3. Systematic Palaeontology
Class Ophiuroidea Gray, 1840
Subclass Myophiuroida Matsumoto, 1915
Infraclass Metophiurida Matsumoto, 1913
Superorder Euryophiurida O’Hara, Hugall, Thuy, Stöhr & Martynov, 2017
Order Ophiurida Müller & Troschel, 1840 sensu O’Hara et al., 2017
Suborder Ophiurina Müller & Troschel, 1840 sensu O’Hara et al., 2017
Family Ophiuridae Müller & Troschel, 1840
Genus Ophiura Lamarck, 1801
Diagnosis (emended and specifically focusing on lateral arm plate morphology): lateral arm plates of rectangular to rounded rectangular outline, with a deep, well-defined, distalwards-pointing tentacle notch in the middle of the distal edge or slightly more ventrally, resulting in nearly equal-sized dorsal and ventral portions of the lateral arm plate; outer surface with a fine tuberculation sometimes merged into a fine vertical striation; outer distal edge often with one or two small, pointed, poorly defined spurs; generally three arm spine articulations on the same level as the outer surface stereom, with the muscle opening proximally bordered by a thin, rugose, vertical ridge; and inner side of lateral arm plate with a thin C-shaped vertebral articular ridge, often with the ventral and dorsal tips enlarged.
urn:lsid:zoobank.org:act:5E4A429C-160F-489D-BCEB-70D7E3BF5BDE
Figure 3.
Ophiura tankardi sp. nov. from the Rupelian, Oligocene (Rosenheim Subformation, Bodenheim Formation, nannoplankton zone NP 24 and to dinoflagellate zones D 14/D 15) of a flush drill made at Nierstein, Rhineland-Palatinate, Germany. Holotype (NHMMZ PWL 2022/5560.1-LS), dissociated proximal lateral arm plate in external (A) and internal (B) views; paratype (NHMMZ PWL 2022/5560.2-LS), dissociated median lateral arm plate in external (C) and internal (D) views; paratype (NHMMZ PWL 2022/5560.3-LS), dissociated distal lateral arm plate in external (E) and internal (F) views; paratype (NHMMZ PWL 2022/5560.4-LS), dissociated proximal vertebra in lateral (G), ventral (H) and distal (I) views; paratype (NHMMZ PWL 2022/5560.5-LS), dissociated proximal dorsal arm plate (J) in external view; paratype (NHMMZ PWL 2022/5560.6-LS), dissociated oral plate in adradial (K) and adradial (L) views; paratype (NHMMZ PWL 2022/5560.7-LS), distal arm fragment in lateral view (M) and with detail of arm spines (N). Abbreviations: AdMA: adradial muscle attachment area; AS: arm spine; di: distal; do: dorsal; PB: podial basin; R: vertebral articular ridge; SA: spine articulation; TN: tentacle notch.
Figure 3.
Ophiura tankardi sp. nov. from the Rupelian, Oligocene (Rosenheim Subformation, Bodenheim Formation, nannoplankton zone NP 24 and to dinoflagellate zones D 14/D 15) of a flush drill made at Nierstein, Rhineland-Palatinate, Germany. Holotype (NHMMZ PWL 2022/5560.1-LS), dissociated proximal lateral arm plate in external (A) and internal (B) views; paratype (NHMMZ PWL 2022/5560.2-LS), dissociated median lateral arm plate in external (C) and internal (D) views; paratype (NHMMZ PWL 2022/5560.3-LS), dissociated distal lateral arm plate in external (E) and internal (F) views; paratype (NHMMZ PWL 2022/5560.4-LS), dissociated proximal vertebra in lateral (G), ventral (H) and distal (I) views; paratype (NHMMZ PWL 2022/5560.5-LS), dissociated proximal dorsal arm plate (J) in external view; paratype (NHMMZ PWL 2022/5560.6-LS), dissociated oral plate in adradial (K) and adradial (L) views; paratype (NHMMZ PWL 2022/5560.7-LS), distal arm fragment in lateral view (M) and with detail of arm spines (N). Abbreviations: AdMA: adradial muscle attachment area; AS: arm spine; di: distal; do: dorsal; PB: podial basin; R: vertebral articular ridge; SA: spine articulation; TN: tentacle notch.
![Taxonomy 02 00015 g003]()
Holotype: NHMMZ PWL 2022/5560.1-LS.
Paratypes: NHMMZ PWL 2022/5560.2-LS—NHMMZ PWL 2022/5560.7-LS
Other material: 23 dissociated ossicles (not registered).
Type horizon and locality: Rosenheim Subformation, Bodenheim Formation, nannoplankton zone NP 24 and to dinoflagellate zones D 14/D 15, Rupelian, Oligocene, Cenozoic (33.9–28.1 million years before present); sample taken at 46 meters depth from flush drill made at Nierstein marketplace (WGS84 49°52′29.5” N/8°2 0′11” E), Rhineland Palatinate, Mainz Basin, Germany.
Etymology: Species named in honor of German thrash metal band Tankard, to celebrate their loyal and consistent connection to their fan base.
Diagnosis: Small species of Ophiura with fragile lateral arm plates of oblique trapezoidal outline, with a well-developed, fine vertical striation on the outer surface, three small spine articulations on the same level as the outer surface stereom, with a distalwards-pointing tentacle notch in proximal to distal arm segments, and with a vertebral articular ridge on the inner side composed of two well-defined knobs connected with a thin, poorly defined vertical ridge.
Description: Holotype specimen (NHMMZ PWL 2022/5560.1-LS), dissociated proximal lateral arm plate (
Figure 3A,B), small, fragile, approximately as high as long, of trapezoidal outline, with a straight, oblique dorsal edge, a straight, horizontal ventral edge with a ventralwards-pointing protrusion close to the ventro-proximal tip, a deeply incised distal edge, and an irregularly wavy proximal edge; outer surface with a well-developed, fine, vertical striation replaced by fine tubercles on the ventral portion of the outer surface and close to the proximal edge; narrow band of finely meshed stereom along the outer proximal edge of the lateral arm plate, devoid of spurs, but with a small, poorly defined area of horizontally striated stereom; three small spine articulations in the dorsal half of the outer distal edge, at the same level as outer surface stereom and separated from the distal edge by a wide ledge of coarsely-meshed stereom; spine articulations vertically elongate, composed of large muscle opening proximally bordered by a thin, crenulated, strongly bent ridge, and distally separated from a smaller nerve opening by a thick, smooth, lip-shaped vertical ridge; spine articulations nearly equal-sized and equidistant; and very deep, conspicuous, distalwards -pointing tentacle notch, ventrally bordered by smoother stereom. Inner side of lateral arm plate with a vertical vertebral articular ridge composed of a very thin, poorly defined central part, a large, well-defined, prominent ventral knob composed of more finely-meshed stereom, and a similar but much smaller dorsal knob; stereom on inner side coarsely meshed except for overlap area along the inner distal edge, and along the proximal edge.
Paratype supplements and variation: dissociated median lateral arm plate (NHMMZ PWL 2022/5560.2-LS) (
Figure 3C,D), longer than high, of rectangular outline, dorsal edge straight, ventral edge slightly concave and with a pointed ventralward protrusion close to the ventro-proximal tip; proximal edge lined by a narrow band of more finely-meshed stereom, with well-developed, fine horizontal striation and a very weak, poorly-defined, slightly protruding central spur; outer surface striation as in holotype; three spine articulations similar to those of holotype but smaller and in a slightly more ventral position; tentacle notch on distal edge smaller and shallower than in holotype; inner side of lateral arm plate with a single, triangular, sharply-defined vertebral articular structure composed of more finely-meshed stereom, with a poorly defined, dorsalward extension; stereom on inner side coarsely meshed except for band of more finely-meshed stereom in overlap area along the inner distal edge; and well-developed dorsal and ventral contact surfaces with opposite lateral arm plate.
Dissociated distal lateral arm plate (NHMMZ PWL 2022/5560.3-LS) (
Figure 3E,F), approximately 2.5 times longer than high, with concave dorsal and ventral edges; proximal edge lined by a very narrow band with a fine horizontal striation, and with a well-developed, prominent and protruding spur; outer surface striation as in holotype; two spine articulations on outer distal edge of lateral arm plate, similar to those of holotype but in a much more ventral position; inner side of lateral arm plate with two horizontally elongate knobs, well defined, prominent, composed of more finely meshed stereom and arranged in a horizontal line; stereom on inner side of lateral arm plate coarsely meshed, except for vertically striated dorsal and ventral edges and band of more finely meshed stereom along inner distal edge; and tentacle notch deep, sharply defined, pointing distalwards; well-developed dorsal contact surface with opposite lateral arm plate.
Dissociated vertebra (NHMMZ PWL 2022/5560.4-LS), very slender, with a deeply incised middle saddle (
Figure 3G), and with conspicuous, enlarged, fragile dorso-distal muscle fossae; small, well-defined, laterally pointing tentacle basins (
Figure 3G,H); distal articular facets with small, slender, dorsalwards converging zygocondyles and a large, lozenge-shaped zygosphene (
Figure 3I); and ventro-distal muscle fossae round and fragile.
Dissociated dorsal arm plate (NHMMZ PWL 2022/5560.5-LS) fragile, fan-shaped, with a convex distal edge, a pointed proximal edge, and a finely tuberculated outer surface (
Figure 3J).
Dissociated oral plate (NHMMZ PWL 2022/5560.6-LS) split in two halves (
Figure 3K,L), originally longer than high, devoid of lateral wings, with adradial muscle attachment area ventrally lining the adradial articulation area (
Figure 3K).
Distal arm fragment (NHMMZ PWL 2022/5560.7-LS) composed of two articulated arm segments (
Figure 3M), strongly elongate, with arm spines in place (
Figure 3N), adpressed against arm segment, short, pointed, with a rugose, irregular, longitudinal striation.
Remarks: The material described above originates from a sample taken at 46 meters depth from the Nierstein marketplace flush drill, yielding only lateral arm plates of the same species. We, therefore, assume that all the associated skeletal plates, in particular the vertebrae, dorsal arm plates, and oral plates, belong to the same species. Similarities in relative size, fragile overall morphology, outer surface ornamentation (dorsal arm plate), and lateral articular structures (vertebrae) corroborate that the lateral arm plates and all the associated skeletal parts belong to the same species. Additional material not figured in the present paper was found in samples taken at 34, 42, and 50 m depth in the flush drill.
The general outline of the lateral arm plates, in particular with respect to the relative size of the ventral portion, the outer surface ornamentation, the shape and position of the spine articulations, the shape of the vertebral articular ridges and knobs on the inner side, and the shape of the distal arm spines suggests assignment to the genus
Ophiura within the family Ophiuridae. Ishida et al. [
19] recently revised the fossil record of
Ophiura, summarizing the species once assigned to
Ophiura that have since been transferred to other genera, and revising the remaining fossil species of
Ophiura. Apart from fossil reports of extant species, e.g.,
Ophiura sarsii sarsii Lütken, 1855 from the middle Miocene to the Pleistocene of Japan [
20,
21,
22,
23,
24,
25,
26,
27,
28,
29], only the following extinct species have been retained as probably belonging to
Ophiura:
Ophiura achatae Rasmussen, 1972 from the upper Danian (lower Paleocene) Agatdal Formation of Nugssuaq (Greenland) [
30],
Ophiura wetherelli Forbes, 1852 from the Lower Eocene (Ypresian) London Clay of Highgate (London, UK) [
31],
Ophiura furiae Rasmussen, 1972 from the Lower Eocene (Ypresian) Mo-Clay Formation of the Island of Fur (Denmark) [
30],
Ophiura bognoriensis Rasmussen, 1972 from the Lower Eocene (Ypresian) Astarte Bed and Starfish Bed (Lower Clay) of Bognor Regis (Sussex, England) [
30],
Ophiura hendleri Blake and Aronson, 1998 from the Upper Eocene La Meseta Formation of Seymour Island (Antarctic Peninsula) [
32],
Ophiura bartonensis Rasmussen, 1972 from the Upper Eocene (Bartonian) Lower Barton Beds of Hampshire (England) [
30],
Ophiura?
sternbergica Kutscher, 1980 from the Oligocene ‘Sternberger Gestein’ of Magdeburg (eastern Germany) [
11],
Ophiura marylandica Berry, 1934 from the Miocene Mary’s Member of Maryland (USA) [
33],
Ophiura paucilepis Stöhr, Jagt and Klompmaker, 2011 from the lower Zanclean to mid-Piacenzian (Pliocene) Oosterhout Formation of Mill-Langenboom (Noord-Brabant, the Netherlands) [
34], and
Ophiura pohangensis Ishida et al., 2022 from the Middle Miocene Duho Formation (Yeonil Group) of Pohang City, (Korea) [
19]. None of these species have lateral arm plates comparable to those of the species described in the present paper, especially with respect to the small size, the oblique dorsal edge, the fragile architecture, and the fine vertical striation.
Among the recent species of Ophiura, the closest similarities are shared with the small species showing fragile, elongated arm segments and vertically striated lateral arm plates, in particular Ophiura ooplax (H.L. Clark, 1911), Ophiura trimeni Bell, 1905, Ophiura ljungmani (Lyman, 1878), and Ophiura grubei Heller, 1863. The former two differ from the material described in the present paper in having larger spine articulations with a dorsalward increase in size, and in having tentacle openings transformed into perforations at least from median arm segments onwards. Ophiura ljungmani and O. grubei differ from the Oligocene specimens in having a much weaker outer surface striation and a differently shaped vertebral articular structure on the inner side. In the light of these differences, we assign the material described herein to the new species Ophiura tankardi. The small size, the elongate arm segments and the elongate, divided oral plate suggest that Ophiura tankardi is a paedomorphic species.
Superorder Ophintegrida O’Hara, Hugall, Thuy, Stöhr & Martynov, 2017
Order Amphilepida O’Hara, Hugall, Thuy, Stöhr & Martynov, 2017
Suborder Ophionereidina O’Hara, Hugall, Thuy, Stöhr & Martynov, 2017
Superfamily Ophionereidoidea Ljungman, 1867
Family Ophionereididae Ljungman, 1867
Genus Ophiodoris Koehler, 1904
Diagnosis (emended and specifically focusing on lateral arm plate morphology): small, relatively elongate lateral arm plates with a coarsely meshed outer surface stereom devoid of tubercles or otherwise modified trabecular intersections; up to three large spine articulations with massive dorsal and ventral lobes proximally separated by single or multiple wedge-shaped knobs; and inner side with a thin, J-shaped, almost horizontal vertebral articular ridge.
Ophiodoris niersteinensis sp. nov. (
Figure 4)
urn:lsid:zoobank.org:act:0E2FF12D-6D61-451D-B0BC-BD42FD597E05
Holotype: NHMMZ PWL 2022/5561.1-LS.
Paratypes: NHMMZ PWL 2022/5561.2-LS—NHMMZ PWL 2022/5561.7-LS
Other material: 8 dissociated ossicles (not registered).
Type horizon and locality: Rosenheim Subformation, Bodenheim Formation, nannoplankton zone NP 24 and to dinoflagellate zones D 14/D 15, Rupelian, Oligocene, Cenozoic (33.9–28.1 million years before present); sample taken at 42 meters depth from flush drill made at Nierstein marketplace (WGS84 49°52′29.5″ N/8°2 0′11″ E), Rhineland Palatinate, Mainz Basin, Germany.
Etymology: Species named after the type locality Nierstein.
Diagnosis: Small species of Ophiodoris with relatively elongate lateral arm plates, showing a coarsely meshed outer surface stereom devoid of tubercles; up to three spine articulations composed of smooth, imperforate dorsal and ventral lobes proximally separated by single, double or triple wedge-shaped knobs; and J-shaped vertebral articular ridge on the inner side.
Description: Holotype specimen (NHMMZ PWL 2022/5561.1-LS) is a small, dissociated proximal lateral arm plate (
Figure 4A,B), slightly longer than high, with a weakly concave dorsal edge, an evenly convex distal edge, an oblique, ventro-proximalwards protruding ventral portion with a large but shallow and poorly defined tentacle notch, and a wavy proximal edge lined by a narrow, poorly-defined band of more finely meshed stereom and comprising a slightly swollen, protruding central part; outer surface composed of coarsely meshed stereom devoid of tubercles; three large, freestanding spine articulations on distal edge, composed of smooth, imperforate, nearly parallel dorsal and lobes proximally separated by a single, wedge-shaped knob; dorsal-most spine articulation slightly smaller than the other two. Inner side of lateral arm plate with a conspicuous J-shaped vertebral articular structure, moderately well defined, composed of slightly more finely meshed stereom and almost horizontal; no perforation discernible; inner distal edge tapering, composed of more finely meshed stereom, devoid of spurs; and inner side of tentacle notch shallow but large, conspicuous, bordered by a thickened part of the ventral edge.
Figure 4.
Ophiodoris niersteinensis sp. nov. from the Rupelian, Oligocene (Rosenheim Subformation, Bodenheim Formation, nannoplankton zone NP 24 and to dinoflagellate zones D 14/D 15) of a flush drill made at Nierstein, Rhineland-Palatinate, Germany. Holotype (NHMMZ PWL 2022/5561.1-LS), dissociated proximal lateral arm plate in external (A) and internal (B) views; paratype (NHMMZ PWL 2022/5561.2-LS), dissociated median lateral arm plate in external (C) and internal (D) views; paratype (NHMMZ PWL 2022/5561.3-LS), dissociated distal lateral arm plate in external (E) and internal (F) views; paratype (NHMMZ PWL 2022/5561.4-LS), dissociated proximal ventral arm plate (G); paratype (NHMMZ PWL 2022/5561.5-LS), dissociated median to distal ventral arm plate (H); paratype (NHMMZ PWL 2022/5561.6-LS), dissociated arm spine (I); paratype (NHMMZ PWL 2022/5561.7-LS), dissociated proximal vertebra in dorsal (J), proximal (K) and lateral (L) views. Abbreviations: di: distal; do: dorsal; K: wedge shaped knob; R: vertebral articular ridge; SA: spine articulation; TN: tentacle notch.
Figure 4.
Ophiodoris niersteinensis sp. nov. from the Rupelian, Oligocene (Rosenheim Subformation, Bodenheim Formation, nannoplankton zone NP 24 and to dinoflagellate zones D 14/D 15) of a flush drill made at Nierstein, Rhineland-Palatinate, Germany. Holotype (NHMMZ PWL 2022/5561.1-LS), dissociated proximal lateral arm plate in external (A) and internal (B) views; paratype (NHMMZ PWL 2022/5561.2-LS), dissociated median lateral arm plate in external (C) and internal (D) views; paratype (NHMMZ PWL 2022/5561.3-LS), dissociated distal lateral arm plate in external (E) and internal (F) views; paratype (NHMMZ PWL 2022/5561.4-LS), dissociated proximal ventral arm plate (G); paratype (NHMMZ PWL 2022/5561.5-LS), dissociated median to distal ventral arm plate (H); paratype (NHMMZ PWL 2022/5561.6-LS), dissociated arm spine (I); paratype (NHMMZ PWL 2022/5561.7-LS), dissociated proximal vertebra in dorsal (J), proximal (K) and lateral (L) views. Abbreviations: di: distal; do: dorsal; K: wedge shaped knob; R: vertebral articular ridge; SA: spine articulation; TN: tentacle notch.
![Taxonomy 02 00015 g004]()
Paratype supplements and variation: dissociated median lateral arm plate (NHMMZ PWL 2022/5561.2-LS) (
Figure 4C,D), 1.5 times longer than high, similar to holotype, except for spine articulations showing a double or triple knob proximally separating the dorsal and ventral lobes; inner side as in holotype but with very poorly defined vertebral articular ridge and smaller tentacle notch showing a ventralward pointing protrusion.
Dissociated distal lateral arm plate (NHMMZ PWL 2022/5561.3-LS) (
Figure 4E,F), almost two times longer than high, with a strongly concave dorsal edge and a wavy distal edge with a narrow band of more finely meshed stereom; outer surface stereom as in holotype; two spine articulations with dorsal and ventral lobes proximally separated by a double knob; and inner side as in paratype specimen.
Dissociated proximal ventral arm plate (NHMMZ PWL 2022/5561.4-LS), approximately as long as wide, of bullhead-shaped outline, with an obtuse distal angle, conspicuous pointed lateral protrusions, deep lateral tentacle notches, and a straight proximal edge; and outer surface with coarsely meshed stereom, thickened around the tentacle notches (
Figure 4G).
Dissociated median to distal ventral arm plate (NHMMZ PWL 2022/5561.5-LS), almost two times longer than wide, with a straight distal edge, pointed lateral edges, deep lateral tentacle notches and a straight proximal edge; and outer surface stereom coarsely meshed (
Figure 4H).
Dissociated proximal vertebra (NHMMZ PWL 2022/5561.7-LS), relatively compact except for very large dorso-distal muscle fossae, forming a distalwards pointing, almost keel-like protrusion (
Figure 4J); ventro-proximal muscle fossae deep, large; ventro-distal and dorso-proximal muscle fossae smaller (
Figure 4K,L); lateral articular structure J-shaped, poorly defined; ventral furrow large and deep; dorsal furrow large, with lateral extensions paralleling the edge of the dorso-distal muscle fossae, devoid of dorso-proximal depression; vertebral articulation zygospondylous; and podial basins well-defined, ventro-distalwards pointing.
Dissociated arm spine (NHMMZ PWL 2022/5561.6-LS) long, cylindrical, pointed, with a coarsely meshed, irregular longitudinal striation beset with minute thorns (
Figure 4I).
Remarks: The lateral arm plates described above belong to the family Ophionereididae on account of their outline with the large, ventro-distalwards protruding ventral portion, and the large spine articulations composed of parallel dorsal and ventral lobes proximally separated by single or multiple knobs. Comparison with the lateral arm plates of recent ophionereids suggests that similarities are greatest with the lateral arm plates of
Ophiodoris owing to the plate outline, the shape of the dorsal and ventral lobes, and the shape of the vertebral articular ridge on the inner side of the lateral arm plate [
35,
36,
37].
The fossil record of
Ophiodoris is very sparse so far, with
Ophiodoris reconciliator Thuy, 2015 and
Ophiodoris francojurassicus (Hess, 1975) from the Jurassic of France and Switzerland, recpectively [
35,
38],
Ophiodoris holterhoffi Thuy, Gale, Stöhr & Wiese, 2014 from the Cretaceous of Texas, USA [
35], and an unnamed species from the Pliocene of the Mediterranean [
37] as the only known records so far. Unambiguous fossil occurrences of the closely related genera
Ophioplax Lyman, 1875 and
Ophiochiton Lyman, 1878 are rare too [
39]. Comparison with these fossil reports and with recent species of
Ophiodoris shows that the material described above stands out in having a coarsely meshed stereom devoid of tubercles on the outer surface, and in having an almost horizontal, conspicuously J-shaped vertebral articular ridge on the inner side. We, therefore, introduce the new species
Ophiodoris niersteinensis sp. nov. to accommodate the material in question.