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!s FIELDIANA • GEOLOGY

Published by
CHICAGO NATURAL HISTORY MUSEUM

Volume 14 April 26, 1961 No. 5

Eurypterids of the Devonian Holland Quarry
Shale of Ohio

Erik N. Kjellesvig-Waering

Research Associate, Department op Geology

In contrast to the Silurian, the North American Devonian de-
posits have not yielded a rich fauna of eurypterids, although the list
of known species is continuously growing. The occurrence of euryp-
terids in the Holland Quarry shale, a lens locally underlying the Syl-
vania sandstone at the base of the Devonian in Lucas County, Ohio
(see Carman, 1960), adds materially to our relatively meager knowl-
edge of Devonian forms in North America.

The eurypterids in this Lower Devonian deposit are preserved
as patches of integument up to four inches in diameter, although
most patches cover no more than one or two inches. The preserva-
tion of these fragments is excellent, and permits study of minute
details in structure and ornamentation. The eurypterids are inti-
mately associated with numerous fishes and land plants in a dark
gray to black bituminous shale with numerous single grains of coarse,
round, frosted quartz sand, and clusters of these sand grains in pock-
ets, along with small light-gray mud pellets (phosphatic?), some sul-
phur specks, selenite crystals, pyrite and coaly or carbonized streaks
which probably represent mineralized plants. The fishes included
are pteraspids, cyathaspids and arthrodires (see Denison, 1960). The
pterygotids are by far the most common eurypterids present.

It is of interest to note again the intimate association of primitive
fishes with eurypterids. In this bed, the pointed teeth of the large
pterygotid chelicerae are very worn. The ends are rounded and all
traces of the longitudinal ridges are worn off from the distal ends of
the teeth.

It might be well to speculate on the prey on which these chelicerae
were abraded. Besides the common fishes and eurypterids, no ani-

Library of Congress Catalog Card Number: 61-12397
No. 916 79

r^cm /V^V I IRPAf^y

80 FIELDIANA: GEOLOGY, VOLUME 14

mal remains are present. It is difficult to explain the intimate asso-
ciation of fishes and eurypterids not only in this black shale but also
throughout the Silurian and Devonian sections other than by the
conclusion that one served as prey for the other. In the Ohio De-
vonian, the pterygoids surpassed five feet in length (from the ante-
rior of the carapace to the end of the telson) and were armed with
stout and formidable chelicerae which, with their strong teeth, served
as excellent grasping organs. Also, the pterygotids were active swim-
mers, as suggested by the flattened body and great telsonic flipper.
In contrast to these active swimmers, the associated eurypterids,
namely, Dolichopterus asperatus and Syntomopterus richardsoni, had
simple, small chelicerae not serviceable as weapons of either defense
or predation; both were probably benthonic forms, crawling on the
mud but perhaps capable of swimming to a limited extent. These
could well have been prey to the fishes and, indeed, to the large ptery-
gotids. However, in this shale the fishes are the only animals with a
covering rigid and hard enough to abrade the tough pincer-teeth of
the pterygotids.

The numerous and persistent instances of the intimate association
of pterygotids with primitive fishes throughout Silurian and Devo-
nian time, as well as the presence of the greatly abraded teeth in the
pterygotids herein described, point to the tentative conclusion that
the fishes were a source of food to the great pterygotids.

The four forms from the Ohio Lower Devonian are different from
any of the described North American species. In particular, there
is no basis for comparison with the eurypterids of the Lower Devo-
nian Beartooth Butte (listed above as "Wyoming"), as each species
is quite different. The same is true of a comparison with the Lower
Devonian of the Rhineland, Germany (St0rmer, 1936). The Ohio
Lower Devonian eurypterid fauna retains such Silurian elements as
Erettopterus and Dolichopterus, two genera previously unknown above
the Silurian. Pterygotus (Pterygotus) carmani likewise shows closer
relationship to Silurian than to Devonian forms. The Downtonian
eurypterids of the Welsh borderland seem to bear closest resem-
blance to the Ohio forms. The Downtonian is considered Devonian
by some authors, although it has been recognized for many decades
as a transition zone between Silurian and Devonian. Our knowledge
of Devonian and even Downtonian eurypterids is still far from com-
plete, and correlations on the basis of these fossils are not desirable
at the present time. Undoubtedly, the highly specialized eurypterids
will constitute good index fossils when more is known of their occur-

So,
T

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KJELLESVIG-WAERING: DEVONIAN EURYPTERIDS

81

rences. They do so in parts of the Upper Silurian of New York,

where the various specific ranges are well known.

The list of North American eurypterids of the Devonian is as

follows:

Adelophthalmus approximatus (Hall and
Clarke)

Ctenopterus (?) lacoana (Claypole)

Dolichoptertis asperatui^, n. sp.

Dorfopterus angusticollis Kjellesvig-
Waering

Erieopterus latus (Ruedemann)

Grossopterus inexpectans (Ruedemann)

Pterygotus (Erettopterns) serratus n. sp.

Pterygotus (Pterygotus) atlanticus Clarke
and Ruedemann

Pterygotus (Pterygotus) carmani n. sp.

Pterygotus (Pterygotus) elleri Ruedemann

Pterygotus (Pterygotus) gaspensis Russell

Pterygotus (Pterygotus) howelli Kjellesvig-
Waering and St0rmer

Pterygotus (Pterygotus) montanensis
Ruedemann

Rhenopterus (?) maccarthyi (Kjellesvig-
Waering)

Strobilopterus princetonii (Ruedemann)

Stylonurus arnoldi (Ehlers)

Stylonurus beecheri (Hall)

Stylonurus (?) wrightianus (Dawson)

Syntomopterus richardsoni, n. sp.

The ecological conditions are discussed by Dr. Denison in his
paper on fishes (1960, p. 610) and will not be repeated here.

Upper Devonian?
Upper Devonian

Lower Devonian

Pennsylvania
Pennsylvania,
New York

Ohio

Lower Devonian
Lower Devonian
Middle Devonian
Lower Devonian

Wyoming
Wyoming
New York
Ohio

Middle Devonian
Lower Devonian
Upper Devonian
Middle Devonian

New Brunswick
Ohio

New York
Quebec

Lower Devonian

Wyoming

Upper Devonian

Montana

Middle Devonian
Lower Devonian
Upper Devonian
Upper Devonian
Upper Devonian
Lower Devonian

New York

Wyoming

Pennsylvania

Pennsylvania

New York

Ohio

Class Merostomata Dana, 1852

Subclass Eurypterida Burmeister, 1843

Superfamily Eurypteracea Burmeister, 1845

Family Pterygotidae Clarke and Ruedemann, 1912

Genus Pterygotus Agassiz, 1839

Pterygotus (Pterygotus) carmani, new species
Figures 35-42

This large eurypterid is the most common element of the Lower
Devonian eurypterid fauna of Lucas County. Most of the patches

82 FIELDIANA: GEOLOGY, VOLUME 14

of integument retaining typical Pterygotus ornamentation probably
belong to this species, although part may be referable to the rarer
Pterygotus (Erettopterus) serratus (see p. 87). The species is based on
three incomplete chelicerae, the gnathobases of two coxae, a meta-
stoma, and a pretelson. Fragments described herein indicate a form
that reached an overall length of body, exclusive of the long chelice-
rae, of more than five feet, a size not unusually large for the genus.

The holotype (PE5105) comprises fragments of an articulated
chelicera retaining the proximal part of both rami (see fig. 35). Two
of the specimens designated as paratypes (PE5106 and PE5107) re-
tain the base and ramus of the chelicera, as well as parts of the fixed
and free rami (see figs. 36 and 37). A reconstruction of an almost
complete chelicera is therefore possible (see fig. 38).

The hand of the chelicera comprises a rather slender, rectangular
structure, without any trace of ornamentation. The rami are slender,
and the free ramus is slightly more curved. The distal ends are miss-
ing in our specimens. On the inner edge of the rami are a number of
teeth, all of which are curved backward and are stout and unusually
short. Part of this general stoutness of the teeth is due to conspic-
uous wearing, as the distal part of each tooth has been rounded off
as if by an abrasive. However, part of the general stout aspect is
inherent. The majority of the teeth are small, with several large,
thick teeth interspersed. The central, or principal, tooth of the free
ramus (no. 1 in figs. 35-38) is the largest, and is represented by a
curved, thick structure. Nearly opposite this tooth is a similar but
smaller tooth (no. 3). In front of this tooth is another one, half
as large (no. 4). This combination is present on all chelicerae of
this species.

Each tooth is longitudinally marked by narrow ridges, which
generally are described in the literature as striations, anastomosing
furrows, or fine longitudinal furrows. In reality, these structures
are longitudinal ridges strengthening the individual tooth and are
not furrows or striations. The longitudinal ridges are worn off at
the distal end of most teeth in the present specimens.

The hand of specimen PE5107 measures 18.5 mm. at midsection;
the large tooth (no. 3) is 3 mm. long by 2.2 mm. wide; the ramus,
opposite the no. 3 tooth, is 6.3 mm. wide. In the holotype (PE5105)
the free ramus opposite the no. 1 tooth is 14.5 mm. in diameter, and
the principal tooth, which has been broken out, measures 9.1 mm. in
length and 6.3 mm. at the base. Paratype no. PE5106 is approxi-
mately the same size as paratype PE5107.

KJELLESVIG-WAERING: DEVONIAN EURYPTERIDS

83

Fig. 35. Holotype of Pterygotus (Pte- Fig. 36. Paratype of Pterygotus (Pte-

rygotus) carmani, n. sp., PE5105. Part rygotus) carmani, n. sp., PE5106. Part
of a chelicera; natural size. of a chelicera; X 2.

Fig. 37. Paratype of Pterygotus (Pterygotus) carmani, n. sp., PE5107.
fixed ramus of a chelicera; X 2.

The

Fig. 38. Composite of known parts of chelicera of Pterygotus (Pterygotus)
carmani, n. sp.; natural size.

The gnathobase of the coxa of the swimming legs (figs. 39, 40)
comprises a row of triangular, curved teeth, progressively smaller
from anterior to posterior. A complete gnathobase (fig. 40) reveals
that the anterior tooth is largest, and that 13 teeth are present.
Another, but larger, gnathobase (fig. 39) is incomplete and lacks the
anterior two teeth. The width of the gnathobase illustrated (fig. 40;
specimen PE5109) is 20.3 mm.; the first tooth is 3.5 mm. in length

UNtVtKSITY OF ILLINOIS
LIBRAfiV.

84

FIELDIANA: GEOLOGY, VOLUME 14

Fig. 40. Gnathobase of coxa of swim-
ming leg of Pterygotus (Pterygotus) car-
mani, n. sp., paratype, PE5109. Shad-
ing indicates preserved patches of test.
Ruled line, one centimeter.

Fig. 39. Pterygotus (Pterygotus) car-
mani, n. sp., paratype, PE5110; X 3.5.
Part of gnathobase of coxa of swimming
leg. Ruled line, one centimeter.

and 2.7 mm. in width. The incomplete structure in figure 39 (speci-
men PE5110) is 21.5 mm, in width.

The gnathobase of the coxa of one of the walking legs (PE5113)
measures 17 mm. in width; it bears at least 18 teeth, of which the
second tooth is the largest and measures 5.5 mm. in length. The teeth
are slender and pointed and become exceedingly slender in the pos-
terior part of the gnathobase.

The metastoma is represented by a single specimen (PE5112 a
and b) in which the posterior third is missing. It is an ovoid-cordate
plate, deeply indented on the anterior margin and reaching its great-
est width slightly anterior to the midsection. It is covered with large
scales, more prominently developed on the anterior part. The meta-
stoma is 41.0 mm. in greatest width with an estimated length of
55.0 mm. (see fig. 41).

The mesosoma is undoubtedly represented by many of the frag-
ments found throughout the black shale but these cannot be deter-
mined as belonging certainly to P. carmani. Another pterygotid,
P. (Erettopterus) serratus, which has similar ornamentation, is asso-

Fig. 41. Metastoma of
Pterygotus (Pterygotus)
carmani, n. sp., paratype,
PE5112; X 1.4.

Fig. 41, a. Pterygotus (Pterygotus) carmani, n. sp., paratype, PE5118 a, part
of a pretelson; X 1.25.

85

86

FIELDIANA: GEOLOGY, VOLUME 14

ciated. The last two tergites of the metasoma, however, can be de-
scribed. The twelfth tergite, or pretelson (fig. 41, a), reveals through
the midsection an elevated ridge that becomes more prominent pos-

FiG. 42. Dorsal side
of eleventh tergite of
Pterygotus (Pterygotus)
carmani, n. sp., para-
type, PE5119; X 2.2.

teriorly. In the anterior part, this ridge comprises three to four elon-
gated scales which grade into a simple, greatly thickened, elongated
scale which occupies the entire ridge at the posterior part of the pre-
telson. The scales on the lateral parts of the pretelson are densely
packed, large, semilunar or concentric in outline on the anterior part
of the tergite, grading into more scattered and more sharply pointed
scales. On the sides of the central ridge and at the base of the tergite
the scales become more elongated. The pretelson is 58.0 mm. long.
The preceding tergite, likewise, has a ridge of large scales on its pos-
terior part (see fig. 42) . The largest scale is 4.5 mm. long and 5.0 mm.
wide. The telson is unknown.

Remarks. — Pterygotus (Pterygotus) carmani differs greatly from
other species of the genus. From the New York Silurian Pterygotus
(Pterygotus) cobbi Hall, and Pterygotus (Pterygotus) juvenis Clarke
and Ruedemann and from the Bohemian Pterygotus (Pterygotus) bar-
randei (Semper) it differs in the much stouter and less well-developed

KJELLESVIG-WAERING: DEVONIAN EURYPTERIDS 87

cheliceral teeth, and in a considerably different arrangement of these
teeth. From the New York Devonian P. (Pterygotus) elleri Ruede-
mann and the Montana Devonian P. (Pterygotus) montanensis
Ruedemann, the stout, short teeth of P. (Pterygotus) carmani are
sufficient to distinguish the Ohio form.

The species has been named in honor of Dr. J. Ernest Carman,
Ohio State University, who discovered the fish-eurypterid fauna of
the Holland Quarry shale.

The holotype (PE5105) and paratypes (PE5106-PE5112, PE5118
and PE5119) are in the collections of Chicago Natural History
Museum.

Pterygotus (Erettopterus) serratus, new species
Figure 43

The species is based on a single well-preserved, complete, free
ramus of the chelicera. Inward bowing at the distal end indicates
that it is the free ramus of the left chelicera. The specimen is broken
through the midsection into two parts. Figure 43 is a composite of
both parts (X 4).

The ramus is a short, stout structure tapering into a curved distal
end. The inner margin, armed with teeth, is inclined with respect to
the almost straight outer margin, resulting in an overall tapering
form. The teeth are short and stout, in keeping with the overall
robust aspect of the stem. These teeth are mostly of fairly uniform
size, mainly lanceolate to rhomboidal, but some are truncated, giving
a nearly quadrate appearance. The two distal teeth are badly worn
but apparently were the largest. Wear is also apparent on the suc-
ceeding three teeth. No longitudinal ridges ("striations") occur on
any of the teeth. The distal end is slightly curved inward; that is,
in normal position the end would be curved inward toward the oral
opening. The free ramus is estimated to have been 27.5 mm. long
on the base and is 5 mm. wide at midsection.

Remarks. — The subgenus Pterygotus (Erettopterus) is poorly repre-
sented in North America but is well known in Scotland, England, and
Saaremaa (Oesel) . The form above described is the first record of the
subgenus in the Devonian of North America. P. (Erettopterus) ser-
ratus differs greatly from the common P. (Erettopterus) bilohu^ (Sal-
ter) of the upper Silurian of Scotland in having the chela much thicker
and in having short, stout teeth in contrast to the slender, curved
teeth of the latter. From P. (Erettopterus) osiliensis Schmidt, the

88 FIELDIANA: GEOLOGY, VOLUME 14

common Oesel form, it differs in the much stouter chela as well as
the more prominently developed teeth. It may be easily distin-
guished from the associated P. (Pterygotus) carmani in the alto-
gether different type of chela, as well as in the lack of prominent
ridges ("striations") on the teeth. The latter characteristic serves
to distinguish both forms even in small fragments of the teeth.

.arO ,^

y _ / X. Fig. 43. Holotype of Pterygotus

■^AAV,//iA(W)i ''■^^ y (Erettopterus) serratus, n. sp., PE5104.
[YXil^'* y Free ramus of chelicera; X 4.

The holotype (PE5104 a and b) is in the collections of Chicago
Natural History Museum.

Superfamily Stylonuracea Diener, 1924

Family Dolichopteridae Kjellesvig-Waering and St0rmer, 1952

Genus Dolichopterus Hall, 1859

Dolichopterus asperatus, new species
Figures 44-47

This interesting species is based on a partial prosoma and three
paddles of the swimming legs which indicate a form unlike any of
the described dolichopterids. One of the paddles (PE5114) has been
selected as the holotype.

The prosoma is represented by one specimen (PE5117) indicating
an individual approximately 70 cm. in length. The specimen retains
only the left side of the prosoma, with a faint outline of part of the
left lateral eye, and without trace of the ocelli; figure 44 illustrates
the parts known. The prosoma is rounded along the outer lateral
angles and along the anterior margin. Anteriorly the lateral mar-
gins converge slightly. The margins are bounded by a narrow but
pronounced ornamented rim which gives this form a distinctive ap-
pearance. This marginal rim is composed of a single row of fiat,
oblong, elevated structures (see fig. 44, a) ; it is narrow at the genal
angles and is not developed on the posterior edge. Apart from this
ornamented rim, the prosoma is smooth.

The compound eyes are not preserved except for the barely per-
ceptible anterior margin of the left eye and a slight elevation that

Fig. 44. Restoration of prosoma of Dolichoptertis asperatus, n. sp., based on
a paratype, PE5117; natural size.

Fig, 45. Holotype of Dolichopterus asperatus, n. sp., PE5114, Paddle of
swimming leg. Shading indicates preserved patches of test. Ruled line, one
centimeter.

89

90 FIELDIANA: GEOLOGY, VOLUME 14

may represent the eye node. The node is probably arcuate, and the
palpebral lobe covers most of the eye.

The prosoma measures 69 mm. in length, 79 mm. in width behind
the compound eyes, and 99 mm. in width along the base. The com-
pound eye node is 28.0 mm. long and possibly 10 mm. wide. It is
6.5 mm. from the anterior margin, 9.0 mm. from the lateral margin,
and 50.0 mm. from the base of the prosoma. The preceding measure-
ments are estimated. The marginal rim measures 0.8 mm. in width.
The doublure along the base of the prosoma is 5.1 mm. wide.

A fragment of the ventral shield, or doublure, of the prosoma is
present on the anterior part of the specimen. The part preserved is
not sufficient to warrant description except to note that ornamenta-
tion is present. This consists of flat, slightly curved to linear scales
parallel to the rim, with their crests pointing toward the marginal rim.

The fact that the scales point to the marginal rim indicates the
independence of the ventral plates and the dorsal shield. This con-
dition is better emphasized by Syntomopterus richardsoni. The dou-
blure is rather wide and measures 21 mm. in width in the anterior part.

The distal part of the swimming legs is well represented by three
specimens which further reveal this form as a distinct species. The
holotype (PE5114) and two paratypes (PE5115 and PE5116) retain
the seventh and eighth joints. These joints (together) form a semi-
elliptical structure with numerous serrations, particularly on the last
joint. Supplementary lobes are present, but their outline is impos-
sible to detect. On specimen PE5116 a supplementary joint line
occurs along the posterior distal part, and serrations were superim-
posed along the extreme end and also on the anterior part of the joint
(see fig. 47), indicating supplementary lobes. The distinctive feature
of the species is, however, the small but conspicuous row of spine-like
projections that border the joints. These serrations vary in size with-
in the species. The holotype measures 12 mm. in width at the seventh
joint and 11.1 mm. at the eighth. The greatest width of specimen
PE5115 is 11.8 mm.

Remarks. — This is the first reported occurrence of the genus in
Devonian beds. It differs from all Silurian dolichopterids in the
presence of the chain-like marginal rim of the prosoma, and particu-
larly in the fine serrations that border the swimming leg paddles.
It is a distinctive and easily recognizable species.

The holotype (PE5114) and paratypes (PE5115-PE5117) are in
the collections of Chicago Natural History Museum.

KJELLESVIG-WAERING: DEVONIAN EURYPTERIDS 91

^•- •:;•■:>;..

Fig. 46. Paddle of swimming leg of Dolichopterus asperatus, n. sp., paratype,
PE5115. Shading indicates preserved patches of test. Ruled line, one centimeter.

Fig. 47. Distal end of
paddle of swimming leg of
Dolichopterus asperatus, n.
sp., paratype, PE5116.
Shading indicates preserved
patches of test. Ruled line,
one centimeter.

Family Stylonuridae Diener, 1924
Genus Syntomopterus, new genus

The prosoma is paraboloidal, very wide, straight along the base,
and bordered with a wide marginal rim. The ventral shield is very
narrow and band-like, and without sutures. The compound eyes,
located slightly behind midsection, are crescentic, small, and close-
set. The ocellar mound is located opposite the anterior part of the
compound eyes. Ornamentation comprises large wart-like pustules,
elongated and pointed at the margins.

Type species: Syntomopterus richardsoni, new species.

Remarks. — Syntomopterus differs greatly from other genera of the
Stylonuridae. In some respects, particularly in the form of the ceph-

92 FIELDIANA: GEOLOGY, VOLUME 14

alothorax and the nearly centrally located eyes, Syntomopterus re-
sembles some of the species included under Erieopterus in the family
Eurypteridae. However, the arcuate eyes, with the wide palpebral
lobe, located behind the middle of the cephalothorax, as well as the
anterior position of the ocellar mound, the flat, wide marginal rim,
the narrow, unjointed ventral shield and the pattern of the ornamen-
tation, which is much like that of Stylonurus megalops (Salter), pre-
cludes its inclusion in that family and aligns it in the family Stylo-
nuridae.

The wide, paraboloidal cephalothorax is in marked contrast to
other Stylonuridae. However, the cephalothorax of Stylonurus myops
Clarke, of the Silurian Shawangunk sandstone of New York, reveals
similar widening, although the form is different from that of Synto-
mopterus. The New York Silurian Erieopterus pustulosus (Hall) has
much in common with this form. In all references (Hall, 1859, p. 413;
Pohlman, 1882, p. 41; and Clarke and Ruedemann, 1912, p. 201) the
authors have described and figured the compound eyes as being the
Eurypterus type of reniform eyes and not the arcuate type found in
Syntomopterus. It is possible that the palpebral lobe has been broken
out in the specimens described, though there is no reason to believe
that those authors would not have noted that easily recognizable con-
dition. The eyes of E. pustulosus are placed in front of midsection,
whereas those of Syntomopterus are behind. The ornamentation of
E. pustulosus is in some respects strikingly like that of Syntomop-
terus although it differs greatly in the presence of pointed scales; it
also lacks the wide, flat, marginal rim of the latter — an important
difference.

I recently studied the types of the British Downtonian Stylonurus
megalops (Salter), and it was mainly on that basis that I arrived at
the conclusion that the Ohio form was probably a stylonurid. The
compound eyes are somewhat similar in having the wide palpebral
lobes, but, above that, the ornamentation on the cephalothorax and
on the wide marginal rim is of the same type, although not as pro-
nounced or as densely distributed as in Syntomopterus richardsoni.
The similarity, however, ends with the ornamentation, as the form
of the cephalothorax and the position of the eyes are entirely dif-
ferent.

Few eurypterid genera have the compound eyes situated on the
posterior half of the cephalothorax. Some that have are the Aus-
tralian Silurian Melbournopterus and the Scottish Devonian Tarso-
pterella, both of which are included in the Stylonuridae.

KJELLESVIG-WAERING: DEVONIAN EURYPTERIDS

93

Syntomopterus richardsoni, new species
Figures 48-53

This unusual species is based on the holotype (PE5120) and three
paratypes (PE5121, PE5122, PE5123) which together retain all de-
tails of the prosoma, the doublure, and fragments of the tergites.
It is a pleasure to name this unique species in honor of Dr. Eugene S.
Richardson, Jr., Curator of Fossil Invertebrates at Chicago Natural

0-0

Fig. 48. Part of prosoma and left
compound eye of Syntomopterus rich-
ardsoni, n. sp., paratype, PE5121; X 4.

Fig. 49. Compound eye of Syntomopterus richardsoni, n. sp.,
paratype, PE5121; X 8.

History Museum, who has contributed considerably to my study of
the Eurypterida.

The prosoma is very wide, forming an almost perfect parabola,
and is straight along the base. The lateral eyes are small and cres-
centic, and are covered by a conspicuous palpebral lobe; they are
located slightly behind the center of the carapace and closer to each
other than to the lateral margins (see figs. 48-50, 52) . The ocelli are
probably very small, as they were not detected. The ocellar mound,
upon which the ocelli would be situated, was, however, preserved,
and this occupies a nearly central position on the carapace, midway
between and anterior to the center line of the compound eyes. A
wide, prominent, flat marginal rim surrounds the carapace, becoming
narrower toward the genal angles (see figs. 50, 51).

The ornamentation is highly distinctive and can be recognized
even in small fragments in the black shale (see figs. 48, 50, 52). On
the prosoma the central and posterior-central parts consist of scat-

94

FIELDIANA: GEOLOGY, VOLUME 14

Fig. 50. Reconstruction of prosoma of Syntomopterus richardsoni, n. sp.,
drawn mainly from holotype, PE5120; X 2. A: Ventral side of marginal rim of
doublure. The large elongated pustules are on the dorsal shield, seen from the
inside. B, C : Dorsal side of marginal rim.

Fig. 51. Diagram of prosoma of Syntomopterus richardsoni, n. sp., to show
general direction of axis of elongated pustules, forming flow of ornament pattern.
Prosoma restored to approximate natural dimensions.

tered wart-like, round pustules of various sizes. Anteriorly, toward
the marginal rim, these pustules are slightly elongated, and around
the marginal rim they become more elongated, or elliptical (see
fig. 50, A), grading into pointed, elongated scales in the region of the
genal angles. This results in a "flow-like" pattern from a point an-
terior to the lateral eyes, around both sides of the prosoma to the
genal angles (see fig. 51), a pattern which is characteristic of many
Stylonuridae such as Ctenopterus, Melhournopterus, Stylonurus, and
Tarsopterella, and which accentuates the double "pouch-like" struc-
tures of the prosoma in these genera.

The ornamentation of the marginal rim, however, contrasts greatly
with that present on the rest of the carapace. Here the pattern is

KJELLESVIG-WAERING: DEVONIAN EURYPTERIDS 95

totally different, consisting of small crescentic scales which point an-
teriorly at the anterior part of the rim, but become orientated poste-
riorly to follow the rim around the carapace until they grade into
pointed scales at the genal angles (see fig. 50, B, C) . The ornamenta-
tion of the palpebral lobe comprises much smaller pustules than are
found on the rest of the carapace (see figs. 48-50) .

The ventral shield is a flattened, narrow and unjointed band,
rounded at the periphery and with ornamentation quite unlike that

^^w^^:.

Fig. 52. Fragment of left side of prosoma of
Syntomopterus richardsoni, n. sp.,paratype, PE5121;
X 4. The dark area is the palpebral lobe, which is
covered with smaller pustules than the rest of the
prosoma.

of the dorsal marginal rim. At the inside of the rim this comprises
closely packed semilunar scales, which grade into thicker and less
well-defined, scattered scales toward the margin. At a given posi-
tion on the margin the scales on the ventral rim point outward,
whereas those of the dorsal rim point toward the rear of the pro-
soma (see fig. 50, A, B, C). This condition accentuates the independ-
ence of the two rims and indicates that the dorsal rim of the prosoma
and ventral shield apparently are separate and distinct structures
meeting at a suture (not seen) on the periphery. This suture is sug-
gested by the totally different ornamentation. No sutures were
noted dividing the ventral shield into plates.

The holotype consists of two counterparts and is a nearly com-
plete prosoma, lacking only a small area of the left genal angle.
Measurements could be made, therefore, with considerable accu-
racy.

96

FIELDIANA: GEOLOGY, VOLUME 14

Fig. 53. Ornamentation on posterior part of prosoma of Syntomopterus rich-
ardsoni, n. sp., holotype, PE5120; X 2.5. A portion of front margin may be seen
at upper left of specimen.

Measurements

Holotype mm.

Prosoma length 30.3

Prosoma width behind eyes 53.0

Prosoma width at base 58.0

Compound eyes located on prosoma:

From anterior margin 14.5

From posterior margin 11.3

From lateral margin 17.5

Distance between eyes 10.5

Length of eye 3.5

Width of visual area 1.0

Width of palpebral lobe 2.0

Width of rim at anterior of carapace 1.2

Paratype PE5121 (figs. 48, 49, 52)

Length of compound eye 3.5

Distance from eye to posterior margin 15.6

Two paratypes (PE5122 and PE5123) retain parts of some of the
tergites, probably from the metasoma. These have the same pustular
ornamentation that occurs on the prosoma. On the posterior edge

KJELLESVIG-WAERING: DEVONIAN EURYPTERIDS 97

of each tergite, however, is a single fringe of large, crescentic, flat
scales. One of the tergites measures 10.5 mm. in incomplete length.

Remarks. — This species differs greatly from all other associated
forms, and can easily be distinguished from them by the distinctive
ornamentation, which enables identification from small fragments.
The very wide prosoma, having a length-width ratio of 5.2:10, is un-
usual for the Stylonuridae but recalls forms such as Erieopterus latus
(Ruedemann), E. pustulosus (Hall), and E. brewsteri Woodward, of
the family Eurypteridae. The diagnostic crescentic eye is, however,
a structure not present in any of these. Comparison with other
forms is superfluous on a species basis as the distinctive character-
istics described above will separate this form from all other euryp-
terids.

The holotype (PE5120 a and b) and paratypes (PE5121, PE5122
and PE5123) are in the collections of Chicago Natural History
Museum.

The lens of dark bituminous Holland Quarry shale in Lucas
County, Ohio, was discovered by Dr. J. Ernest Carman of Ohio
State University, who kindly donated his collections to Chicago
Natural History Museum. I wish to thank Dr. Robert H. Denison
and Dr. Eugene S. Richardson, Jr., for the opportunity of studying
the eurypterids.

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98 FIELDIANA: GEOLOGY, VOLUME 14

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