Browsing by Author "Mihlbachler, Matthew Christian, 1972-"
Now showing 1 - 2 of 2
Results Per Page
Sort Options
Item A new brontothere (Brontotheriidae, Perissodactyla, Mammalia) from the Eocene of the Ily Basin of Kazakstan and a phylogeny of Asian "horned" brontotheres. American Museum novitates ; no. 3439(New York, NY : American Museum of Natural History, 2004) Mihlbachler, Matthew Christian, 1972-; Lucas, Spencer G.; Emry, Robert J.; Bayshashov, Bolat.A new genus and species of 'horned' brontothere, Aktautitan hippopotamopus, from the Ily Basin of Kazakstan is described from three skulls and nearly complete postcranial material. This material occurs in fluvio-lacustrine red beds of the upper part of the Eocene (Irdinmanhan) Kyzylbulak Formation at Aktau Mountain. Trackways occurring in the overlying layers are also attributed to this new brontothere. Additionally, several misleading problems in the taxonomy of Asian horned brontotheres are addressed. We conclude that Protitan khaitshinus Yanovskaya, 1980 is a junior objective synonym of Metatitan relictus Granger and Gregory, 1943. Protitan reshetovi Yanovskaya, 1980 is removed from the genus Protitan and possibly belongs within Metatitan. Brachydiastematherium transylvanicum Böckh and Maty, 1876, the only bona fide European brontothere, known from a single partial mandible, is morphologically consistent with Metatitan Granger and Gregory, 1943. Although B. transylvanicum is known from very fragmentary material, it is possible that Metatitan is a junior synonym of Brachydiastematherium. The first cladistic phylogeny of middle and late Eocene Asian horned brontotheres was constructed with 40 characters and 17 taxa. Aktautitan, Metatitan, Brachydiastematherium, and Embolotherium form a monophyletic clade, with Aktautitan hippopotamopus as the most basal member of this clade. Within this clade, there are two monophyletic trichotomies: a Metatitan relictus, M. primus, Brachydiastematherium transylvanicum clade and a 'Metatitan' progressus, Embolotherium andrewsi, E. grangeri clade. The cladogram topology suggests that the elevated frontonasal horns shared by Aktautitan and Metatitan represent the ancestral morphology of the bizarre 'battering-ram' of Embolotherium. We extend the subfamily name Embolotheriinae to include these taxa. The unusually shortened distal limb segments of A. hippopotamopus resemble those of a phylogenetically disparate group of large ungulates that have convergently evolved hippolike limb proportions. We conclude that these limb proportions probably do not indicate a semiaquatic lifestyle, as had been previously surmised.Item Species taxonomy, phylogeny and biogeography of the Brontotheriidae (Mammalia, Perissodactyla) ; Bulletin of the American Museum of Natural History, no. 311(New York : American Museum of Natural History, 2008) Mihlbachler, Matthew Christian, 1972-The Brontotheriidae is an extinct family of Eocene perissodactyls known from North America, Asia, and, rarely, Eastern Europe. Brontotheres are widely recognized as having evolved very large body size and conspicuous frontonasal horns, although these traits do not characterize every species. Characters shared by all brontotheriids include an anteroposteriorly abbreviated face and an elongate postorbital cranium. Dentally, brontotheriids share bunoselenodont upper molars with a W-shaped ectoloph, isolated lingual cusps, and with paraconules, metaconules, and transverse molar crests that are either vestigial or absent. Early North American paleontologists such as Leidy, Cope, Marsh, and Osborn placed considerable emphasis on brontothere research, however, since Osborn's massive 1929 monograph on North American brontotheres, serious research on this diverse Eocene family has waned. Nonetheless, a great need for a revision of the Brontotheriidae has long been recognized because earlier works on brontothere taxonomy and systematics, particularly those of Osborn, are universally considered problematic due to their reliance on the discredited theory of orthogenesis. The present study reevaluates the species taxonomy of brontotheres based on craniodental materials. All known taxa were considered for revision except North American representatives of Eotitanops, Palaeosyops, and Megacerops. A phylogenetic species concept, where species are defined as the smallest diagnosable clusters of specimens, was adopted for this study. Monospecific quarry samples (mass death assemblages) consistently suggest that certain characters, including canine size, horn size, and many premolar characters show intraspecific polymorphic tendencies; such characters were not generally used to delimit species. All characters found to be monomorphic within mass death assemblages were considered when delimiting taxa. A total of 116 potential species were considered for revision. Among these species, 41 were found to be valid, 34 species were found to be invalid junior synonyms of valid species, 31 species were found to be nonima dubia, and three others were found to be problematic due to extremely fragmentary fossils, but not necessarily invalid. One new species, Wickia brevirhinus, is named and six other potential species are recognized but remain unnamed due to very poor fossil material. Phylogenetic analysis of 47 brontotheriid taxa was undertaken with 227 states distributed among 87 characters. The outgroup method was employed using Hyracotherium, Pachynolophus, Danjiangia, and Lambdotherium. Two analyses were performed, one with ordered multistate characters and another with unordered multistate characters. Both analyses yielded large numbers of most parsimonious trees. A strict reduced consensus was used to identify and prune fragmentary wildcard taxa a posteriori. Not surprisingly, the results of the phylogenetic analysis differ substantially from prior orthogenetic hypotheses of brontothere phylogeny and a radical revision in the higher classification of brontotheres is presented. Eotitanops and Palaeosyops are the most basal members of the Brontotheriidae. All other brontotheres form a clade, Brontotheriinae, which is supported by numerous molar apomorphies suggesting increased functional emphasis on shearing on the outer wall of enamel of the upper molars. Many of the previously named brontothere subfamilies are clearly paraphyletic while others correspond to subclades of the Brontotheriinae and have been assigned new ranks, resulting in a revised classification consisting of internested monophyletic taxa. Nine to twelve intercontinental dispersals, mostly in the middle Eocene (Uintan and Irdinmanhan land mammal "ages") between North America and Asia are implied by the cladistic results. The timing of these dispersals agrees with prior conclusions regarding the timing of large influxes of mammal taxa into North America from Asia. However, the frequency of interchanges is far greater than previously surmised. Following basic MacArthur-Wilson island biogeography theory, North America, the smaller continent, is viewed as a cul-de-sac, receiving repeated waves of immigrants from Asia, the larger continent. However, the phylogenetic results of the Brontotheriidae suggest the possibility that the predominant direction of dispersal could have been in the opposite direction; this result questions the validity of applying island biogeography theory to continent-scale dispersal dynamics.