Peligrotherium tropicalis Bonaparte, Van Valen & Kramartz, 1993
publication ID |
https://doi.org/ 10.5281/zenodo.5376228 |
persistent identifier |
https://treatment.plazi.org/id/96635D1C-603D-FFFE-E43A-5E4CBFEAFD96 |
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Marcus |
scientific name |
Peligrotherium tropicalis Bonaparte, Van Valen & Kramartz, 1993 |
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Peligrotherium tropicalis Bonaparte, Van Valen & Kramartz, 1993
HOLOTYPE. — Right dentary with m1 and m2 ( UNPSJB PV 914 ).
HYPODIGM. — Holotype: fragment of anterior left dentary with a not clear number of alveolus (MACN- CH 1506); fragment of right dentary with m2 and part of m3-5 ( MACN-CH 1501 ); fragment of left dentary with m2-5 alveoli ( MACN-CH 1502 ); left mandibular fragment with m2-5 alveoli ( MACN-CH 1503 ); fragment of right dentary with fragmentary roots of m2 and alveoli of m3-5 ( MACN-CH 1504 ); left dentary fragment with m3-5 alveolus ( MACN-CH 1505 ); maxillaries fragments with right M1-M2, and left M1 fragment, M2-M4 and fragmentary alveolus of M5 ( MLP 90 View Materials -II-12-58); right dentary fragment with distal part of m1 alveolus, m2, and fragmentary alveolus of m3 ( MLP 90 View Materials -II-12-60); right isolated tooth, probably p4 ( MLP 90 View Materials -II-12-61).
HORIZON AND LOCALITY. — Upper levels of the Hansen Member (“Banco Negro Inferior”), Salamanca Formation ( Andreis et al. 1975), Punta Peligro, North of the San Jorge Gulf, Chubut Province, Argentina ( Pascual et al. 1992a, b: fig. 1), Peligran SALMA ( Bonaparte et al. 1993; “Peligran” sensu Flynn & Swisher III 1995), early Paleocene.
EMENDED DIAGNOSIS. — Peligrotherium tropicalis is the only known species of the family; thus the following diagnosis is valid for the species, genus and family. Large specialized dryolestoid; dental formula I?/? C?/? P2?/2? M5/5; bulbous cheekteeth with the cusps low and blunt, instead of anterior and posterior cingula forming shearing crests as seen in Mesungulatum ; M1/1 and M2/2 hypertrophied; molar size decrease from the first to the last molar (M1/1> M2/2> M3/3> M4/4> M5/5); enlarged paracone, surrounded antero-buccally and postero-buccally by figures formed by wear, slightly lower than the paracone. The antero-buccal figure became formed by union of the anterior stylar cusp with the anterior cingulum, and the postero-bucal one by the union of the posterior cingulum, stylocone and the posterior stylar cusp, respectively seen in the Late Cretaceous Mesungulatum . Upper molars bearing extra-roots. Talonid anteroposteriorly compressed, low and without visible cusp; lower molars roots of m3-4 transversally wide and anteroposteriorly compressed; posterior root of m5 smaller than the anterior one.
REMARKS
In spite of the similarities with Mesungulatidae , the apomorphies of P. tropicalis are such that they characterize a different family. Mesungulatidae was diagnosed by the presence of the following characters: upper molars with well-developed anterior and posterior cingula, and lower molars with roots, mesiodistally compressed and flat ( Bonaparte 1986). Peligrotherium tropicalis is distinguished by the elevation of the upper molars cingula which became connected with labial cusps, and for the presence of a different root pattern in the lower molars.
DESCRIPTION
Lower cheekteeth: crown morphology
The new lower cheekteeth are quite fragmentary, and few new features can be observed. For example, the right p4 (MLP 90-II-12-61) is so worn ( Fig. 1B View FIG ) that the entire crown features were erased. The right m2 ( Fig. 1A View FIG ) shows that the protoconid is somewhat lower in the holotype. The talonid, which in most dryolestid is a low shelf on the posterior side of the trigonid, triangular and with the hypoconid at the posterolabial apex ( Prothero 1981), is low, with no distinguishable cusps and its labial sector is more elevated than the lingual one. The metaconid is higher than its homologue in the holotype, and extends anteriorly somewhat ahead of the protocone. The alveolar border on each side of the molars are unequal. It is markedly deeper on the labial side. This shared derived character for the dryolestids ( Simpson 1929; Prothero 1981) is also recognizable in the holotype.
Upper cheekteeth: crown morphology and roots
On the upper cheekteeth, both the crown morphology and the number and arrangement of the roots are quite unusual. As in the lower cheekteeth, the first and second molar are hypertrophied. The molars progressively decrease in size posteriorly, M1> M2> M3> M4> M5 ( Figs 1C, D View FIG ; 2 View FIG ).
The occlusal view shows that the wear has produced three figures: areas of exposed dentine surrounded by enamel. These are at the tops of vertical structures separated by relatively deep furrows. The principal and highest figure is lin-
L I N G U A L
M1
ca
M2
cp
M3 M4
gual, and is antero- and posterolabially surround- ed by two semilunary figures, which, respectively, reach to the antero-lingual and postero-lingual portions of the principal lingual figure. In fact, these figures are compound wear facets, whose outlines and vertical extensions show that the lingual figure corresponds to the paracone, and the other two respectively correspond to an anterolabial cingulum joined to an anterior stylar cusp, and to a postero-labial cingulum joined to a posterior stylar cusp and to the stylocone. The cingula were probably cuspidated since there persists undulations on the enamel where cusps were.
The right M1 is subquadrate. It is somewhat long- er (11.65 mm) labially than lingually (9.75 mm), and a little wider posteriorly (11.80 mm) than anteriorly (10.80 mm). The lingual cusp is the main one, somewhat massive, and the outline of its wear facet is triangular, with rounded angles. Its worn surface is horizontal, although wear of the softer dentine produced a shallow basin. The anterior figure extends lingually, surpassing the middle part of the anterior face (6.85 mm), and distally, forming part of the labial face (4.25 mm). Contrary to the principal figure, it is inclined anterolabially. The posterior figure is larger than the anterior one, representing most of the labial and posterior portion of the tooth. The anterolabial portion of this figure is wider, while its extension, surrounding the principal cusp posterolingually, becomes abruptly narrow. This posterior figure inclines postero-lingually. Labially it is separated from the anterior figure by a deep groove. The wear of the posterior figure is much more excavat- ed than that of the anterior one.
The M2 is longer labially (9.85 mm on the right and 9.40 mm on the left one) than lingually (7.15 mm and 8.45 mm respectively). The features of M1 are here recognizable, although proportionally different. The principal cusp is more reduced in outline, but higher. Labial valleys of this cusp define the anterior and posterior cristae respectively ( Fig. 4B View FIG ). The anterior crista is slightly longer. The anterior figure is larger than the homologous in M1; it extends lingually (9.95 mm on the right and 9.40 on the left one) surrounding the anterior portion of the principal cusp. On the right M2, the lingual portion of the anterior figure shows enamel constrictions that delimit four small in-line cuspules. On the labial face, the anterior figure extends posteriorly (5.75 mm on the right M2 and 5.25 on the left one) overlapping the most anterior portion of the posterior figure. The posterior figure is smaller than the anterior one. Its anterolabial portion (particularly on the left M2) shows a constriction in the enamel, apparently indicating that there was a cusp. Close to the posterolabial sector of this posterior figure there is a small, low and columnar cusp that has not yet been affected by wear.
M3-5 have a rectangular outline, and are smaller than the anterior molariforms. The outline of M5 is inferred by its alveolus. The labial side is anteroposteriorly larger than the lingual one (7.75 × 6.60 mm in the M3, and 7.10 × 6.20 mm in the M4); they are somewhat wider on the middle part. The cusp morphology is similar to that present on the first and second molar. The anterior figure is relatively larger than in the M1-2, more extended transversely and, apparently, bear a larger antero-labial cusp. The different degrees of wear of M2 and M3, clearly demonstrate that the posterior figure was formed by the union of the medial labial cusp, the postero-labial cusp and the posterior cingulum (see M2-3 on Fig. 2 View FIG ). The M4 is deeply worn, but the features that remain apparently resemble those of M2-3.
Roots
The first upper molar shows supernumerary roots. There are four principal roots, two lingual and two labial ( Fig. 3 View FIG ). Below the principal lingual cusp there is an anterolingual root and a posterolingual one, the latter being divided by a vertical furrow, which indicates either that the root is simply bifurcated, or that it is formed by two united roots. The two labial roots are larger and bulky. The anterolabial one, situated just below the anterior figure, is also divided by a vertical furrow, which extends up to the base of the crown. The posterolabial root is massive, without a furrow and situated below the posterior figure.
Apparently, there are four roots on M2, two on the labial face and two on the lingual one. The anterolabial root is the largest, and is situated
A B
M3 M2 M3
C
P3 P4 M1 M2 M3
below the anterior cingulum. The posterolabial root is situated below the posterior figure. The two lingual roots are situated just below the principal cusp. None of the roots seems to have vertical furrows or to be bifurcated.
On the contrary, M3 and M4 have only three roots, the anterolabial root, below the anterior figure, is larger than the posterolabial. There is only one lingual root, which is massive and extends along the whole antero-posterior extension of the crown.
Each lower molar of Peligrotherium tropicalis has an anterior and posterior root. The alveolus of m2 are almost circular in occlusal view. The roots of m3-4 are transversally wide and anteroposteriorly compressed. The posterior root of m5 is smaller than the anterior one.
DISCUSSION
Cusp homology
Based on the lower dental formula inferred by Bonaparte et al. (1993), Peligrotherium tropicalis was regarded as a placental mammal. Because of the position and size of the trigonid, and the wear of molars, it was assigned with doubt to the Condylarthra . The hypertrophy of two molariforms in Peligrotherium tropicalis was compared to that observed in Periptychus ( Fig. 4B, C View FIG ), but this character appears to be convergently developed ( Bonaparte et al. 1993). The upper molariforms of Peligrotherium tropicalis , herein described for the first time, add new information that requires modification of the relationships postulated by Bonaparte et al. (1993). They show some decisive features not compatible with condylarths, or with any other Tribosphenida (sensu McKenna & Bell 1997).
The principal cusp of the upper teeth of Peligrotherium tropicalis is lingual, and unusually large. On the contrary, the premolars of the condylarths show the labial cusp (paracone) as the most prominent, while the lingual one (protocone) is relatively reduced. If Peligrotherium tropicalis were a condylarth, this cusp should occlude in a proportionate large talonid. However there is no talonid basin but only a cingulum closely applied to the trigonid ( Fig. 1A View FIG ). None of those features that distinguish a tribosphenic pattern may be seen in the molars. On the contrary the features of the molars of Peligrotherium tropicalis appear to be derived from a pattern found in non-Therian mammals (sensu McKenna & Bell 1997) such as the Dryolestida . Among these, the molar pattern of Mesungulatum houssayi from the Late Cretaceous of Patagonia ( Bonaparte & Soria 1985; Bonaparte 1986) shows a primitive state of the features seen in Peligrotherium tropicalis and could thus be related to its ancestry. Of the five molars recognized by Bonaparte (1986) for Mesungulatum houssayi , only three are known, and of these, M3 shows characters that could be regarded as a stage preceding that of Peligrotherium tropicalis ( Fig. 4A View FIG ). In Mesungulatum , the well-developed lingual cusp, the paracone, extends antero- and posterolabially through the anterior and posterior cristae, toward the anterior stylar cusp and posterior stylar cusp, respectively. The cusp identifies by Bonaparte (1986) as the stylocone is the major stylar cusp, while the anterior and posterior cusps are smaller. Of these, the anterior stylar cusp is labially displaced with respect to the stylocone, and is lower than the latter. The anterior cingulum surrounds labially the base of the anterior stylar cusp, and lingually extends up to the anterior part of the paracone, where, in some specimens, a small cusp is present. The posterior stylar cusp is closer to the stylocone. The posterior cingulum extends from the posterior side of the paracone up to the base of the posterior stylar cusp. Lingually, the anterior and posterior cingulum are not in contact.
If we now compare the upper molar pattern of Peligrotherium tropicalis with that of Mesungulatum houssayi (cf. compare Fig. 4A View FIG with 4B), the principal lingual cusp represent the paracone and not the condylarthran protocone. The anterior and posterior cristae became reduced, but are still evident on M2. The anterior figure of Peligrotherium tropicalis resulted from the fusion of the anterior stylar cusp and anterior cingulum because of wear; similarly the posterior figure would result from the fusion of the stylocone, posterior stylar cusp and the posterior cingulum ( Fig. 4B View FIG ). Those cusps and cingula of Mesungulatum houssayi that merged to form the peculiar anterior and posterior wearing facets shown in Peligrotherium tropicalis may be more clearly recognized on M2 and M3 molars than in the only known M1.
Dental formula
Peligrotherium tropicalis , as seen from the upper cheekteeth, has five molars. But neither the jaws nor the known maxillary are totally complete to allow an unquestionable count of the premolars number. The originally inferred lower dental formula was c1, p4, m3 ( Bonaparte et al. 1993). But this formula is based on a misinterpretation of the premolar-molar series. In fact the morphology of the upper cheekteeth shows that Peligrotherium tropicalis was a dryolestid not a condylarth, and the supposed last two premolars are molars instead. Moreover, the first lower premolar of Peligrotherium tropicalis was described as having one root. But the only relevant specimen for deduce this is a very badly preserved anterior jaw fragment, MACN-CH 1506, where the number of alveoli is not clear. Rougier (pers. comm.) sustains that the relative position of the symphysyis and mental foramina allow the inference that the jaw alveoli were restored too forward in the reconstruction, and so two roots for the first premolar suit better than a single one. So is it possible from a new count of alveoli, that there were one less premolar.
With the actually known specimens is unlikely to infer an exact number of premolars. Although it seems that of the four premolars of dryolestids ( Prothero 1981), Peligrotherium tropicalis reduced this number, probably to two. The tendency to decrease the number of premolars, together with the increase of molars and the reduction of the length of the talonids, were characteristic of advanced dryolestoid (Butler pers. comm. to McKenna 1975).
Occlusion
Wear on M1 and M2 erased the original cusps and cingula, connecting them to form peculiar and distinctive facets, leaving the dentine clearly exposed and shaped in shallow basins surrounded by the enamel. The relatively enormous paracone clearly forms an isolated and subhorizontal wear facet. The wear surface of the anterior figure faces somewhat mesially, and its lingual border is lower than its labial border. The wear surface of the posterior figure, particularly on M1, faces somewhat lingually and is somewhat more deeply excavated than the other surfaces. The posterior figure surface of M2 is more or less continuous with the anterior figure surface of M1. The preceding wear surfaces are concave and were caused by mastication of food rather than by mutual teeth abrasion. On M3-4 the paracone is extremely worn apicolabially, producing a large wear basin.
Although the known lower molariform crowns are insufficiently preserved, the species holotype (UNPSJ PV 914), a right mandibular fragment with m1-3, shows that there is a transverse ridge or prominence, apparently formed by the protoconid and metaconid. From this ridge an anterior and a posterior wear facets descend, conforming V-shaped figures, as seen laterally between m1 and m2 ( Fig. 5A View FIG ). The direct opposition of the specimens MLP 90-II-12-58 with UNPSJ PV 914 ( Fig. 5A, B View FIG ) and MLP 90-II-12-60 shows that a perfect match occurred when the transversal prominence of m2 occludes on the narrow intermolar basin between M1 and M2, i.e. on the posterior figure of M1 and the anterior of M2. However, this occlusion leaves the paracones lingually displaced and out of any contact with the lower molariforms. As the paracone shows an advanced wear facet, there had to be another occlusal movement during mastication to permit its participation. Apparently Peligrotherium tropicalis crushed its food with a vertical jaw movement, which resulted in exposure of dentine on the tops of the cusps. Although it could also move the jaw transversely when the protoconidmetaconid ridge of the lower molars moved in the groove between two upper molars. The paracone takes some parts in this as could be deduced from its wear facet. It seems that no propalinal movement could take place between posterior molars because the anterior molars can only move transversally, owing to the groove mentioned above.
The occlusion between upper and lower molars of Mesungulatum houssayi shows a shearing stage of the food in which the mesial and distal cristae worked as scissors, and a crushing stage in which the lower molar cristae worked against the upper cingula ( Bonaparte & Crompton 1990). The relation between upper and lower teeth in Peligrotherium tropicalis is essentially the same as in Dryolestidae , but in those there is shearing between vertical surfaces, whereas in Peligrotherium the cusps are low and blunt, and the attrition surfaces are less steeply inclined. Peligrotherium shows a very derived type of occlusion, which go further than Mesungulatum in the crushing specialization.
Roots
The supernumerary roots of the first upper molar represent another unusual character of Peligrotherium tropicalis . As far as we know, the monotreme ornithorhynchids and docodonts are the only other Mammaliaformes (sensu Rowe 1988) that have supernumerary roots, at least on the upper postcanines. Accepting Kovacs’ (1971) idea that the crown is a primary developed body and the roots a secondary developed body, we agree with him that when a significant anomaly in volume or shape occurs in the crown, it must be accompanied by a modification in the volume or shape of the roots. At least so it was in the hypertrophied upper M1-2 of Peligrotherium tropicalis .
The Dryolestidae have unequal roots in the lower molars, the smaller of which is postero-internal and supports the reduced talonid ( Simpson 1929; Prothero 1981). In contrast Mesungulatidae have two mesiodistally compressed and flat roots in the lower molars ( Bonaparte 1986). Peligrotherium shared a similar root structure for m3-4 to those present on Mesungulatidae , but on the contrary, the posterior root of m5 is much smaller than the anterior one.
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Genus |
Peligrotherium tropicalis Bonaparte, Van Valen & Kramartz, 1993
Gelfo, Javier N. & Pascual, Rosendo 2001 |
Mesungulatidae
Bonaparte 1986 |
Mesungulatidae
Bonaparte 1986 |
Dryolestidae
Marsh 1879 |