, |3 ; Nl \i S C\Q,C -3S?

NOAA TR NMFS CIRC-389

NOAA Technical Report NMFS CIRC-389

U.S. DEPARTMENT OF COMMERCE

National Oceanic and Atmospheric Administration

National Marine Fisheries Service

Marine Flora and Fauna of
the Northeastern United States
Crustacea : Decapoda

AUSTIN B.WILLIAMS

SEATTLE, WA
April 1974

NOAA TECHNICAL REPORTS

National Marine Fisheries Service, Circulars

The major responsibilities of the National Marine Fisheries Service (NMFS) are to monitor and assess the abundance and geographic distribution of fishery resources, to
understand and predict fluctuations in the quantity and distribution of these resources, and to establish levels for optimum use of the resources. NMFS is also charged with
the development and implementation of policies for managing national fishing grounds, development and enforcement of domestic fisheries regulations, surveillance of foreign
fishing off United States coastal waters, and the development and enforcement of international fishery agreements and policies. NMFS also assists the fishing industry through
marketing service and economic analysis programs, and mortgage insurance and vessel construction subsidies. It collects, analyzes, and publishes statistics on various phases of
the industry.

The NOAA Technical Report NMFS CIRC series continues a series that has been in existence since 1941. The Circulars are technical publications of general interest in-
tended to aid conservation and management. Publications that review in considerable detail and at a high technical level certain broad areas of research appear in this series.
Technical papers originating in economics studies and from management investigations appear in the Circular series.

NOAA Technical Reports NMFS CIRC are available free in limited numbers to governmental agencies, both Federal and State. They are also available in exchange for other
scientific and technical publications in the marine sciences. Individual copies may be obtained (unless otherwise noted) from D83, Technical Information Division, Environ-
mental Science Information Center, NOAA. Washington, D.C. 20235. Recent Circulars are:

315. Synopsis of biological data on the chum salmon, Oncorhynchus keta (Walbaum)
1792. By Richard G. Bakkala. March 1970, iii + 89 pp., 15 figs., 51 tables.

347. Synopsis of biological data on Pacific ocean perch, Sebastodes alutus. By Richard
L. Major and Herbert H. Shippen. December 1970, iii + 38 pp., 31 figs., 11 tables.

319. Bureau of Commercial Fisheries Great Lakes Fishery Laboratory, Ann Arbor,
Michigan. By Bureau of Commercial Fisheries. March 1970, 8 pp., 7 figs.

349. Use of abstracts and summaries as communication devices in technical articles. By
F. Bruce Sanford. February 1971, iii + 11 pp., 1 fig.

330. EASTROPAC Atlas: Vols. 1-7. Catalog No. 1 49.4:330/(vol.) 11 vols. Available from
the Superintendent of Documents, U.S. Government Printing Office, Washington, D.C.
20402.

350. Research in fiscal year 1969 at the Bureau of Commercial Fisheries Biological
Laboratory, Beaufort, N.C. By the Laboratory staff. November 1970, ii + 49 pp., 21 figs.,
17 tables.

331. Guidelines for the processing of hot-smoked chub. By H. L. Seagran, J. T.
Graikoski, and J. A. Emerson. January 1970, iv + 23 pp., 8 figs., 2 tables.

332. Pacific hake. (12 articles by 20 authors.l March 1970, iii + 152 pp., 72 figs., 47
tables.

333. Recommended practices for vessel sanitation and fish handling. By Edgar W. Bow-
man and Alfred Larsen. March 1970, iv + 27 pp., 6 figs.

335. Progress report of the Bureau of Commercial Fisheries Center for Estuarine and
Menhaden Research, Pesticide Field Station, Gulf Breeze, Fla., fiscal year 1969. By the
Laboratory staff. August 1970, iii + 33 pp., 29 figs., 12 tables.

336. The northern fur seal. By Ralph C. Baker, Ford Wilke. and C. Howard Baltzo. April
1970, iii + 19 pp., 13 figs.

351. Bureau of Commercial Fisheries Exploratory Fishing and Gear Research Base,
Pascagoula, Mississippi, July 1, 1967 to June 30, 1969. By Harvey R. Bullis, Jr., and John
R. Thompson. November 1970, iv + 29 pp., 29 figs., 1 table.

352. Upstream passage of anadromous fish through navigation locks and use of the
stream for spawning and nursery habitat. Cape Fear River, N.C, 1962-66. By Paul R.
Nichols and Darrell E. Louder. October 1970, iv + 12 pp., 9 figs., 4 tables.

356. Floating laboratory for study of aquatic organisms and their environment. By
George R. Snyder, Theodore H. Blahm, and Robert J. McConnell. May 1971, iii + 16 pp.,
11 figs.

361. Regional and other related aspects of shellfish consumption — some preliminary
findings from the 1969 Consumer Panel Survey. By Morton M. Miller and Darrel A. Nash.
June 1971, iv + 18 pp.. 19 figs., 3 tables, 10 apps.

337. ProgTam of Division of Economic Research, Bureau of Commercial Fisheries, fiscal
year 1969. By Division of Economic Research. April 1970, iii + 29 pp., 12 figs., 7 tables.

338. Bureau of Commercial Fisheries Biological Laboratory, Auke Bay, Alaska. By
Bureau of Commercial Fisheries. June 1970, 8 pp., 6 figs.

339. Salmon research at Ice Harbor Dam. By Wesley J. Ebel. April 1970, 6 pp., 4 figs.

340. Bureau of Commercial Fisheries Technological Laboratory, Gloucester,
Massachusetts. By Bureau of Commercial Fisheries. June 1970, 8 pp., 8 figs.

341. Report of the Bureau of Commercial Fisheries Biological Laboratory, Beaufort,
N.C, for the fiscal year ending June 30, 1968. By the Laboratory staff. August 1970, iii +
24 pp., 11 figs.. 16 tables.

342. Report of the Bureau of Commercial Fisheries Biological Laborabory, St.
Petersburg Beach, Florida, fiscal year 1969. By the Laboratory staff. August 1970, iii + 22
pp., 20 figs., 8 tables.

343. Report of the Bureau of Commercial Fisheries Biological Laboratory, Galveston,
Texas, fiscal year 1969. By the Laboratory staff. August 1970, iii + 39 pp., 28 figs., 9
tables.

344. Bureau of Commercial Fisheries Tropical Atlantic Biological Laboratory progress in
research 1965-69, Miami, Florida. By Ann Weeks. October 1970, iv + 65 pp., 53 figs.

346. Sportsman's guide to handling, smoking, and preserving Great Lakes coho salmon.
By Shearon Dudley. J. T. Graikoski, H. L. Seagran, and Paul M. Earl. September 1970, iii
+ 28 pp., 15 figs.

362. Research vessels of the National Marine Fisheries Service. By Robert S. Wolf.
August 1971, iii + 46 pp., 25 figs., 3 tables. For sale by the Superintendent of Documents,
U.S. Government Printing Office, Washington, D.C. .20402.

364. History and development of surf clam harvesting gear. By Phillip S. Parker. Oc-
tober 1971, iv + l!j pp., 16 figs. For sale by the Superintendent of Documents, U.S.
Government Printing Office, Washington, D.C. 20402.

365. Processing EASTROPAC STD data and the construction of vertical temperature
and salinity sections by computer. By Forrest R. Miller and Kenneth A. Bliss. February
1972, iv + 17 pp., 8 figs., 3 appendix figs. For sale by the Superintendent of Documents,
U.S. Government Printing Office, Washington, D.C. 20402.

366. Key to field identification of anadromous juvenile salmonids in the Pacific
Northwest. By Robert J. McConnell and George R. Snyder. January 1972, iv + 6 pp., 4
figs. For sale by the Superintendent of Documents, U.S. Government Printing Office,
Washington, D.C. 20402.

367. Engineering economic model for fish protein concentration processes. By K. K.
Almenas, L. C. Durilla, R.C Ernst, J. W. Gentry, M. B. Hale, and J. M. Marchello. Oc-
tober 1972, iii + 175 pp., 6 figs., 6 tables. For sale by the Superintendent of Documents,
U.S. Government Printing Office, Washington, D.C. 20402.

368. Cooperative Gulf of Mexico estuarine inventory and study, Florida: Phase I, area
description. By J. Kneeland McNulty, William N. Lindall, Jr., and James E. Sykes.
November 1972, vii + 126 pp., 46 figs., 62 tables. For sale by the Superintendent of
Documents, U.S. Government Printing Office, Washington, D.C. 20402.

369. Field guide to the anglefishes (Pomacanthidae) in the western Atlantic. By Henry
A. Feddern. November 1972, iii + 10 pp., 17 figs. For sale by the Superintendent of
Documents, U.S. Government Printing Office, Washington, D.C. 20402.

Continued on inside back cover.

r^ENT 0*

U.S. DEPARTMENT OF COMMERCE
Frederick B. Dent, Secretary

NATIONAL OCEANIC AND ATMOSPHERIC ADMINISTRATION
Robert M. White, Administrator
NATIONAL MARINE FISHERIES SERVICE

NOAA Technical Report NMFS CIRC-389

Marine Flora and Fauna of

the Northeastern United States.

Crustacea : Decapoda

AUSTIN B.WILLIAMS

7^6-^

Seattle, WA

April 1974

For sale by the Superintendent of Documents, U.S. Government Printing Office
Washington. D.C. 20402

FOREWORD

This issue of the "Circulars" is part of a subseries entitled "Marine Flora and Fauna
of the Northeastern United States." This subseries will consist of original, illustrated,
modern manuals on the identification, classification, and general biology of the estuarine
and coastal marine plants and animals of the Northeastern United States. Manuals
will be published at irregular intervals on as many taxa of the region as there are
specialists willing to collaborate in their preparation.

The manuals are an outgrowth of the widely used "Keys to Marine Invertebrates
of the Woods Hole Region," edited by R. I. Smith, published in 1964, and produced under
the auspices of the Systematics-Ecology Program, Marine Biological Laboratory, Woods
Hole, Mass. Instead of revising the "Woods Hole Keys," the staff of the Systematics-
Ecology Program decided to expand the geographic coverage and bathymetric range and
produce the keys in an entirely new set of expanded publications.

The "Marine Flora and Fauna of the Northeastern United States" is being prepared
in collaboration with systematic specialists in the United States and abroad. Each man-
ual will be based primarily on recent and ongoing revisionary systematic research and
a fresh examination of the plants and animals. Each major taxon, treated in a separate
manual, will include an introduction, illustrated glossary, uniform originally illustrated
keys, annotated check list with information when available on distribution, habitat, life
history, and related biology, references to the major literature of the group, and a system-
atic index.

These manuals are intended for use by biology students, biologists, biological ocean-
ographers, informed laymen, and others wishing to identify coastal organisms for this
region. In many instances the manuals will serve as a guide to additional information
about the species or the group.

Geographic coverage of the "Marine Flora and Fauna of the Northeastern United
States" is planned to include organisms from the headwaters of estuaries seaward to
approximately the 200-m depth on the continental shelf from Maine to Virginia, but
may vary somewhat with each major taxon and the interests of collaborators. When-
ever possible representative specimens dealt with in the manuals will be deposited in
reference collections of the Gray Museum, Marine Biological Laboratory, and other
universities and research laboratories in the region.

After a sufficient number of manuals of related taxonomic groups have been pub-
lished, the manuals will be revised, grouped, and issued as special volumes. These vol-
umes will thus consist of compilations of individual manuals within phyla such as the
Coelenterata, Arthropoda, and Mollusca, or of groups of phyla.

11

CONTENTS

Page

Introduction 1

Glossary

Key to the marine decapod crustaceans of the Northeastern United States, inshore and

shelf waters 4

Annotated systematic list 39

Selected bibliography 44

Index to scientific names 48

Acknowledgments 50

Coordinator's comments 50

The National Marine Fisheries Service (NMFS) does not approve, rec-
ommend or endorse any proprietary product or proprietary material
mentioned in this publication. No reference shall be made to NMFS, or
to this publication furnished by NMFS, in any advertising or sales pro-
motion which would indicate or imply that NMFS approves, recommends
or endorses any proprietary product or proprietary material mentioned
herein, or which has as its purpose an intent to cause directly or indirectly
the advertised product to be used or purchased because of this NMFS
publication.

Digitized by the Internet Archive

in 2013

http://archive.org/details/marineflorafaunOOwill

MARINE FLORA AND FAUNA OF THE

NORTHEASTERN UNITED STATES.

Crustacea: Decapoda

AUSTIN B. WILLIAMS1

ABSTRACT

The manual includes an introduction to general classification , an illustrated key, an annotated system-
atic list, a selected bibliography and a systematic index to the marine decapod crustaceans of the in-
shore and continental shelf waters of the northeastern United States.

INTRODUCTION

The Order Decapoda contains the largest and
probably most familiar crustaceans occurring along
seacoasts of the United States. Generally speaking
there are two main body types exhibited by this
group. The first group is long tailed with a conspicu-
ously extended abdomen and the whole body usually
compressed (narrow and deep). These are the
shrimps (Suborder Natantia) with abdominal swim-
merets (pleopods) well developed and adapted for
swimming (Fig. 1). The second group (Suborder Rep-
tantia) is diverse in shape, lobsterlike or crablike,
with the body more or less depressed (dorsoven-
trally flattened). Three subsets within this assem-
blage are fairly distinct: 1) lobsters and mud shrimps
(Section Macrura) with abdomen extended and al-
ways equipped with a tail fan, adapted for feeble
swimming, crawling, or burrowing; 2) an anom-
alous group (Section Anomura) that either have the
body asymmetrical and adapted for housing in hol-
low objects (hermit crabs), or symmetrical with the
abdomen fairly well developed but more or less
flexed under the thorax (porcellanid crabs and rela-
tives); and 3) short tailed true crabs (Section Brach-
yura) with greatly reduced abdomen more or less
permanently flexed beneath the thorax, adapted
primarily for locomotion on a substrate (Fig. 2).

These body types have been variously treated in

1 Systematica Laboratory, National Marine Fisheries Service,
NOAA, National Museum of Natural History, Washington,
D.C. 20560.

forming classifications of the higher categories of
decapod crustaceans for nearly 200 yr and the one
that is adopted here has become the conservative
(and practical) arrangement used for the last few
decades. It is a classification that considers the long
tailed forms to be most primitive, the anomalous
group to be composed of radiating side branches of
the main stem, and the short tailed forms to be the
most specialized in the order. Such a broad state-
ment does not do justice to fine points of supposed
relationships based on many lines of evidence but
will serve as a working outline.

The decapod crustaceans treated here are re-
stricted to species living within the 200-m limits of
the neritic province, on beaches, or nearby marshes
along the northeastern United States. Species living
primarily outside these limits off the northeastern
United States have distributions which extend far
beyond the region, hence are seldom part of the local
fauna. A few species bridge the neritic and oceanic
provinces and these have been selectively included.
Within the continental shelf area, only species with
recorded occurrence between southern New Jersey
and the northern border of Maine are considered.

The shrimps and crabs of this area belong essen-
tially to two temperature regimes, a boreal compo-
nent in the north which includes some arctic species
and a temperate component in the south which em-
braces a few invaders from both the boreal as well as
the warmer Carolinian Province south of Cape Hat-
teras. Cape Cod forms a landward boundary be-
tween these regimes of temperature, though offshore

there is a good deal of latitudinal displacement and
the whole seasonally oscillates to some degree in a
north-south fashion.

The essential composition of this crustacean fauna
has been well documented since the turn of the cen-
tury, but there have been refinements in species
definitions, limits of ranges, and some new dis-
coveries. This key borrows heavily from the past,
but a new set of illustrations and restructuring should
make it more usable than the older keys or their
abridgments.

The key is designed for biologists, biology stu-
dents, and informed amateurs. The format consists
of a series of contrasting statements almost always
offering two clear alternatives, although sometimes
supplementary information is added. The user
selects that statement in a couplet that fits best. This
will lead to a number which heads a new set of
alternatives. Eventually the choices lead to a
specific name. Names of higher categories are in-
cluded. Numbers in parentheses allow a user to work
the key in reverse, any parenthetic number being
that of the preceding couplet in the sequence.

Labelled diagrams and a glossary of technical
terms are provided. Almost all characters employed
in the dichotomies are illustrated by line drawings,
but these may not adequately differentiate the
species outside the area of the northeastern United
States. Wherever practicable, drawings were made
of specimens from the northeastern United States.
Scales on all figures are in millimeters.

An annotated list of 92 species is given separately.
Among this number are exceedingly scarce species
as well as abundant ones. Only 17 of the latter are
large enough to be valuable in commerce, but these
contribute to some of our richest fisheries. The
shrimps, Penaeus setiferus and P. aztecus aztecus,
whose centers of distribution are in the Carolinian
Province, are commercially exploited by trawling
only south of Cape Hatteras. Their northern coun-
terparts, Pandalus borealis and to a lesser extent/1.
propinquus and P. montagui, occur in a smaller
trawl fishery from Cape Cod Bay to the Maritime
Provinces of Canada. The American lobster,
Homarus americanus, long a favorite seafood, is
caught mainly by trapping in cold temperate waters
of the continental shelf northward from Cape Hat-
teras. The American blue crab, Callinectes sapidus,
which thrives in estuaries, is caught by a variety of
means from Long Island to Texas and marketed in
both hard- and soft-shelled states.

The systematic and distributional section is fol-

lowed by a selected bibliography of systematic and
general biological works at the end.

GLOSSARY

abdomen jointed hind part of body; tail; consisting
ideally of 6 segments; muscular, extended or bent
in shrimps, lobsters, etc.; asymmetrical in hermit
crabs; reduced and more or less permanently held
beneath thorax in crabs.

adrostral groove groove beside base of rostrum
extending posteriorly along dorsal side of
carapace (on shrimps).

antenna one of second pair of appendages; mov-
able segmented organ of sensation behind, below,
or lateral to antennule; the large feeler.

antennal scale elongate, flattened, bladelike or fin-
like exopod of antenna; usually with distolateral
spine.

antennular peduncle proximal 3 articles of an-
tennule.

antennule one of first pair of appendages; mov-
able segmented organ of sensation preceding an-
tenna; the small feeler.

anterolateral teeth teeth on margin of carapace be-
tween orbit and lateralmost point (on crabs).

article general term for segment of appendage.

carapace dorsal and lateral shieldlike covering on
cephalothorax.

carina keellike ridge or prominence.

carpus third article from distal end of a leg.

cephalothorax coalesced head and thorax.

chela arrangement of distal 2 articles of a crusta-
cean limb in which terminal element is opposed to
element preceding it in such a manner that append-
age is adapted for grasping.

In a true chela, elements are shaped as fingers
closing against each other.

In a subchela, terminal article (dactyl) usually
closes against distal surface of penultimate article
(propodus).

cheliped leg bearing a chela.

dactyl terminal or distal article of a leg or maxil-
liped; movable finger of a chela.

epistome a sternal plate of varying shape lying an-
terior to mouth between bases of antennae. In
Anomura the broad epistome comes in contact
with the carapace on each side; in Brachyura it
becomes firmly united with the carapace.

exopod lateral ramus of a biramous appendage.

frame of mouth plates surrounding area in which
mouthparts repose (in crabs); composed of fused

epistome (anterior) and ventrolateral extensions
of carapace (each side) more or less thrown into
ridges forming a "frame" for nested mouthparts.

front margin of carapace between eyes (in crabs).

hepatic region subtriangular, anterolateral region
behind orbit.

interocular teeth teeth on frontal margin between
eyes.

ischium fifth article from distal end of leg or maxil-
liped; usually largest article of maxilliped.

mandibles third pair of appendages; mouth parts
adapted for crushing or grinding.

merus fourth article from distal end of leg or maxil-
liped.

orbit cavity or emargination in carapace accom-
modating eye; variously formed.

Commencing orbit: a stage of specialization
between lack of orbit and fully formed orbit in
certain spider crabs.

palm proximal portion of propodus of chela.

palp tiny accessory appendage on mandible.

pleopod swimmeret; one of biramous abdominal
appendages on any except sixth segment.

pleura lateral overhanging plate on abdominal
segment.

postorbital tooth -spine tooth or spine behind eye.

propodus penultimate article of leg or maxilliped.

rostrum median pointed process at anterior end of
cephalothorax.

sclerotized thickened and hardened.

sternite exoskeletal plate on ventral side of body.

supraocular eave overhanging dorsal border of
orbit (in certain spider crabs).

supraorbital spine spine near margin of orbit above
base of eyestalk (in certain shrimps).

suture line of junction between exoskeletal plates.

telson terminal piece attached to end of sixth ab-
dominal segment; forms, together with uropods, a
tail fan.

tergum dorsal plate on abdominal segment.

third maxilliped appendage preceding first leg.

thorax central portion of body to which legs and
maxillipeds attach.

uropods broad paired appendages on sixth abdom-
inal segment; often forming, together with telson,
a tail fan.

adrostral groove

Figure 1. — Diagram of shrimp in lateral view showing structures and terms used in key

antennule
epistome

postorbital tooth
.anterolateral teeth

VENTRAL

DORSAL

Figure 2. — Diagram of crab in dorsoventral views showing structures and terms used in key.

KEY TO MARINE DECAPOD CRUSTACEANS OF THE NORTHEASTERN UNITED STATES,

INSHORE AND SHELF WATERS

General form shrimplike, usually compressed (if depressed, with pleura of second abdom-
inal segment overlapping those of first segment); abdomen well developed; pleopods

always present and in full number (5 pairs), used for swimming shrimps

Suborder Natantia

General form lobsterlike or crablike, usually depressed; abdomen either well developed
(asymmetrical in a few species adapted for living in mollusk shells) or greatly reduced

in size; pleopods often reduced or absent, not used for swimming lobsters; mud

shrimps; hermit, porcellanid, and mole crabs; true crabs Suborder Reptantia

18

2 (7) Pleura of second abdominal segment not overlapping those of first segment

Section Penaeidea 3

2 (i) Pleura of second abdominal segment overlapping those of first segment Section Caridea 5

Figure 3. — Penaeidean abdomen,
lateral view.

Figure 4. — Caridean abdomen,
lateral view.

3 (2) First 3 pairs of legs chelate, all 5 pairs of legs well developed Family Penaeidae 4

3 (2) First 3 pairs of legs chelate, last 2 pairs of legs absent; slender planktonic species with

head greatly elongate Family Sergestidae Lucifer faxoni

Figure 5. — Lucifer faxoni; carapace and
head appendages, lateral view.

4 (3) Rostrum with ventral teeth Penaeus

A (4) Adrostral grooves not extending be-
yond base of rostrum P. setiferus,

white shrimp

Figure 6. — Penaeus setiferus; \ b:>

carapace, lateral view.

A (4) Adrostral grooves reaching almost to

posterior margin of carapace

P. aztecus aztecus, brown shrimp

Figure 7. — Penaeus aztecus aztecus; \
carapace, lateral view.

4 (3) Rostrum without ventral teeth; carapace
with both longitudinal and transverse su-
tures Parapenaeus longirostris

Figure 8. — Parapenaeus longirostris; ^^ \_

carapace, lateral view.

5

5 (2) First pair of legs chelate (minute in some species) 62

5 (2) First pair of legs subchelate (always easily visible) Family Crangonidae 15

Figure 9. — Chelate leg with carpus entire.

Figure 10. — Subchelate leg with carpus entire.

6 (5) Carpus of second pair of legs entire; first pair of legs always with well-developed

chelae Family Palaemonidae 7

6 (5) Carpus of second pair of legs subdivided into 2 or more articles 8

7 (6) Rostrum with 6 or more (seldom 5) ventral teeth; mandible with palp Leander tenuicornis

Figure 11. — Leander tenuicornis; A, carapace of male, lateral view; B, carapace of female, lateral view; C, mandible.

2 Pasiphaea multidentata (Pasiphaeidae) with fingers of chelae on first and second legs slender, all edges comblike, is a pelagic form
which occurs often enough off New England that its presence should be mentioned. Ovigerous females have a carapace length of 33 to

37 mm.

7 (6) Rostrum with no more than 5 ventral teeth, usually fewer; mandible without palp

Palaemonetes A

A (7) Rostrum with first 2 teeth of dorsal margin behind orbit, dorsal rostral teeth
reaching to apex, ventral margin with 3 to 5 teeth; dactyl of second leg with 2
teeth, immovable finger with 1 on cutting edge ; carpus of second leg in adult fe-
male shorter than palm, in males slightly longer or shorter (1.1 times) than palm
P. vulgaris

5 2 R

I I I D

Figure 12. — Palaemonetes vulgaris; A, carapace, lateral view; B, chela of second leg.

A (7) Rostrum with only 1 dorsal tooth behind orbit; dactyl of second leg with single
tooth or without teeth, immovable finger without teeth on cutting edge; carpus
of second leg in adult female much longer than palm (1.3 to 1.5 times), in male
almost as long as whole chela

B

B (A ) Rostrum with unarmed stretch before dagger-shaped tip, ventral margin with 2 to

4, generally 3, teeth; fingers of second leg without teeth on cutting edges P. pugio

B

Figure 13. — Palaemonetes pugio; A, carapace, lateral view; B, chela of second leg.

B (4) Rostrum with dorsal teeth reaching up to often bifurcated apex, ventral margin
with 4 or 5 (seldom 3) teeth; dactyl of second leg with 1 distinct tooth on cutting
edge p. intermedins

Figure 14. — Palaemonetes intermedins; A, carapace, lateral view; B, chela of second leg.

7

8 (6) Chelae of first pair of legs distinct Family Hippolytidae 9

8 (6) Chelae of first pair of legs microscopic or absent Family Pandalidae 14

9 (8) Carpus of second leg divided into 3 articles 10

9 (8) Carpus of second leg divided into 7 articles (proximal to distal, 2 short, 1 long, 4 short) 12

Figure 15. — Second leg with subdivided carpus,
3 articles.

Figure 16. — Second leg with subdivided carpus,
7 articles.

10 (9) Without series of small spines on anterior margin of carapace below eye 11

10 (9) A series of small spines (5 to 9) along anterior margin of carapace below eye

Latreutes fucorum

Figure 17. — Latreutes fucorum; carapace and
head appendages, lateral view.

11 (10) Rostrum considerably less than twice length of carapace proper and with both

dorsal and ventral teeth Hippolyte A

A (11) Tip of rostrum not exceeding antennular peduncle H. pleuracanthus

Figure 18. — Hippolyte pleuracanthus; carapace
and head appendages, lateral view.

A (11) Tip of rostrum obviously exceeding antennular peduncle H. zostericola

Figure 19. — Hippclyte zostericola; carapace
and antennule, lateral view.

11 (10) Rostrum nearly twice length of carapace proper, smooth above, toothed on ventral

margin Tozeuma carolinense

Figure 20. — Tozeuma carolinense; carapace, lateral view.

12 (9) Supraorbital spines present 13

12 (9) Supraorbital spines absent Eualus A

Avf/2) Tip of rostrum usually not reaching
distal edge of eye (rarely exceeding
eye) E. pusiolus

Figure 21. — Eualus pusiolus; carapace and eye, lateral view.

A (12) Tip of rostrum greatly exceeding distal edge of eye B

B (A) Rostrum slender, toothed dorsally

throughout length E. gaimardii

Figure 22. — Eualus gaimardii; carapace, lateral view.

B (A) Rostrum lacking dorsal teeth on dis-
tal part beyond eye E. fabricii

Figure 23. — Eualus fabricii; carapace, lateral view.

9

13 (72) Carapace with 2 or more supraorbital spines on each side; third maxilliped with

exopod Spirontocaris A

A (75) Dorsal teeth extending to, or beyond, posterior third of carapace B

A (75) Dorsal teeth falling short of posterior third of carapace S. phippsii

~7

Figure 24. — Spirontocaris phippsii; carapace, lateral view.

B (A ) Ventral margin of rostrum with 4 to 6 teeth; tip ascending to a well-defined single

point S. liljeborgii

Figure 25. — Spirontocaris lilljeborgii; carapace, lateral view.

B (A ) Ventral margin of rostrum with about 2 (occasionally 3) large teeth and variable
number of smaller ones (none to many); tip single or double and often almost
equalled or surpassed by distalmost ventral tooth S. spinus

Figure 26. — Spirontocaris spinus; carapace, lateral view; A, B, two examples of variation in rostral tooth pattern.

10

3 (72) Carapace with 1 supraorbital spine on each side; third maxilliped without exopod

Lebbeus A

A (73) Four prominent spines along middorsal line of carapace L. groenlandicus

Figure 27. — Lebbeus groenlandicus; carapace, lateral view.

A (73) No more than 2 spines along dorsal line of carapace B

B {A ) Rostrum long, tip exceeding proximal article of antennular peduncle in juveniles

and entire peduncle in adults L. polaris

Figure 28. — Lebbeus polaris; carapace and antennule,
lateral view of adult.

B (4 ) Rostrum short, tip not exceeding proximal article of antennular peduncle (body

conspicuously banded) L. zebra

Figure 29. — Lebbeus zebra; carapace and antennule,
lateral view.

11

14 (8) Third maxillipeds with exopod Dichelopandalus leptoceras

Figure 30. — Dichelopandalus leptoceras; A, carapace, lateral view; B, third maxilliped showing slender simple exopod at base.

14 (8) Third maxillipeds without exopod Pandalus A

A (14) Abdomen with small median spine on posterior edge of third and fourth

segments P. borealis

Figure 31. — Pandalus borealis; A, carapace, lateral view; B, abdomen, lateral view; C, third maxilliped.

A (14) Abdomen with no median spines on segments B

B (A) Distolateral spine of antennal scale exceeding extremely narrowed blade;

rostrum upturned at about 45° angle P. propinquus

Figure 32. — Pandalus propinquus; carapace and antennal scale, lateral view.

12

B (A) Distolateral spine of antennal scale not exceeding somewhat narrowed blade;

rostrum upturned at considerably less than 45° angle P. montagui

Figure 33. — Pandalus montagui; carapace and antennal scale, lateral view.

15 (5) Second legs slender and chelate 16

15 (5) Second legs reduced and simple, not chelate Sabinea A

A (15) Rostrum with rounded tip hardly exceeding eyes; telson with narrow but trun-
cate tip bearing 8 or more spines or stout setae S. septemc adnata

0.5

Figure 34. — Sabinea septemcarinata; A, carapace and eyes,
dorsal view; B, tip of telson.

A (75) Rostrum with acute tip reaching beyond eyes; telson ending in sharp tip flanked

by 1 or 2 spines on each side S. sarsii

0.5

Figure 35. — Sabinea sarsii; A, carapace and eyes, dorsal view;
B, tip of telson.

13

16 (15) Second legs almost as long as other legs 17

16 (75) Second legs much shorter than other legs Pontophilus A

A (16) Tip of rostrum reaching about to

distal edge of eyes P. norvegicus

Figure 36. — Pontophilus norvegicus; carapace
and eyes, dorsal view.

A (16) Tip of rostrum falling far short of

distal edge of eyes P. brevirostris

Figure 37. — Pontophilus brevirostris; carapace
and eyes, dorsal view.

17 (16) Body neither heavily sclerotized nor sculptured

Crangon septemspinosa

Figure 38. — Crangon septemspinosa; carapace
and eyes, dorsal view.

14

17 (16) Body heavily sclerotized and

sculptured Sclerocrangon boreas

Figure 39. — Sclerocrangon boreas; A, carapace and eyes,
dorsal view of adult; B, rostrum and eyes of juvenile.

18 (1) Abdomen extended, symmetrical, pleura sometimes, and tail fan always well de-
veloped Section Macrura

19

18 (7) Abdomen bent upon itself or flexed beneath thorax; pleura usually small or absent;
tail fan variable in development; third legs unlike first, never chelate

24

19 (18) Abdomen well armed, pleura well developed; third legs chelate like first

Superfamilv Astacidea, Family Nephropsidae, Homarus americanus, American lobster

Figure 40. — Homarus americanus; A, abdomen and tail fan,
lateral view; B, tail fan, dorsal view.

19 (18) Abdomen more or less membranous, pleura small or absent; third legs unlike first,
never chelate Superfamily Thalassinidea, mud shrimps

20

Figure 41. — Abdomen and tail fan of
mud shrimp, lateral view.

15

20 (19) First legs subchelate, dactyls fold-
ing to reflexed position when closed
. . .Family Laomediidae, Naushonia crangonoides

Figure 42. — Naushonia crangonoides; A, carapace,
dorsal view; B, subchela of first leg.

T

2

1

20 (19) First legs either chelate or approaching subchelate condition, but never with dactyls
folding to reflexed position when closed

21

21 (2d) Rostrum prominent, extending beyond
eyes

22

21 (20) Rostrum short; flattened, pointed eyes

fully exposed Family Calli-

anassidae Callianassa atlantica

Figure 43. — Callianassa atlantica; A, carapace and eyes,
dorsal view; B, major chela of male.

22 (21) Rostrum hairy and nearly flat, few
teeth along sides, flanked on each

side by large spine

Family Upogebiidae, Upogebia affinis

Figure 44. — Upogebia affinis; A, carapace,
dorsal view; B, chela.

16

22 (21) Rostrum hairless, evenly toothed along sides and

with median low carina Family Axiidae

23

Figure 45. — Carapace of an axiid, dorsal view.

23 (22) Eyes normal with pigmented, rounded cornea; outer blade of uropods lacking trans-
verse suture distally Axius serratus

Figure 46.— -Axius serratus; A, ocular region,

lateral view; B, portion of tail fan,

dorsal view.

23 (22) Eyes lacking pigment, flattened obliquely on distal surface; outer blade of uropods

with transverse suture distally Calocaris templemani

Figure 47. — Calocaris templemani; A, ocular

region, lateral view; B, portion of

tail fan, dorsal view.

24 (75) Abdomen variously developed and with uropods present; or with uropods absent and
only 4 pairs of well-developed legs visible; carapace not apparently fused with epistome
Section Anomura, hermit crabs, porcellanids, mole crabs, and lithodids . . .

25

24 (18) Abdomen permanently flexed beneath thorax; uropods absent and 5 pairs of legs vis-
ible; carapace fused with epistome Section Brachyura, true crabs

30

17

25 (24) Abdomen well developed, symmetrical or asymmetrical 26

25 (24) Abdomen reduced in size, symmetrical and flexed under thorax

Superfamily Hippidea, Family Hippidae, Emerita talpoida, mole crab

Figure 48. — Emerita talpoida, lateral view.

26 (25) Abdomen symmetrical (or superficially so), more or less flexed beneath thorax; thorax

depressed and crablike Superfamily Galatheidea 27

26 (25) Abdomen asymmetrical, tail fan reduced and adapted for holding body in mollusk

shells Superfamily Paguroidea, Family Paguridae, Pagurus, hermit crabs A

A (26) Palm of small (left) chela roughly oval in cross section, upper surface flattened,

not divided by a ridge B

A (26) Palm of small (left) chela triangular in cross section, upper surface divided by

longitudinal ridge into 2 obliquely sloping facets E

Figure 49. — Cross sections of pagurkl palm
(propodus); A, oval; B, triangular.

B (4) Cornea of eye dilated, length of eyestalks not more than 3.5 times greatest width C

B (A) Cornea not dilated, length of eyestalks at least 4 times greatest width (small

species) P. annulipes

Figure 50. — Pagurus annulipes; A, anterior part of
body; B, chelae and carpi, dorsal views.

18

C (B) Both chelipeds slender, sub-
cylindrical, relatively smooth
or lightly granulate (small
species) P. longicarpus

Figure 51. — Pagurus longicarpus; A, anterior part of
body; B, chelae and carpi, dorsal views.

C (B) Both chelipeds stout; conspicuously broad and smooth, or sharply spined D

D (C) Dactyl of major chela
with sharply produced
angle on mesial margin;
upper surface of both
chelae sharply but even-
ly granulated P. pollicaris

Figure 52. — Pagurus pollicaris; A, anterior part of
body; B, chelae and carpi, dorsal views.

D (C) Dactyl of major chela with no sharply produced angle on mesial margin, border
usually spiny; upper surface of both chelae covered with short, sharp spines, and
often with broad longitudinal red-orange stripe persistent in alcohol P. acadianus

Figure 53. — Pagurus acadianus; A, anterior part of
body; B, chelae and carpi, dorsal views.

19

E (A ) Palm of small (left) chela with conspicuous longitudinal ridge crested with single
row of elevated sharp principal spines slanted inward; anterior portion of ster-
nite between third legs somewhat rectangular (almost twice as wide as long), setae
few and short. (Usually occurs offshore.) P. pubescens

V^^Moimu^

Figure 54. — Pagurus pubescens; A, anterior part of body; B, chelae and carpi, dorsal views;
C, sternite between third legs, ventral view.

E {A ) Palm of small (left) chela with broad longitudinal ridge crested with sharp or blunt

spines (tending to form double row) not slanted inward F

F (E) Chelipeds both sharply spined and hairy on upper surfaces; anterior portion of
sternite between third legs almost semicircular (nearly as long as broad), setae
many and long. (Usually occurs inshore.) P. arcuatus

Figure 55.— Pagurus arcuatus; A, anterior part of body; B, chelae and carpi, dorsal views;
C, sternite between third legs, ventral view.

20

F (E) Chelipeds bluntly spined (occasionally sharply) but not hairy on upper surfaces.

(Occurs in deep water offshore.) P- politus

Figure 56. — Pagurus politus; A, anterior part of body; B, chelae and carpi, dorsal views.

27 (26) Tail fan well developed 28

27 (26) Tail fan lacking, uropods absent; fifth legs hidden making only 4 pairs of legs

apparent Family Lithodidae, Lithodes maja

Figure 57. — Well-developed tail fan of
porcellanid crab, dorsal view.

Figure 58. — Lithodes maja, terminal
portion of abdomen.

21

28 (27) Form somewhat lobsterlike; rostrum long and narrow Family Galatheidae, Munida . . A

A (28) Second (apparent first) abdominal segment armed with tiny anterior spines

M. iris

Figure 59. — Munida iris, dorsal view
with abdomen flexed.

A (28) Both second (apparent first) and third abdominal segments armed with series

of tiny anterior spines (a large species) M. valida

Figure 60. — Munida valida, dorsal view
with abdomen flexed.

28 (27) Form crablike; rostrum short and broad or absent Family Porcellanidae 29

29 (28) Carapace distinctly broader than long, front smooth in dorsal view Polyonyx gibbesi

Figure 61. — Polyonyx gibbesi,
carapace and chelae.

i i

22

29 (28) Carapace longer than broad, front strongly tridentate in dorsal view Porcellana sigesbiana

Figure 62. — Porcellana sigesbiana; carapace, and
chelae (twisted to show tooth pattern).

30 (24) Frame of mouth elongate and triangular, sides converging anteriorly

Subsection Oxystomata 3 1

30 (24) Frame of mouth either rectangular (prolonged in certain swimming crabs) with sides

parallel, or transversely somewhat ellipsoid or kidney shaped 33

I ~#^§g^

Figure 63. — Brachyuran mouth frames; A, triangular; B, rectangular; C, kidney-shaped or

transversely ellipsoid.

31 (30) Carapace very short, exposing first 2 or 3 abdominal terga in dorsal view; front with

2 bifid (appear as 4) laminar teeth Family Dorippidae Ethusa microphthalma

Figure 64. — Ethusa microphthalma,
portion of body in dorsal view.

31 (30) Carapace not so short, exposing little if any of abdomen in dorsal view 32

23

32 (57) Body hemispherical Family Leucosiidae: Persephona aquilonaris

Figure 65. — Persephona aquilonaris; carapace
and eyes, right cheliped.

32 (31) Body longer than broad; each cheliped with greatly extended lateral spine on merus

Family Calappidae: Acanthocarpus alexandri

Figure 66. — Acanthocarpus alexandri; carapace
and eyes, chelipeds.

33 (30) Body elongate rectangular in dorsal view; last pair of legs permanently folded over

back; first pleopods present in female

Subsection Dromiacea, Family Homolidae: Homola barbata

Figure 67. — Homola barabata; dorsal view, portion of
body and insertion of last pair of legs.

33 (30) Body never elongate rectangular in dorsal view; last pair of legs not permanently

folded over back; first pleopods lacking in female Subsection Brachygnatha

34

24

34 (33) Body conspicuously narrowed in front; rostrum usually distinct and often forked; or-
bits often incomplete Superfamily Oxyrhyncha, spider crabs

.35

34 (33) Body moderate to broad in front; rostrum absent or greatly reduced; orbits usually

complete Superfamily Brachyrhyncha

41

35 (34) Chelipeds not much larger than other legs Family Majidae 36

35 (34) Chelipeds very much larger than other legs Family Parthenopidae 40

36 (35) Whole length of rostral horns either coalesced or closely approximated along mid-
line; male abdomen terminally broadened, telson elliptical to subquadrate

Subfamily Oregoniinae, Hyas

A (36) Hepatic region behind post-
orbital spine not expanded

H . araneus

Figure 68. — Hyas araneus; A, carapace and eyes;

B, male abdomen.

A (36) Hepatic region behind postorbital spine

expanded laterally H. coarctatus

Figure 69. — Hyas coarctatus, carapace and eyes.

36 (35) Rostral horns divergent near tip; male abdomen not terminally
broadened, telson subtriangular

Figure 70. — Male abdomen of spider crab
with subtriangular telson.

25

37 (36) Eyes without orbits; eyestalks retractile against acute postocular spine, affording
no concealment; proximal (fused) antennal article extremely slender (viewed ventrally)
Subfamily Inachinae

38

37 (36) Eyes with commencing orbits, each composed of cupped postocular process into
which eye retracts, and supraocular eave; proximal (fused) antennal article not ex-
tremely slender (viewed ventrally) Subfamily Pisinae

39

Figure 71. — Orbital areas of spider crabs in ventral view; A, Inachinae; B, Pisinae.

38 (37) Fused proximal article of antenna terminating in single blunt spine. [Rathbun

(1925) recognized New England form as subspecies marthae.] Euprognatha rastellifera

Figure 72. — Euprognatha rastellifera, portion
of body in dorsal view.

38 (37) Fused proximal article of antenna with compound lateral spines

Collodes robustus

Figure 73. — Collodes robustus, portion
of body in dorsal view.

26

39 (37) Supraocular eave and postocular process touching or somewhat overlapping Libinia A

A (39) Median line of carapace with about 9 spines and/or spiniform tubercles L. emarginata

Figure 74.— Libinia emarginata, portion of body in dorsal view.

A (39) Median line of carapace with about 6 spines and/or spiniform tubercles

L. dubia

Figure 75. — Libinia dubia, carapace and eyes.

39 (37) Supraocular eave and postocular spine or process clearly separated (small, smooth,

rounded, pubescent species) Pelia mutica

Figure 76. — Pelia mutica, carapace and eyes.

27

40 (35) Carapace not laterally expanded over walking legs; unevenly spinose Parthenope pourtalesii

Figure 77. — Parthenope pourtalesii,
carapace and right cheliped.

40 (35) Carapace more or less laterally expanded forming a vault overlying and concealing

walking legs; nearly smooth Heterocrypta granulata

Figure 78. — Heterocrypta granulata,
carapace and left cheliped.

41 (34) Body round or transversely ellipsoid 42

41 (34) Body quadrate; squared and broadest in front, occasionally somewhat narrowed

and rounded 58

42 (41 ) Free living crabs with parallel sided mouth frame 43

42 (41) Small, usually commensal crabs with reduced eyes; adult females often with carapace

somewhat membranous; mouth frame transversely somewhat ellipsoid or kidney

shaped Family Pinnotheridae 56

43 (42) Legs (especially last pair) more or less flattened for swimming Family Portunidae 44

43 (42) Legs not flattened for swimming 49

28

44 (43) Carapace with 5 teeth on anterolateral margin 45

44 (43) Carapace with 9 teeth on anterolateral margin 47

Figure 79. — Anterolateral border of portunid
carapace; A, 5 teeth; B, 9 teeth.

45 (44) Distal articles of fifth legs not paddlelike Carcinus maenas

45 (44) Distal articles of fifth legs paddlelike 46

Figure 80. — Fifth leg of portunid crab;
A, not paddlelike; B, paddlelike.

46 (45) Anterolateral teeth similar; dactyl of
swimming paddles broadly oval; male
abdomen oblong Ovalipes ocellatus

Figure 81. — Ovalipes ocellatus,
carapace and eyes.

46 (45) Anterolateral teeth dissimilar, fifth
an elongate lateral spine; dactyl of
swimming paddle broadly pointed;
male abdomen triangular Bathynectes superbus

Figure 82. — Bathynectes superbus,
carapace and eyes.

29

47 (44) Carpus with mesiodistal spine; abdomen of male triangular 48

47 (44) Carpus without mesiodistal spine; abdomen of male T-shaped Callinectes A

A „> B

Figure 83. — Carpus of portunid right cheliped; A, Portunus; B, Callinectes.

A (47) Front with 2 prominent, broad based, contiguous, triangular teeth between
inner orbitals; frontal teeth occasionally with rudimentary submesial teeth
on inner slopes C. sapidus

Figure 84. — Callinectes sapidus, frontal and orbital regions.

A (47) Front with 2 prominent teeth between inner orbitals separated by flattened

space bearing pair of rudimentary submesial teeth C. similis

/^5-^—-<d^\

10

Figure 85. — Callinectes similis, frontal and orbital regions.

48 (47) Front with 2 bifurcated teeth between inner orbitals; fissures on orbital margin broad-
ly open; color light brown, thickly covered over dorsal surface with small white spots,
reticulate pattern persisting in alcohol Arenaeus cribrarius

10

Figure 86.— Arenaeus cribrarius, frontal and orbital regions.

30

48 (47) Front with 4 separate teeth between inner orbitals; fissures on orbital margin

closed except for shallow notch; color varied but never as above Portunus A

A (48) Carapace nearly devoid of ridges and without noticeable short thick covering

of hairs P. sayi

Figure 87. — Portunus sayi, carapace and eyes.

A (48) Carapace with ridges fairly prominent and with noticeable covering of short

thick hairs B

B (A) Lateral spine relatively short, not more than about twice length of preceding

tooth; a number of meandering ridges on carapace P. spinimanus

Figure 88. — Portunus spinimanus, carapace and eyes.

B (A) Lateral spine long, obviously more than twice length of preceding tooth;
a single ridge (often darkened) leading to lateral spine on each side of
carapace P. gibbesii

Figure 89. — Portunus gibbesii, carapace and eyes.

31

49 (43) Front with median tooth; antennules folding longitudinally Family Cancridae, Cancer ... A

10

Figure 90. — Cancer; A, frontal and orbital regions; B, antennules folded longitudinally.

A (49) Anterolateral teeth of carapace with margins granulate; chelipeds granulate,

not denticulate C. irroratus

Figure 91. — Cancer irroratus; A, right anterolateral border; B, dactyl and upper border of chela.

A (49) Anterolateral teeth of carapace with denticulate margins; upper margin of

palm denticulate C. borealis

Figure 92. — Cancer borealis; A, right anterolateral border: B, dactyl and upper border of chela.

49 (43) Front lacking median tooth; antennules folding transversely or obliquely

50

50 (49) Body transversely oval; fifth anterolateral tooth not enlarged and spinelike; legs not

extremely long and slender (occur in shallow water) Family Xanthidae

50 (49) Body nearly as long as broad; fifth
anterolateral tooth enlarged into lateral
spine (blunt in adult); legs extremely long
and slender; (usually occurs beyond con-
tinental shelf)

Family Geryonidae, Geryon quinquedens

Figure 93. — Geryon quinquedens; A, carapace and eyes of young;
B, orbital and anterolateral border of adult.

51

32

51 (50) Extreme edge of frontal margin with shallow transverse groove (under magnification)

Rhithropanopeus harrisii

Figure 94. — Rhithropanopeus harrisii, frontal view of
body showing transversely grooved front.

51 (50) Extreme edge of frontal margin not transversely grooved, each half presenting single
edge (under magnification)

52

52 (57) Major chela with a more or less conspicuous tooth at base of dactyl, tooth often of

contrasting color 53

Figure 95. — Xanthid major chela with
large basal tooth on dactyl.

52 (51) Major chela with no tooth at base of dactyl, or with obsolescent tooth little if any
larger than adjacent teeth

55

53 (52) Third and fourth teeth of anterolateral border definitely pointed forward with outer

borders curved 54

53 (52) Third and fourth teeth of anterolateral border triangular and pointing outward or

slightly forward, outer borders not conspicuously curved Hexapanopeus angustifrons

Figure 96. — Hexapanopeus angustifrons,
carapace and eyes.

33

54 (53) Tooth at base of major dactyl large and conspicuous; carapace definitely arched

above Panopeus herbstii

Figure 97. — Panopeus herbstii, carapace and eyes.

54 (53) Tooth at base of major dactyl present but often not large and conspicuous; posterior

two-thirds of carapace flattened above Eurypanopeus depressus

Figure 98. — Eurypanopeus depressus; A, carapace and eyes; B, fingers of minor chela, inner view.

55 (52) Ischium of third maxillipeds with prominent red spot on appressed surface; fingers of

minor chela hollowed or spoon shaped on opposed surfaces distally . . . Eurypanopeus depressus

55 (52) Ischium of third maxillipeds usually lacking red spot on appressed surface, very small
in few individuals possessing it; fingers of minor chela hooked but not spoon shaped on
opposed surfaces distally Neopanope sayi

Figure 99. — Neopanope sayi; A, carapace and eyes; B, fingers of minor chela, inner view.

34

56 (42) Dactyls of walking legs simple, acute 57

56 (42) Dactyls of first, second, and third walking legs bifurcate Dissodactylus mellitae

B

Figure 100. — Dissodactylus mellitae; A, carapace; B, walking leg with bifurcate dactyl.

57 (56) Third walking legs little if any longer than other legs Pinnotheres A

A (57) Small, hard-stage males and females B

A (57) Older, larger, posthard (soft) females (and male maculatus) C

B (A) Carapace with a striking pattern of light spots on dark background of pubescence

P. maculatus

B (A ) No striking color pattern P. ostreum

'■}■■■:■
$Si" "]^M

I'

Figure 101. — Carapace and eyes of male Pinnotheres; A, maculatus; B, ostreum.

C (B) Carapace nearly naked P. ostreum

C (B) Carapace covered with short deciduous pubescence P. maculatus

Figure 102. — Carapace of mature female Pinnotheres; A, maculatus; B, ostreum,
including portion of greatly expanded abdomen.

35

57 (56) Third walking leg longer and stronger than others, often considerably so Pinnixa A

A (57) Chela with immovable finger nearly same length as dactyl, straight or nearly so,

not bent downward P. cylindrica

/

". 5 . A , 2 i B

Figure 103. — Pinnixa cylindrica; A, carapace and eyes; B, chela.

A (56) Chela with immovable finger shorter than dactyl, bent downward, or reduced

to stub B

B (A) Propodus of third walking leg less than twice as long as wide P. chaetopterana

A

2 C

Figure 104. — Pinnixa chaetopterana; A, carapace and eyes; B, third leg;
C, chela of male; D, chela of female.

B (A) Propodus of third walking leg slender, twice or more than twice as long as

wide P. sayana

Figure 105. — Pinnixa sayana; A, carapace and eyes; B, third leg.

36

58 (41) Eyestalks shorter than width of front; gap of varying size between third maxillipeds

Family Grapsidae 59

58 (41) Eyestalks longer than width of front; third maxillipeds nearly or quite closing over

buccal area Family Ocypodidae 60

59 (58) Carapace broader than long and almost rectangular in outline; third maxillipeds with

oblique hairy ridge crossing ischium and merus Sesarma reticulatum

Figure 106. — Sesarma reticulatum; A, carapace and eyes; B, third maxilliped.

59 (58) Carapace about as long as broad, somewhat narrowed and rounded in adults; third
maxillipeds without hairy oblique ridge crossing ischium and merus; legs strongly
fringed with hairs. (Occurs on Sargassum and flotsam.) Planes minutus

Figure 107 — Planes minutus; carapace and eyes.

37

60 (58) Stout eyestalks with conspicuous, enlarged, club-shaped cornea; chelipeds of both

sexes well developed and somewhat unequal Ocypode quadrata

5

i

Figure 108. — Ocypode quadrata; carapace and eyes.

60 (58) Slender eyestalks with cornea not conspicuously enlarged and club-shaped; chelipeds

of male very unequal, of female equal and quite small Uca A

A (60) Last legs with upper surface of merus straight; large chela of male without
oblique tuberculate ridge on inner surface of palm extending upward from
lower margin U. pugilator

5

i i

A ~"^-l ^^ B i—L- ' C

Figure 109. — Uca pugilator; A, merus of last leg; C, chela of male, inner view. U. pugnax, B, merus of last leg.

A (60) Last legs with upper surface of merus curved; large chela of male with oblique

tuberculate ridge on inner surface of palm extending upward from lower margin B

B (A) A transverse shelf or depression on carapace behind orbit; leg joints red on

large cheliped U. minax

Figure 110. — Uca minax; A, chela of male, inner view; B, carapace and eyes.

38

B (A) Without transverse shelf or depression on carapace behind orbit; leg joints not

red on large cheliped U. pugnax

Figure 111. — Ilea pugnax; A, chela of male, inner view; B, carapace and eyes.

ANNOTATED SYSTEMATIC LIST

This check list is arranged in a systematic hierar-
chy accommodating categories from order to species,
with genera arranged alphabetically under family
and species under genus. Notes on distribution,
habitat, and general occurrence are given. Refer-
ences to important works are cited. Depths are
rounded to 5-m intervals, except those below 5 m.

Class CRUSTACEA

Order DECAPODA

Suborder NATANTIA

Section PENAEIDEA
Family SERGESTIDAE

Lucifer faxoni Borradaile, 1915. Nova Scotia to
Rio de Janeiro, Brazil; primarily in coastal
waters. Surface to 90 m (Bowman and Mc-
Cain, 1967).
Family PENAEIDAE

Parapenaeus longirostris (Lucas, 1849).
Martha's Vineyard, Mass., to Gulf of Mex-
ico off Florida, Louisiana, and peninsula de
Yucatan; Gulf of Paria off Venezuela; coast
of Portugal to Morocco; Mediterranean Sea
from Spain to Asia Minor. 25-350 m in west-
ern Atlantic; to 460 m in Mediterranean. Rare
in north (Williams, 1965).

Penaeus (Melicertus) aztecus aztecus Ives,
1891. Brown shrimp. West Falmouth Harbor
and Martha's Vineyard, Mass., to off Sanibel
Island, Fla. ; Appalachicola Bay around Gulf
of Mexico to northwestern Estado de
Yucatan. Fished commercially. Shallows to

110 m, occasionally 165m. Summer and fall in
north, rare (Perez Farfante, 1969).
Penaeus (Litopenaeus) setiferus (Linnaeus,
1767). White shrimp. Fire Island, N.Y., to St.
Lucie Inlet, Fla.; mouth Ochlockonee River
[Franklin County], Fla., to northwestern Es-
tado de Yucatan. Fished commercially. Shal-
lows to 35 m, occasionally to 85 m. Summer in
north, rare (Perez Farfante, 1969).

Section CARIDEA
Family PASIPHAEIDAE

Pasiphaea multidentata Esmark, 1866. North-
ern Atlantic; western Norway to Mediterra-
nean Sea; Iceland; Greenland; Cape Breton
Island to Cape Cod. 10 (rarely) to 2,000 m
(Sivertsen and Holthuis, 1956).
Family PALAEMONIDAE

Leander tenuicornis (Say, 1818). Tropical and
subtropical waters of world except west coast
of Americas; Newfoundland Banks, Bay of
Fundy, and New England to Falkland Islands
in western Atlantic. Floating Sargassum,
pilings, and submerged vegetation (Chace,
1972).

Palaemonetes (Palaemonetes) intermedius
Holthuis, 1949. Long Island, N.Y., to Port
Aransas, Tex. (and literature records from
Vineyard Sound, Mass.). Estuaries, espe-
cially in submerged vegetation (Holthuis,
1952).

Palaemonetes (Palaemonetes) pugio Holthuis,
1949. Newcastle, Me., and Yarmouth, Nova
Scotia, to Port Aransas, Tex. (literature re-

39

cords to Corpus Christi, Tex.). Estuaries,
especially in submerged vegetation (Holth-
uis, 1952). Nova Scotia and other Maine re-
cords from R. E. Knowlton and E. C. Bous-
field (pers. comm.).

Palaemonetes (Palaemonetes) vulgaris (Say,
1818). Southwest coast Gulf of St. Lawrence
to Cameron County, Tex. (literature records
somewhat farther south). Estuaries, to 15 m,
especially in submerged vegetation (Holth-
uis, 1952). Canadian distribution from R. E.
Knowlton (pers. comm.).
Family HIPPOLYTIDAE

Eualus fabricii KrOyer, 1841. North Greenland
to Cape Cod; Arctic Alaska to Cook Inlet;
Siberian seacoast; Japanese Sea. 4-200 m
(Holthuis, 1947).

Eualus gaimardii (H. Milne Edwards, 1837).
Circumarctic southward to Cape Cod, North
Sea (Kiel and Yarmouth), White Sea, Sitka
(Alaska), Siberia. 10-900 m (Holthuis, 1947).

Eualus pusiolus (Kr0yer, 1841). Gulf of St.
Lawrence to off Cape Henry, Va.; Bering
Island, Alaska Peninsula, and Aleutian Is-
lands; San Juan Islands, Wash.; Iceland;
Murman coast to Channel Islands; northeast-
ern Spain. < 1-500 m (Holthuis, 1947).

Hippolyte pleuracanthus (Stimpson, 1871).
Connecticut to North Carolina. Beds of sub-
merged vegetation (Chace, 1972).

Hippolyte zostericola (Smith, 1873). Bermuda;
Massachusetts; North Carolina to Yucatan;
West Indies to Trinidad and Curasao. Beds of
submerged vegetation (Chace, 1972).

Latreutes fucorum (Fabricius, 1798). Western
North Atlantic between lat. 10° and 50°N;
Azores and Cape Verde Islands. Pelagic and
sublittoral, in floating masses of Sargassum
and submerged grasses (Chace, 1972).

Lebbeus groenlandicus (Fabricius, 1775).
Greenland southward to Rhode Island; arctic
Canada and Alaska; Bering Sea to Puget
Sound; Sea of Okhotsk. 2-210 m (Holthuis,
1947).

Lebbeus polaris (Sabine, 1821). Circumarctic
southward to off Chesapeake Bay, Bering
Sea, Sea of Okhotsk, Skagerrak, and Heb-
rides. < 1-930 m (Holthuis, 1947).

Lebbeus zebra (Leim, 1921). Port Burwell, Un-
gava; New Brunswick, Nova Scotia (Bay of
Fundy. 10-30 m (Holthuis, 1947).

Spirontocaris liljeborgii (Danielssen, 1859).

Greenland; Nova Scotia to off. Delaware
Bay; arctic Alaska; Iceland; Spitzbergen and
Murman coast to south coast of England.
20-1,200 m (Holthuis, 1947).

Spirontocaris phippsii (Kr0yer, 1841). Cir-
cumarctic, southward to near Martha's Vine-
yard, northern Norway, Shumagin Islands
(Alaska), and Plover Bay (Siberia). 10-270 m
(Holthuis, 1947).

Spirontocaris spinus (Sowerby, 1805). Cir-
cumarctic, southward to near Martha's Vine-
yard, North Sea, Bering Strait to Alaskan
Peninsula, Hood Canal, near Union City
(Wash.), Siberian coast. 10-465 m (Holthuis,
1947).
Family PANDALIDAE

Dichelopandalus leptoceras (Smith, 1881).
Newfoundland Banks to North Carolina;
Shumagin Bank, Alaska. 15-790 m (Rathbun,
1929).

Pandalus borealis Kr0yer, 1838. Pink shrimp.
Circumarctic, southward to off Martha's
Vineyard (Mass.), Bering Sea, and stragglers
to San Diego (Calif.), northern Europe in-
cluding Britain, northern Japan. Fished
commercially. 45-905 m( Rathbun, 1929; Wig-
ley, 1960).

Pandalus montagui Leach, 1813 or 1814.
Striped pink shrimp. Greenland to Rhode Is-
land; Iceland; northern Europe including
British Isles. Fished commercially. 5-790 m
(Rathbun, 1929; Wigley, 1960).

Pandalus propinquus G. O. Sars, 1869. Davis
Strait; Newfoundland Banks to Delaware;
Iceland; northwestern Europe. Fished com-
mercially. 60-2,000 m (Rathbun, 1929; Wig-
ley, 1960).
Family CRANGONIDAE

Crangon septemspinosa Say, 1818. Sand
shrimp. Baffin Bay to eastern Florida; arctic
Alaska to Shumagin Islands, Sea of Okhotsk;
Hokkaido, Japan. Sandy bottom, low tide
mark to 90 m, rarely 450 m (Price, 1962).

Pontophilus brevirostris Smith, 1881. Gulf of
Maine to Gulf of Mexico off Cuba. 25-350 m.

Pontophilus norvegicus (M. Sars, 1861). Green-
land to Long Island; Iceland; Spitzbergen;
northwestern Europe. 50-945 m (Rathbun,
1929).

Sabinea sarsii Smith, 1879. Davis Strait to Gulf
of Maine; Iceland; northern Europe. 75-710
m (Rathbun, 1929).

40

Sabinea septemcarinata (Sabine, 1824). Mouth
St. Lawrence River to Massachusetts Bay;
Arctic Ocean to Pt. Barrow (Alaska), White
Sea, and northern Europe. 10-240 m (Rath-
bun, 1929).

Sclerocrangon boreas (Phipps, 1774). Arctic
Ocean southward to Cape Cod, Aleutian
Islands, and Alexander Archipelago (A-
laska), northeastern Siberia. < 1-260 m (Rath-
bun, 1929).

Suborder REPTANTIA
Section MACRURA

SUPERFAMILY ASTACIDEA
Family NEPHROPSIDAE

Homarus americanus H. Milne Edwards,
1837. American lobster. Labrador to North
Carolina. Fished commercially. Near low
tide mark to about 700 m (Herrick, 1895;
Templeman and Tibbo, 1945; R. L. Wig-
ley, pers. comm.).
SUPERFAMILY THALASSINIDEA
Family LAOMEDIIDAE
Naushonia crangonoides Kingsley, 1897.
Massachusetts; Bass River, Vineyard
Sound, and Elizabeth Islands. Shallow
channels near shore.
Family CALLIANASSIDAE
Callianassa (Callichirus) atlantica Rathbun,
1926. Bass River, Nova Scotia to Sapelo
Island, Ga.; Franklin County, Fla. Muddy
shores and shallow littoral to 40 m
(Schmitt, 1935).
FAMILY UPOGEBIIDAE

Upogebia affinis (Say, 1818). Cape Cod Bay
(Wellfleet, Mass.) to Rockport, Tex.;
through West Indies to Maceio, Alagoas,
Brazil. Burrows in estuarine littoral; inter-
tidal to 25 m (Williams, 1965).
FAMILY AXIIDAE
Axius serratus Stimpson, 1852. Bay of Fundy
to Long Island Sound. 20-100 m (Rathbun,
1929).
Calocaris templemani Squires, 1965. (Green-
land ?); Hermitage Bay, Newfoundland;
Gulf of Maine. 200-260 m [?].
Section ANOMURA

SUPERFAMILY GALATHEIDEA
Family GALATHEIDAE
Munida iris A. Milne Edwards, 1880. South-
western Georges Bank to off Isla de

Cozumel, Quintana Roo; off mouth of
Amazon River. 70-730 m (Chace, 1942).

Munida valida Smith, 1883. Southern
Georges Bank to Golfo de Morrosquillo,
Colombia, and Curacao. 90-825 m (Chace,
1942).
Family PORCELLANIDAE

Polyonyx gibbesi Haig, 1956. Woods Hole,
Mass., to Alligator Harbor, Fla.; Puerto
Rico; Panama; Brazil (?). Commensal of
Chaetopterus variopedatus , intertidalto 15
m (Williams, 1965).

Porcellana sigesbiana A. Milne Edwards,
1880. Off Martha's Vineyard, Mass., to
Gulf of Mexico off peninsula de Yucatan;
West Indies to Virgin Islands. 50-390 m
(Williams, 1965).

SUPERFAMILY PAGUROIDEA

Family PAGURIDAE

Pagurus acadianus Benedict, 1901. Grand
Banks of Newfoundland and Gulf of St.
Lawrence to mouth of Chesapeake Bay.
Low water mark to 485 m (Rathbun, 1929).

Pagurus annulipes Stimpson, 1860. Vineyard
Sound, Mass., to Beaufort, N.C., possibly
to northeastern Florida; Cedar Key, Fla.,
to Texas. Variety of bottoms, but predom-
inantly on sand, nearshore and estuaries
to 40 m (Williams, 1965; Rouse, 1970).

Pagurus arcuatus Squires, 1964. Greenland
to New Jersey. Low water mark to 270 m.

Pagurus longicarpus Say, 1817. Minas Basin,
Nova Scotia to northeastern Florida;
Sanibel Island, Fla., to Texas. Shallow lit-
toral of ocean and estuaries on variety of
bottoms to 50 m (Williams, 1965).

Pagurus politus (Smith, 1882). Georges Bank
to off Dry Tortugas. 20(?) 60-1,170 m.

Pagurus pollicaris Say, 1817. Vineyard
Sound, Mass., to northeastern Florida;
Key West, Fla., to Texas. Ocean and
mouths of estuaries, low tide mark to 45 m
(Williams, 1965).

Pagurus pubescens Kr0yer, 1838. West
Greenland, Foxe Basin, and Hudson Bay
to New Jersey; Spitzbergen, Novaya Zem-
lya, and Barents Sea to Faeroes, Hebrides,
England (except south coast), and south-
western Ireland. 6-600 m (Rathbun, 1929;
Squires, 1964).
Family LITHODIDAE

Lithodes maja (Linnaeus, 1758). Greenland

41

to Sandy Hook, N.J.; northwestern
Europe to Belgium and Isle of Man. 65-535
m (Rathbun, 1929).

SUPERFAM1LY H1PPIDEA

FAMILY HIPPIDAE
Emerita talpoida (Say, 1817). Mole crab,
sand bug. Barnstable County, Mass., to
east coast of Florida; west coast of Florida
to Grand Isle, La.; Progreso, Yucatan.
Wave washed sandy beaches and below
surf line to 3.5 m (Williams, 1965).

Section BRACHYURA
Subsection DROMIACEA
Family HOMOL1DAE
Homola barbata (Fabricius, 1793). Off
southeastern Massachusetts to Caribbean
Sea; eastern Atlantic from Portugal and
Azores to Madeira Islands; Mediterranean
Sea; South Africa. 55-685 m (Williams,
1965).
Subsection OXYSTOMATA
Family DORIPPIDAE
Ethusa microphthalma Smith, 1881. Off
Martha's Vineyard, Mass., to west
Florida, and Cuba. 110-575 m (Rathbun,
1937).
Family LEUCOSIIDAE
Persephona aquilonaris Rathbun, 1937. New
Jersey to Estado de Campeche, Mexico.
37-55 m (Guinot-Dumortier, 1959).
Family CALAPPIDAE
Acanthocarpus alexandri Stimpson, 1871.
Georges Bank to west coast of Florida;
Puerto Rico to Grenadines; Brazil. 70-380
m (Williams, 1965).
SUBSECTION BRACHYGNATHA
SUPERFAMILY OXYRHYNCHA
Family MAJIDAE
Subfamily OREGON UN AE
Hyas araneus (Linnaeus, 1758). West
Greenland; Labrador to Rhode Is-
land; between Greenland and Iceland,
through British Isles and northwest
France to Spitzbergen and west Kara
Sea. < 1-360 m, usually <50 m, hard
and soft bottom (Christiansen, 1969).
Hyas coarctatus Leach, 1815. Typical
subspecies from Labrador to North
Carolina; between Greenland and Ice-
land, through British Isles, southwest-
ern and northwestern France, to

Spitzbergen and eastern Barents Sea.
< 1-500 m, usually <50 m, hard and
soft bottom (Christiansen, 1969).
Subfamily INACHINAE
Collodes robustus Smith, 1881. South of
Nantucket, Mass., to off Cape
Hatteras, N.C. 90-685 m (Rathbun,
1925).
Euprognatha rastellifera Stimpson,
1871. Off Georges Bank to southern
Gulf of Mexico; West Indies to Gre-
nada and Barbados. 25-710 m. Rath-
bun (1925) recognized a blunt spined
northern subspecies, marthae, ranging
from New England to the Florida
Keys (Williams, 1965).
Subfamily PISINAE
Libinia dubia H. Milne Edwards, 1834.
Cape Cod, Mass., to southern Texas;
Bahamas and Cuba. Ocean and high
salinity estuaries on a variety of sub-
strates from low tide mark to 45 m
(Williams, 1965).
Libinia emarginata Leach, 1815. Wind-
sor, Nova Scotia, to western Gulf of
Mexico. Ocean and high salinity es-
tuaries on a variety of substrates from
near low tide mark to 50 m, rarely to
125 m (Williams, 1965).
Pelia mutica (Gibbes, 1850). Buzzards
Bay and Vineyard Sound, Mass., to
west coast of Florida; Cuba to St.
Thomas. Estuarine and oceanic sublit-
toral on coarse substrate and en-
crusted pilings, low water mark to 50 m
(Williams, 1965).
Family PARTHENOPIDAE
Heterocrypta granulata (Gibbes, 1850).
Nantucket Sound, Mass., to Georgia;
Florida Straits to Sabine, Tex.; through
West Indies to Trinidad. Shingle and
shelly substrate of estuarine and oceanic
littoral, 3.5-135 m (Williams, 1965).
Parthenope (Platylambrus) pourtalesii
(Stimpson, 1871). Off Martha's Vine-
yard, Mass., through West Indies to
Grenada. Predominantly on sand or
sandy mud, 20-250 m (Williams,
1965).
SUPERFAMILY BRACHYRHYNCHA
Family PORTUNIDAE
Arenaeus cribrarius (Lamarck, 1818). Vine-

42

yard Sound, Mass., to Estado de Santa
Catarina, Brazil. Usually in or near
waves and shifting sand along ocean
beaches. Water line to 70 m (Williams,
1965).
Bathynectes superbus (Costa, 1838). Mar-
tha's Vineyard, Mass., to Florida
Straits; off Norway, Shetland and
Faeroe Islands, to Angola; Mediterra-
nean Sea. 180-1,455 m (Christiansen,
1969).
Callinectes sapidus Rathbun, 1896. Blue
crab. Nova Scotia to Mar del Plata,
Argentina; Bermuda. Introduced in
Mediterranean and Baltic seas. Fished
commercially. Variety of substrates in
rivers, estuaries and shallow oceanic
littoral to 40 m (Williams, 1965; Chace
and Hobbs, 1969).
Callinectes similis Williams, 1966. Cape
May, N.J., to off Soto La Marina, Mex-
ico (140 miles south of the mouth of Rio
Grande River). Usually oceanic; water's
edge to 35-40 m, occasionally to 80 m,
once at surface over a 1,685-m depth.

Carcinus maenas (Linnaeus, 1758). Nova
Scotia to Virginia; Iceland; Faeroe Is-
lands; Kvaenangen, Norway, southward
including parts of southern Baltic Sea,
and British Isles through Portugal;
Mauritania; Australia. Probably intro-
duced in United States and Australia,
and temporarily elsewhere. On variety of
substrates in estuarine and oceanic shal-
low littoral. Intertidal to occasionally 200
m (Christiansen, 1969).

Ovalipes ocellatus (Herbst, 1799). Prince
Edward Island, Canada to Florida;
Texas coast (?). Variety of substrates but
especially on sand. Surface to 33 m (Wil-
liams, 1965).

Portunus sayi (Gibbes, 1850). Nova Scotia
through Gulf of Mexico to Brazil; Ber-
muda and mid- Atlantic Ocean; Ker-
guelen Island. Usually pelagic among
floating Sa rgassum (Williams, 1965).

Portun us gibbesii (Stimpson, 1859). South-
ern Massachusetts to Texas; Venezue-
la; Surinam. Surface to 90 m, seldom
deeper (Williams, 1965).

Portunus spinimanus Latreille, 1819. New
Jersey through Gulf of Mexico and West

Indies to southern Brazil; Bermuda. On
beach under Sargassum to 90 m (Wil-
liams, 1965).

FAMILY CANCRIDAE
Cancer borealis Stimpson, 1859. Nova
Scotia to south of Tortugas, Fla.; Ber-
muda. On various substrates, intertidal
to 800 m; shallower in north than in
south, some seasonal movement (Wil-
liams, 1965; Jeffries, 1966).

Cancer irroratus Say, 1817. Labrador to
Florida. On various but usually coarse
substrates, low water mark to 575 m;
shallower in north than in south, some
seasonal movement (Williams, 1965; Jef-
fries, 1966).

FAMILY XANTHIDAE
Eurypanopeus depressus (Smith, 1869).
Massachusetts Bay and Provincetown,
Mass., through Florida to Texas; Ber-
muda; West Indies. Mainly oyster bars
in estuaries; oceanic littoral. Low water
mark to 50 m (Williams, 1965).

Hexapanopeus angustifrons (Benedict and
Rathbun, 1891). Vineyard Sound,
Mass., to Port Aransas, Tex. ; Bahamas;
Jamaica. Shelly substrates in high salin-
ity estuaries, but mainly oceanic. Near-
shore to 140 m (Williams, 1965).

Neopanope sayi (Smith, 1869). Miramichi
Bay, Prince Edward Island, and Cape
Breton Island, New Brunswick, to
Crooked Island Sound, Fla. Introduced,
Swansea, Wales. Various substrates, but
mainly mud in estuaries. Low tide mark
to 25 m (Williams, 1965; Abele, 1972).

Panopeus herbstii H. Milne Edwards,
1834. Boston (?), Woods Hole, Mass., to
Uruguay; Bermuda. Variety of sub-
strates, estuarine and oceanic. Intertidal
to 20 m (Williams, 1965; Chace and
Hobbs, 1969).

Rhithropanopeus harrisii (Gould, 1841).
Original range, estuaries from New
Brunswick, Canada, to Veracruz, Mex-
ico; northeastern Brazil. Introduced,
Coos Bay, Oreg., and San Francisco
Bay, Calif. ; northwest Europe and Black
Sea. Water's edge to 35 m (Williams,
1965; Christiansen, 1969).

43

Family GERYONIDAE

Geryon quinquidens Smith, 1879. Deep sea
red crab. Off Nova Scotia to Cabo Frio,
Brazil. 40-2,160 m (Rathbun, 1937).
Family PINNOTHERIDAE

Dissodactylus mellitae (Rathbun, 1900).
Vineyard Sound, Mass., to Charleston,
S.C.; west Florida. Commensal with
sand dollars. Shallow water to 20 m (Wil-
liams, 1965).

Pinnixa chaetopterana Stimpson, 1860.
Wellfleet, Mass., to South Carolina;
Punta Rassa, Fla., to Galveston, Tex.;
Rio de Janeiro, and Villa Bella, Sao
Sebastiao, Brazil. Commensal with
Chaetopterus variopedatus, Amphitrite
ornata, and Callianassa species. Inter-
tidal to 15 m (Williams, 1965).

Pinnixa cylindrica (Say, 1818). North Fal-
mouth, Mass., to Alligator Harbor, Fla.
Commensal with^4 renicola cristata, and
probably other large annelids. Shallow
water to 35 m (Williams, 1965).

Pinnixa say ana Stimpson, 1860. Vineyard
Sound, Mass., to Beaufort, N.C.;
Sarasota Bay, Fla., to Grand Isle, La.
Reported as commensal with Arenicola
cristata, but also free in water. Shore to
50 m (Williams, 1965).

Pinnotheres maculatus Say, 1818. Mussel
crab. Off Martha's Vineyard, Mass., to
Mar del Plata, Argentina. Parasitic in
bivalve mollusks, Argopecten irradians,
A. gibbus, Atrina serratus, Modiolus
modiolus , M. americanus, My a
arenaria, Mytilus edulis, and with
Chaetopterus variopedatus, Molgula
robusta, Bostrichobranchus pilularis,
and on Asterias vulgaris, as well as free-
swimming stages. Surface to 45 m (Wil-
liams, 1965).

Pinnotheres ostreum Say, 1817. Oyster
crab. Salem, Mass., to Estado de Santa
Catarina, Brazil. Parasitic in bivalve
mollusks, Argopecten species, Anomia
simplex, Crassostrea virginica, Mytilus
edulis, and with Chaetopterus var-
iopedatus as well as free-swimming
stages in estuaries. Depth limits not re-
corded (Williams, 1965).
Family GRAPSIDAE

Planes minutus (Linnaeus, 1758). Gulf

weed crab, turtle crab, Columbus crab.
Atlantic Ocean south of Newfoundland,
west of lat 50°W, and exclusive of Gulf
of Mexico; occasionally on coast of
Netherlands, southwest England, Por-
tugal, and Mediterranean Sea. Common
in Sargassum (Chace, 1951; Christian-
sen, 1969).

Sesarma reticulatum (Say, 1817). Woods
Hole, Mass., to Calhoun County, Tex.
Burrows in muddy salt marshes (Wil-
liams, 1965).
Family OCYPODIDAE

Ocypode quadrata (Fabricius, 1787).
Ghost crab. Woods Hole, Mass., to Es-
tado de Santa Catarina, Brazil. Semiter-
restrial; burrows along ocean beaches
and occasionally on harbor beaches (Wil-
liams, 1965; Chace and Hobbs, 1969).

Uca minax (Le Conte, 1855). Red jointed
fiddler. Buzzards Bay (Wareham)
Mass., to Matagorda Bay, Tex.; Colom-
bia; Dominican Republic. Usually on
muddy or muddy sand substrates of low
salinity marshes; a burrower (Williams,
1965).

Uca pugilator (Bosc, 1801 or 1802). Sand
fiddler. Boston Harbor, Mass., to Cor-
pus Christi, Tex. Sandy and muddy
beaches bordering marshes and tidal
creeks; a burrower (Williams, 1965).

Uca pugnax (Smith, 1870). Mud fiddler.
Cape Cod, Mass., to near Daytona
Beach, Fla. Primarily on intertidal mud
flats among Spartina; a burrower (Wil-
liams, 1965; Salmon and Atsaides, 1968).

SELECTED BIBLIOGRAPHY

ABELE, L. G.

1972. A reevaluation of the Neopanope
texana-sayi complex with notes on N. pack-
ardii (Crustacea: Decapoda: Xanthidae) in
the northwestern Atlantic. Chesapeake Sci.
13:263-271.
ALLEN, J. A.

1963. Observations on the biology of Pan-
dalus montagui [Crustacea: Decapoda]. J.
Mar. Biol. Assoc. U.K. 43:665-682.

1966. The dynamics and interrelationships of
mixed populations of Caridea found off the
north-east coast of England. In Harold

44

arnes (editor), Some contemporary studies
marine science, p. 45-66. George Allen and
nwin Ltd., Lond.
»ICT, J. E.

1. The hermit crabs of the Pagurus bern-
irdus type. Proc. U.S. Natl. Mus. 23:
51-466.
R, T. A.

1 . The genus Callianassa (Crustacea, De-
apoda, Thalassinidea) in South Florida, with
eys to the western Atlantic species. Bull,
lar. Sci. 21:637-715.
AN, T. E., and J. C. McCAIN.

7. Distribution of the planktonic shrimp,
ucifer, in the western North Atlantic. Bull,
lar. Sci. 17:660-671.

i, F. A., JR.

I. Reports on the scientific results of the
tlantis expeditions to the West Indies,
tider the joint auspices of the University of
lavana and Harvard University. The
.nomuran Crustacea. I. Galatheidea. Tor-
:ia, Havana, No. 11, 106 p.

1. The oceanic crabs of the genera Planes
id Pachygrapsus. Proc. U.S. Natl. Mus.
31:65-103.

2. The shrimps of the Smithsonian-Bredin
aribbean Expeditions with a summary of the
^est Indian shallow-water species (Crus-
cea: Decapoda: Natantia). Smithson. Con-
ib. Zool. 98, 179 p.

I, F. A., JR., and H. H. HOBBS, JR.
>. The freshwater and terrestrial decapod
•ustaceans of the West Indies with special
ference to Dominica. U.S. Natl. Mus. Bull.
»2, 258 p.
TENSEN, A. M., and J. J. McDER-

r.

I. Life-history and biology of the oyster
ab, Pinnotheres ostreum Say. Biol. Bull.
Voods Hole) 114:146-179.
HANSEN, M. E.

). Marine Invertebrates of Scandinavia,
o. 2. Crustacea Decapoda Brachyura. Uni-
3rsitetsforlaget, Oslo, 143 p.
JRE, R., et P. TRUDEL.

8. Les crevettes des eaux cotieres du
uebec. Nat. Can. 95:857-885.

•S, R. P.

\. I. Habits, reactions, and associations in
cypoda arenaria. Pap. Tortugas Lab. Car-
:gie Inst. Wash. 2:1-41.

CRANE, J.

1943. Display, breeding and relationships of
fiddler crabs (Brachyura, Genus Uca) in the
northeastern United States. Zoologica, N.Y.
28:217-223.
DARNELL, R. M.

1961. Trophic spectrum of an estuarine com-
munity, based on studies of Lake Pontchar-
train, Louisiana. Ecology 42:553-568.
DEMEUSY, N.

1958. Recherches sur la mue de puberte du
Decapode Brachyoure Carcinus maenas
Linne. Arch. Zool. Exp. Gen. 95:253-
492.

EFFORD, I. E.

1967. Neoteny in sand crabs of the genus
Emerita (Anomura, Hippidae). Crustaceana
13:81-93.
FOWLER, H. W.

1912. The Crustacea of New Jersey. Annu.
Rep. New Jersey State Mus. 1911. Part 2, p.
29-650.
GLAESSNER, M. F.

1969. Decapoda. In R. C. Moore (editor),
Treatise on invertebrate paleontology. Part
R, Arthropoda 4, p. R399-R533. Geol. Soc.
Am. and Univ. Kansas.
GOSNER, K. L.

1971. Guide to identification of marine and
estuarine invertebrates. Wiley-Interscience,
New York, 693 p.
GRAY, I. E.

1961. Changes in abundance of the com-
mensal crabs of Chaetopterus. Biol. Bull.
(Woods Hole) 120:353-359.
GUINOT-DUMORTIER, D.

1959. Sur une collection de Crustaces (De-
capoda Reptantia) de Guyane Francaise. I.
Brachyura (Oxyrhyncha exclus). Bull. Mus.
Natl. Hist. Nat. Paris 31:423-434.

HAIG, J.

1956. The Galatheidae (Crustacea Anomura)
of the Allan Hancock Expedition with a re-
view of the Porcellanidae of the western At-
lantic. Allan Hancock Atlantic Exped. Rep.
No. 8, 44 p.
HAYNES, E. B., and R. L. WIGLEY.

1969. Biology of the northern shrimp,
Pandalus borealis, in the Gulf of Maine.
Trans. Am. Fish. Soc. 98:60-76.
HERRICK, F. H.

1895. The American lobster: A study of its

45

habits and development. Bull. U.S. Fish
Comm. 15:1-252.

HOLTHUIS, L. B.

1947. The Decapoda of the Siboga Expedi-
tion. Part IX. The Hippolytidae and Rhyn-
chocinetidae collected by the Siboga and
Snellius Expeditions with remarks on other
species. Siboga-Exped. Monogr.Vol.39a8,
100 p.
1952. A general revision of the Palaemonidae
(Crustacea Decapoda Natantia) of the
Americas. II. The Subfamily Palaemoninae.
Allan Hancock Found. Publ., Occas. Pap.
12, 396 p.
1955. The recent genera of caridean and
stenopodidean shrimps (Class Crustacea,
Order Decapoda, Supersection Natantia)
with keys for their determination. Zool.
Verh., Rijksmus. Nat. Hist., Leiden, No. 26,
157 p.

JEFFRIES, H. P.

1966. Partitioning of the estuarine environ-
ment by two species of Cancer. Ecology
47:477-481.

LEIM, A. H.

1921. A new species of Spirontocaris with
notes on other species from the Atlantic
coast. Trans. R. Can. Inst. 13(1): 133-145.

MILLER, D. C.

1961. The feeding mechanism of fiddler crabs,
with ecological considerations of feeding
adaptations. Zoologica, N.Y. 46(8):89-100.

MINER, R. W.

1950. Field book of seashore life. G. P.
Putnam's Sons, New York, 888 p.
PEARSE, A. S., H. J. HUMM, and G. W.
WHARTON.

1942. Ecology of sand beaches at Beaufort,
N.C. Ecol. Monogr. 12:135-190.
PEREZ FARFANTE, I.

1969. Western Atlantic shrimps of the genus
Penaeus. U.S. Fish Wildl. Serv., Fish. Bull.
67:461-591.
PRICE, K. S., JR.

1962. Biology of the sand shrimp, Crangon
septemspinosa, in the shore zone of the Del-
aware Bay area. Chesapeake Sci. 3:244-
255.

RATHBUN, M. J.

1905. Fauna of New England. 5. List of the
Crustacea. Occas. Pap. Boston Soc. Nat.
Hist. 7:1-117.

1918. The grapsoid crabs of America. U.S.

Natl. Mus. Bull. 97, 461 p.
1925. The spider crabs of America. U.S. Natl.

Mus. Bull. 129, 613 p.

1929. Canadian Atlantic fauna. 10. Ar-
thropoda. 10 m. Decapoda. Biol. Board Can.,
Atlantic Biol. Stn., St. Andrews, p. 1-38.

1930. The cancroid crabs of America of the
families Euryalidae, Portunidae, Atelecy-
clidae, Cancridae and Xanthidae. U.S. Natl.
Mus. Bull. 152, 609 p.

1937. The oxystomatous and allied crabs of
America. U.S. Natl. Mus. Bull. 166, 278 p.

ROBERTS, M. H., JR.

1971. Larval development of Pagurus lon-
gicarpus Say reared in the laboratory. IV.
Aspects of the ecology of the megalopa. Biol.
Bull. (Woods Hole) 141:162-166.
ROUSE, W. L.

1970. Littoral Crustacea from southwest
Florida. Q. J. Fla. Acad. Sci. 32:127-152.

RYAN, E. P.

1956. Observations on the life histories and
the distribution of the Xanthidae (mud crabs)
of Chesapeake Bay. Am. Midi. Nat.
56:138-162.

SALMON, M., and S. P. ATSAIDES.

1968. Behavioral, morphological and ecologi-
cal evidence for two new species of fiddler
crabs (Genus Uca) from the Gulf coast of the
United States. Proc. Biol. Soc. Wash.
81:275-289.

SCHMITT, W. L.

1935. Mud shrimps of the Atlantic Coast of
North America. Smithson. Misc. Collect.
93(2):1-21.

SIVERTSEN, E., and L. B. HOLTHUIS.

1956. Crustacea Decapoda (The Penaeidea
and Stenopodidea excepted). Rep. Sci. Re-
sults "Michael Sars" North Atl. Deep-Sea
Exp. 1910, 5(12), 43 p.

SMITH, R. I.

1964. Keys to marine invertebrates of the

Woods Hole region. Syst.-Ecol. Prog., Mar.

Biol. Lab., Contrib. 11, 208 p.
SQUIRES, H. J.

1957. Decapod Crustacea of the Calanus ex-
peditions in Ungava Bay, 1947 to 1950. Can.
J. Zool. 35:463-494.

1964. Pagurus pubescens and a proposed
new name for a closely related species in the

46

northwest Atlantic (Decapoda:Anomura). J.
Fish. Res. Board Can. 21:355-365.
1965. A new species of Calocaris (Crustacea:
Decapoda, Thalassinidea) from the North-
west Atlantic. J. Fish. Res. Board Can.
22:1-11.
SUMNER, F. B., R. C. OSBURN, and L. J.
COLE.

1913. Section III. — A catalogue of the marine
fauna. In A biological survey of the waters of
Woods Hole and vicinity. Bull. U.S. Bur.
Fish. 31(pt. 2):545-794.
TEMPLEMAN, W., and S. N. TIBBO.

1945. Lobster investigations in Newfound-
land, 1938 to 1941. Res. Bull., St. Johns,
Newfoundland, No. 16, 98 p.
VAN ENGEL, W. A.

1958. The blue crab and its fishery in Chesa-
peake Bay. Pt. I — Reproduction, early de-

velopment, growth and migration. Com-
mer. Fish. Rev. 20(6):6-17.

WIGLEY, R. L.

1960. Note on the distribution of Pandalidae
(Crustacea, Decapoda) in New England wa-
ters. Ecology 41:564-570.

WILLIAMS, A. B.

1965. Marine decapod crustaceans of the
Carolinas. U.S. Fish Wildl. Serv., Fish. Bull.
65:1-298.

1966. The western Atlantic swimming crabs
Callinectes ornatus, C. danae, and a new
related species (Decapoda, Portunidae).
Tulane Stud. Zool. 13:83-93.

YOUNG, J. H.

1959. Morphology of the white shrimp
Penaeus setiferus (Linnaeus 1758). U.S. Fish
Wildl. Serv., Fish. Bull. 59:1-168.

47

-

INDEX TO SCIENTIFIC NAMES

Acanthocarpus alexandri 24, 42

Anomura 1.17.41

Arenaeus cribrarius 30, 42

Astacidea 15. 41

Axiidae 17. 41

A.xius serratus 17.41

Bathynectes superbus 29, 43

Brachygnatha 24. 42

Brachyrhyncha 25. 42

Brachyura 1 . 17, 42

Calappidae 24, 42

Callianassa atlantica 16, 41

Callianassidae 16, 41

Callinectes

sapidus 2, 30, 43

similis 30, 43

Calocaris templemani 17. 41

Cancer

borealis 32, 43

irroratus 32, 43

Cancridae 32, 43

Carcinus maenas 29, 43

Caridea 5, 39

Collodes robustus 26, 42

Crangonidae 6, 40

Crangon septemspinosa 14. 40

Crustacea 1.39

Decapoda 1,39

Dichelopandalus leptoceras 12, 40

Dissodactylus mellitae 35, 44

Dorippidae 23. 42

Dromiacea 24, 42

Emerita talpoida 18, 42

Ethusa microphthalma 23, 42

Eualus

fabricii 9, 40

gaimardii 9, 40

pusiolus 9, 40

Euprognatha rastellifera 26, 42

Eurypanopeus depressus 34, 43

Galatheidae 22, 41

Galatheidea 18,41

Geryonidae 32, 44

Geryon quinquedens 32, 44

Grapsidae 37, 44

Heterocrypta granulaia 28, 42

Hexapanopeus angustifrons 33, 43

Hippidae 18, 42

Hippidea 18, 42

Hippolvte

pleuracanthus 8, 40

zostericola 9, 40

Hippolytidae 8, 40

Homarus americanus 2. 15, 41

Homola barbata 24. 42

Homolidae 24, 42

Hyas

araneus 25, 42

coarctatus 25, 42

Inachinae 26. 42

Laomediidae 16.41

Latreutes fucorum 8, 40

Leander tenuicornis 6, 39

Lebbeus

groenlandicus 1 1 , 40

polaris 1 1 . 40

zebra 1 1 . 40

Leucosiidae 24. 42

Libinia

dubia 27. 42

emarginata 27, 42

Lithodes maja 21.41

Lithodidae 21, 41

Lucifer faxoni 5, 39

Macrura 1 . 15, 41

Majidae 25, 42

Munida

iris 22, 41

valida 22, 41

Natantia 1 , 4,39

N aushonia crangonoides 16, 41

Neopanope sayi 34, 43

Nephropsidae 15. 41

Ocypode quadrata 38, 44

Ocypodidae 37, 44

Oregoniinae 25, 42

Ovalipes ocellatus 29, 43

Oxyrhyncha 25, 42

Oxystomata 23, 42

Paguridae 18, 41

Paguroidea 18, 41

Pagurus

acadianus 19, 41

annulipes 18, 41

arcuatus 20, 41

longicarpus 19, 41

politus 21,41

pollicaris 19, 41

pubescens 20, 41

48

Palaemonetes

intermedius 7, 39

pugio 7, 39

vulgaris 7, 40

Palaemonidae 6, 39

Pandalidae 8, 40

Panda I us

borealis 2, 12, 40

montagui 2, 13, 40

propinquus 2, 12, 40

Panopeus herbstii 34, 43

Parapenaeus longirostris 5, 39

Parthenope pourtalesii 28, 42

Parthenopidae 25, 42

Pasiphaea multidentata 6, 39

Pasiphaeidae 6, 39

Pelia mutica 27, 42

Penaeidae 5, 39

Penaeidea 4, 39

Penaeus

aztecus aztecus 2, 5, 39

setiferus 2, 5, 39

Persephona aquilonaris 24, 42

Pinnixa

chaetopterana 36, 44

cylindrica 36, 44

sayana 36, 44

Pinnotheres

maculatus 35, 44

ostreum 35, 44

Pinnotheridae 28, 44

Pisinae 26, 42

Planes minutus 37, 44

Polyonyx gibbesi 22, 41

Pontophilus

brevirostris 1 4, 40

norvegicus 14, 40

Porcellana sigesbiana 23, 41

Porcellanidae 22, 41

Portunidae 28, 42

Portunus

gibbesii 3 1 , 43

sayi 3 1 , 43

spinimanus 3 1 , 43

Reptantia 1 , 4, 41

Rhithropanopeus harrisii 33, 43

Sabinea

sarsii 13, 40

septemcarinata 13, 41

Sclerocrangon bore as 15, 41

Sergestidae 5, 39

Sesarma reticulatum 37, 44

Spirontocaris

liljeborgii 10, 40

phippsii 10, 40

spinus 10, 40

Thalassinidea 15, 41

Tozeuma carolinense 9

Uca

minax 38, 44

pugilator 38, 44

pugnax 39, 44

Upogebia affinis 16, 41

Upogebiidae 16, 41

Xanthidae 32, 43

49

ACKNOWLEDGMENTS

Preparation of the "Marine Flora and Fauna of the Northeast-
ern United States" is being coordinated by the following
Board:

Coordinator: Melbourne R. Carriker, College of Marine
Studies, Marine Studies Center, Univer-
sity of Delaware. Lewes, DE 19958.

Advisers: Marie B. Abbott, Marine Biological Laboratory,

Woods Hole, Mass.
Arthur G. Humes, Boston University Marine

Program, Marine Biological Laboratory,

Woods Hole, Mass.
Wesley N. Tiffney, Department of Biology,

Boston University, Boston, Mass.
Ruth D. Turner, Museum of Comparative

Zoology, Harvard University, Cambridge,

Mass.
Roland L. Wigley, National Marine Fisheries

Service, Biological Laboratory, Woods Hole,
Mass.
Robert T. Wilce, Department of Botany, Uni-
versity of Massachusetts, Amherst, Mass.

The Board established the format for the "Marine Flora and
Fauna of the Northeastern United States," invites systematists to
collaborate in the preparation of manuals, reviews manuscripts,
and advises the Scientific Editor of the National Marine Fisheries
Service.

Collections and records in the National Museum of Natural
History, Washington, D.C., those of Roland L. Wigley at the
National Marine Fisheries Service, Northeast Atlantic Fisheries
Center in Woods Hole, as well as those in the Gray Museum,
Marine Biological Laboratory, Woods Hole, provided reference
materials for this paper. Bruce B. Collette, Isabel Perez Farfante,
Marie B Abbott, William D. Burbanck. and Roland L. Wigley
critically read the manuscript. All illustrations were drawn by
Maria M. Dieguez.

COORDINATOR'S COMMENTS

Publication of the "Marine Flora and Fauna of the Northeast-
ern United States" is most timely in view of the growing universal
emphasis on environmental work and the urgent need for more
precise and complete identification of coastal organisms than has
been available. It is mandatory, wherever possible, that or-
ganisms be identified accurately to species. Accurate scientific
names unlock the great quantities of biological information stored
in libraries, obviate duplication of research already done, and
make possible prediction of attributes of organisms that have been
inadequately studied.

Austin B. Williams commenced his study of the systematics of
the Crustacea in 1946 working on crayfishes in the Ozarks and
eastern Great Plains. In 1951 he joined the staff of the University

of North Carolina Institute of Marine Sciences, Morehead City,
to carry on ecological and systematic studies on decapod crusta-
ceans of the estuaries and continental shelf of the southeastern
United States. This work concentrated on ecology of penaeid
shrimps, an illustrated handbook on decapod crustaceans of the
Carolinas (1965), and studies on estuarine meroplankton. Wil-
liams moved to his present position in 1971 where his systematic
studies continue. This key represents an extension of his work on
decapods of the Carolinian Province.

Manuals are available for purchase from the Superintendent of
Documents, U.S. Government Printing Office, Washington, D.C.
20402. The manuals so far published in the series and their
cost are listed below.

COOK, DAVID G., and RALPH O. BRINKHURST. Marine flora and fauna of the Northeastern United States.

Annelida: Oligochaeta.
BORROR, ARTHUR C. Marine flora and fauna of the Northeastern United States. Protozoa: Ciliophora.
MOUL. EDWIN T. Marine flora and fauna of the Northeastern United States. Higher plants of the marine fringe.
McCLOSKEY, LAWRENCE R. Marine flora and fauna of the Northeastern United States. Pycnogonida.
MANNING, RAYMOND B. Marine flora and fauna of the Northeastern United States. Crustacea: Stomatopoda.
WILLIAMS, AUSTIN B. Marine flora and fauna of the Northeastern United States. Crustacea: Decapoda.

50

* U.S. GOVERNMENT PRINTING OFFICE: 1974-796-122/3 REGION 10

370. Collecting and processing data on fish eggs and larvae in the California Current
region. By David Kramer, Mary J. Kalin, Elizabeth G. Stevens, James R. Thrailkill, and
James R. Zweifel. November 1972, iv + 38 pp., 38 figs., 2 tables. For sale by the
Superintendent of Documents, U.S. Government Printing Office, Washington, D.C.
20402.

371. Ocean fishery management: Discussions and research. By Adam A. Sokoloski
(editor). (17 papers, 24 authors.) April 1973, vi + 173 pp., 38 figs., 32 tables, 7 appendix
tables.

372. Fishery publications, calendar year 1971: Lists and indexes. By Thomas A. Manar.
October 1972, iv + 24 pp., 1 fig. For sale by the Superintendent of Documents, U.S.
Government Printing Office, Washington, D.C. 20402.

374. Marine flora and fauna of the northeastern United States. Annelida: Oligochaeta.
By David G. Cook and Ralph O. Brinkhurst. May 1973, iii + 23 pp., 82 figs. For sale by the
Superintendent of Documents, U.S. Government Printing Office, Washington, D.C.
20402.

375. New Polychaeta from Beaufort, with a key to all species recorded from North
Carolina. By John H. Day. July 1973, xiii + 140 pp., 18 figs., 1 table. For sale by the
Superintendent of Documents, U.S. Government Printing Office, Washington, D.C.
20402.

376. Bottom-water temperatures on the continental shelf, Nova Scotia to New Jersey.
By John B. Colton, Jr. and Ruth R. Stoddard. June 1973, iii + 55 pp., 15 figs., 12 appendix
tables. For sale by the Superintendent of Documents, U.S. Government Printing Office,
Washington, D.C. 20402.

379. Fishery publications, calendar year 1969: Lists and indexes. By Lee C. Thorson and
Mary Ellen Engett. April 1973, iv + 31 pp., 1 fig. For sale by the Superintendent of
Documents, U.S. Government Printing Office, Washington, D.C. 20402.

380. Fishery publications, calendar year 1968: Lists and indexes. By Mary Ellen Engett
and Lee C. Thorson. May 1973, iv + 24 pp., 1 fig. For sale by the Superintendent of
Documents, U.S. Government Printing Office, Washington, D.C. 20402.

381. Fishery publications, calendar year 1967: Lists and indexes. By Lee C. Thorson and
Mary Ellen Engett. July 1973, iv + 22 pp., 1 fig. For sale by the Superintendent of
Documents, U.S. Government Printing Office. Washington, D.C. 20402.

382. Fishery publications, calendar year 1966: Lists and indexes. By Mary Ellen Engett
and Lee C. Thorson. July 1973, iv + 19 pp., 1 fig. For sale by the Superintendent of
Documents, U.S. Government Printing Office, Washington, D.C. 20402.

383. Fishery publications, calendar year 1965: Lists and indexes. By Lee C. Thorson and
Mary Ellen Engett. July 1973, iv + 12 pp., 1 fig. For sale by the Superintendent of
Documents, U.S. Government Printing Office, Washington, D.C. 20402.

384. Marine flora and fauna of the northeastern United States. Higher plants of the
marine fringe. By Edwin T. Moul. September 1973, iii + 60 pp., 109 figs. For sale by the
Superintendent of Documents, U.S. Government Printing Office, Washington, D.C.
20402.

385. Fishery publications, calendar year 1972: Lists and indexes. By Lee C. Thorson and
Mary Ellen Engett. November 1973, iv + 23 pp., 1 fig. For sale by the Superintendent of
Documents, U.S. Government Printing Office, Washington, D.C. 20402.

377. Fishery publications, calendar year 1970: Lists and indexes. By Mary Ellen Engett
and Lee C. Thorson. December 1972, iv + 34 pp., 1 fig. For sale by the Superintendent of
Documents, U.S. Government Printing Office, Washington, D.C. 20402.

386. Marine flora and fauna of the northeastern United States. Pycnogonida. By
Lawrence R. McCloskey. September 1973, iii + 12 pp., 1 fig. For sale by the Superinten-
dent of Documents, U.S. Government Printing Office, Washington, D.C. 20402.

378. Marine flora and fauna of the northeastern United States. Protozoa: Ciliophora. By
Arthur C. Borror. September 1973, iii + 62 pp., 5 figs. For sale by the Superintendent of
Documents, U.S. Government Printing Office, Washington, D.C. 20402.

387. Marine flora and fauna of the northeastern United States. Crustacea: Stomatopoda.
By Raymond B. Manning. February 1974, iii + 6 pp., 10 figs. For sale by the Superinten-
dent of Documents, U.S. Government Printing Office, Washington, D.C. 20402.

UNITED STATES /-

DEPARTMENT OF COMMERCE PENN STATE UNIVERSITY LIBRARIES

FOURTH CLASS - I1IIIIII

AD0DD?EDlfl7i2

NATIONAL OCEANIC AND ATMOSPHERIC ADMINISTRATION

NATIONAL MARINE FISHERIES SERVICE

SCIENTIFIC PUBLICATIONS STAFF

ROOM 450

1 107 N E 45TH ST

SEATTLE, WA 98)05

OFFICIAL BUSINESS