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New Discoveries of “Opposum-Like” Marsupials from Antarctica (Seymour Island, Medial Eocene) (1999)

Goin, Francisco J. ; Case, Judd A. ; Woodburne, Michael O. ; [et al.]

Springer

Journal of mammalian evolution 6 (1999), S. 335-365

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ISSN: 1573-7055

Keywords: Marsupialia ; Eocene ; Antarctic mammals ; Gondwana dispersals

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Five new species of marsupials are described from the middle Eocene La Meseta Formation of Seymour Island, Antarctic Peninsula. Three are derorhynchid didelphimorphians; one species is a prepidolopid polydolopimorphian, and the last is a microbiotheriid australidelphian. Additionally, fragmentary specimens representing an indetermined derorhynchid and a possible marsupial are also described. The prepidolopid and one of the derorhynchids are sufficiently derived as to preclude any close relationship to other members of that family, but the remaining taxa show the closest affinity with species otherwise known only from Itaboraian and older faunas in Patagonia. This differs from the affinity to early Eocene (Casamayoran) taxa shown by the polydolopid marsupials and placental mammals previously known from the La Meseta Formation. The newly described marsupials indicate that the relict La Meseta Fauna is composed of forms that must have dispersed to Antarctica no later than about early late Paleocene, whereas the previously known taxa apparently arrived in the early Eocene. Ecologically, the La Meseta Fauna is composed mostly of small-sized marsupials of likely insectivorous to frugivorous habits and larger-sized placental herbivores. Whereas the ratite bird of the La Meseta Fauna was probably also herbivorous, the phorusrhachoid and falconid birds comprised a large and smaller carnivorous to possibly scavenging component, respectively. Compared to contemporary faunas of Patagonia, the medium- to large-sized marsupial carnivores are lacking in the Antarctic Peninsula. Nevertheless, the La Meseta Fauna is Patagonian in origin and affinity. In conjunction with new faunas of Itaboraian age (early late Paleocene) in Patagonia, the evidence available indicates that from at least Itaboraian time onward the land mammal fauna of Patagonia and northern South America, as well, is a self-contained unit, developing the diversity characteristic of the Paleogene in that continent, including the australidelphian (but South American) microbiotheres. This, in combination with the apparent separation of Australia from Antarctica at ca. 64 Ma, reinforces interpretations that the precursors of the Australian marsupial fauna most likely dispersed from South America to Australia in the late Cretaceous–early Paleocene.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1027357927460

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Electronic Resource

Dispersal, vicariance, and the Late Cretaceous to early tertiary land mammal biogeography from South America to Australia (1996)

Woodburne, Michael O. ; Case, Judd A.

Springer

Journal of mammalian evolution 3 (1996), S. 121-161

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ISSN: 1573-7055

Keywords: Late Cretaceous Gondwana marsupial dispersal ; vicariance ; multidisciplinary data

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract A review of paleontological, phyletic, geophysical, and climatic evidence leads to a new scenario of land mammal dispersal among South America, Antarctica, and Australia in the Late Cretaceous to early Tertiary epochs. New fossil land vertebrate material has been recovered from all three continents in recent years. As regards Gondwana, the present evidence suggests that monotreme mammals and ratite birds are of Mesozoic origin, based on both geochronological and phyletic grounds. The occurrence of monotremes in the early Paleocene (ca. 62 Ma) faunas of Patagonia and of ratites in late Eocene (ca. 41-37 m.y.) faunas of Seymour Island (Antarctic Peninsula) probably is an artifact of a much older and widespread Gondwana distribution prior to the Late Cretaceous Epoch. Except for South American microbiotheres being australidelphians, marsupial faunas of South America and Australia still are fundamentally disjunct. New material from Seymour Island (Microbiotheriidae) indicates the presence there of a derived taxon that resides in a group that is the sister taxon of most Australian marsupials. There is no compelling evidence that dispersal between Antarctica and Australia was as recent as ca. 41 Ma or later. In fact, the derived marsupial and placental land mammal fauna of Seymour Island shows its greatest affinity with Patagonian forms of Casamayoran age (ca. 51–54 m.y.). This suggests an earlier dispersal of more plesiomorphic marsupials from Patagonia to Australia via Antarctica, and vicariant disjunction subsequently. This is consistent with geophysical evidence that the South Tasman Rise was submerged by 64 Ma and with geological evidence that a shallow water marine barrier was present from then onward. The scenario above is consistent with molecular evidence suggesting that australidelphian bandicoots, dasyurids, and diprotodontians were distinct and present in Australia at least as early as the 63-Ma-old australidelphian microbiotheres and the ancient but not basal australidelphian,Andinodelphys, in the Tiupampa Fauna of Bolivia. Land mammal dispersal to Australia typically has been considered to be at a low level of probability (e.g., by sweepstakes dispersal). This study suggests that the marsupial colonizers of Australia included already recognizable members of the Peramelina, Dasyuromorphia, and Diprotodontia, at least, and entered via a filter route rather than by a sweepstakes dispersal.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01454359

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First gondwanatherian mammal from Antarctica (2007)

Goin, Francisco J. ; Reguero, Marcelo A. ; Pascual, Rosendo ; [et al.]

In: Geological Society Special Publication 258: 135-144.

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Publication Date: 2007-10-08

Description: Gondwanatherians are an enigmatic group of extinct non-therian mammals apparently restricted to some of the western Gondwanan continents (Late Cretaceous-early Palaeocene of South America, and Late Cretaceous of Madagascar and India). They developed rodent-like incisors and the earliest known hypsodont cheek-teeth among mammals. Recently, a small rodent-like dentary fragment was recovered from middle Eocene beds on the Antarctic Peninsula, preserving part of the incisor; both the incisor enamel structure and the mandibular morphology suggest close affinities with Sudamerica ameghinoi from the early Palaeocene of Patagonia, up to now the youngest known Gondwanatheria. Thus, the new specimen becomes the youngest occurrence of a gondwanathere, adding significant direct and indirect evidence on: (1) the already documented cosmopolitanism of gondwanatheres among Gondwanan mammals; and (2) the crucial biogeographical role of Antarctica during the Cretaceous-Tertiary mammalian transition.

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The late Middle Eocene terrestrial vertebrate fauna from Seymour Island: the tails of the Eocene Patagonian size distribution (2007)

Case, Judd A.

In: Geological Society Special Publication 258: 177-186.

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Publication Date: 2007-10-08

Description: The Middle Eocene Antarctic terrestrial vertebrate palaeofauna from the La Meseta Formation on Seymour Island (= Isla Marambio), Antarctic Peninsula has a U-shaped, bimodal distribution of body sizes. This palaeofauna includes a wide range of body sizes from small insectivorous, omnivorous and granivorous marsupials, a rodent-like non-therian gondwanathere, large-sized ungulates, a sloth and cursorial birds (a ratite and a phororachoid). Medium-sized, homeothermic animals in the size range represented by rabbit to small ungulate-sized animals have not been found. For comparison, the Early Eocene Casamayoran (Vacan subage') mammalian palaeofauna from Patagonia has a reasonably normal distribution of body sizes, with the modal class represented by medium-sized mammals, a distribution that is the direct opposite of the Antarctic palaeofauna. A comparison of the Middle Eocene Antarctic palaeofauna from the La Meseta Formation to the early Eocene Vacan-aged mammal palaeofauna is appropriate, due to the taxonomic affinities of the Antarctic palaeofauna to Riochican (latest Palaeocene) and Vacan-aged palaeofaunas of Patagonia. If these Patagonian mammalian palaeofaunas (PMP) were the source for the La Meseta palaeofauna (LMP), then a similar normal distribution with less taxonomic diversity would be expected. However, the LMP does not meet this expectation or even a distribution where all size classes are equally represented. Thus, the pattern of size distribution is quite different from the PMPs. Floral data for the Early Eocene of Patagonia indicate subtropical conditions with mean annual temperatures (MAT) of 15.6 {degrees}C and equable winter temperatures (〉10 {degrees}C) generating high taxonomic diversity at the species level. Floral data from the La Meseta Formation of equivalent age to the mammalian fauna indicate a cooler MAT of 11-13 {degrees}C with a highly seasonal climate, where the mean winter temperature could have ranged from -3 to 2 {degrees}C. There is also a significant drop in floral taxonomic diversity, which is dominated by Nothofagus. A bimodal body size distribution pattern is not an unusual pattern for higher latitude mammalian faunas. Modern boreal mammalian faunas of North America have a low frequency of species in the medium body size range in response to cold winter temperatures in these higher latitudes. The smaller-sized mammals have adapted their physiology to the cold winter temperatures. The larger animals have adapted to the cold winter conditions by conserving heat through small surface-area-to-volume ratios as a result of their greater bulk. The low frequency of medium-sized animals is due to the fact that neither of these thermal strategies is available to them and thus they are at a selective disadvantage.

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An avian femur from the Late Cretaceous of Vega Island, Antarctic Peninsula: removing the record of cursorial landbirds from the Mesozoic of Antarctica (2019)

West, Abagael R. ; Torres, Christopher R. ; Case, Judd A. ; [et al.]

PeerJ

In: PeerJ. 2019; 7: e7231. e7231. Published 2019 Jul 10. doi: 10.7717/peerj.7231.

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Publication Date: 2019-07-10

Description: In 2006, a partial avian femur (South Dakota School of Mines and Technology (SDSM) 78247) from the Upper Cretaceous (Maastrichtian) Sandwich Bluff Member of the López de Bertodano Formation of Sandwich Bluff on Vega Island of the northern Antarctic Peninsula was briefly reported as that of a cariamiform—a clade that includes extant and volant South American species and many extinct flightless and cursorial species. Although other authors have since rejected this taxonomic assignment, SDSM 78247 had never been the subject of a detailed description, hindering a definitive assessment of its affinities. Here we provide the first comprehensive description, illustration, and comparative study of this specimen. Comparison of characters that may be assessed in this femur with those of avian taxa scored in published character matrices refutes the inclusion of SDSM 78247 within Cariamiformes, instead supporting its assignment to a new, as-yet unnamed large-bodied species within the genus Vegavis, and therefore its referral to a clade of semiaquatic anseriforms. Important character states diagnostic of Vegavis + Polarornis include strong craniocaudal bowing of the femoral shaft, the presence of a distinct fossa just proximal to the fibular trochlea, and the broad and flat shape of the patellar sulcus. Referral to Vegavis is based on the presence of a distinctive proximocaudal fossa and distolateral scar. This genus was previously known only from Vegavis iaai, a smaller-bodied taxon from the same locality and stratigraphic unit. Our reassignment of SDSM 78247 to Vegavis sp. removes the record of cariamiform landbirds from the Antarctic Cretaceous.

Electronic ISSN: 2167-8359

Topics: Biology , Medicine

Published by PeerJ

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