Eobaatar clemensi, Sweetman, 2009

Eobaatar clemensi sp. nov.

Figs. 6–8 View Fig View Fig View Fig .

Etymology: In honour of Professor William A. Clemens, in recognition of his pioneering work on mammals of the Wealden Supergroup of south−east England, and his outstanding contribution to the field of Mesozoic mammalian palaeontology.

Type material: Holotype: BMNH M 45482 , a well preserved left m1 tooth crown ( Figs. 6 View Fig , 7A View Fig ) . Paratype: BMNH M 45557 , a well preserved but somewhat worn left m1 from which only part of the mesial root is missing ( Fig. 7B View Fig ) .

Tentatively referred material: Part of SMNS 51981, a poorly preserved left m2 ( Figs. 2A View Fig , 8B View Fig ); BMNH M 45483, a well preserved left I3 crown and partial root ( Figs. 9 View Fig , 10B View Fig ).

Horizons and localities: Holotype, BMNH M 45482, bed L9 ( Stewart 1978) exposed about 300 m north−west of Grange Chine on the south−west coast of the Isle of Wight, NGR SZ 41781 81880; paratype, BMNH M 45557, and tentatively referred specimen, BMNH M 45483, bed 38 ( Radley 1994) exposed about 600 m north−east of Yaverland car park on the south−east coast of the Isle of Wight, NGR SZ 61693 85223; tentatively referred specimen, part of SMNS 51981, bed CL3 ( Butler and Ford 1975; Stewart 1978) exposed in Compton Bay on the south−west coast of the Isle of Wight, exact locality unknown but close to NGR SZ 3785 8391 ( Figs. 3 View Fig , 4).

Diagnosis.—Autapomorphy: m1 with two crescentic lingual cusps and three labial cusps of which the mesial−most two comprise blunt cones (m1 unknown for Eobaatar minor , E. hispanicus , Hakusanobaatar , and Tedoribaatar ). Resembles Bolodon osborni and E. magnus in possession of a distal−most labial cusp comprising a complex structure incorporating pits, grooves and ridges. The lingual margin is convex, shorter than the straight labial margin and the distal margin lies at an acute angle distally to the mesiodistal axis of the crown. Differs from Loxaulax and Janumys but resembles E. magnus and Bolodon in possession of two lingual cusps. Differs from E. magnus in lack of subdivision of mesial lingual cusp. Differs from Bolodon but resembles Eobaatar and Loxaulax in the degree of asymmetry of the crown (less asymmetric in Bolodon ). Differs from Eobaatar but resembles Loxaulax and Bolodon in possession of three labial cusps. Differs from Loxaulax in complex morphology of the distal−most labial cusp. Where known, differs from Paracimexomys group cimolodontans in confinement of coalescence of cusps and cusp ornamentation to the distal−most labial cusp. Differs from Arginbaatar in cusp morphology and possession of ornamented enamel (m1 incompletely known for Ameribaatar ).

Description.—BMNH M 45482 ( Figs. 6 View Fig , 7 View Fig ) is the well preserved and almost unworn crown of a lower left m1 of a plagiaulacoid multituberculate. Crown length is 1.4 mm labially, 1.1 mm lingually and crown width is 0.9 mm. There are two rows of cusps aligned mesiodistally separated by a valley. Two cusps are present lingually and three labially. As in other plagiaulacoid multituberculates, cusps on the lingual margin are higher than those on the labial margin. The lingual margin is convex and significantly shorter than the straight labial margin.

The mesial margin of the crown lies at right angles to the central valley whereas the distal margin lies at about 45 ° to it. The crown strongly overhangs the roots but of the latter almost no trace remains (but see below a description of BMNH M 45557).

Lingual cusps are crescentic, convex lingually and concave labially. The li1 is mesiodistally longer than li2. Distolabially the margins of both cusps bear narrow, vertical wear facets covered by very fine horizontal scratches. The facet on the distolabial margin of li1 extends to and across the valley separating it from la2. It also extends up the mesiolingual margin of that cusp. The facet on the distolabial margin of li2 extends across the distal extremity of the valley separating the cusp rows and onto the distal margin of the distal−most cuspule of la3 (see below). The mesiolabial margin of li1 is unworn. The mesiolabial margin of li2 bears numerous horizontal scratches but is not faceted. Apically, both lingual cusps are recurved distally, this being more pronounced in li1 than li2. The apex of li1 is more pointed than that of li2, which has been blunted by wear or post mortem abrasion. The cusps are separated by a deep transverse groove the base of which is U−shaped. This is formed by the almost vertical distal surface of li1 and the less steeply inclined mesial surface of li2. The base of the trough lies above the base of the valley separating the lingual and labial cusp rows. In labial view it lies at the level of the apex of la2, which is the tallest cusp in the labial row. The valley separating the cusp rows is little affected by wear and the enamel exhibits a number of shallow pits and grooves. The distal margin of the valley is raised above the level of the valley floor along most of its length. Wear at the distal margin does not extend deeply enough to allow wear of the valley floor except at its mesial end and in the area between the distolabial margin of li1 and the mesiolingual margin of la2.

On the labial side of the crown, two distinct cusps, la1 and la2, are present mesially. The distal half of the labial cusp row is occupied by a more complex structure as further described below. The smallest cusp in the row, la1, is convex mesially and labially. The lingual surface comprises a small, steeply inclined wear facet covered with very fine, mesiodistally aligned, horizontal scratches extending to the base of the valley separating the cusp rows. The distal surface is slightly concave and the shallow transverse trough separating it from la2 is U−shaped. The largest and tallest cusp in the labial row is la2. It is somewhat convex labially, more so lingually. It is concave mesially and distally, the concavity being more pronounced on the distal surface. The lower half of the mesiolingual margin of la2 bears a wear facet as described above. The apices of this cusp and la1 are blunt, sloping downward mesially at a shallow angle. Fine mesiodistally aligned scratches can be seen on the apex of la2 indicating that it and la1 have been blunted by wear rather than post−mortem abrasion. The distal half of the labial margin of the crown bears a structure unlike all other cusps. It comprises two cuspules partially separated distolabially by a comma−shaped pit. A very small pit is also present on the extreme labial margin of the crown mesial to the comma−shaped pit. The mesial surface of this cuspidate area also differs from all others in that it does not rise smoothly from the transverse trough separating it from the adjoining cusp. Also, its steeply inclined lingual surface is somewhat rugose and ridged. The apex of the distal−most of the two cuspules is lower than that of the cuspule mesial to it and is very slightly worn or abraded. The base of the distolingual margin of the distal cuspule bears a steeply inclined facet as described above. This area probably represents the division of a single large cusp (la3) by the inclusion of pits and grooves but it may represent the coalescence of two small cusps.

BMNH M 45557 ( Fig. 7B View Fig ) is slightly larger than BMNH M 45482 but proportionately and in general morphology both are very similar. Crown length is 1.6 mm labially and 1.4 mm lingually and crown width is 1.1 mm. Intraspecific variation in molar size is commonly observed in multituberculates (e.g., Kielan−Jaworowska et al. 1987) and in view of the close similarity of this specimen to BMNH M 45482 it is confidently placed in the same taxon. The most noticeable difference between BMNH M 45557 and 45482 is the extent of wear affecting the former. All cusps remain well defined but wear extends to affect the whole of the valley separating the lingual and labial cusps. It has also largely, but not entirely, obliterated the concavities seen on the labial surfaces of li1–2 as seen in BMNH M 45482, and has entirely obliterated the distal cuspule forming part of la3. Wear here has removed the enamel to reveal the underlying dentine. It is likely that before wear the morphology of la 3 in BMNH M 45557 would have been similar to that of la 3 in BMNH M 45482. However, a groove defining the mesiolingual margin of the mesial cuspule of BMNH M 45557 is considerably broader than a similar groove, seen in BMNH M 45482. This suggests that the morphology of la3 is somewhat variable. A further difference between BMNH M 45482 and 45557 is the proportionately larger la1 seen in the latter. The lingual surfaces of li1–2 are unaffected by wear whereas the labial surfaces of labial cusps have been worn. Wear here takes the form of a facet which forms an oblique angle (apicolabially) to the apicobasal axis of the crown. The facet is more strongly developed distally where it is particularly noticeable on the distolabial margin of la2 and along the entire margin of la3.

As in BMNH M 45482, the crown overhangs the roots but in BMNH M 45557 the distal root is preserved in its entirety. It is mesiodistally compressed, tapers apically both mesiodistally and labiolingually and is somewhat recurved mesially. The mesial and distal surfaces of the root are slightly concave whereas the much narrower lingual and labial surfaces are uniformly convex. The pulp cavity is open but the opening is small at the apex of the root. Apically, about three quarters of the mesial root is missing. The preserved basal part, while of similar general morphology to the distal root, is considerably more gracile being narrower both mesiodistally and labiolingually. A labiolingually narrow ridge separates the roots. This continues as a faint ridge on the mesial surface of the distal root where it extends for approximately half the distance to the apex.

Discussion.—While these specimens share a number of characters of the m1 of members of Plagiaulacidae and some members of the Paracimexomys group cimolodonts the unique combination of characters seen in BMNH M 45483 and 4557 set them apart from any of these. As set out above, significant differences exist between the morphology of the specimens from the Wessex Formation and, where known, the m1 of members of Eobaataridae , but these differences are not considered to be diagnostic at a generic level (Zofia Kielan−Jaworowska, personal communication 2006). That being the case, similarities to the m1 of Eobaatar indicate that the specimens from the Wessex Formation represent a new species of this taxon. However, m1 is unknown for Eobaatar minor Kielan−Jaworowska, Dashzeveg, and Trofimov, 1987 from the Aptian–Albian of Mongolia and also for E. hispanicus Hahn and Hahn, 1992 from the Barremian of Spain. In view of the temporal and geographical separations between E. minor and congeneric material from the Isle of Wight it appears unlikely that the latter is also conspecific. Also, although direct comparisons are not possible, it would appear from published data that m1 of the Isle of Wight species is intermediate in size between that of E. magnus Kielan−Jaworowska, Dashzeveg, and Trofimov, 1987 and that expected for E. minor . The Barremian occurrence of E. hispanicus , relatively close geographically to a coeval occurrence of that genus in southern Britain, raises the possibility that the lower molars from the Isle of Wight are those of this species. However, the upper premolars upon which E. hispanicus is based appear to be too large to be referable to the taxon described here ( Hahn and Hahn 1992). Furthermore, palaeogeographical models (e.g., Smith et al. 1994; Scotese 2002) suggest that Britain and Iberia may have been separated by marine barriers since the Early Jurassic. That being the case, disbursal of small terrestrial tetrapods between the two areas would have been substantially restricted if not prevented for considerable periods of time. Thus, while synonymy of the Isle of Wight species of Eobaatar with E. hispanicus can not be entirely ruled out, it appears unlikely, and is supported by other data. Based on current observations, all small tetrapods described from the Barremian of Spain are either generically or specifically distinct from those occurring in the Barremian assemblage of southern Britain with only two congeneric taxa ( Sweetman 2007). In light of the above, erection of a new species to accommodate material referable to Eobaatar from the Barremian of southern Britain seems justified.

The m2 part of SMNS 51981 and its relationship to BMNH M 45482

The heavily worn and abraded left m2 forming part of SMNS 51981 ( Figs. 2B View Fig , 8B View Fig ) was recovered from bed CL3 exposed in Compton Bay on the south−west coast of the Isle of Wight ( Figs. 4, 5 View Fig ) ( Butler and Ford 1975), exact locality unknown but close to NGR SZ 3785 8391. It shares with BMNH M 45482 and 45557 an asymmetrical outline in which the lingual margin is shorter than the labial margin. It is also similar in that the lingual margin is convex whereas the labial margin (before post−mortem damage) is straight. Unfortunately, the mesiolabial corner of the tooth is broken away and elsewhere heavy wear from occlusion with the upper dentition has obliterated the labial cusps. Little can therefore be determined with regard to labial cusp morphology. Lingually, two relatively robust cusps are present but these have also been affected by wear, abrasion and breakage. The worn, chipped and abraded condition of the specimen renders an accurate determination of its pre−ware morphology problematic. However, the gross morphology of the specimen is consistent with a referral to Eobaataridae . Furthermore, its size also suggests that it should be referred to Eobaatar clemensi sp. nov., rather than to a new species of Loxaulax . However, in view of the heavy wear and abrasion affecting the specimen this referral must remain tentative.

A multituberculate I3 from Yaverland

BMNH M 45483 is the well preserved and unworn crown and partial root of a multituberculate left I3 ( Figs. 9 View Fig , 10B View Fig ), recovered from bed 38 ( Radley 1994) at Yaverland on the south east coast of the Isle of Wight, NGR SZ 61693 85223 ( Figs. 3 View Fig , 4).

Description.—The crown of left I3 BMNH M 45483 substantially overhangs the single root, which is thin−walled with a wide pulp cavity. This, together with the entirely unworn condition of the crown, suggests that, while fully formed, the tooth may have been unerupted. The tooth is essentially tricuspid but a cuspule is also present close to the base of the crown at its mesiolingual extremity ( Fig. 9B, C View Fig ). In lingual view, the crown is 1.1 mm high measured from the apex of the mesial apical cusp to the base of the enamel above the root. In occlusal view it measures 0.8 mm from the apex of the mesiolabial cusp to the distal margin of the crown and 0.85 mm from the apex of the mesiolingual cuspule to the distal margin of the crown. Mesially the crown is 0.7 mm wide measured from the apex of the mesiolabial cusp to the apex of the mesiolingual cuspule. The central cusps are strongly labiolingually compressed and separated apically by a V−shaped notch ( Fig. 9A, B View Fig ). The lingual surfaces of these cusps are relatively smooth whereas the labial surfaces are rugose. The distal surface of the distal apical cusp is convex distally with a faint central ridge. The lingual surface is convex lingually and bounded distally by a narrow ridge. Labially a broad ridge occupies the mesial margin of the cusp but distally it is concave. The apex is pointed and bounded mesially by a crest which descends to the distobasal extremity of the mesial apical cusp, the distal surface of which also comprises a ridge. The mesial apical cusp is convex labially and bears a pronounced central ridge on the lingual side. This descends at a steep angle distally to meet the central convexity of the distal apical cusp about two thirds of the distance below its apex. The ridge then curves smoothly mesially where it expands to comprise the mesiolingual cuspule. The mesiolingual surface of the mesial apical cusp is concave above the mesiolingual cuspule. Mesially a sigmoidal groove extends from the apex of the mesial apical cusp to the point where the crown retreats to meet the root. The base of the crown is here, as elsewhere, convex and smooth. Labially the sigmoidal groove is bounded by a similarly sigmoidal ridge, which is more pronounced than a similar ridge bounding it lingually. The mesiolabial cusp comprises a mesiolabiallydistolingually compressed cone from the apex of which, extending basally, there are a number of ridges. The mesiolabial and distolingual surfaces of the mesiolabial cusp are convex whereas the mesiolingual and distolabial surfaces comprise rounded crests. The valley separating the mesiolabial cusp from the remainder of the crown is V−shaped.

Affinities.—In a review of the dentition of Plagiaulacida, Hahn and Hahn (2004) state in their description of the dentition and diagnosis of Plagiaulacoidea that the I3 of plagiaulacoid multituberculates is small being only about half the size of I2 and with only one anterolabial cuspule. Also in their description of the dentition of Eobaataridae they note that I3 are unknown for Eobaatar , Loxaulax , and Monobaatar and that I3 of Sinobaatar is inadequately described. I3 for Janumis, recently placed in Eobaataridae ( Hahn and Hahn 2006) , is also unknown. Subsequent to this review two new eobaatarid genera from the Early Cretaceous of Japan have been described but the anterior upper dentition is known for only one of these, Hakusanobaatar Kusuhashi, 2008 . From the illustrations and brief description provided by Kusuhashi (2008) it appears that the morphology of I 3 in Hakusanobaatar differs from that observed in other plagiaulacoids in that it is monocuspid. An indeterminate eobaatarid upper right, deciduous I3 from the upper Barremian of Spain has been described and figured by Cuenca−Bescós et al. (1995: fig. 4). This shows some similarity in gross morphology to BMNH M 45483 but being a deciduous tooth no direct comparisons can be made.

An upper incisor ( Fig. 10A View Fig ), now with accession number BMNH M 45658, figured by Clemens and Lees (1971: pl. 2: B) is assigned by them with question to Loxaulax valdensis . They state that the specimen is figured in lingual view with a magnification of 12.5× but it is actually shown at a magnification of 25× and if, as suggested by these authors it is an I2, it is figured in distal view. As figured and captioned, this abraded specimen appears to have a cusp disposition similar to BMNH M 45483 when seen in anterolabial view ( Fig. 10A, B View Fig ) suggesting that it may be an I3. However, recent re−examination serves to confirm that the apical depressions observed on BMNH M 45658 ( Fig. 10A View Fig ) are not the eroded apices of two apical cusps. This, together with the tooth’s outline in occlusal view ( Fig. 10A View Fig 1) and its similarity in size to a well−preserved I2 tooth crown from the same locality, BMNH M 21100, indicate that it is indeed an I2 and not an I3. Therefore, with data currently available there is nothing to preclude assignment of the Isle of Wight I3, BMNH M 45483, to Eobaatar clemensi sp. nov. represented by the lower molars BMNH M 45482 and BMNH M 45557.

Plagiaulacoidea indeterminate

The left I2 part of SMNS 51981 ( Figs. 2B View Fig , 10C View Fig ) is a well preserved bicuspid crown recovered from bed CL3 ( Stewart 1978) on the south−west coast of the Isle of Wight ( Figs. 3 View Fig , 4) ( Butler and Ford 1975), exact locality unknown but close to NGR SZ 3785 8391. Isolated I2s apparently representing plagiaulacoid multituberculates have been recovered from many sites yielding more diagnostic material. In most cases they are considered to be indeterminate and Parendotherium Crusafont−Pairó and Adrover, 1966 , the holotype of which is an I2 with morphology similar to that of the plagiaulacid Bolodon , has recently been transferred to the Paulchoffatioidea ( Hahn and Hahn 2006). However, I2 for Loxaulax ( Figs. 2C View Fig , 10A View Fig ) has been tentatively identified and is similar to I2s recovered from the Cherty Freshwater Member of the Purbeck Limestone Formation of Dorset, southern England. Among the latter is one specimen assigned to the plagiaulacid Bolodon osborni ( Kielan−Jaworowska and Ensom 1992: pl. 4: 1–3). As noted above, the I2 described by Butler and Ford (1975) is too small to be placed with Loxaulax valdensis and it also differs from the I2 of this taxon but resembles that of Bolodon , Hakusanobaatar and a number of other taxa in the morphology of the basal cusp ( Figs. 2C View Fig , 10C View Fig ); a single cusp is present in Bolodon , Hakusanobaatar and the Isle of Wight specimen whereas the I2 tentatively assigned to L. valdensis has a basal cusp comprised of three cuspules ( Clemens 1963). Enamel completely covers the crown of SMNS 51981 and of the I2 tentatively assigned to L. valdensis . In Eobaatar ?i1 is gliriform leading Hahn and Hahn (1992, 2004) to postulate that I2 would be similarly gliriform. I2 is unknown in currently described species of Eobaatar but indeterminate I2s referable to an eobaatarid have been reported from the Upper Barremian of Spain ( Cuenca−Bescós et al. 1995) and that of Hakusanobaatar has been figured and briefly described ( Kusuhashi 2008: 382–383, figs. 2A, 3C). Those from Spain appear to have normal enamel and while that of Hakusanobaatar has not been described, in the diagnosis of this taxon Kusuhashi (2008) states that “enamel is possibly not limited to the outer surface of the lower incisor”. This suggests that enamel may also completely cover the crown of I2. However, if Hahn and Hahn (2004) are correct with respect to enamel covering the I2 of Eobaatar , the I2 from the Wessex Formation does not belong with the m1s described above.

I2 of the holotype of Bolodon crassidens is broken off but the base of the root is preserved, Simpson (1928) recording its maximum length as 2.2 mm. The broken I2 assigned to B. osborni by Kielan−Jaworowska and Ensom (1992: pl. 4: 3) measures just 0.9 mm at an apparently similar position. In comparison, at the same point, the Isle of Wight specimen measures 1.2 mm. BMNH M 21100, the I2 tentatively assigned to Loxaulax valdensis , measures 1.6 mm and the indeterminate I2s figured by Kielan−Jaworowska and Ensom (1992) measure 1.4 mm (pl. 4: 1) and 1.3 mm (pl. 4: 2). In the case of plagiaulacoid I2s exhibiting normal enamel cover, gross morphology is broadly similar in all taxa but some intraspecific variation in tooth size can be anticipated. The morphology of the principal cusp of the Isle of Wight specimen does not resemble that of the I2 of Hakusanobaatar and precludes assignment to this taxon. In view of this, and probable intraspecific variation in tooth size, it is not possible with currently available data to provide a higher taxonomic identification of the Isle of Wight specimen and it is here considered to be Plagiaulacoidea indet. However, it may represent a second Wessex Formation plagiaulacoid.

The third, undescribed, mammal tooth reported by Buffetaut and Ford (1978) also forms part of SMNS 51981 and comprises a small fragment superficially resembling the apex of the I2 accessioned under the same number. It is also here considered to be indeterminate and only questionably referable to Mammalia.