f . Several plates of the same, X 10.

Catopygus pusillus Clark (p. 73).

U. S. Nat. Mus. 2210, type.

Figure 3a. Upper surface of the test.
3b. Lower surface of the test.
3c. Lateral surface of the test.
3d. Posterior surface of the test.

Catopygus williamsi Clark (p. 73).
Johns Hopkins Univ. T 3010, type.

Figure 4a. Upper surface of the test.
4b. Lower surface of the test.
4c. Lateral surface of the test.
4d. Posterior surface of the test.
258

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XXX

CRETACEOUS ECHINOIDEA.

PLATE XXX.

Gassidulus floreai.is (Morton) (p. 74).
Acad. Nat. Sci. Philadelphia 149.5, type.

Figure la. Upper surface of the test.
lb. Lower surface of the test.
Ic. Lateral surface of the test.
Id. Posterior surface of the test,
le. Right posterolateral ambulacrum, X 3.
If. Several plates in the petaloidal region of the same, X 8.
Ig. Same, lower surface, X 8-
Ih. Posterior interambulacrum, X 2.
li. Single plate, X -I-
Ij. Apical system, X 5.
Ik. Tubercle from above, X 20.
11. Lateral view of the same, X 20.

Gassidulus ^quoreus Morton (p. 75).

Acad. Nat. Sci. Philadelphia 1475, type.

Figure 2a. Upper surface of the test.
2b. Lower surface of the test.
2c. Lateral surface of the test.
2d. Posterior surface of the test.
2e. Anterior ambulacrum, X 2.
2f. Several plates, petaloidal region of the same, X 8.
2g. Same, oral region, X 8.
2h. Apical system, X 5.
2i. Diagram showing the arrangement of the plates about the peristomial opening, X 2.

259

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XXXI

CRETACEOUS ECHINOIDEA.

PLATE XXXI.

Cassidulus micrococcus Gabb (p. 76).

Acad. Nat. Sci. Philadelphia 1480, tyiie.

Figure la. Upper surface of the test,
lb. Lower surface of the test.
Ic. Lateral surface of the test.
Id. Posterior iuirface of the test.

le. Anterior ambulacrum at the base of the petaloidal region, X 2.
If. Several plates in petaloidal region of the anterior ambulacrum, X 8.
Ig. Oral portion of an ambulacrum, X 8.
Ih. Apicalsystem, X o.
li. Surface of an interambulacral plate, X 20.

Cassidulus subquadratus Conrad (p. 77).

U. S. Nat. Mus. 31200.
Figure 2a. Upper surface of the test.
2b. Lower surface of the test.
2c. Lateral surface of the test.
2d. Posterior surface of the test.

2e. Lower portion of the petaloidal region of the right anterolateral ambulacrum, X 2.
2f . Oral portion of an ambulacrum, X 5.
2g. Apical system, X 8.
260

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XXXII

CRETACEOUS ECHINOIDEA.

PLATE XXXII.

Cassidulus subconicus Clark (j). 77).

U. S. Nat. Mus. 20264, type.
Figure la. Upper surface of the test,
lb. Lower surface of the test.
Ic. Lateral surface of the test.
Id. Posterior siu'face of the test.
le. Anterior ambulacrum, X 2.
If. Several plates of the petaloidal jwrtion, X 8.
Ig. Same, phylloidal portion, X 6.

Ih. Diagram showing the arrangement of the plates around the peristomial o])ening, X 2.
li. Interambulacral plate, X 5.
Ik. Apical system, X 5.

CASsiDm.us PORRECTUS Clark (p. 78).

U. S. Nat. Mus. 21890, type.
Figure 2a. Upper surface of the test

2b. Anterior ambulacrum, X 1^.

39800°— 15 20 261

U, S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XXXIII

CRETACEOUS ECHINOIDEA.

PLATE XXXIII.

Cassidxilus poreectus C^lark (p. 78).
U. R. Nat. Mus. 21890, type.

Figure la. Posterior surface of the test.
lb. Lower surface of the test.
Ic. Lateral surface of the test.
Id. Lower portion of petaloidal region, X 5.
le. Central portion of the same, X 5-
If. Three interambulacral plates, X 2.

Cassidulus stantoni Clark (p. 79).
U. S. Nat. Mus. 20260, type.

Figure 2a. Upper surface of the test, X 2.
2b. Lower svuface of the test, X 2.
2c. Lateral surface of the test, X 2.
2d. Posterior surface of the test, X 2.
262

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XXXIV

CRETACEOUS ECHINOIDEA.

PLATE XXXIV.

Cassidulus intermedius Slocum (p. 79).

Field Mus. P 10346, type.
Figure la. Upper surface of the test.
lb. Lower surface of the test.
Ic. Posterior surface of the test.
Id. Lateral surface of the test.

le. Portion of left anterior ambulacrum at base of petaloidal region, X 5.
If. Same, phylloidal portion, X 5.

Cassldulus hemisphericus Slocum (p. SO).

Field Mus. P. 10347, type.
Figure 2a. Upper surface of the test.
2b. Lateral surface of the test.
2c. Portion of anterior ambulacrum at base of petaloidal region, X 5.

HoLASTER SIMPLEX Shuiiiard (p. 85).

U. S. Nat. Mus. 8382, figiu-ed specimen A.

Figure 3a. Upper surface of the test.
3b. Lower surface of the test.

263

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XXXV

1^3^=^^^

±j^

t

.-^.-'^l^-.'iJJ:. :■

Ih

If '0

CRETACEOUS ECHINOIDEA.

PLATE XXXV.

Ananchytes ovalis Clark (p. 81).

Figure la.
lb.
Ic,
Id.
le.
If.

Ig-
Ih.

Johns Hopkins Univ. T 3011, type.

Upper surface of the test.
Lower surface of the test.
Lateral surface of the test.
Anterior surface of the test.
Posterior surface of the test.
Apical system, X 5.
Ambulacral plates, X 5.
Interambulacral plates, X 3.

Ananchytes texana Cragin (p. 82).
Geol. Survey Texas, type.

Figure 2a. Lower surface of the test.

2b. Portion of ambulacrum, X 2.
2c. Portion of interambulacrum, X
264

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XXXVI

CRETACEOUS ECHINOIDEA.

PLATE XXXVI.

Ananchytes texana Cragin (p. 82).

Geol. Survey Texas, type.
Figure la. Anterior surface of the test.
lb. Lateral surface of the test.

Cardiaster cinctus (Morton) (p. 83).

Acad. Nat. Sci. Philadelphia 1485, type.

Figure 2a. Upper surface of the test.
2b. Lower surface of the test.
2c. Lateral surface of the test.
2d. Anterior surface of the test.
2e. Posterior surface of the test.

2f. Central portion of the petaloidal region of an ambulacral area, X 5.
2g. Basal portion of same, X 4.
2h. Apical system, X 5.

Cakdiastek smocki Clark (p. 84).

Geol. Survey New Jersey, type.
Figure 3a. Upper surface of the te-st.
3b. Lower surface of the test.
3c. Lateral surface of the test.

265

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XXXVII

Id

le

^ .'. .':■■{;.■■.■.'■ ::>:*,■■. ■/■:"-v.; ■-"-;.■

vyVr^C .

.■-*.■■

If

;^ j?:v:..;.,,;vr:-i«-t/;r' /

Ih

"^

CRETACEOUS ECHINOIDEA.

PLATE XXXVII.

Cabdiaster curtus Clark, n. up. (p. 84).
U. S. Nat. Mus. 31201, type.

Figure la. Upper surface of the te.st.
lb. Lower surface of the test.
Ic. Lateral surface of the test.
Id. Apical system, X 10.
le. Portion of ambulacrum, X 10.
If. Several plates of same, X 15.
Ig. Portion of interambulacrum, X 10.
Ih. Interambulacral plate, X 15.
266

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XXXVIII

Ig

<giM

If

Ih

Ic

i^

le

lb

CRETACEOUS ECHINOIDEA.

PLATE XXXVIII.

HoLASTER SIMPLEX Shumard (p. 8.5).
U. S. Nat. Mus. 8382, figured si)eciraen A.

Figure la. Lateral surface of the test.

lb. Lateral surface of the teat restored.

Ic. Posterior siu'face of the test.

Id. Portion of the ambulacrum, X 3.

le. Portion of the ambulacrum, X 3.

If. Tubercle, X 10.

Ig. Tubercle, X 10.

Ih. Interambulacral plate, X 3.

li. Right anterolateral ambulacrum, X

Ij. Apical system, X 3.

267

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XXXIX

'v^i©;

If

le

Id

'^■■'■f^'--^tiiiip-^(--^''^ '/^

Ig

2e

2g

CRETACEOUS ECHINOIDEA.

PLATE XXXIX.

HoLASTER SIMPLEX Shiimartl (p. 85).
Geol. Survey Texas, figured specimen B.

Figure la. Upper surface of the test,
lb. Lower surface of the test.
Ic. Lateral siu'face of the test.
Id. Anterior siu-face of the test,
le. Apical system, X 4.
If. Portion of ambulacrum, X 10.
Ig. Tliree interambulacral plates, X 5-

Enallaster texanxjs (Roemer) (p. 86).

U. S. Nat. Mus. 9857.
Figure 2a. Upper view of the test.
2b. Lower view of the teat.
2c. Posterior view of the test.
2d. Posterior view of the test.

2e. Portion of the petaloidal region of the right anterolateral araljulacriim, X 10.
2f. Portion of the anterior ambulacrum, X 10.
2g. Apical system, X 6.

268

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XL

lb

la

'/,••.

li

Id

"->;?ffl

11

Ik

Ic

CRETACEOUS ECHINOIDEA.

PLATE XL.

Enallaster obliquatus Clark (p. 87).

U. S. Nat. Mus. 12237, type.
Figure la. Upper surface of the test.
lb. Lower surface of the test.
Ic. Lateral view of the test.
Id. Posterior view of the test.

le. Portion of the petaloidal region of the anterior amlnilacrum, X 8.
If. Same, left anterior ambulacrum, X 8.
Ig. Second plate of the same from the mouth opening, X 8.
Ih. Diagram showing arrangement of plates about the mouth opening, X 3.
li. Apical system, X 6.
Ik. Tubercle from above, X 10.
11. I,ateral view of the same, X 10.

269
39.S<H)°— li". 21

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XLI

Ic

CRETACEOUS ECHINOIDEA.

PLATE XLI.

Hemiaster elegans Shumard (p. 88).
U. S. Nat. Mus. 21887.

Figure la. Upper surface of the test.
lb. I^ateral surface of the test.
Ic. Posterior surface of the test.
270

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XLII

Ic

le

lb

la

CRETACEOUS ECHINOIDEA.

PLATE XLII.

Hemiaster elegans Shumard (p. SS).

Geol. Survey Texas.
Figure la. Upper surface of the test.
lb. Lower surface of the test.
Ic. Lateral surface of the test.
Id . Posterior surface of the test,
le. Apical system, X 5.
If. Portion of anterior ambulacrum, X 5.
Ig. Same.
Ih. Portion of interambulacrum, X 5.

271

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XLIII

If

le

2c

CRETACEOUS ECHINOIDEA.

PLATE XLIII.

Hemiaster elegans Shumard (p. 88).

U. S. Nat. Mus. 21887.
Figure la. Lowpr portion of the test.

lb. Middle portii.in of tlie petaloidal region of the anterior ambulacrum, X 5-

Ic. Same, left anterolateral ambulacrum, X 5.

Id. Two interambulacral plates, X 3.

le. Apical system, X 5.

If. Upper portion of the anterior ambulacrum, X 3.

Hemiaster ■\vhitei Clark (p. 89).

U. S. Nat. Mus. 9732 type.
Figure 2a. Upper surface of the test.

2b . Posterior surface of the test.
2c. Lateral surface of the test.
272

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XLIV

Ih

°- ' '?'■ 'Q'-'I*^'''':;^' :' .5.' .-■"-■^o'-O." ! "

le

If

lb

CRETACEOUS ECHINOIDEA.

PLATE XLIV.

Hemiastee whitei Clark (p. 89).

U. S. Nat. Mus. 9732, type.
Figure la. Lower surface of the test.

lb. Right anterolateral interambulacnim, X 3.

Ic. Lower portion of the petaloidal region of the right anterolateral ambulacrum, X 8.
Id. Several plates of the petaloidal region of the left anterolateral ambulacrum, X 8.
le. Peristomial opening, with surrounding ambulacral and interambulacral plates, X 3.
If. Apical system, X 5.
Ig. Left anterolateral ambulacrum , X 3.

Ih. Diagram showing the arrangement of the plates in the apical system and bordering areas, X 3.

273

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XLV

la

lb

Ic

1^'

2c

2d

2a

s^

\- r'

r'

2e

CRETACEOUS ECHINOIDEA.

PLATE XLV.

Hemiaster whitei Clark (p. 89).

U. S. Nat. Mus. 31202.

Figure la. Upper surface of the test,
lb. Lateral surface of the test.
le. Posterior surface of the test.

Hemiaster whitei Clark (p. 89).

U. S. Nat. Mus. 4544.

Figure 2a. Upper surface of the test.
2b. Lower surface of the test.
2c. Lateral surface of the test.
2d. Posterior surface of the test.
2e. Apical system, X 5.
2f. Portion of ambulacrum, X 8,
274

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XLVI

Id

CRETACEOUS ECHINOIDEA.

PLATE XLVI.

Hemiaster bexari Clark, n. sp. (p. 89).

U. S. Nat. Mua. 8330, type.
Figure la. Upper surface of the test,
lb. Lower surface of the test.
Ic. Lateral surface of the test.
Id. Posterior surface of the test.
le. Portion of atabiilacrum, X 5.

Hemiaster comanchei Clark, n. sp. (p. 90).

Johns Hopkins Univ. T 3012, type.
Figure 2a. LTpper surface of tlie test.
2b. Lower surface of the test.
2c. Lateral surface of the test.
2d. Posterior surface of the test.

275

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XLVII

Ic

Id

If

lb

le

2b

2d

2i

2gr

2c

CRETACEOUS ECHINOIDEA.

PLATE XLVII.
Hemiaster dalli Clark (p. 90).

U. S. Nat. Mus. 19114, type.
Figure la. Upper surface of the test.

lb. Upper surface of the test restored.

Ic. Lower surface of the test.

Id. Lateral surface of the test.

le. Posterior surface of the test.

If. Several plates from the petaloidal portion of the left anterolateral ambulacrum , X 5.

Hemiaster calvini (lark (p. 90).

U. 8. Nat. Mus. 12241, type.
Figure 2a. Upper surface of the test.
2b. Lower surface of the test.
2c. Lateral \'iew of the test.
2(1. Posterior view of the test.

2e. Several plates from the petaloidal region of the right posterolateral ambulacrum, X 5.
2f. Same, lower portion of petaloidal region, X 5.
2g. Several plates from anterior ambulacrum, X 5.
2h. Interambulacral plate, X 3.
2i. Apical system, X 5.
276

U, S. GEOLOGICAL SURVEY

MONOGRAPH LtV PLATE XLVIII

^Vtv V*--' ^-x y* \^v'^y ■■

Ik

CRETACEOUS ECHINOIDEA.

PLATE XLVIII.

Hemiaster parastatus (Morton) (p. 92).
Acad. Nat. Sci. Philadelphia 1487, type.

Figure la. Upper surface of the test,
lb. Lower surface of the test.
Ic. Lateral surface of the test.
Id. Posterior surface of the test.
le. Anterior ambulacrum, X 2.
If. Portion of petaloidal region of the same, X 8.
Ig. Portion of basal region, ditto, X 5.

Ih. Several plates from the petaloidal region of the right anterolateral ambulacrum, X 5.
li. Three interambulacral plates, with fasciole, X 3.
Ik. Portion of fasciole, X 10.
11. Tubercle from the side, X 20.
Im. Same from above, X 20.
In. Apical system, X 5.

Hemiaster stella (Morton) (p. 93).

U. S. Nat. Mus. 2208.
Figure 2a. Upper surface of the test.
2b . Lower surface of the test.
2c. Lateral surface of the test.
2d. Posterior surface of the test.

Hemiaster ungula (Morton) (p. 93).

Acad. Nat. Sci. Philadelphia 1.503, type.

Figure 3a. Upper surface of the test.
3b. Lower surface of the test.
3c. Lateral surface of the test.
3d. Posterior surface of the test.

3e. Portion of the petaloidal region of the right anterolateral ambulacrum, X 8.
3f . Same, anterior ambulacrum, X 8.
3g. Apical system, X 5.

39S(K)°— 15 22 277

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XLIX

■.■'-1^. • i

Ij

li

la

Ih

2d

2c

CRETACEOUS ECHINOIDEA.

PLATE XLIX.

Hemiaster texanus Roemer (p. 94).

Johns Hopkins Univ. T 3013.
Figure la. Upper surface of the test.

lb. Lower surface of the test restored, X IJ-

Ic. Lower surface of the test, ditto, X IJ.

Id. Lateral surface of the test, X IJ-

le. Posterior surface of the test, ditto, X 11-

If. Several plates from the petaloidal region of the riglit jiosterolateral ambuhicrum, X 8

Ig. Same, anterior ambulacrum, X 8.

Ih. Apical system, X 5.

li. Lateral view of a tubercle, X 20.

Ij. Tubercle from above, X 20.

Hemiaster humphreysanus Meek and Ilayden (p. 95).

U. S. Nat. Mus. 331, type.
Figure 2a. Upper surface of the test.
2b. Lower surface of the test.
2c. Lateral surface of the test,
2d. Posterior surface of the test.

2e. Several plates from the petaloidal portion of the left anterolateral ambulacrum, X 8.
2f . Several plates from tlie petaloidal portion of the anterior ambulacrum, X 8.
278

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE U

CRETACEOUS ECHINOIDEA.

PLATE L.

Hemiastek californicus Clark (p. 96).
U. S. Nat. Mus. 31203, type.

Figure la. Upper surface of the test.

lb. Upper surface of the test, restored.
Ic. Lower surface of the test.
Id. Lateral surface of the test.

Hemiaster beecheri Clark, n. sp. (p. 96).
Peabody Museum, Yale University, 1863, type.

Figure 2a. Upper surface of the test.
2b. Lower surface of the test.
2c. Lateral surface of the test.

Hemiaster lacunosus Slocuni (p. 97).
U. S. Nat. Mus. 31204, type.

Figure 3a. Upper surface of the test.
3b. Lower surface of the test.
3c. Lateral surface of the test.
3d. Posterior surface of the test.

279

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE LI

CRETACEOUS ECHINOIDEA.

PLATE LI.

Hemiaster lacunosus Slocum (p. 97).

Field Mus. P 10342, type.

Figure la. Upper surface of the test.
lb. Lower surface of the test.
Ic. Lateral surface of the test.
Id. Posterior surface of the test,
le. Apical system, X 10.
If. Portion of anterior ambulacrum, X '■
Ig. Same, petaloidal region, X 8.
Ih. Lateral view of tubercle, X 20.
li. Tubercle from above, X 20.
280

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE Lll

la

2a

2b

CRETACEOUS ECHINOIDEA.

PLATE LII.

IlEMiAiSTEK KUMMET.i Clark (p. 97).

Geol. Survey New Jersey, type.
Figure la. Upper surface of the test.
lb . Lower surface of the test.
Ic. Lateral surface of the test.

Hemiaster welleri Clark (p. 98).

Geol. Survey New Jersey, type.
Figure 2a. Upper surface of the test.
2b. Lower surface of the test.
2c. Lateral surface of the test.

281

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE Llll

Ic

Id

Ih

Ig

■f^ ^.f'""^

:©■;

©,

■©.

li

la

lb

CRETACEOUS ECHINOIDEA.

PLATE LIII.

LiNTHiA TUMiDULA Clark (p. 99).

Am. Mus. Nat. Hist., type.
Figure la. Upper surface of the test,
lb. Lower surface of the test.
Ic. Lateral sm-face of the test.
Id. Posterior surface of the test,
le. Upper portion of the anterior ambulacrum, X 5.

If. Several plates from the petaloidal region of the left posterolateral ambulacrum, X
Ig. Apical system, X 5.
Ih. Tubercle from the side, X 20.
li. Tubercle from above, X 20.

282

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE LIV

la

If

^•g-'wsr**^)

^'W'f**.^*,^-, ^^-^L.*\

'^.

'*<»*7'=!»<5l?9 'a ® j

CRETACEOUS ECHINOIDEA.

PLATE LIV.

LiNTHIA VARIABILIS SloCUm (p. 99).

Field Mua. P 10457, type.

Figure la. Upper surface of the test (P 10457).
lb. Lower surface of the test (P 10457).
Ic. Lateral surface of the test (P 10457).
Id. Posterior surface of the test (P 10457).
le. Upper surface of the test (P 10457).
If. Lower surface of the test (P 10457).
Ig. Lateral surface of the test (P 10457).
Ih. Posterior surface of the test (P 10457).
li. Apical system, X 10.
Ik. Portion of ambulacrum, X 20.
11. Portion of ambulacrum, X 8.

283

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE LV

2b

EOCENE ECHINOIDEA.

PLATE LV.

CiDAEis MiTCHELLi Emmoiis (p. 113).
Williams College, type.

Figure la. Upper surface of the test.
lb. Lower surface of the test.
Ic. Lateral surface of the test.

CiDARis CAROLiNENSis Emmons (p. 113).

Williams College, type.
Figure 2a. Upper surface of the test.
2b. Lower surface of the test.
2c. Lateral siu^ace of the test.

CiDARis PRATT! Clark, n. sp. (p. 114).
U. S. Nat. Mus. 164663, type.
Figure 3. Portion of interambulacrum with adjoining ambulacra.

ClDARIS MERRIAMI Arnold (p. 114).

U. S. Nat. Mus. 165438, type.
Figure 4. Spine, after Arnold.
284

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE LVI

EOCENE ECHINOIDEA.

PLATE LVI.

CCELOPLEUEUS INFULATUS (Morton) (]). 117).
Acad. Nat. Sci. Pliiladelphia 1076.

Figure la. Upper surface of the test, X 2.
lb. Lateral surface of the test, X 2.
Ic. Lower surface of the test, X 2.
Id. L'^pper portion of an ambulacrum, X 6.
le. Four compound plates of an ambulacrum, X 6.
If. Three plates of an interambulacrum, X 6.
Ig. An interambulacrum, X 6.
Ih. Tubercle, X 10.
li. Apical system, X 4.

Orthechinus pketiosus Clark, n. sj). (p. 118).
IT. S. Nat. Mus. 146455, type.

Figure 2a. Upper surface of the test.
2b. I^ateral surface of the test.

Figure ;^. Spines.

30800°— 15 23

Echinus (?) sp. (p. 118).
Johns Hopkins Univ. T 2000.

2S5

U. S. QEOLOQICAL SURVEY

MONOGRAPH LIV PLATE LVII

EOCENE ECHINOIDEA.

PLATE LVII.

EcHiNOCYAMUs iiuxLEYANUs Moyer (p. 119).
Johns Hopkins Univ. T 200G.

Figure la. Upper surface of the test, X 4.

lb. Lower surface of the test, X 4.

Ic. Lateral surface of the test, X 4.

Id. Posterior surface of the test, X 4.

EcHiNOCYAMUs TEXANUs Twitchell, n. sp. (p. 120).
Johns Hopkins Univ. T 2002, type.

Figure 2a. Upper surface of the test, X 2.
2b. Lower surface of the test, X 2.
2c. Lateral surface of the test, X 2.
2d. Posterior surface of tlie test, X 2.

FiBULARIA MERIDIONALIS (MeyOl) (jl. 121).
Johns Hopkins Univ. T 2005.

Figure 3a. Upper surface of the test, X 4J.
3b. Lower surface of the test, X 4J.
3c. Lateral surface of the test, X. 4i.
3d. Posterior surface of the test.

SiSMONDiA (?) PLANA Conrad (p. 121).

Acad. Nat. Sci. Philadelphia 1080, type.

Figure 4a. Upper siwface of the test.
4b. Lower surface of the test.
4c. Lateral surface of the test.
4d. Posterior surface of the test.

Laganum (?) CRUSTULOiDES (Mortoii) (p. 122).
Boston Soc. Nat. Hist. 8802a, specimen A.

Figure 5a. Upper surface of the test.
5b. Lower surface of the test.
5c. Lateral surface of the test.
5d. Posterior surface of the test.

Laganum (?) crustuloides (Morton) (p. 122).
U. S. Nat. Mus. 1G4744, specimen C.

Figure 6a. Upper surface of the test.
6b. Lower surface of the test.
6c. Lateral surface of the test.
Gd. Posterior surface of the teat.
286

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE LVIII

Ic

Id

le

Ib

EOCENE ECHINOIDEA.

PLATE LVIII.
Periakchus altus Conrad (p. 130).

Figure la. Upper surface of the test,
lb. Lower surface of the test.
Ic. Detail of apical system, X 5.
Id. Posterior surface of the test.
le. Lateral surface of the test.

Williams College, type.

287

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE LIX

la

Ic

fi^^.

Id

r.'-' ■' 'fX

J-L

<^??^

le

* ',»-^JB^5mihe '

EOCENE ECHINOIDEA.

A

If

PLATE LIX.

ScuTELLA MississiPPiENSis Twitchell, n. sp. (p. 124).
U. S. Nat. Mu8. 137655, specimen A, type.

Figure la. Upper surface of the test,
lb. Lower surface of the test.
Ic. Posterior surface of the test.
Id. Lateral surface of the test.
le. Apical system, X 6.
If. Part of the ambulacra, X 8.

ScuTELLA MISSISSIPPIENSIS Twitcliell, u. sp. (p. 124).

U. S. Nat. Mus. 137655a, specimen B.

Figure 2. Upper surface of the test.
288

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE LX

Ic

la

lb

Id

2e

'hill

v^

2f

EOCENE ECHINOIDEA.

PLATE LX.

ScuTELLA TUOMEYi Twitchell, n. sp. (p. 125).

U. S. Nat. Mus. 137970, type.
Figure la. Upper surface of the test.
lb. Lower surface of the test.
Ic. Lateral surface of the test.
Id. Posterior surface of the test.

MORTONELLA QUINQUEFARIA (Say) (p. 128).

U. S. Nat. Mus. 9500, specimen A.
Figure 2a. Upper surface of the test.
2b. Lower surface of the test.
2c. Posterior surface of the test.
2d. Lateral surface of the test.
2e. Part of one of the ambulacra, X 4.
2f. Apical system, X 6.

280

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE LXI

-—..X. *\ If ^#
"~-^ ~■--^,'\l'.>*-•

EOCENE ECHINOIDEA.

PLATE LXI.

MOETONELLA QUINQUEFARIA (Siiy) (p. 128)
Amherst College, specimen B.

Figure la. Upper surface of the test,
lb. Lateral surface of the test.

Periarchus lyelli Conrad (p. L'il).
Boston Soc. Nat. Hist. 1553, specimen A.

Figure 2a. Upper surface of tlio test.
2b. Lower surface of the test.
2c. Lateral surface of the test.
2d. Posterior surface of the test.
2e. Part of one of the ambulacra, X 5J.
2f. Apical system, X 4.
290

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE LXII

EOCENE ECHINOIDEA.

PLATE LXIl.

Peeiaechtjs lyelli Conrad (p. 131).
Johns Hopkins Univ. T 2003, specimen B.

Figure la. Upper surface of the test,
lb. Lower surface of the test.
Ic. Lateral surface of the test.

Periarchus lyelli Conrad (p. 131).
Johns Hopkins Univ. T 2004, specimen C.

Figure 2a. Upper surface of the test.
2b. Ijower surface of the test.
2c . Lateral surface of the test.
2d. Posterior surface of the test.

Figure 3a.
3b.
3c.
3d.
3e.
3f.

Periarchus prottjberans Twitchell, n. sp. (p. 133).

U. S. Nat. Mus. 164685, type.

Upper surface of the test.
Lower surface of the test.
Lateral surface of the test.
Posterior surface of the test.
Part of one ambulacrum, X 8-
Apical system, X 8.

291

U. S. QEOLQQICAL SURVEY

MONOGRAPH LIV PLATE LXIII

EOCENE ECHINOIDEA.

PLATE LXIII.

Periarchus pileus-sinensis Ilavc'iu'l (p. 135).

U. S. Nat. Mus. 5133, specimen A.

Figure la. Upper surface of the test,

lb. Lower surface of the test.

Ic. Lateral surface of the test.

Id. Posterior surface of the test,

le. Part of one ambulacrum, X 6.

Peeiaechus pileus-sinensis Raveiipl (p. 13.5).
U. S. Nat. Mus. 137791, specimen B.

Figure 2a. Upper surface of the test.
2b. Lower surface of the test.
2c. Posterior surface of the test.
2d. Lateral surface of the test.
292

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE LXIV

Id

Ic

c

EOCENE ECHINOIDEA.

PLATE LXIV.

SctttellaC?) conradi (Cotteau) (p. 126).
Acad. Nat. Sci. Philadelphia 1081, type.

Figure la. Upper surface of the test,

lb. Lower surface of the test.

Ic. Lateral surface of the test.

Id. Posterior surface of the test.

Clypeaster rogersi Mortoii (p. 136).

IT. S. Nat. Mus. 137801, specimen A.

Figure 2a. Upper surface of the test.

2b. Lower surface of the test.

2c. Posterior surface of the the test.

2d. Lateral surface of the test.

Clypeaster rogersi Morton (p. 136).

U. S. Nat. Mus. 155377, specimen B.

Figure 3a. Upper surface of the test.
3b. Lower surface of the test.
3c. Lateral surface of the test.
3d. Posterior surface of the test.

39800°~15 24 293

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE LXV

EOCENE ECHINOIDEA.

PLATE LXV.

ECHINANTHUS GEORGIENSIS Twitchell, 11. Sp. (p. 139).

U. S. Nat. Mus. 165683b, type.
Figure la. Upper surface of the test,
lb. Lower surface of the test.
Ic. Lateral surface of the test.
Id. Posterior surface of the test.

Cassidulus californicus F. M. Anderson (p. 140).

U. S. Nat. Mus. 165664.
Figure 2a. Upper surface of the test.
2b. Lower surface of the test.

Cassidulus (Rhynchopygus ?) holmesi Twitchell, n. sp. (p. 140).

Am. Mus. Nat. Hist., type.

Figure 3a. Upper surface of the t«st.
3b. Lower surface of the test.
3c. Lateral surface of the test.
3d. Posterior surface of the test.

Cassidulus (Rhynchopygus) lyelli (Conrad) (p. 141).
Boston Soc. Nat. Hist. 1552a.

Figure 4a. Upper surface of the test.
4b. Lower surface of the test.
4c. Posterior surface of the test.
4d. Lateral surface of the test.

Cassidulus (Rhynchopygus) raveneli Twdtchcll, n. sp. (p. 142).
Am. Mus. Nat. Hist., specimen A, type.

Figure 5a. LTpper surface of the test.
5b . Lov/er surface of tlie test.
5c. I/ateral surface of the test.
5d. Posterior surface of the test.
294

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE LXVI

3a

4c

5a

3d

5b

EOCENE ECHINOIDEA.

PLATE LXVI.

Cassidulus (Rhynchopygus) raveneli T\satchell, n. sp. (p. 142)
Am. Mus. Nat. Hist., specimen B.

Figure la. Upper surface of the test.

lb. Part of one ambulacrum, X 8.
Ic. Apical system, X 8.

Cassidulus (Rhynchopygus) raveneli Twitchell, n. sp. (p. 142).
Am. Mus. Nat. Hist., specimen C.

Figure 2a. Lower surface of the test.
2b. Part of floscelle, X 4.

Cassidulus (Rhynchopygus?) patelliformis (Bouve) (p. 143).

Boston Soc. Nat. Hist. 1558, type.

Figure 3a. Upper surface of the test.
3b . Lower surface of tlie test.
3c. Posterior surface of tlie test.
3d. Lateral surface of the test.

Cassidulus (Rhynchopygus) depressus Twitchell, n. sp. (p. 144).

Boston Soc. Nat. Hist. 1557a, specimen A, type.

Figure 4a. LTpper surt'ace of the test.

4b. Lower surface of the test.

4c. Posterior surface of the test.

4d. Late/al surface of the test.

4e. Part of one ambulacrum, X 12.

Cassidulus (Rhynchopygus) depressus Twitchell, n. sp. (p. 144).

Boston Soc. Nat. Hist. 1557b, specimen B.

Figure 5a. Lower surface of the test.
5b. Part of floscelle, X 8.

295

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE LXVII

2c

^■^^^

2g

Ic

EOCENE ECHINOIDEA.

PLATE LXVII.

Cassidulus (Pygokhynchus) coneadi Conrad (p. 145).

Acad. Nat. Sci. Pliiladelpliia 1078, probably type.

Figure la. Upper surface of the test,
lb. Jjower surface of the test.
Ic. Posterior surface of the test.
Id. Lateral surface of the test.
le. Part of one ambulacrum, X 8.
If. Part of floscelle, X 7.

Cassidulus (Pygokhynchus) carolinensis Twitchell, n. sp. (p. 146).
Johns Ilopkins Univ. T 2004, type.

Figure 2a. Upper surface of the test.
2b. Lower surface of the test.
2c. Lateral surface of the test.
2d. Posterior surface of the test.
2e. Part of floscelle, X 5.
2f. Part of one ambulacrum, X 8^.
2g. Apical system, X 6.
296

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE LXVIII

2d

If

ie

EOCENE ECHINOIDEA.

PLATE LXVIII.
Breynella gregoryi Twitchell, n. ap. (p. 148).

Am. Mus. Nat. Hist., type.

Figure la. Upper surface of the test.
lb. Lower surface of the test.
Ic. Posterior surface of the test.
Id. Lateral surface of the test.
le. Apical system, X 6.
If. Part of ambulacra.

EcHiNOLAMPAS APPENDicuLATUS Emmons (p. 149).

U. S. Nat. Mus. 138017.

Figure 2a. Upper surface of the test.
2b. Lower surface of the test.
2c. Posterior surface of the test.
2d. Lateral surface of the test.
2e. Part of fioscelle, X 4.
2f . Apical system, X 5.
2g. Part of interambulacra.
2h. Part of ambulacra, X 10.

29T

U. S. GEOLOQICAL SURVEY

MONOGRAPH LIV PLATE LXIX

EOCENE ECHINOIDEA.

PLATE LXIX.

Hemipatagus argutus Clark, n. sp. (p. 150).
U. S. Nat. Mus. 141107, type.

Figure la. Upper surface of the test.

lb . Lower surface of the test.

Ic. Lateral surface of the test.

Id. Posterior surface of the test.

Hemipatagus subrostratus Clark, n. sp. (p. 151).
U. S. Nat. Mus. 164652, type.

Figure 2a. Upper surface of the test.
2b. Anterior surface of the test.

Schizaster leco\tei Merriam (]). 151).
Univ. of California , type.

Figure 3a. Upper surface of the test.
3b. Lower surface of the test.
298

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE LXX

la

EOCENE ECHINOIDEA.

PLATE LXX.

ScHizASTEK ARMiGER Clark, u. sp. (p. 152).

U. S. Nat. Mus. 141104, type.
Figure la. Upper surface of the test.
lb. Lower surface of the test.
Ic. Lateral surface of the test.
Id. Posterior surface of the test.

SCHIZASTER sp. (p. 152).
Johns Hopkins Univ. T 2001.
Figure 2. Fragment of the test showing portion of ambulacrum witli adjacent interambulacrum.

LlNTHIA WILMINGTONENSIS Clark, 11. S]). (p. 152).

U. S. Nat. Mus. 166482, type.
Figure 3a. Upper surface of the test.
3b. Lower surface of the test.
3c. Lateral surface of the test.

299

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE LXXI

/■

Ic

-^m

2c

4li^^

3b

EOCENE ECHINOIDEA.

Figure la. Upper surface of the test.

lb. Lower surface of the test.

Ic. Lateral surface of the test.

Id. Posterior surface of the test

PLATE LXXI.

LiNTHiA Ai.ABAMENsis Clark, Jl. sp. (p. 153).

U. S. Nat. Mus. 173371, type.

LiNTHIA ALABAMENSIS Clark, 11. sp. (p. 153).

U. S. Nat. Mus. 166483.

Figure 2a. Upper surface of the test.
2b. Lower surface of the test.
2c. Lateral surface of the test,
2d. Posterior surface of the test.

EUPATAGLTS CAROLINENSIS Clai'k, 11. sp. (p. 153).

U. S. Nat. Mus. 166484, type.
Figure 3a. Upper surface of the test.
3b . Lower surface of the test.
3c. Lateral surface of the test.
3d. Posterior surface of the test.

EiTpATAGUs CAROLINENSIS Clark, n. sp. (p. 153).

U. S. Nat. Mus. 164674.
Figure 4. I-pper siu-face of tlie test.

Macropneustes CAROLINENSIS Clark, 11. sp. (p. 154).

U. S. Nat. Mus. 164651, type.
Figure 5a. Upper surface of the test.
5b. Lower surface of the test.
5c. Lateral surface of the test.
5d. Posterior surface of the test.
300

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE LXXII

EOCENE ECHINOIDEA.

PLATE LXXII.

Macropneustes moktoni (Conrad) (p. 155).

U. S. Nat. Mus. 146468.
Figure la. Upper surface of the test,
lb. Lower surface of the test.
Ic. Lateral surface of the test.
Id. Posterior surface of the test.

Sarsella GREGORY! Clark, n. sp. (p. 155).

Am. Mus. Nat, Hist., type.
Figure 2a. Upper surface of the test.
2b, Lower siu-face of the test.
2c, Lateral surface of the test.
2d. Postei'ior surface of the test.

39800°— 15 25 301

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE LXXIII

OLIGOCENE ECHINOIDEA.

PLATE LXXIII.

CiDARis MORTONi Couratl (]1. 157).

Boston Soc. Nat. Hist. 1.555.
FlouRK 1. Portion of test.

CiDARis SMiTHi Clark, ii. sp. (p. 157).

Alabama Geo!. Sui-vey, type.
FiGtjRE 2a. Upper surface of the test.
2b. Lower surface of the test.
2c. Lateral surface of the test.

CiDARis SMITHI Clark, n. sp. (p. 157).

Alabama Gaol. Siu-vey.

CiDARIS GEOKGIANA Clark, 11. sp. (p. 158).
U. S. Nat. Mus. 166485, type.

CiDAEIS BRANNERI Amolcl (p. 158).
Leland Stanford Junior Univ. 1056, type.

CCELOPLEURUS ALDEICHI Clark, 11. SJ). (p. 158)

U. S. Nat. Mus. (Aldrich), type.
Figure 6a. Upper surface of the test.
6b. Lateral surface of the test.

Figure 3. Spine.

Figure 4. Portion of the test.

Figure 5. Spine.

CcELOPLEURUS ALDRICHI Cliuk, 11. sp. (p. 158).
U. S. Nat. Mus. ( Aldrich).

Figure 7a. Upper surface of the test.
7b. Lower surface of the test.
7c. Lateral surface of the test.

GaGARIA AMERICANA Claik, 11. sp. (p. 159).

U. S. Nat. Mus. (Aldricli), type.

Figure 8a. Upper surface of the test.
8b. Lateral surface of the teat.

ao2

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE LXXIV

Ic

C)

Id

'^^iiiUiAc

.,11 ..itakfi'mHiA

2b

OLIGOCENE ECHINOIDEA.

PLATE LXXIV.

ECHINOCYAMUS VAUGHANI Twdtcliell, 11. sp. (p. 160).

U. S. Nat. Mu8. 166486, type.

Figure la. Upper surface of the test, X 2.
lb. Lower surface of the test, X 2.
Ic. Lateral surface of the test, X 2.
Id. Posterior surface of the test, X 2.

IjAganum eldkidgki Twitchell, n. sp. (p. 160).

U. S. Nat. Mus. 164683, type.

Figure 2a. Upper surface of the test.
2b . Lower surface of the test.
2c. Jyateral surface of the test.
2d. Posterior of the test.

303

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE LXXV

OLIGOCENE ECHINOIDEA.

PLATE LXXV.

Laganum archerensis Twitchell, ii. sp. {p. 161).
U. S. Nat. Mu3. 164667a, type.

Figure la. Upper .surface of the test,
lb. Lower surface of the test.
Ic. Lateral surface of the test.
Id. Posterior surface of the test.

Laganum .iohnsoni Twitchell, n. sp. (p. 162).
U. S. Nat. Mus. 137202, type.

Figure 2a. Upper surface of the test.

2b. Lower surface of the test.

2c. Lateral surface of the test.

2d. Posterior surface of the test.

Laganum floridanum Twitchell, ii. sp. (p. 163)

U. S. Nat. Mus. 137884, type.

Figure 3a. Upper surface of the test.

3b . Lower surface of the test.

3c. Lateral surface of the test.

3d. Posterior surface of the test.

Laganum dalli Twitchell, n. sp. (p. 164).

U. S. Nat. Mus. 164667b, type.

Figure 4a. Upper surface of the test.
4b. Lower surface of the test.
4c. Lateral surface of the test.
4d. Posterior surface of the test.
304

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE LXXVI

OLIGOCENE ECHINOIDEA.

PLATE LXXVI.

Amblyptgus merkilli Twitchell, n. sp. (p. 165).

U. S. Nat. Mus. 164934, specimen A, type.

Figure la. Upper surface of the test,
lb. Lower surface of the test.
Ic. Part of one ambulacrum, X 3
Id. Apical system, X 3.

305

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE LXXVll

la

OLIGOCENE ECHINOIDEA.

PLATE LXXVII.

Amblypygus meeeiixi Twitcholl, ii. sp. (]>. 165).
U. S. Nat. Mus. 164934, specimen A.

Figure In,. Lateral surface of the test,
lb. Posterior surface of the test.

Amblypygus merrilli Twitchell, n. sp. (p. 165).
U. S. Nat. Mus. 137870, .specimen B.

Figure 2a. Upper surface of the test
2b. Lower surface of the test.
306

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE LXXVIII

A^^

^'mT-* "f^^

la

5c

lb

4a

OLIGOCENE ECHINOIDEA.

PLATE LXXVIII.

Amblypygus mereilli Twitchell, n. sp. (p. 165).

U. S. Nat. Mus. 137870, specimen B.

Figure la. Lateral surface uf the test,
lb. Posterior surface of tlie test.

Oligopygus wetherbyi De Ijoriol (p. 166).
U. S. Nat. Mus. 137SSla, specimen A.

Figure 2a. Upper surface of tlie test.
2b. Lower surface of tlie test.
2c. Lateral surface of the test.
2d. Posterior surface of the test.

Oligopygus wetherbyi De Loiiul (p. 166).
U. S. Nat. Mus. 137881b, specimen B.

Figure 3a. Part of one ambulacrum, X 8.
3b. Apical system, X 5.

Oligopygus haldermani (Conrad) (p. 167).

U. S. Nat. Mus. 112506, specimen A.
Figure 4a. Upper surface of the test.
4b. Lower surface of the test.
4c. Lateral surface of the test.
4d. Posterior surface of the test.

Oligopygus haldermani (Coiiratl) (p. 167).

v. S. Nat. Mus. 164661, specimen B.

Figure 5a. Upper surface of the test.
5b. Lower surface of the test.
5c. Lateral surface of the test.
5d. Posterior surface of the test.

307

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE LXXIX

le

2d

2c

OLIGOCENE ECHINOIDEA.

PLATE LXXIX.

Oligopygus floridanus Tmtchell, n. sp. (p. 169).

IT. S. Nat. Mus. 1C4660, type.

Figure la. Upper surface of the test,

lb. Lower surface of the test.

Ic. Lateral surface of the test.

Id. Posterior surface of the test.

le. Apical system, X 4J.

If. Part of one ambulacrum, X 10.

Cassidulus (Pygorhynchus) georgiensis Twitchell, n. sp. (p. 170).
U. S. Nat. Mus. 164347, type.

Figure 2a. Upper surface of the test.
2b. Lower surface of the test.
2c, Lateral surface of the test.
2d. Posterior surface of the test.

Cassidulus (Pygorhy'nchu's) gouldii (Bouve) (p. 171).
Boston Soc. Nat, Hist. 1756, specimen A, type.

Figure 3a. Upper surface of the test.
3b. Lower surface of the test.
3c. Lateral surface of the test.
3d. Posterior surface of the test.
308

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE LXXX

^■J^i.'V.A?,

3c

'ith:\ ■■■■ .'</

■^>Si:i'l'

.y

■-*(

• ^^^ r'^^^J

OLIGOCENE ECHINOIDEA.

PLATE LXXX.

Cassidulxts (Pygorhynchus) gouldii (Boiive) (p. 171).
U. S. Nat. Mus. 137904, specimen B.

FiGURK la. Upper surface of the test,
lb. Lower surface of the test.
Ic. Lateral surface of the test.
Id. Posterior surface of the test,
le Part of floscelle, X 5.
If. Part of one ambulacrum. X 5i.

Cassidulus (Pygorhynchus) gouldii (Bouve) (p. 171).
U. S. Nat. Mus. 137904a, specimen C.

Figure 2a. Upper surface of the test.
2b. Lower surface of the test.
2c. Lateral surface of the test.
2d. Posterior surface of the test.

Cassidulus (Pygorhynchus; alabamensis Twitchell, n. sp. (p. 172).

Johns Hopkins Univ., type.
Figure 3a. ITpper surface of the test.
3b. Lower surface of the test.
3c. Lateral surface of the test.
3d. Posterior surface of the test.

39800°— 15 26 309

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE LXXXI

la

lb

3a

3c

Ic

Id

OLIGOCENE ECHINOIDEA.

PLATE LXXXI.

ECHINOLAMPAS ALDRICHI Twitcliell, 11. Sp. (p. 173).

Johns Hopkins Univ. T 1099, specimen A, type.

Figure la. Upper surface of the test,

lb. Lower surface of the test.

Ic. Lateral surface of the test.

Id. Posterior surface of the test.

EcHiNOLAMPAS ALDRICHI Twitchell, u. sp. (p. 173).

Johns Hopkins Univ. T 1099.
Figure 2. Part of floscelle, X 4i.

Agassizia conradi (Bouve) (p. 174).

U. S. Nat. Mus. 164744.
Figure 3a. Upper surface of the test.
3b. Lower surface of the test.
3c. Lateral surface of the test.
3d. Posterior surface of the test.
310

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE LXXXII

> L ■ ■ ^iiv' -■■■.•-?( 1,,'..'

I, • , ''SjJ*- '■,* .^rW ''W

-=*i

2a

2b

3c

OLIGOCENE ECHINOIDEA.

PLATE LXXXII.

ScHizASTER FLORiDANUS Clark, 11. sp. (p. 175).

U. S. Nat. Mus. 164655, type.
Figure la. Upper surface of the test.
lb. Lower surface of the test.
Ic. Lateral surface of the test.

EUPATAGUS FLORIDANUS Clark, 11. sp. (p. 176).

U. S. Nat. Mus. 137881, type.

Figure 2a. Upper surface of the test.

2b. Lower surface of the test.

2c. Lateral surface of the test.

2d. Posterior surface of the test.

ScHiZASTER AMERICANA Clark, 11. sp. (p. 176).

U. S. Nat. Mus. 165695, type.

Figure 3a. Upper surface of the test.
3b. Lower surface of the test.
3c. Lateral surface of the test.
3d. Anterior surface of the test.

311

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE LXXXIII

V

la

OLIGOCENE ECHINOIDEA.

PLATE LXXXIII.

ExrPATAGUs FLORiDANUS Clark, n. sp. (p. 176).
Wagner Free Inst. Sci., specimen B.

Figure la. Upper surface of the test,
lb. Lower surface of the test.
Ic. Lateral surface of the test.

EuPATAGUs FLORIDANUS Clark, n. sp. (p. 176).
Mus. Oomp. Zool., specimen 0.

Figure 2a. Upper surface of the test.
2b. Lower surface of the test.
2c. Lateral surface of the test.
2d. Posterior surface of the test.
312

U. S. QEOLOGICAL SURVEY

MONOGRAPH LIV PLATE LXXXIV

W^^^'^.

6b

f:-

MIOCENE STELLEROIDEA AND ECHINOIDEA.

PLATE LXXXIV.

Ophioderma (?) sp. (p. 178).

Johns Hcjpkins I'niv. T 1000.
Figure 1. Fragment of arms.

Amphiura sanct^cruci.s Arnold (p. 178).

Stanford Univ. 1078, type.
Figure 2. Cast of dorsal surface, X 3.

Amphiura sanct.^crucis Arnold (p. 178).

U. S. Nat. Mus. 165431, type.
Figures. Cast of ventral surface.

CcELOPLEtTRus iMPROCERUS (Conrad) (p. 180).

U. S. Nat. Mus. 166487.
Figure 4a. Upper surface of the test.
4b. Lower surface of the test.
4c. Lateral surface of the test.

CcELOPLEURUs SLOANi Clark, n. sp. (p. 181).

r. S. Nat. Mus. 166488, type.
Figure .5a. Upper surface of the test.
5b. Lateral surface of the test.

PsAMMECHiNUs PHiLANTHROPUs (Conrad) (p. 181).

Johns Hopkins Univ. T 1001.
Figure 6a. Upper surface of the test.
6b. Lower surface of the test.
6c. Lateral surface of the test.

313

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE LXXXV

MIOCENE ECHINOIDEA.

PLATE LXXXV.

SiSMONDIA (?) ARNOLDI TwitchcU, 11. sp. (p. 182).

U. S. Nat. Mus. 165.538, type.

Figure la. Upper surface of the test, X 2.
lb. Lower surface of the test, X 2.

SiSMONDIA (?) COALINGAENSIS Twitcliell, 11. sp. (p. 183).

U. S. Nat. Mus. 165717, tyjje.

Figure 2a. Upper surface of the test, X 2.
2b. Lower surface of tlie test, X 2.
2c. Lateral surface of the test, X 2.

SCUTELLA ANDERSONI Twitchell, 11. sp. (p. 183).

U. S. Nat. :N[us. 165719, type.
Figure 3a. Upper surface of the test.
3b. Lower siu'face of the test.
3c. Lateral surface of the test.
3d. Posterior surface of the test.

SCUTELLA FAIRBANKSl Pack (p. 184).

Univ. California, specimen A, type.
Figure 4. Upper surface of the test.

SCUT'ELLA FAIRBANKSl Pack (p. 184).

U. S. Nat. Mus. 164963. specimen B.

Figure 5. LTpper surface of the test.

ScUTELLA FAIRBANKSl Pack (]). 184).

U. S. Nat. Mus. 164963, specimen C.

Figure 6. Upper surfat'e of the test, X 1^-

ScUTELLA (?) MERRIAMI (Audei-BOll) (p. 185).

U. S. Nat. Mus. 165716, specimen A.

Figure 7a. Upper surface of the test, X 2.
7b. Lower surface of the test, X 2.
7c. Lateral surface of the test.

ScuTELLA (?) MERRIAMI (Aiidersoii) (p. 185).

U. S. Nat. Mus. 165584, specimen B.

Figure 8a. Upper surface of the test, X 2.
8b. Lower surface of the test, X 2.

ScuTELLA NORRisi Pack (p. 186).
Uriiv. California, type.

Figure 9. Lower surface of the test.
314

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE LXXXVI

/

MIOCENE ECHINOIDEA.

PLATE LXXXVI.

ScuTELLA ABERTi Courad (p. 187).

Maryland Geol. Survey.
Figure la. Upper surface of the test.

lb. Enlarged plate of the same species.

313

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE LXXXVII

v-"^
V^ ^

V
-^^

"X

Id

X

'. - ^ I.

"^.^^

/

^^^teiissiiiii^M;

--'^"^^S^"'

_^^^te<r■.W'>i^i-;'•■'C"^^■^'^^■:.^,;^^i^^^^^^'■iii^»ife^^*^^^^

lb

MIOCENE ECHINOIDEA.

PLATE LXXXVII.

ScuTELLA ABERTi Coiirad (p. 187).

Maryland Geol. Survey.

Figure la. Lower surface of the test,
lb. Lateral surface of the test.
Ic. Interambulacral plate.
1(1. Another view of same.
316

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE LXXXVIM

3a

lb

4a

4b

4c

MIOCENE ECHINOIDEA.

PLATE LXXXVIII.

ScuTELLA GABBi (Remond) Merriam (p. 189).

Univ. CaUfornia 19425.
Figure la. Upper surface of the test.
lb. Lateral surface of the test.

Dendeaster perrini (Weaver) (p. 190).

U. S. Nat. Mus. 1G5.560, specimen A.
Figure 2. Upper surface of the test.

Dendeaster perrini (Weaver) (p. 190).

U. S. Nat. Mus. 165560, specimen B.

FiGUSE 3a. Upper siu'face of the test.
3b. Lower surface of the test.
3c. Lateral surface of the test.

Dendraster arnoldi Twitchell, n. sp. (p. 192).

U. S. Nat. Mus. 165707, type.
Figure 4a. Upper surface of the test.
4b. Lower surface of the test.
4c. Lateral surface of the test.
4d. Posterior surface of the test.

39800°— 15 27 317

U. S. QEOLOQICAL SURVEY

MONOGRAPH LIV PLATE LXXXIX

//

^°^.M<i

--"^^'■^^'^^-litft

X

MIOCENE ECHINOIDEA.

PLATE LXXXIX.

Dendraster gibbsii (Remond) (p. 193).

V. S. Nat. Mus. 165547, specimen A.
Figure la. Upper surface of the test,
lb. Lateral surface of the test.

Dendraster gibbsii (Remond) (p. 193).

U. S. Nat. Mus. 165611, specimen B.
Figure 2. Lower surface of the test.

Dendraster gibbsii (Remond) (p. 193).

U. S. Nat. Mus. 165611, specimen 0.
Figure 3. Upper surface of the test.

Dendraster gibbsii (Remond) (p. 193).

U. S. Nat. Mus. 165704, specimen D.
Figure 4. Upper surface of the test.
318

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XC

-^^.■^.JI:Vv/';,-•7/,A;,.,,.^,7i -. - /,■ .-^•■.'

j>fv-'-'-,ZY*>sC»?

2a

MIOCENE ECHINOIDEA.

PLATE XC.

Dendraster oregonensis (Clark) (p. 195).

U. S. Nat. Mus. 153975.
Figure 1. Upper surface of the test.

Dendraster coalingaensis Twitchell, n. sp. (p. 196).

U. S Nat. Mus. 165537, type.
Figure 2a. Upper surface of the test.

2b . Lower surface of the test, X 2 .
2c. Lateral surface of the test, X 2.

319

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XCI

MIOCENE ECHINOIDEA.

PLATE XCI.

Mellita caroliniana Ravenel (p. 204).

Acad. Nat. Sci. Philadelphia 1083.
Figure la. Upper surface of the test.
lb. Lateral surface of the test.
320

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XCll

"■'%,,

^^rm

\

* r---^

\

:^a?50^?HS!(15CJ!?

^tl^^r i mtt

lb

MIOCENE ECHINOIDEA.

PLATE XCII.

Mellita caroliniana Ravenel (p. 204).

Acad. Nat. Sci. Philadelphia 1083.

Figure la. Lower surface of the test.

lb . Posterior surface of the teat.

321

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XCIII

MIOCENE ECHINOIDEA.

PLATE XCIII.

ScuTASTER ANDERsoNi Pack (p. 206).

Univ. California, type.
Figure 1. Upper surface of the test.

En COPE MACROPHOEA Ravencl (p. 206).

Acad. Nat. Sci. Philadelphia 1086, specimen A.

Figure 2a. Upper surface of the test.
2b. Lower surface of the test.
2c. Lateral surface of the test.
2d. Posterior surface of the test.
2e. Apical system, X SJ.
322

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XCIV

MIOCENE ECHINOIDEA.

PLATE XCIV.

Encope maceophora Ravenel (p. 206).

U. S. Nat. Mus. 164658, specimen B.
Figure la. Upper surface of the test.
lb. Lower surface of the test.
Ic. Lateral surface of the test.
Id. Posterior surface of the test,
le. Part of one ambulacrum, X 8.
If. Apical system, X 5.

Encope macrophora Ravenel (p. 206).

U. S. Nat. Mus. 9970, specimen C.
Figure 2. Upper surface of the test.

AsTRODAPSis ANTiSELLi Conracl (p. 198).

U. S. Nat. Mus. 165466, specimen A.
Figure 3. Upper surface of the test.

AsTRODAPSis ANTISELLI Conrad (p. 198).

U. S. Nat. Mus. 165466a, specimen B.

Figure 4a. Lower surface of the test.
4b. Lateral surface of the test.

323

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XCV

MIOCENE ECHINOIDEA.

PLATE XCV.

ASTRODAPSIS ARNOLDI Twitcliell, 11. sp. (p. 199)

U. S. Nat. Mus. 165594, type.
Figure 1. Upper surface of the test.

ASTKODAPSIS WHITNEYI Reiiioiid (p. 201).

Univ. California 19426.
Figure 2a. Upper surface of the test.
2b. Lower surface of tlie test.
2c. Lateral surface of the test.

AsTROD APSIS TUMiDUS R6mond (p. 202).

Univ. California 19424.
Figure 3a. L'pper surface of the test.
3b. Lower surface of the test.

AsTRODAPSis jACALiTOSENSis Arnold (p. 203).

U. S. Nat. Mus. 165610, type.
Figure 4. Upper surface of the test.

Cassidulus bassleri Twitchell, n. sp. (211).

U. S. Nat. Mus. 9476, type.
Figure .5a. Upper surface of the test.
5b. Lower surface of the test.
5c. Lateral surface of the test.
5d. Posterior surface of the test.
324

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XCVI

MIOCENE ECHINOIDEA.

PLATE XCVI.

Clype ASTER BOWERSi Weaver (p. 209).
Univ. California, type.

P''iGUHB la. Upper surface of the test.
lb. Lower surface of the test.

Clypeaster (?) BREWERiANUs (Remond) (p. 210).
Acad. Nat. Sci. Philadelphia 1088, specimen A.

Figure 2a. Upper surface of the test.
2b. Lower surface of the test.
2c. Lateral surface of the test.

Cltpeaster (?) BREWERIANUS (R6mond) (p. 210).

Univ. California 19423, specimen B.
Figure 3. Upper surface of the test.

39800°— 15 28 325

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XCVII

'^■^■wm^w^

le

la

lb

2a

2b

2c

Id

MIOCENE ECHINOIDEA.

PLATE XCVII.

Agassizia porifera (Ravenel) (p. 212).
Am. Mus. Nat. Hist.

Figure la. Upper surface of the test.
lb. Lower surface of the test.
Ic. Posterior surface of the test.
Id. Lateral surface of the test.

Echinocardium orthonotum Conrad (p. 213).
Acad. Nat. Sci. Philadelphia 1079.

Figure 2a. Upper surface of the test.
2b. Lower surface of the test.
2c. Lateral surface of the test.
326

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE XCVIll

Ic

MIOCENE ECHINOIDEA.

PLATE XCVIII.

ECHINOCARDIUM ORTHONOTUM Coill'ad (p. 214).

Am. Mus. Nat. Hist.
Figure la. Upper surface of the test,
lb. Lmver surface of the test.
Ic. Anterior surface of the test.

ECHINOCARDIUM ORTHONOTUM Coiirad (p. 214).

Johns Hopkins Univ. T 1002.
Figure 2a. Upper surface of the test.
2b. Lower surface of the test.
2c. Lateral surface of the test.

ECHINOCARDIUM DEPRESSUM Clark, 11. sp. (p. 214).

U. S. Nat. Mus. 164454, type.
Figure 3a. Upper surface of the test.
3b. Lower surface of the test.
3c. Lateral surface of the test.

LiNTHiA (?) CALiFORNiCA Weaver (p. 214).

Univ. California, type.
Figure 4. Upper surface of the test.

327

U. S. GEOLOQICAL SURVEY

MONOGRAPH LIV PLATE XCIX

la

PLIOCENE ECHINOIDEA.

PLATE XCIX.

Strongylocentrotus brobachiensis (Miiller) (p. 216).

Wagner Free Inst. Sci. 4350.

Figure la. Upper surface cif the test,
lb. Lower surface of the test.
Ic. Lateral surface of the test.

DiPLOTHECANTHUS DALLI Twitchell, 11. sp. (p. 218).

U. S. Nat. Mu.s. 164670.
Figure 2a. Posterior surface of the test.
2b. Lateral surface of the test.
328

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE C

lb

PLIOCENE ECHINOIDEA.

PLATE C.

DlPLOTHECANTHUS DALLI Twitclioll, H. sp. (p. 218).

U. S. Nat. Mils. 164070, type.
Figure la. Upper surface of the test.
lb. Lower surface of the test.

Dendraster inteelineatus (Stimpsoii) (p. 216).

Univ. California 19427.
Figure 2a. Upper surface of the test.
2b. Lower surface of the test.

329

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE CI

PLIOCENE ECHINOIDEA.

PLATE CI.

ASTEOUAPSIS FEKNANDOENSIS Pack (p. 217).

Univ. California, specimen A.
Figure 1. Upper surface of the test.

ASTRODAPSIS FERNANDOENSIS Pafk (p. 217).

Univ. California, specimen B.
Figure 2. Lower surface of the test.

Cassidulus berryi Twitchell, ii. sp. (p. 220).

Johns Hopkins Univ. T 1, type.
E'lQURE 3a. Upper surface of the test.
3b. Lower surface of the test.
3c. Lateral surface of the test.
3d. Posterior surface of the test.

330

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE Gil

la

lb

PLIOCENE ECHINOIDEA.

PLATE CII.

DiPLOTHECANTHUs ROSACEus (Lamarck) (p. 219).

U. S. Nat. Mils. 165693.
Figure la. Upper surface of the test,
lb. Lateral surface of the test.

331

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE GUI

PLIOCENE ECHINOIDEA.

PLATE cm.

DiPLOTHECANTHUs ROSACEus (Lamarck) (p. 219).
U. S. Nat. Mu.s. 165693.

Figure la. Lower surface uf the teat.

lb. Posterior surface of the test.

ScHiZASTER (?) STALDERI Weaver (p. 221).
Univ. California, type.

Figure 2. Upper surface of the test.
332

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE CIV

vmr-

, ,ur .

'<'^

la

' ~ '['fif'" ■ - -I

■»rTr''*jg^

PLEISTOCENE ECHINOIDEA.

PLATE CIV.

Dendraster excentricus (Eschscholtz) (p. 223).

Wagner Free Inat. Sci. 2473, specimen A.

Figure la. Upper surface of the test.
lb. Lower surface of the test.
Ic. Lateral surface of the test.
Id. Posterior surface of the test.

39800°— 15 29 333

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE CV

/

fe

\

PLEISTOCENE ECHINOIDEA.

PLATE CV.

Dendraster excentricus (Eschscholtz) (p. 223).
Jiilins Hopkins Univ. T 2, specimen B.

Figure la. Upper surface of the test.
lb. Lower surface of the test.
Ic. Lateral surface of the test.
Id.' Posterior surface of the test.
334

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE CVI

PLEISTOCENE ECHINOIDEA.

PLATE CVI.

Mellita pentapora (Gmelin) (p. 225).

Johns Hopkins Univ. T 3.
Upper surface of the test.

335

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE CVII

PLEISTOCENE ECHINOIDEA.

PLATE CVII.

Mellita pentapora (Gmelin) (p. 225).
Johns Hopkins Univ. T 4, type.

FiGUKE la. Lower surface of the test.

lb. Posterior surface of the test.
Ic. Part of an ambulacrum, X 6.
336

i

U. S. GEOLOGICAL SURVEY

MONOGRAPH LIV PLATE CVIll

-t. ASTRODAPSIS TUMIDUS REMOND IN MATRIX, SANTA MARGARITA FORMATION (UPPER
MIOCENE), NACIMIENTO RIVER, SAN LUIS OBISPO COUNTY, CAL.

■*«*. _ .Jt'SL'T]^

S. DENDRASTER GIBBSII (REMOND) IN UPPER MIOCENE (?) BEDS, K. W. JONES RANCH, KINGS
COUNTY, 20 MILES SOUTHEAST OF COALINGA, FRESNO COUNTY, CAL.

INDEX.

Names in italic are synonyms; figures in italic refer to illustrations; figures in black face refer to descriptions.

A.

Page.

Atiert, J. J., species named after 187

Acknowledgments for aid 7

Agassizia clevei 175

comadi 174-175, SW

excentrica 175

excentrica A. Agassiz 212

floridana 174

poritera 212-213, S26

Aldrich, T. H., species named after 173

Amblj'pygus altus 165-166

americanus 165-166

merrilli 165-166, SOS, SOB, S07

Amph idclus ampliphoTus 214

gothicus 214

orthonotus 213

virginianus 213

Amphiura sanct£ecrucis 178-179, JJ J

AmphiuridsB 23. 178-179

A nanckytcs ductus S3

crucifcrus 71

ftmbriaius 83

ovalis 81-82,^64

texana i2,S64,mS

sp..

83

A napcsus carol inus 222

Anderson. F. M., cited 140,185-186

species named after 183

Antedonida? 112

Arachnoides placenta 190

A rhacia sp. Bouve 117

sp. Stefanini 180

Arbaciidse 117, 158-159. 180-181

Arbacina 31-32,62-53, 117, 158-159, 180-181

Arnold, Kalph, acknowledgment to 7

cited 114, 158, 178-179, 223

species named after 182,192,200

Aspidura idahoensLs 2i,B30

Asteracanthion lincki 222

As^Jerias dubium 28-29, ;?.?;,'

lincki 222

rcmondi 178

remondii 178

stellionura 222

vulgaris 222

sp.

112

Asteriida; : 28-29. 112, 178, 222

Astemata 34, 67-81, 140-150, 165-174, 211-212, 220-221

Asteroidea 28-23, 41-43, 112, 178, 222

Astrodapsis 197

antiselli 187,198-199, 200, 203, 217, 218, 5.'3

antisclli var. arTioldi Pack 199

amoldi 199-201, 202, 204, S'H

hnwcrianus 210

femandoensis 217

jacalitosensis 200, 202, 203-204, S2i

merriami 185

pcrrini 190

tumidus 199, 202, 202-203, 210, 324, 337

whitneyi 187, 199, 200, 201-202, 203, 324

whitncyi 199

sp. a Arnold Itl2

sp. indct. Arnold 182

Astropecteii montanus 41, 2SS

Astropectinidffi 41

Atelostomata 34, 67-100, 140-166, 165-177, 211-215, 220-221, 227

AtheneidEE 42

39800°— 15 30

Page.

Berry, E. W., species named after 220

Bibliography of Cenozoic echinoderms 105-111

of Mesozoic echinoderms 14-20

Botriopygus alabamensis 68-69, 253

elevatus 69

Bourgueticrinidge 39-40

BouTgueticrinus sequalis 40

alabamensis 39

ellipticus 40

Breynella equizoata 148

gregoryi 148, 297

Brissopsis californica 214

poriferus 212

rimulatus 154

Brissus spatiosus 215

C.

Calycina 49-51

Cardiaster cinctus 83-84, 84, 263

curtus 84-85, 2eff

fimbriatvs 83

smocki 84, SS5

Cassidulidaj 34, 72-81, 140-150, 170-174, 211-212. 220-221

Cassidulus abruptus 81

scquoTeum 75

ffiquoreus 75, 75-76, 76, 80. 211, 212, 259

amygdala 147

bassleri 211-212. '221,324

berryi 212, 220-221, 330

californicus 140. 294

conoideus 80-81, 256

florealis 74-75, 76. 259

hemisphericus 80, ses

intermedius 79-80, 263

micrococcus 76, SO. 212, 260

porrectus li, 261, 262

stantoni 79, 282

subangulatus 81

subconicus 75, 77, 77-78, 261

subquadratus 77, 78, 81, ^^

(Pygorhynchus) alabamensis 172,172-173,309

carolinensis 116, 146-147, 171, 296

conradi 145-146, 147, 296

georgiensis 147, 170-171, 30S

gouldii 171-172, 173, 30«, 309

(Rhj-nchopygus) depressus 143, 144, 144-145, 295

holmesi 140-141, 294

lyelli 141-142, 294

patelliformis 143-144, 145, 295

raveneli 142-143, 115, 294,295

Catopygus columbarius 73

conradi 145

oviformis 72-73, 73, 74, 268

patelliformis 143

pusillus 73, 74, 258

wiUiamsi 73-74, «5S

sp. indet 74

Cenozoic echinoderms, geologic distribution of 101, 102-104

Cenozoic formations, American, stratigraphic position of 102

Chiridota sp 177

Cidaridaj 23-24. 30-31. 44-49, 113-116, 167-158, 179

' Cidaris alabamensis 116

Cidaris armiger 46

armigera , 46

blandis 116

brarmeri 45, 158. 302

californicus 30. M.S33

337

338

INDEX.

Page.

Cidaris carolinensis IIS-IU, 114, «S4

davigaa ^

diatretum 49,56

diUeri 23-24.230

dixiensis 47, 2SS

georgiana .

Ki.SOi

hemigranosus 48

merriami 114-115, 158, 2S4

mitchelli 113,114,584

modestus ^1*

moereus ^^^

mortoni 157, SOi

nahalakensis *8

ordinatus 11^

perdubius 11®

plumasensis 31, *SS

pratti n^,2S^

sceptrifera 45, 56

serrata 47

serrifer 47

shastensis 23, 24, 230

smithi 157,302

splendens 46, 46-47, 2SS

taylorensis 3()-31, 233

tehamaensis 44, 258

texanus 45, 238

thouarsii l''^

walcotti *5-46, 238

sp 46

sp. De Cregorio 116

Cidarites armifjer 46

diatretum 56

splendeus 46

Cidaroidea 23-24, 30-31, 44-49, 113-116, 157-158, 179

Clark, H.L., cited 115,179

Clypeaster ambigenus ; 138

biarritzensis 13S

bowersi 209, 32o

breuniger 209

brewerianus 210, 3£5

ooncavus 138

cotteaui 138

crassicostatus 219

douvillei 137,138

fioTealis 74

gabbi 189,211

ffeometrkus 72

jomsi 137

j(m€sii 136, 137

rogersi 128,136-138,293

rosacetta 219

simplex 138

tumidus 136,137

turgidus 137

sp 72,74

Clypeastridffi 67,136-139,209-211,218-220

Clj-peastrina 67, 119-139, 160-164, 182-211, 216-220, 223-227

Coelopleurus aldrichi 158-159,, JfJ2

depressus 117

improcerus 180, 181, 313

intulatus 117, 285

sloani 181, 213

( Echinus) injiatus 117

Collections studied 7

Coptosoma mortoni 62, 62-63, ISl

speciosum 61-62, 63, 2^8

Cottaldia rotula 57, 2^9

Couper, J. Hamilton, cited by Conrad 145

Craigin, F. W., cited 34, 47, 57, 82

Cretaceous echinoderms, descriptions of 35-100

stratigrapbic distribution of, in Texas 14

types represented among 9-10,12-13

Crinoidea 21-22,25-28,35-40,112

Crj-ptozonia 2S-29, 112, 178, 222

Cyphosoma hilli 59-60, S48

mortoni 62

speciosum 61

texana 60

Page.

Cyphosoma texanum 58,60,60-61,61,250

volanum 60, 61, 250

Cyphosomatidoe 63-63, 118, 159

T>.

Ball, W. H., acknowledgment to...! 7

species named after 164

De Loriol, P . , cited 39

Dendraster 190

amoldi 191, 192-193, 197, 317

ashleyi 193

coalingaensis 193, 194, 196-197, 225,3/9

e.xcentricus 194, 196, 217, 223-225, 333, S3i

fairbanksi 217

gabbi 217

gibbsii 193-195, 196, 224, 225, S18

interlineatus 185, 195, 197, 216-217, 3S9

oregonensisj 185, 195, 217, SiS

perrini 129, 190-191, 192, 193, 317

sp 197

Dendrocrinoidea 21-22, 25-28, 35-39

Desor, E ., cited 67

Diadema texana 60

texanum 55, 60

DiadematidK 32, 65-58

Diademlna 32-33, 54-63, 118, 159

Diademoidea 31-33, 49-65, 117-118, 168-159, 180-182. 216. 222-223

Dicyclica 21-22, 25-28, 35-40, 112

Diplopodia hilli 59

streeruvitzi 58, 68-59,245

tafB 58.249

texa na 60

texanum 60

Diplopodiida- 58-59

Diplothecanthus dalli 218-219, 220, .328, SS9

rosaceus 209, 219-220, S31,SSS

Discoidea haldermani 167

Ditremastcr conradi 174

Dumhlca symmetrica 64

Echinanthus antillarum 148

bonissenti 148

georgiensis 139, 29^

mortonis 67

quinquefaria 128

rogersi 136

rosaceus 219

rosaceus 219

subcarinatus 139

Echinarachnius 124, 190

ashleyi 193

breicerianus 210

excentricus 190, 193, 223

fairbanksi 184

gabbi 189

gibbsii 193, 196

juliensis 125

norrisi 186

parma 190

sp. Conrad 197

Echinina 63-65, 118, 159,181-182, 216, 222-223

Echinobrissus angustatus 69, 256

crucifer 71

e.xpansus 69-70, 70,«W

t e.xanus 70, 257

Echinocnrdium amplitlorus 214

ampliphorus 214

cordatum 214

depressum 214, 327

gotbicus 214

orthonotum 213-211, 214,32/, S««

ortkonotus 213

pennatifidum 213

virginiinum 213

Echino-cidaris infulatus 117

Echinocidaris sp. McCrady 180

Ecbinocorytliidie 81-86

INDEX.

339

Page.

Echinocyamus huxleyanus 119, 119-120, 120, 122, 160, me

mcridionalis 121

parvus 119. 120. lUO

texanus 119, 120. 160. 2Se

vaughani 119, 120, 160, SOS

Echinodiscus perrini 190

Echinoidea. . 23-24, 30-34, 44-100, 113-156. 157-177, 179-215, 816-221, 222-227

Echinolampas affinis 1"!

aldrichi 1.50, 173-174, 310

appcndiculatus 149-150, m,g97

francei 150

insi.t^iis 1"4

Echinoneida? 67-68

Echinus andinus 53

exerceus 118

improcerus 180

infulatus 117

patagonensis 5.3

pentoporus , 225

philantfiTopus 181

placenta 124, 190

reticulatus 219

Tuffini 181

varkgaius 222

sp 118, SSS

sp. Aldrich 118

sp. Cunningham 159

sp. Morton 46

Eldridge, G. H., species named alter 161

Emmons, Ebenezer, cited 119

EnallastiT inflatus 86

mexicanus 88

obliquatus 87-88, 269

peruvianus 87

texanus 86-87, 87, 268

sp 86

Encope cite 208

emarginata '. 208

grandis 208

macrophora 206-203, SSS, SSS

tenuis 208

Encrinidce 22

Encrinus hj-atti 22, 230

Eocene echinoderms, descriptions of..' 112-156

eastern Gulf, stratigraphic distribution of 104-105

Epiastcr eUclus 88

elegans . ! 88

hemiasterinus 89

ivhitei 89

Eupatagus carolinensis 153-154, 300

clevei 176

floridanus 176-177, 311,312

Eurhodia morrisii 143

F.

Favjasia florealis 74

Fibularia meridionalis 121-122, 2S6

Fibulariid[e 1, 119-122, 160, 182-183

Flexibilia 39-40,112

G.

Gabb, W. M., cited 178

Gagaria americana 159,302

G alerites oregonensis 212

Geologic distribution of Cenozoic echinoderms 101. 102-104

Gnathaster elongatus 42

Gnathostomata 33-34, 65-67, 119-139, 160-164, 182-211, 216-220, 223-227

Goniaster mammillata 42, S37

Gonioclypeus subangulatus 81

Goniopygus major 53

zitteli 53-53, SiS, 2U

Gregory, J. W., acknowledgment to 7

species named after 148

H.

Hadouinia mortoni 67

BcmiasteT americanus 94, 95

beecheri 96-97, 279

bexari 89-90,275

Page.

Hemiaster californicus 96, 279

calvini 90, 91, 276

comanchei 90, 275

conradi 174

dalli 90, 90-91, 97, 276

elegans 88-89, 89, 90, 270, 271, S7S

humphreysanus 95-96, 96, 27S

incrassatns ; 93

kiimmeli 97-98, gg, ggt

lacunosus 97, 37$

parastatus 92, 93, 97, 98, 277

Stella 93, 97, 277

texanus 94-95, S78

ungula 92, 93-94, 277

wclleri 98, 2S/

wetherbyi 93

whitei 88, 89, 90, 01, 272, 27S, 274

(^Perkosmos) spatiosiLS 215

Hemicidaridne 31-32, 52-53

Hemicidaris intumescens 31-32, 233

Hemipatagus argutus 150, 151 , 298

subrostratus 150, 151, 298

Hemipedina charltoni 57-58

Heterodiadema ornatum 56-57, S47

Hill, Robert T., acknowledgment to 7

Holaster cinclus 83

comanchesi 85

computus 85

fimbriatu-s 83

Isevis var. planus §5

mortoni 155

nanus 85

parastatus 92

simplex 85-86, 2fiS, 267, S68

supernus 85

ungula 94

Holectypina 33-34, 65-66

Hokctypus charltoni 66

craigini 34, 2.3.4

pealei 33-34, 234

planatus 34, 65-66, 2S4, SSS

planus 65

transpccoscnsis 66

sp..

66

Holmes, F. S., species named after 140

Holothurioidea 177

H j-podiadema elegans 52, 2.f3

I.

Inadunata 21-22, 25-20. 35-39

Irregularia 33-34, 65-100, 119-156, 160-177, 182-215, 216-221 , 223-227

Isocrinus asteria 26

californicus 21-22,230

decorus 26

knighti 25-26, 27, 231, SSS

naresianus ", . . 26

parrfe 26

smithi 21,230

wyvillc-thomsoni 26

sp 22

, J.

Jurassic echinoderms, descriptions nf 25-34

scarcity of 9

tj^pes represented among 12-13

L.

Lagana rogcrsi 136

Laganidse 122-123, 160-164

Laganum archerensis 123, 161-162, 163, 164, 304

crustuloides 122-123, 162, 163, 164, 2S6

dalli 123, 162, 164, 304

eldridgei 160-161, 30S

elongatum 161

floridanum 123, 162, 163-164, 304

johnsoni 123, 162-163, 304

reflexum 123

Leiocidaris hemigranosa 48

hemigranosus 45,48-49,235

340

INDEX.

Page.

Leptarbacia 53

argutus 53, 2^5

Linthia alabamensis 153, 300

califomica 214-215. 327

tumidula 93, 100, 282

variabilis 99-100, 2S3

wilmingtonensis 152-153, ,\'?i*

M.

Macraster texanus SS

Macrophora macrophora 206

ravendU 206, 207

Macropneustes carolinensis 154, 300

mortoni 155,. Wi

Marsupites americanus Z%,233

test LI dinar ius 39

Maxsupitidii? 39

McUUa ampla 225, 226

caroliniana 203-205, 220,520,351

caroliniata 204

pentapora 205, 225-227, 335, 336

quinqucfora 225

sexforis 205

tcstudinata 225

tcxana 225, 226

Meoma spatiosa 215

vcntricosa 215

Merriam, John C, acknowledgment to 7

cited 189, 216-217

Merriamastcr pcrrini 190

Merrill, G. P., species named after 165

Mesozoic echinoderms, geologic distribution of 12-13

Mesozoic formations, American, stratigraphic positions of 11

Metalia holmesi 215

raveneliana 215

Micrastcr unguja 93

Microcrinus conoideus 112

Micropsis lineatus , 63, 254

Miller, S. A., cited 39

Miocene echinoderms, descriptions of 178-215

Mcera lachcsis 227

Monostychia marg'nmlis 127

plana 121

Mortonella 128

quinquefaria 128. 130, 137, 1^1,289,290

rogersi 128

Mortonia Desor 128

jonesii 136

quinqucfana 128

Togersi 128, 136

tumida 133, 137

turgida 136, 137

{Pcriarchus} carolinensis 204

lyelli 131

margiTialis 126

pilcus sinensis 135

plana 121

K.

71

71

141-142

. 171

NudcoUhs crucifcr

cruciferus '

lyelli

mortoni

oviformis 72

Nucleolitidae 68-72, 165, 170

Nuculites crucifcT 71

cruciferus 71

O.

Oligocene echinoderms, descriptions of 157-177

eastern Gulf, stratigraphic distribution of 104, 105

Oligopygus 166

costulatus 167

floridanus 167, 168, 169-170, 308

haldermani 157, 167-169, 170, S07

o\'um-serpentis 167, 168, 170

wetherbyi 166-167, 168, 170, 507

Ophioderma bridgerensis 43

sp 178, SIS

Page.
OphiodermatidEe 178

Ophioglypha bridgerensis 43-44, 237

texana 43, 44 , 257

utahensis 29, ^55

Ophiolepididse 29, 43-44

Ophim-oidea 23, 29, 43-44, 178-179

OpL^saster conradi 174

Orthechinus pretiosus IIS, 285

Orthopsidje 54-55

Orthopsis occidentalis 54-55, £4^

planulata 54, S4S

P.

Pack, R. W., cited ia7, 206, 217

Paractinopoda .' 177

Pedinidae 33

Pedinopsis pond i ;.......: 65, 2SS

symmetrica : 64, 25S

Pentaceros asperulus 42-43, 237

Pentacerotidre : 42-43

Pentacrinid^ 21-22, 25-28, 35-36

Pentacrinitcs asteriscus 25, 26, 27

Pentacrinus asteriscus 22, 25, 26, 26-27, 28, 232

beaugrandi 26

bryani 35-36, 235

shastensis : 27, 28, 23£

tehamaensis 35, 36, 235

whitei 26, 27, 27-28, 232

(Cainocrinus ) andreas 26

Pentagonaster arculatus 41

browni 41-42, 236

Pentagonasteridae 41-42

Periarchus 130

altus 130-131, 188, 2S7

carolinensis 204

crustuloides 122

lyelli 125, 126, 127, 130, 131, 131-133, 136, 18S,S90,291

marginalis 127

pileus-sinensis 133, 134, 135-136, 292

plana 121

protuberans 133, 133-134, 136, 291

sp. a Stefanini 132

sp. b Stefanini 130

Periaster australis 95

Pericosmvs spatiosus 215

Phanerozoma 41-43

Phymosoma texanum 60

Pinnata 39-40, 112

PlagiobrisstLS holmesi 215

raienelianus 215

Plagionotis ravenelianus 215

Plagionotus holmesii 215

ravenelianus 215

Pleistocene echinoderms , descriptions of 222-227

Pliocene echinoderms, descriptions of 216-221

Psammechinus cingulatus 63-^4, 251

exoletus 182

i mproceras 180

philanthropus 181-182, SIS

ruffini 181

Pseudodiadema baileyi 32

diatretum 5B,248

emersoni Z2,2S4

hilli 59

ornatum 56

roemeri 55

speciosum 61

tenue 55

texanum 55, 57, 60, 61, 2^7

Pygasteridgc 33-34, 65-66

Pygorhyncus crucifcr 71,142

gouldii 171

grignonensis 146, 171

lyelli 141

maveri 146, 147

mortonis 67

rugosus 147

Pygurus florealis 74

geometricus 72

sp 34

INDEX.

341

Pyrina bulloides 68

dcsmoulinsii 68

parryi 67-68, ISS

R.

Ravenel, Edmund, species named after 142

Eavenelia cruci/eT 142

gouhlii l"!

RavenelUa macTophoTa 20tl

Resularia ectobranchiata 31-33 ,

49-65, 117-118, 158-159, 180-182, 216, 222-223

Rejularia endobranchiata 23-24, 30-31, 44-49, 113-116, 157-158, 179

Remond, Auguste, cited 211

Rhizocrinus alabamensis 39-40, iO, SSS

cylindricus 40, «;35

Rhyncbopygus calderi 143

pygmaeus 145

■S.

Salenia bellula 51, 2^

desori 50

petalifera . . . ". 50

scutigera 50

texana 49-50, 51, Sil,2i3

tumidula 50-51, 51, 2i3

Saleniida; 49-51

Sarsella gregoryi 155-156, SOI

Schizaster americana 176, 311

armiger 152, 209

atropos 227

floridanus 175, 31 2

lecontei 151-152, S98

stalderi Z21,S3S

sp 152, 299

Scutaster 206

andersoni 206, S33

Scutella 124

aberti 187-189, S/S, SW

albcTti 187

andersoni 183-184, Sli

caput-Vmmsis 135

caput-sinensis 135

caTolinensis 204

caroliniana ...' 204

conradi 121, 123, 126, 126-127,fSJ

crustuloides 122

cicentrica 223

fairbanksi 184-185, 186, 189, SU

faujasi 130

gabbi 1S4, 185, 189, 211, 317

gabbi Merriam 211

gibbsii 193

interlincata 216

jonesii 136

lenticularis 190

lydli 131

macTophora 206

meniami 183, 185-186, 314

merriami '. 184

mississippiensis 124-125, 126, 127, 133, esS

moTtoni 128

norrisi 186-187, 3U

parma 126, 190

patagonensis 125, 194

perrini 190

pihus-sinensis 135

quinque/aria 128

quinquefora 225

Todgcrsi 136

Togersi 128, 129, 136

striatnJa 125

striatula 224

subrotunda 188

subtetragona 125

tarraconensis 188

tuomeyi 125-126, 127, 133, SS9

Page.

Scutella sp. Conrad 197

sp. Emmons 130

(EcMnarachnius) excentricus 224

orcgoncnsis 195

( Mortonia ) rogcrsi 128

Scutellaster crotaceus 67

Scutellida' 124-136, 183-209, 216-218, 223-227

Sismondia alia 130

antillanim 164

amoldi 182-183, 183, SU

coalingaensis 183, S/4

conradi 127

crustuloides r 122

lyelli 131

marginalis 123, 126

merriami 185

pilcus-sinensls 135

plana 121, SSB

Slocum, Arthur W., cited 79-80, 80, 97, 99-100

Spatangidse 86-100, 150-156, 174-177, 212-215, 221, 227

Spatangus columbianum 87

cor-marinum 92

orthonotus 213

pachecoensis 156

parastatus 92

Stella 93

w tigula 93

sp 83,92,93

Springer, Frank, acknowledgment to 7

cited 25,26,39,112

Stanton, T. W., acknowledgment to 7

Stelleroidea 23, 28-29, 41-14. 112, 178-179, 222

Stemata 81-100, 150-156, 174-177, 212-215. 221, 227

Stomechinus hyatti Zi, 2S4

nudus 33

Stratigraphic distribution of eastern Gulf Eocene and Oligocene

echinoderras 104-105

Stratigraphic positions of American Cenozoic formations 102

of American Mosozoic formatioas 11

Strongylocent^otida^ 216, 223

Strongylocentrotus drobacliiensis 216, 223, 3SS

franciscanus 223

purpuratus 223

Synapta sp 177

Synaptid;e :....' 177

T.

Texas, stratigraphic distribution of echinfiderms in 14

Toxaster elegans 88, 89

texanus 86

ungula 83

Toxopneustes variegatus 222

Trematopygus crucifer 71

cruciferus 71-72, SS7, 253

Tretocidaris perplexa 115

Triassic echinoderms, descriptions of 21-24

scarcity of 9

types represented among 12-13

Triplechinidae 63-65, 118, 159, 181-182, 222

Tuomey, M., species named after 126

U.

Uintacrinida? 36-38

Uintacrinus socialis 36-38,«35

V.

Vaughan, T. Wayland, species named after 160

Verrm, A. E. , cited 222

W.

Weaver , C . E , , cited 209, 215, 221

Weller, Stuart, cited 40

Whitfield, R. P., cited 29

Z.

Zenometra conoideus 112

Zy^gophiurse 23, 29, 43-44, 178-179

o