[PaleoMammalogy • 2024] Prosantorhinus yei • The First record of the Genus Prosantorhinus (Perissodactyla: Rhinocerotidae) of East Asia

Prosantorhinus yei

Sun, Deng & Wang, 2024

DOI: 10.1093/zoolinnean/zlad183

 

Abstract

Prosantorhinus is a genus of small extinct teleoceratine rhinoceroses with shortened limb bones, widely distributed in Europe. However, the Asian evolution of the teleoceratine Prosantorhinus has remained unclear because of a scarcity of fossil records of the genus. Here, we report the first record of Prosantorhinus in East Asia from the Middle Miocene of Tongxin, Ningxia. The new specimen is characterized by a concave dorsal skull profile and elevated nasals; short and stout nasal bones with drooping margins on both sides; the thickened, enlarged, and roughened nasal extremity supporting a small horn; the semi-molarized upper premolars with a lingual bridge between the protocone and hypocone; the metaloph constriction present on P2–4; the protocone equal to the hypocone on P2; the crista present on P3; and the cement on the cheek teeth developed. With all the morphological evidence considered, we establish a new species, Prosantorhinus yei sp. nov.. A phylogenetic analysis based on 282 morphological characters scored for 36 taxa reveals that Prosantorhinus yei sp. nov. is a relatively derived taxon in the genus. We hypothesize that Prosantorhinus yei sp. nov. lived in relatively moist environments.

Prosantorhinus, Middle Miocene, phylogeny, palaeoecology, China

Prosantorhinus yei sp. nov.

Danhui Sun, Tao Deng and Shiqi Wang. 2024. The First record of the Genus Prosantorhinus (Perissodactyla: Rhinocerotidae) of East Asia. Zoological Journal of the Linnean Society. 202(2); zlad183, DOI: doi.org/10.1093/zoolinnean/zlad183

[PaleoMammalogy • 2023] Tongxinotherium latirhinum • A New elasmothere Genus and Species from the middle Miocene of Tongxin, Ningxia, China, and its phylogenetic relationship

Tongxinotherium latirhinum

Sun, Tao Deng, Xiaokang Lu and Shiqi Wang. 2023

  

DOI: 10.1080/14772019.2023.2236619  

 twitter.com/JournalSystPal

Abstract

The elasmotheres were well diversified and widespread throughout the Neogene in Eurasia and East Africa. Here we report a new elasmothere genus and species, Tongxinotherium latirhinum gen. et sp. nov., from the Zhang’enbao Formation (middle Miocene) of Tongxin, Ningxia, China. The new genus is characterized by a broad and thick nasal bone, the ‘U’-shaped nasal notch located at the level of P3, the anterior margin of the orbit situated at the level of M2, subhypsodont teeth covered and filled by plentiful cement, slightly developed enamel foldings, expanded protocone with anterior and posterior constrictions, the middle valley and posterior valley closed on the premolars, protoloph separated from the ectoloph on P2, and buccal and lingual cingula present on premolars, but absent on molars. A phylogenetic analysis reveals that Tongxinotherium latirhinum gen. et sp. nov. is more derived than the early elasmotheres, and more primitive than Iranotherium and Ningxiatherium, bridging a morphological and stratigraphical gap between them. The discovery of new material improves the morphological characteristics of the early elasmotheres’ horns and increases the diversity of the middle Miocene elasmotheres.

 

Keywords: elasmotheres, middle Miocene, phylogeny, Tongxin, China

 

Danhui Sun, Tao Deng, Xiaokang Lu and Shiqi Wang. 2023. A New elasmothere Genus and Species from the middle Miocene of Tongxin, Ningxia, China, and its phylogenetic relationship. Journal of Systematic Palaeontology. 21(1); 2236619. DOI: 10.1080/14772019.2023.2236619    twitter.com/JournalSystPal/status/1698686806160539899

  www.cnfossil.com/viewnews-14716.html

[PaleoMammalogy • 2023] Reproduction of A Fossil Rhinoceros from 18 mya and Origin of Litter Size in Perissodactyls

 

in Lu, Deng, Rummy, Zheng et Zhang, 2023. 

DOI: 10.1016/j.isci.2023.107800 

Illustration by Chung-Tat Cheung facebook.com/ChungTatCheung

  

Highlights: 

• Fossil rhinoceros from 18 mya is monotocous

• Reproductive traits in living rhinoceroses have been evolving at least since 18 mya

• Litter size of perissodactyls has an origin of singleton pregnancy

Summary

Reproductive strategy is among the most important characteristics of organism. Here, we report reproductive strategy of singleton pregnancy of a fossil rhinoceros, Plesiaceratherium gracile, from 18 mya of the Shanwang Basin, China. Dental and body development data revealed that after birth, the calf of P. gracile is breastfed for 2–3 years; at approximately 5 years of age, when the M2 tooth is slightly worn, the female has already reached sexual maturity and attained a size close to that of an adult and could give birth to the first calf. Furthermore, given litter size is phylogenetically conservative and closely correlates with body size, we conclude that the litter size of perissodactyls is determined by the singleton pregnancy since the Eocene. By contrast, other reproductive traits are highly variable and have a different pace of evolution, and traits observed in living rhinoceroses have been evolving at least since 18 mya.

 

Xiao-Kang Lu, Tao Deng, Paul Rummy, Xiao-Ting Zheng and Yuan-Tao Zhang. 2023. Reproduction of A Fossil Rhinoceros from 18 mya and Origin of Litter Size in Perissodactyls. iScience. 26(10); 107800. DOI: 10.1016/j.isci.2023.107800

  facebook.com/ChungTatCheung/posts/6646226455415527

[PaleoMammalogy • 2023] A Macroevolutionary Pathway to Megaherbivory

in Sanisidro, Mihlbachler & Cantalapiedra, 2023.

 DOI: 10.1126/science.ade1833 

 twitter.com/Canta_Lab

Abstract

Several scenarios have been proposed to explain rapid net size increases in some early Cenozoic mammalian lineages: sustained and gradual directional change, successive occupation of adaptive zones associated with progressively larger body sizes, and nondirectional evolution associated with branching events in combination with higher diversification potential of the larger lineages. We test these hypotheses in brontotheres, which are among the first radiations of mammals that consistently evolved multitonne sizes. Body-mass evolution in brontotheres mainly occurred during speciation and had no preferential direction. Long-term directional change stemmed from the higher survival of larger lineages in less-saturated herbivore guilds. Our study emphasizes the role of differential species proliferation in explaining the long-term phenotypic trends observed in the fossil record, which are more than an accumulation of steady microevolutionary changes.

Editor’s summary: 

After the extinction of large dinosaurs at the end of the Cretaceous, many mammals underwent a rapid increase in size. Several hypotheses for this change have been put forward, with much debate about the drivers. Sanisidro et al. looked at the record of body size in brontotheres, large herbivorous mammals from the Eocene that experienced orders of magnitude changes in size. The authors saw no evidence for directional selection, but instead found a pattern of increased survival of larger species caused by reduced competition with other herbivores in their niches. Thus, over time, the increase in body size in these mammals was caused by the macroevolutionary process of species sorting. —Sacha Vignieri

Oscar Sanisidro, Matthew C Mihlbachler and Juan L Cantalapiedra. 2023. A Macroevolutionary Pathway to Megaherbivory. SCIENCE. 380, 6645; 616-618. DOI: 10.1126/science.ade1833

  twitter.com/Canta_Lab/status/1656720984617934850

  phys.org/news/2023-05-differential-species-proliferation-key-evolutionary.html

[PaleoMammalogy • 2021] Paraceratherium linxiaense • An Oligocene Giant Rhino (Perissodactyla: Paraceratheriidae) provides insights into Paraceratherium Evolution

  Paraceratherium linxiaense

Deng, Lu, Wang, Flynn, Sun, He & Chen, 2021

DOI: 10.1038/s42003-021-02170-6

Abstract

As one of the largest land mammals, the origin and evolution of the giant rhino Paraceratherium bugtiense in Pakistan have been unclear. We report a new species Paraceratherium linxiaense sp. nov. from northwestern China with an age of 26.5 Ma. Morphology and phylogeny reveal that P. linxiaense is the highly derived species of the genus Paraceratherium, and its clade with P. lepidum has a tight relationship to P. bugtiense. Based on the paleogeographical literature, P. bugtiense represents a range expansion of Paraceratherium from Central Asia via the Tibetan region. By the late Oligocene, P. lepidum and P. linxiaense were found in the north side of the Tibetan Plateau. The Tibetan region likely hosted some areas with low elevation, possibly under 2000 m during Oligocene, and the lineage of giant rhinos could have dispersed freely along the eastern coast of the Tethys Ocean and perhaps through some lowlands of this region.

Holotype (HMV 2006) of Paraceratherium linxiaense sp. nov.
Skull: a lateral view; b ventral view; c dorsal view; d anterior view; e occipital view. Mandible: f, h lateral view and medial view of left ramus, respectively; g occlusal view. Skull and mandible share the scale bar, but both anterior and nuchal views have an independent scale bar.

Systematic paleontology

Perissodactyla Owen, 1848 

Paraceratheriidae Osborn, 1923

Paraceratherium Forster-Cooper, 1911

Paraceratherium linxiaense sp. nov.

Diagnosis: Paraceratherium linxiaense possesses features that characterize the genus, such as a giant body size, long premaxillae with anterior ends extending downward, separated parietal crests, high condyle compared to the height of nuchal surface, lower inferior border of the posttympanic process than the condyle, roughly horizontal anterior part of symphysis, and downward turning cone-shaped I1. It is more derived than other species within this genus in having a larger body size, deeper nasal notch above M2, much higher occipital part and posterior end of zygomatic arch, and smaller upper incisor I1. The lower margin of the horizontal mandibular ramus is concave under the diastema, and small i1 extends anteriorly and horizontally. The dental formula is 1.0.3.3/1.0.3.3. P2 is semimolarized, while P3 and P4 are submolarized. The metaconule connects with the ectoloph and the anterior point of the hypocone in moderate wear; the antecrochet is moderate; the lingual border of the protocone is rounded on molars; and the ecto-posterior corner of the protolophid is angular on p3 and p4. The atlas has an expanded transverse foramen and a dumb-bell shaped vertebral fossa.

Age: IVPP locality LX1808 is faunally and paleomagnetically dated to the middle of chron C8r with an estimated age of 26.5 million years ago (Ma) in the late Oligocene (Fig. 5).

Type horizon of Paraceratherium linxiaense sp. nov.
Exposures of fluvial and lacustrine sediments of the Linxia Basin (LX 1808) at the type locality of this new species (HMV 2006, yellow square) and where the axis and thoracic vertebrae were also found in Wangjiachuan Village, Dongxiang County, Gansu Province, China. 
Type locality of Paraceratherium linxiaense sp. nov.
Map showing the giant rhino fossil locality of the Linxia Basin in Wangjiachuan Village, Dongxiang County, Gansu Province, China.

 Type locality of Paraceratherium linxiaense sp. nov.
Map showing the giant rhino fossil locality of the Linxia Basin in Wangjiachuan Village, Dongxiang County, Gansu Province, China.

 

Tao Deng, Xiaokang Lu, Shiqi Wang, Lawrence J. Flynn, Danhui Sun, Wen He and Shanqin Chen. 2021. An Oligocene Giant Rhino provides insights into Paraceratherium Evolution. Communications Biology. 4: 639. DOI: 10.1038/s42003-021-02170-6

[Mammalogy • 2013] Tapirus kabomani • A New Species of Tapir from the Amazon

Tapirus kabomani

Cozzuol, Clozato, Holanda, Rodrigues, Nienow, de Thoisy, Redondo & Santos, 2013

All known species of extant tapirs are allopatric: 1 in southeastern Asia and 3 in Central and South America. The fossil record for tapirs, however, is much wider in geographical range, including Europe, Asia, and North and South America, going back to the late Oligocene, making the present distribution a relict of the original one. We here describe a new species of living Tapirusfrom the Amazon rain forest, the 1st since T. bairdii Gill, 1865, and the 1st new Perissodactyla in more than 100 years, from both morphological and molecular characters. It is shorter in stature than T. terrestris (Linnaeus, 1758) and has distinctive skull morphology, and it is basal to the clade formed by T. terrestris and T. pinchaque (Roulin, 1829). This highlights the unrecognized biodiversity in western Amazonia, where the biota faces increasing threats. Local peoples have long recognized our new species, suggesting a key role for traditional knowledge in understanding the biodiversity of the region.

Key words: Amazon, biodiversity, cladistics, genetics, morphometry, new species, Tapirus

FIG. 3.— Camera-trap photos of 2 specimens of Tapirus kabomani in the type locality (southern Amazonas State from Brazil). a) Lateral view of the head and anterior body of a male (right) and female (left) specimens.

Tapirus kabomani, new species

Etymology.— Arabo kabomani signifies tapir in the Paumarí native language from southern Amazonas, Brazil, where the holotype was collected in December 2009.

Type locality.— Southern Amazonas, Brazil, near BR 319 Highway, about 90 km north from Porto Velho, Rondônia, Brazil (88070 45.7300S, 638420 09.6400W; Fig. 2).

Distribution.— The new species is present in Amazonas,  Rondônia, and Mato Grosso states in Brazil and in Amazonas Department in Colombia. The habitats in the localities where the species was recorded so far are mosaics of forest and open savanna. Local people’s knowledge and photographic documents also suggest that it may be present in the eastern Amazon along the Guiana Shield (Amapá in Brazil and southern French Guiana; Fig. 2).

Mario A. Cozzuol , Camila L. Clozato , Elizete C. Holanda , Flávio H. G. Rodrigues , Samuel

Nienow , Benoit de Thoisy , Rodrigo A. F. Redondo , and Fabrício R. Santos. 2013. A New Species of Tapir from the Amazon. Journal of Mammalogy. 94(6):1331-1345.
DOI: 10.1644/12-MAMM-A-169.1

http://news.mongabay.com/2013/1216-hance-new-tapir-kabomani.html

http://news.mongabay.com/2013/1223-top-new-species-2013.html

[Paleomammalogy • 2011] Coelodonta thibetana • Out of Tibet: Pliocene Woolly Rhino Suggests High-Plateau Origin of Ice Age Megaherbivores

Ice Age megafauna have long been known to be associated with global cooling during the Pleistocene, and their adaptations to cold environments, such as large body size, long hair, and snow-sweeping structures, are best exemplified by the woolly mammoths and woolly rhinos. These traits were assumed to have evolved as a response to the ice sheet expansion. We report a new Pliocene mammal assemblage from a high-altitude basin in the western Himalayas, including a primitive woolly rhino. These new Tibetan fossils suggest that some megaherbivores first evolved in Tibet before the beginning of the Ice Age. The cold winters in high Tibet served as a habituation ground for the megaherbivores, which became preadapted for the Ice Age, successfully expanding to the Eurasian mammoth steppe.

A, Skull and cheek teeth of Coelodonta thibetana. 

B, Origin, distribution, and dispersal of woolly rhinos in Eurasia.

(Image by DENG Tao)

 

Skull and lower jaw of the extinct Tibetan woolly rhino, Coelodonta thibetana. 

Credit: DENG Tao

A paper in Science reveals the discovery of a primitive woolly rhino fossil in the Himalayas, which suggests some giant mammals first evolved in present-day Tibet before the beginning of the Ice Age. The extinction of Ice Age giants such as woolly mammoths and rhinos, giant sloths, and saber-tooth cats has been widely studied, but much less is known about where these giants came from, and how they acquired their adaptations for living in a cold environment.

A team of geologists and paleontologists led by Xiaoming Wang from the Natural History Museum of Los Angeles County (NHM) and Qiang Li of Institute of Vertebrate Paleontology and Paleoanthropology, Chinese Academy of Sciences, uncovered a complete skull and lower jaw of a new species of woolly rhino (Coelodonta thibetana) in 2007, at the foothills of the Himalayas in southwestern Tibetan Plateau.

"Cold places, such as Tibet, Arctic, and Antarctic, are where the most unexpected discoveries will be made in the future — these are the remaining frontiers that are still largely unexplored," said the NHM's Dr. Wang.

Reconstruction of Coelodonta thibetana (Illustrated by Julie Naylor)

The new rhino is 3.6 million years old (middle Pliocene), much older and more primitive than its Ice Age (Pleistocene) descendants in the mammoth steppes across much of Europe and Asia. The extinct animal had developed special adaptations for sweeping snow using its flattened horn to reveal vegetation, a useful behavior for survival in the harsh Tibetan climate. These rhinos lived at a time when global climate was much warmer and the northern continents were free of the massive ice sheets seen in the Ice Age later.

The rhino accustomed itself to cold conditions in high elevations and became pre-adapted for the future Ice Age climate. When the Ice Age eventually arrived around 2.6 million years ago, the new paper posits, the cold-loving rhinos simply descended from the high mountains and began to expand throughout northern Asia and Europe.

In addition to the new woolly rhino, the paleontologist team also uncovered extinct species of three-toed horse (Hipparion), Tibetan bharal (Pseudois, also known as blue sheep), chiru (Pantholops, also known as Tibetan antelope), snow leopard (Uncia), badger (Meles), as well as 23 other kinds of mammals.

The team's new fossil assemblage from Tibet offers new insights into the origin of the cold-adapted Pleistocene megafauna, which has usually been sought either in the arctic tundra or in the cold steppes elsewhere. This new evidence offers an alternative scenario: the harsh winters of the rising Tibetan Plateau may have provided the initial step towards cold-adaptation for several subsequently successful members of the late Pleistocene mammoth fauna in Europe, Asia, and to a lesser extent, North America. The Tibetan Plateau may have been another cradle of the Ice Age giants.

"This discovery clarifies the origin of the woolly rhinoceros — and perhaps much of the now extinct, cold-adapted, Pleistocene Eurasian megafauna — as the high-altitude environments of the Zanda Basin of the primordial Pliocene Himalayas," said H. Richard Lane of the National Science Foundation (NSF)'s Division of Earth Sciences.

A, Phylogenetic position of Coelodonta thibetana.  

Deng, T., Wang, X., Fortelius, M., Li, Q., Wang, Y., Tseng, Z.J., Takeuchi, G.T., Saylor, J.E., Säilä, L.K. & Xie, G. 2011. Out of Tibet: Pliocene Woolly Rhino Suggests High-Plateau Origin of Ice Age Megaherbivores. Science. 6047: 1285–1288. doi:10.1126/science.1206594

http://www.sciencemag.org/content/333/6047/1285

Discovery: new woolly rhino species Coelodonta thibetana | Science Codex 

http://www.sciencecodex.com/natural_history_museum_of_los_angeles_county_announces_discovery_of_important_woolly_rhino_fossil

Out of Tibet: Ancestral Woolly Rhino Suggests Origin of Ice Age Megaherbivores in High Plateau

http://english.ivpp.cas.cn/rh/rp/201109/t20110902_74549.html