Alphagaulus vetus, (MATTHEW, 1924)

ALPHAGAULUS VETUS ( MATTHEW, 1924)

FIGURES 4–6 View Figure 4 View Figure 5 View Figure 6

Synonymy: Mylagaulus pristinus (in part) Kellogg, 1910; Mylagaulus vetus Matthew, 1924 ; Mesogaulus vetus Cook & Gregory, 1941 ; Mylagaulus sp. (in part) Downs, 1956; Mesogaulus cf. pristinus Shotwell, 1958 ; Mesogaulus vetus Morea, 1981 ; Mesogaulus vetus Munthe, 1988 ; Mylagaulus vetus Sutton & Korth, 1995 ; Alphagaulus vetus Korth, 2000 .

Type specimen: AMNH 18905 View Materials , right mandible with incisor and p4, m2 ( Sutton & Korth, 1995: fig. 3H) from Thomson (Thompson) Quarry, Sheep Creek Formation , Nebraska .

Referred material: From type locality [Thomson (also spelled Thompson) Quarry, Sheep Creek Formation] by Korth (2000): AMNH 20504 View Materials , 20507 View Materials , 90734 View Materials ; F: AM 65515 , 65517–65520 , 65523 , 65526 , 65527 . From Observation Quarry by Korth (2000): F: AM 65532 , 65534–65536 , 65538–65551 , 65556 , 65558 , 65559 , 65561 . From Split Rock Local Fauna by Munthe (1988): UCMP 121693 View Materials , an almost complete skull and mandibles of an adult specimen ( V 69190 View Materials , Third Bench ) ; UCMP 121694 View Materials , a partial adult skull ( V 77144 View Materials , Split Rock Microsite ) ; UCMP 121679 View Materials , a P4 ( V 69190 View Materials , Third Bench ) ; CM 14268 and CM 14269 , M1; UCMP 121680 View Materials , UCMP 121685 View Materials , M2 ( V 69191 View Materials , Second Bench ) ; UCMP 121688 View Materials , UCMP 121689 View Materials , M2 ( V 69192 View Materials , First Bench ) ; CM 13998 , dp4; UCMP 121686 View Materials , dp4 ( V 69191 View Materials , Second Bench ) ; UCMP 121690 View Materials , dp4 ( V 69192 View Materials , First Bench ) ; MCZ 7318 View Materials , CM 14700 , p4; UCMP 121681 View Materials , p4 ( V 69190 View Materials , Third Bench ) ; MCZ 6224 View Materials , m1; UCMP 121692 View Materials , m1 ( V 77147 View Materials , Split Rock Eagle’s Nest ) ; CM 14695 , CM 15825 , m2; UCMP 121682 View Materials , m2 ( V 69190 View Materials , Third Bench ) ; UCMP 121687 View Materials , m2 ( V 69191 View Materials , Second Bench ) ; UCMP 121691 View Materials , m3 ( V 77144 View Materials , Split Rock Microsite). From Railroad Canyon Sequence (by Barnosky et al., 2007) : UM 4077 , right dentary with p4-m2 ( MV7316 , Cottom Lane ) ; UM 4079 , right P4 ( MV7320 , Big Camel ) ; UM 4236 , left ramus with p4, m2-m3 ( MV7323 , Turtle 2) ; UM 6443 , left P4 ( MV7338 , Snowfence 1/2) ; UM 6444 , left unworn m2 ( MV7338 , Snowfence 1/2) ; UM 4489 , left mandible with p4, m2 ( MV7345 , Rodent Bluff ). From Virgin Valley Formation UCMP 11540 View Materials , UCMP 11683 View Materials , UCMP 11684 View Materials , UCMP 11843 View Materials , UCMP 40988 View Materials , UCMP 130241 View Materials , p4 ( UCMP 1090 View Materials , Virgin Valley 9) ; UCMP 12580 View Materials , p4 ( UCMP 1095 View Materials , Virgin Valley 14) ; UCMP 130245 View Materials , p4 ( V 73056 View Materials , Prospect 1) ; UCMP 152493 View Materials , UCMP 152495 View Materials , p4 ( V 90052 View Materials , Gooch Table NE 3) ; UCMP 130239 View Materials , UCMP 130240 View Materials , UCMP 130242 View Materials , UCMP 40955 View Materials , UCMP 40993 View Materials , P4 ( UCMP 1090 View Materials , Virgin Valley 9) ; UCMP 130243 View Materials , P4 ( V 73056 View Materials , Prospect 3) ; UCMP 130244 View Materials , UCMP 130246–130248 View Materials , P4 ( V 73056 View Materials , Prospect 1) ; UCMP 11303 View Materials , partial P4 ( UCMP 1095 View Materials , Virgin Valley 14) ; UCMP 130251 View Materials , partial P4 ( V 73062 View Materials , Prospect 1) ; UCMP 130249 View Materials , partial fourth premolars with associated partial distal humerus ( V73056 View Materials , Prospect 1); UCMP 130250 View Materials , partial right P4 with associated caudal vertebra, partial distal left humerus, and a partial edentulous maxilla ( V 73056 View Materials , Prospect 1) ; UCMP 130252 View Materials , M3 ( V 73056 View Materials , Prospect 1) ; UCMP 11686 View Materials , M3 ( UCMP 1090 View Materials , Virgin Valley 9) ; UCMP 11326 View Materials ( UCMP 1095 View Materials , Virgin Valley 14) , UCMP 152494 View Materials ( V 73062 View Materials , Prospect 3) , partial fourth premolars. From Massacre Lake Local Fauna ( RV7043 , Massacre Lake 1) : UCMP 316439 View Materials , UCMP 319224 View Materials , partial incisors; UCMP 315432 View Materials , UCMP 315433 View Materials , UCMP 315686 View Materials , UCMP 316010 View Materials , UCMP 316431 View Materials , UCMP 316433–316435 View Materials , p4; UCMP 315431 View Materials , UCMP 315685 View Materials , UCMP 315988 View Materials , UCMP 315989 View Materials , UCMP 316007–316009 View Materials , UCMP 316430 View Materials , UCMP 316432 View Materials , UCMP 319237 View Materials , P4; UCMP 318368 View Materials , partial right mandible fragment with m2; UCMP 316072 View Materials , UCMP 315687 View Materials , partial mandibles with partial incisors; UCMP 316436 View Materials , partial right mandible with incisor and p4; UCMP 316438 View Materials , partial right mandible with dp4, m1–m3; UCMP 318367 View Materials , a partial left mandible with dp4, m1–m2; UCMP 315684 View Materials , a partial skull with left P4, M2–M3 and right P4, M2; UCMP 316437 View Materials , partial skull of a juvenile with left and right P4, M1–M2 and left M3, UCMP 315730 View Materials , partial juvenile cheek tooth. From Massacre Lake Local Fauna ( V6161 , Massacre Lake 2) : UCMP 61709 View Materials , a partial left mandible with p4, m2–m3; UCMP 61710 View Materials , a partial skull of a juvenile with left and right P4, M1–M3. From Mascall Formation (Crooked

River): UOMNH F-16722, UOMNH F-16898, p4. From Mascall Formation YPM 14311, P4; YPM 14310, p4.

Distribution: Late Hemingfordian of Sheep Creek Formation of Nebraska, Split Rock Fauna of Wyoming, and Massacre Lake Fauna of Nevada. Early Barstovian of Sand Canyon Beds Formation (Observation Quarry) of Nebraska, Railroad Canyon (even into stage 4); fossettes anteroposteriorly orientated; postcranial skeleton relatively gracile unlike Al. tedfordi .

Sequence of Montana and Idaho, Virgin Valley Formation of Nevada , and Mascall Formation of Oregon.

Emended diagnosis: Larger than Al. pristinus ; postorbital index (POI) on the larger end of the genus; skull morphology and dentition most similar to the smaller Al. pristinus ; skull not as deep (dorsoventrally) or robust as in Alphagaulus douglassi and Alphagaulus tedfordi ; five to nine fossettids on the premolars unlike Al. pristinus ; fossettids orientated obliquely running from the posterolingual corner of the tooth to the anterolabial one unlike in Al. pristinus ; fossettes more parallel to one another in adult individuals than in Al. douglassi and Al. tedfordi ; some may run more labiolingually in young individuals; hypofossettid and mesofossettid split with wear; between four and seven fossettes on the premolars unlike Al. pristinus ; anterofossette remains branched until late in wear Description of dentition: Figure 4 View Figure 4 shows the occlusal surface of the upper and lower fourth premolars of specimens from Nevada. There are five to six fossettids on the premolars, with the exception of UCMP 16435 on which there are seven fossettids. There are up to nine fossettids in specimens from Nebraska ( Korth, 2000). The fossettids are not orientated anteroposteriorly but obliquely run from the posterolingual corner of the tooth to the anterolabial one. There are two fossettids in the anterolingual corner of the tooth (as noted by Korth, 2000), a third one in the posterolabial corner, and two others running in between them. The fossettids that split include the posterolabial one (hypofossettid, Shotwell, 1958) and the mesofossettid ( Shotwell, 1958). Often, the mesofossettid and more occasionally the metafossettid and hypofossettid run more labiolingually in young individuals (e.g. UCMP 318367, UCMP 315686). Throughout ontogeny, the anterofossettid is the most conservative fossettid. Its shape, complexity, and size do not vary much. The mesofossettid, by contrast, becomes larger, may split into different lakes, and exhibits increasing complexity in its shape from a simple elongate single branch in most specimens at wear stage 2 to two joined but diverging branches in some older specimens (e.g. UCMP 316436, late stage 2; UCMP 315686, stage 3; UCMP 316010, stage 4). The metafossettid varies greatly in shape across individuals of comparable wear stage. The hypofossettid may split and vary somewhat in shape but its size does not change much with wear. The anterolabial fossettid may be the latest to close; it varies greatly in shape and size with wear but does not appear to split.

The upper premolars exhibit a similar number of lakes (between four and six). Unlike the specimens from Nebraska that mostly show six or seven fossettes, most of the specimens from Nevada exhibit five lakes. The anterofossette is the largest fossette and remains branched late in wear. This is similar to the Great Plains specimens ( Korth, 2000). The fossettes are more or less anteroposteriorly orientated. In late stages of wear, the anterofossette is the only lake to occupy the anterior lobe of the P4 and is still forked (e.g. UCMP 316007, a stage 4 tooth). In the DP4, the anterolingual fossette runs more labiolingually (e.g. UCMP 316437). The anterofossette is joined to the anterolingual fossette early on in wear (early stage 1, e.g. UCMP 316008). It becomes larger with ontogeny but does not split. The parafossette does not appear to split, but varies greatly in size and shape across individuals of the same wear stage. The posterolabial fossette also shows different sizes and shapes and may be large in some specimens. The posterolingual fossette is one of the earliest to close and does not change much in size or shape relative to the other lakes. The anterolingual fossette does not split in any specimen observed but comes close to it in one mid-wear stage (stage 3) specimen (UCMP 130247). There is an additional lake located near the former position of the worn-off protocone. This lake is present in four different specimens ranging from wear stages 1 to 4.

Description of the postcranial elements: Postcranial elements catalogued under the same specimen numbers as dental material confidently identifiable as Al. vetus are shown in Figure 6 View Figure 6 . The single anterior caudal vertebra of Al. vetus belongs to a juvenile specimen (UCMP 130250) from the Virgin Valley Formation. It is anteroposteriorly elongated, more so than in a specimen of Ap. rufa of similar size and age (UOMNH R-8453).The zygapophyses are small. The transverse processes are broadened posteriorly. The epiphyses of the vertebra are missing from this specimen. The neural spine is small.

The partial distal left humerus of UCMP 130250 only includes the distal part of the bone from the supracondylar ridges to the trochlea. Relative to length, the distal humerus of Al. vetus is broader than that of Ap. rufa or even than that of Al. pristinus . The medial epicondyle bends posteriorly, as in Pterogaulus laevis and Al. pristinus ( Fagan, 1960) . The fossa between the medial epicondyle and the posterior surface of the trochlea is comparable in depth to that of Al. pristinus and deeper than that of Ap. rufa . This seems to be a characteristic of Mylagaulidae because it is also true of P. laevis ( Fagan, 1960) . The capitulum is slightly broader than the trochlea, which is in turn sharper and more elongated anteroposteriorly. The distal humeral articular surface of Al. vetus is, in this aspect, larger than that of Al. pristinus . The olecranon fossa is shallow, as in other mylagaulids ( Fagan, 1960). This fossa is also similar to Al. pristinus in that it is narrower than the capitulum and trochlea together.

Discussion: Alphagaulus ( Korth, 2000) is a critical genus when trying to understand the evolutionary history of Mylagaulidae . This paraphyletic taxon at the base of the Mylagaulinae sheds light on the early history of the hypsodont members of the family Mylagaulidae ( Hopkins, 2008) . Alphagaulus vetus is particularly important, because it is represented by a more complete and geographically widespread fossil record than any other species of the genus Alphagaulus ( Korth, 2000) . Alphagaulus vetus is present in three different biogeographical regions (the northern Great Plains of Nebraska, northern Rockies of Wyoming, Montana, and Idaho, and the Columbia Plateau in Nevada; Barnosky, Carrasco & Davis, 2005) and two NALMAs (Hemingfordian and Barstovian), whereas the other three species in this genus ( Al. pristinus , Al. tedfordi , and Al. douglassi ) are known only from the Barstovian of south-west Montana. Moreover, all four stages of ontogeny (as indicated from wear; see Material and methods) from juveniles to adults are represented in our sample of Al. vetus . The specimens from Crooked River (Mascall Formation) constitute the first record of Al. vetus from Oregon.

Comparisons of measurements between specimens from Nevada and those from the Great Plains reported by Korth (2000) show few differences (see Table 2). The width of the teeth is greater relative to the length in the specimens from Nevada than it is in those of the Great Plains or Rockies. The difference is within the published ranges for the species. A juvenile specimen from the Massacre Lake Local Fauna (UCMP 316437, Fig. 5 View Figure 5 ) provides information on changes within Al. vetus through ontogeny. This individual retains a juvenile dentition with the remaining deciduous P3 and P4, the retained M1, the adult M2, and the erupting M3. The skull is poorly sutured. As in Al. pristinus and H. gazini (see discussion of H. gazini in this paper), there are a number of cranial features that change drastically between juveniles and adults. The zygomatic arch of UCMP 316437 is straight and gracile. It has been crushed taphonomically and thus brought closer to the midline of the skull. However, prior to crushing, it could not have been as broad and as widely curving as it is in adult specimens prior to crushing. The infraorbital foramen is small, the partial occipital plate available for description is quite straight and does not slope posteroventrally as in adults (see Munthe, 1988: fig. 8). The parasagittal and occipital crests, which differ importantly amongst early mylagaulines ( Hopkins, 2008) are missing and therefore cannot be described.