2019 in paleomammalogy: Difference between revisions

List of years in mammal paleontology
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This article records new taxa of fossil mammals of every kind are scheduled to be described during the year 2019, as well as other significant discoveries and events related to paleontology of mammals that are scheduled to occur in the year 2019.

Metatherians

• Description of new dentary fossils referable to Eodelphis browni, and a study on the evolution of adaptations to durophagy in stagodontids, will be published by Brannick & Wilson (2019).^[1]
• A study on the phylogenetic relationships of a giant short-faced kangaroo Simosthenurus occidentalis and giant wallaby Protemnodon anak, as indicated by data from fossils and near-complete mitochondrial genomes, will be published by Cascini et al. (2019).^[2]

Name	Novelty	Status	Authors	Age	Type locality	Country	Notes	Images
Australogale[3]	Gen. et sp. nov	In press	Engelman, Anaya & Croft	Miocene (Serravallian)	Honda Group	Bolivia	A member of Sparassodonta. Genus includes new species A. leptognathus.
Pujatodon[4]	Gen. et sp. nov	In press	Goin et al.	Eocene (Ypresian)	La Meseta Formation	Antarctica (Seymour Island)	Probably a member of Polydolopimorphia. Genus includes new species P. ektopos.

Eutherians

• A study on changes in local climate and habitat conditions in central Spain in a period from 9.1 to 6.3 million years ago, and on the diet and ecology of large mammals from this area in this time period as indicated by tooth wear patterns, is published by De Miguel, Azanza & Morales (2019).^[5]

Xenarthrans

• A study on the phylogeny, macroevolution, and historical biogeography of sloths is published by Varela et al. (2019).^[6]
• A study on the fusion of anterior thoracic vertebrae in Pleistocene ground sloths is published by Tambusso et al. (2019).^[7]
• A study on the internal morphology of the skull of Glossotherium robustum will be published by Boscaini et al. (2019).^[8]
• New skull and teeth remains of Simomylodon uccasamamensis will be described from the latest Miocene–Pliocene of the Bolivian Altiplano by Boscaini et al. (2019).^[9]
• Partial specimen of Megalonyx jeffersonii will be described from a peat deposit near Newburgh, Orange County by McDonald, Feranec & Miller (2019), representing the first record of this species from New York reported so far.^[10]
• A study on the impact of climate changes on the distribution of armadillos as indicated by fossil record will be published by Soibelzon (2019).^[11]

Afrotherians

• Dugongid fossils will be described from the Oligocene (Rupelian) Borysthenic Formation (Ukraine) by Gol’din, Kovalchuk & Krakhmalnaya (2019), representing the first known sirenian record from inner seas of the Old World (Paratethys).^[12]
• New proboscidean remains from the late Miocene (Turolian) of Samos Island (Greece), representing juvenile individuals of deinotheres, choerolophodonts and amebelodonts, will be described by Konidaris & Koufos (2019).^[13]
• A study comparing the diversity of elephantimorph proboscideans of northern and southern China during the late Miocene is published by Wang et al. (2019).^[14]
• Mothé, Ferretti & Avilla (2019) support the validity of Notiomastodon as a genus separate from Stegomastodon, arguing that members of the genus Stegomastodon were absent from South America.^[15]

Bats

Name	Novelty	Status	Authors	Age	Type locality	Country	Notes	Images
Mops kerio[16]	Sp. nov	In press	Gunnell & Manthi	Pliocene	Kanapoi site	Kenya	A species of Mops.
Mops turkwellensis[16]	Sp. nov	In press	Gunnell & Manthi	Pliocene	Kanapoi site	Kenya	A species of Mops.
Rousettus pattersoni[16]	Sp. nov	In press	Gunnell & Manthi	Pliocene	Kanapoi site	Kenya	A species of Rousettus.
Saccolaimus kenyensis[16]	Sp. nov	In press	Gunnell & Manthi	Pliocene	Kanapoi site	Kenya	A species of Saccolaimus.
Turkanycteris[16]	Gen. et sp. nov	In press	Gunnell & Manthi	Pliocene	Kanapoi site	Kenya	A very large fruit bat, larger than all extant fruit bats other than some species of Pteropus and Hypsignathus. Genus includes new species T. harrisi.

Odd-toed ungulates

• A study on the timing of extinction of Elasmotherium sibiricum will be published by Kosintsev et al. (2019), who report evidence indicating that this species survived in Eastern Europe and Central Asia until at least 39,000 years ago.^[17]
• A study on the daily and seasonal movements of equids from two Miocene fossil sites in northern Florida, as indicated by data from strontium isotope ratios in tooth enamel, will be published by Wallace, Crowley & Miller (2019).^[18]

Name	Novelty	Status	Authors	Age	Type locality	Country	Notes	Images
Plesiaceratherium balkanicum[19]	Sp. nov	Valid	Becker & Tissier	Miocene (European Land Mammal Zone MN5)	Bugojno Basin	Bosnia and Herzegovina

Even-toed ungulates

• A study on the phylogenetic relationships and timing of the origin of Cetartiodactyla will be published by Zurano et al. (2019).^[20]
• New specimen of the fossil peccary Parachoerus carlesi will be described from the Upper Pleistocene of the Chaco Province of Argentina by Gasparini et al. (2019), representing the most complete fossil material of a member this species reported so far, and providing new information on the morphology of the species and the environment it lived in.^[21]
• A description of the skull anatomy of the fossil suid Nyanzachoerus jaegeri based on new fossil material and a study on the phylogenetic relationships of the species will be published by Reda, Lazagabaster & Haile-Selassie (2019).^[22]
• New fossil suid specimens, providing new information on the classification and relationships of the Miocene Suinae from China, will be described from the latest Miocene site of Shuitangba (Zhaotong Basin, China) by Hou et al. (2019).^[23]
• Croitor, Sanz & Daura (2019) report the findings from a morphological and demographic analysis of remains of the endemic deer Haploidoceros mediterraneus from the Late Pleistocene of the Cova del Rinoceront (Spain).^[24]
• A systematic, macroscopic, radiographic, and histologic study of the fossil bones of the Cretan deer Candiacervus will be published by Lyras et al. (2019), who interpret their findings as indicative of the occurrence of a metabolic bone disease in the Cretan deer population, probably caused by habitat degradation.^[25]
• Description of new specimens of Sardomeryx oschiriensis from the Miocene (Burdigalian) of Sardinia (Italy) and a study on the phylogenetic relationships of this species will be published by Mennecart et al. (2019).^[26]
• New fossil material of the stem-caprine species Olonbulukia tsaidamensis will be described from the Wuzhong region of northern China by Wang et al. (2019), who also revise fossil stem-caprine taxa from the Wuzhong Fauna and so-called "Qaidam Fauna".^[27]
• Entelodontid teeth will be described from the late Eocene of the Krabi coal mine in southern Thailand by Ducrocq, Chaimanee & Jaeger (2019), representing the southernmost occurrence of entelodontids in Asia during the Paleogene reported so far.^[28]
• The first directly dated fossil of a member of the genus Hexaprotodon (an upper right canine fragment) from the Narmada Valley of Central India will be described by Jukar et al. (2019), who also present a tentative extinction chronology of Hexaprotodon, indicating that this genus survived into the Early Holocene.^[29]
• Putative helohyids Pakkokuhyus and Progenitohyus are transferred to the family Dichobunidae by Ducrocq (2019).^[30]

Name	Novelty	Status	Authors	Age	Type locality	Country	Notes	Images
Elaphurus davidianus predavidianus[31]	Subsp. nov	In press	Dong et al.	Early Pleistocene	Nihewan Formation	China	A subspecies of the Père David's deer.
Kubanochoerus parvus[32]	Sp. nov	In press	Hou & Deng	Latest Middle or earliest Late Miocene		China	A member of the family Suidae belonging to the subfamily Listriodontinae.
Megaloceros matritensis[33]	Sp. nov	In press	Van der Made	Middle Pleistocene		Spain

Cetaceans

• A study on the variation in feeding behavior of fossil toothed whales with extremely long rostra will be published by McCurry & Pyenson (2019).^[34]
• Redescription of the holotype and referred specimen of Prosqualodon australis from the Miocene Gaiman Formation (Argentina) and a study on the phylogenetic relationships of this species will be published by Gaetán (2019).^[35]
• Isolated teeth resembling tooth taxon Phococetus vasconum are described from the Pungo River Formation (North Carolina, United States) by Boessenecker (2019), who also notes their similarities to the teeth of Inticetus vertizi, and suggests that Phococetus may be an Inticetus-like, large heterodont toothed whale.^[36]
• A study on the anatomy and phylogenetic relationships of Phoberodon arctirostris will be published by Viglino et al. (2019).^[37]

Name	Novelty	Status	Authors	Age	Type locality	Country	Notes	Images
Niparajacetus[38]	Gen. et sp. nov	In press	Solis-Añorve, González-Barba & Hernández-Rivera	Oligocene (Chattian)	El Cien Formation	Mexico	A baleen whale belonging to the superfamily Aetiocetoidea. The type species is N. palmadentis

Carnivorans

• A study on the age of dog remains from the Koster Site and Stilwell II site in Illinois, dated to between 10,190 and 9,630 cal BP, is published by Perri et al. (2019), who interpret these remains as representing the earliest confirmed evidence of domestic dogs in the Americas and the earliest confirmed individual dog burials anywhere in the world.^[39]
• A study on the diet of Agriotherium africanum from the South African fossil site of Langebaanweg, as indicated by tooth microwear, will be published by Stynder et al. (2019).^[40]
• The first fossil of a member of the genus Agriotherium from Italy will be described by Bellucci et al. (2019).^[41]
• A study aiming to decipher the various factors influencing the isotopic composition of bones of a potentially omnivorous species like cave bear, as well examining how likely are the different interpretations of the palaeodiet of the Romanian cave bears in comparison with the rest of the European cave bears, will be published by Bocherens (2019).^[42]
• A study on the cranial and mandibular morphology of Ursus deningeri compared to other bear species, and on its implications for inferring the palaeobiology of this species, will be published by van Heteren et al. (2019).^[43]
• A study on the tooth-root morphology of maxillary teeth of living bears, and on its implications for inferring the diet and feeding behaviour of the cave bears, will be published by Pérez-Ramos et al. (2019).^[44]
• A study on the feedings preferences and timing of extinction of cave bears in Mediterranean Europe based on data from two Paleolithic cave bear sites in northeastern Italy (Paina Cave and Trene Cave) will be published by Terlato et al. (2019).^[45]
• A study on the timing and causes of extinction of cave bears in the Alps will be published by Döppes et al. (2019).^[46]
• A study on the morphometric and morphotypic variability of upper incisors of the Middle and Late Pleistocene cave bears from the Caucasus and Ural Mountains will be published by Baryshnikov, Gimranov & Kosintsev (2019).^[47]
• A revision of the systematics of fossil hog-nosed skunks from Argentina will be published by Schiaffini & Juan (2019).^[48]
• A study on the bone histology of Nanophoca vitulinoides will be published by Dewaele et al. (2019).^[49]
• A fossil specimen assigned to the genus Homiphoca will be described from the Pliocene of Spain by Rahmat et al. (2019), representing the first European record ot this genus.^[50]
• A study evaluating the ability of the extinct giant fossa to hunt large lemurs will be published by Meador et al. (2019).^[51]

Name	Novelty	Status	Authors	Age	Type locality	Country	Notes	Images
Leptofelis[52]	Gen. et comb. nov	In press	Salesa et al.	Late Miocene		Spain	A member of the family Felidae belonging to the subfamily Felinae; a new genus for "Styriofelis" vallesiensis Salesa et al. (2012).
Panthera balamoides[53]	Sp. nov	In press	Stinnesbeck et al.	Pleistocene		Mexico	A species of Panthera.

Rodents

• A study on the enamel microstructure of the incisors of caviomorph rodents from the Eocene and Oligocene localities in Peruvian Amazon will be published by Boivin et al. (2019).^[54]
• A study on the morphology of the limb bones of caviomorph rodents from the Miocene Santa Cruz Formation of Patagonia, and on its implications for interpreting the use of substrate by these rodents, is published by Muñoz et al. (2019).^[55]
• A study on the enamel microstructure of the incisors of the hystricognaths and anomaluroids from the Oligocene of Western Sahara will be published by Marivaux et al. (2019).^[56]
• A study on the morphology of the lower deciduous premolars of extant and fossil caviomorph rodents and its implications for inferring the phylogenetic relationships of fossil caviomorphs will be published by Verzi, Olivares & Morgan (2019), who argue that Eocene genus Cachiyacuy might be a stem-octodontoid.^[57]
• A study on the anatomy and phylogenetic relationships of the dolichotine caviid rodent Prodolichotis prisca is published by Madozzo-Jaén (2019).^[58]
• A study on the anatomy and phylogenetic relationships of Tetrastylus walteri, based on data from the holotype and new specimens, will be published by Kerber et al. (2019), who consider this taxon to be a valid species.^[59]
• Description of a well-preserved skull of Telicomys giganteus, estimation of body mass and analysis of the bite mechanics of this species will be published by Rinderknecht et al. (2019).^[60]
• A study on the morphology of the ossicles of the extinct neoepiblemid rodent Perimys and of extant and extinct caviomorph rodents in general is published by Kerber & Sánchez-Villagra (2019).^[61]
• A study on the morphology of upper molars of extant and fossils members of Chinchilloidea, and on the phylogenetic relationships of members of this group, is published by Rasia & Candela (2019).^[62]
• Description of a new specimen of Litodontomys from the Deseadan of Argentina and a study on the phylogenetic relationships of this taxon will be published by Busker & Dozo (2019).^[63]
• Nine virtual skull endocasts of members of the family Ischyromyidae (members of the genera Pseudotomus, Notoparamys, Reithroparamys and Rapamys) are reconstructed by Bertrand et al. (2019).^[64]

Name	Novelty	Status	Authors	Age	Type locality	Country	Notes	Images
Cardiatherium calingastaense[65]	Sp. nov	In press	Cerdeño et al.	Late Miocene	Las Flores Formation	Argentina	A relative of the capybara.

Primates

• A study on the variability of adapiform humeral elements from Quercy collections will be published by Marigó, Verrière & Godinot (2019).^[66]
• A study on the evolutionary history of the New World monkeys (especially on the evolution of their body mass, changes of the mean latitude of their geographic range, and species diversification rates), based on data from extant and fossil species, will be published by Silvestro et al. (2019).^[67]

General paleoanthropology

• A review of anatomical differences between extant ape and human foot bones, as well as a review of the hominin foot fossil record, will be published by DeSilva et al. (2019), who also conduct a cladistics analysis on hominin foot fossils.^[68]
• A study on the diversity and the environments of hominins in the early Pleistocene of the Omo-Turkana Basin (East Africa) is published by Bobe & Carvalho (2019).^[69]
• A study comparing ages at death of hominin specimens from the early Pleistocene sites of Drimolen and Swartkrans, and on their implications for inferring mechanisms of hominin skeletal accumulation at these sites, is published by Riga et al. (2019).^[70]
• A revision of Middle Pleistocene faunal record from archeological sites in Africa, and a study on its implications for inferring potential links between hominin subsistence behavior and the Early Stone Age/Middle Stone Age technological turnover, will be published by Smith et al. (2019).^[71]
• A study on the age of hominin fossils representing the genera Australopithecus, Paranthropus and Homo from the Cradle of Humankind in South Africa is published by Pickering et al. (2019).^[72]
• A study on cross-sectional geometric properties of three humeri of specimens of Paranthropus boisei, and on their implications for inferring the function of upper limbs of P. boisei, is published by Lague et al. (2019).^[73]
• A study on the anatomy of the braincase of the Australopithecus specimen Stw 573 ("Little Foot") , and on its significance for inferring the course of the evolution of the hominin brain, is published by Beaudet et al. (2019).^[74]
• A study on the anatomy of the bony labyrinth of the Australopithecus specimen Stw 573 will be published by Beaudet et al. (2019).^[75]
• New fossils attributable to the species Australopithecus anamensis will be described from Kanapoi (Kenya) by Ward, Plavcan & Manthi (2019).^[76]
• A perspective on the validity of the species name Australopithecus prometheus and its availability for use will be published by Berger & Hawks (2019).^[77]
• A study comparing variation of anatomical traits in Dmanisi hominins with that in fossil hominins and modern Homo sapiens from Africa, and aiming to evaluate the number of hominin taxa present in Dmanisi, will be published by Rightmire, Margvelashvili & Lordkipanidze (2019).^[78]
• A study on the morphology of hominin teeth from the Middle Pleistocene sites of Arago (southeast France) and Sima de los Huesos (northern Spain), as well as on their implications for inferring how the settlement of Europe by hominins in the Middle Pleistocene occurred, will be published by Bermúdez de Castro et al. (2019).^[79]
• A study on the climate in the areas of the Iberian Peninsula inhabited by hominins during the Early Pleistocene, as indicated by data from macroflora and pollen assemblages, will be published by Altolaguirre et al. (2019).^[80]
• A study on the shape variation of the dental arcades in Middle Pleistocene hominin fossils will be published by Stelzer et al. (2019).^[81]
• A study on the taxonomical affinities of hominin teeth from the Mousterian level of Portel‐Ouest (Ariège, France), dated to 44,000 ka, and on the paleobiology of the hominin group from this site, will be published by Becam & Chevalier (2019).^[82]
• Evidence of Levallois technology from the lithic assemblage of the Guanyindong Cave site in southwest China, dated to approximately 170,000–80,000 years ago, is presented by Hu et al. (2019).^[83]
• A study on demographic models that could explain presence and variations of Neanderthal portions of the genome carried by non-African individuals today will be published by Villanea & Schraiber (2019), who interpret their findings as indicative of multiple episodes of interbreeding between Neanderthal and modern humans.^[84]
• A review of evidence for recovery from serious illness and injury by Neanderthals will be published by Spikins et al. (2019), who argue that Neanderthal healthcare was widespread, knowledgeable and effective in reducing mortality risk, and that healthcare can be seen as part of several adaptations which allowed Neanderthals to survive in unique environments where they lived, rather than simply a cultural trait.^[85]
• A study on the biological foundations of modern human endocranial shape, as indicated by paleoanthropological data from Neanderthal fossils and neuroimaging and genomic data from present-day humans, is published by Gunz et al. (2019).^[86]
• A study on the history of dispersal of people into and within the Americas, as indicated by data from Native American Y chromosomes, is published by Pinotti et al. (2019).^[87]

New taxa

Name	Novelty	Status	Authors	Age	Type locality	Country	Notes	Images
Bownomomys[88]	Gen. et comb. nov	In press	Morse et al.	Eocene		United States ( Wyoming)	An early primate. Genus includes "Teilhardina" americana Bown (1976) and "Teilhardina" crassidens Bown & Rose (1987).

Other eutherians

• Description of the brain, inner ear, sinuses and endocranial nerves and vessels of the periptychid Carsioptychus coarctatus will be published by Cameron et al. (2019).^[89]
• Description of new cranial remains of the proterotheriid Neolicaphrium recens from the Pleistocene Sopas Formation (Uruguay), and a study on the diet of this species as indicated by tooth microwear, will be published by Corona, Ubilla & Perea (2019).^[90]
• First skeletal remains of Notostylops murinus recovered from middle Eocene levels of the Sarmiento Formation (Argentina) are described by Lorente, Gelfo & López (2019).^[91]
• A study on the braincase anatomy in mesotheriid notoungulates will be published by Fernández-Monescillo et al. (2019).^[92]
• A revision and a study on the phylogenetic relationships of the Friasian and Mayoan interatheriine interatheriid notoungulates from southern Argentina and Chile will be published by Vera et al. (2019).^[93]
• A study comparing the teeth of Prionogale to the teeth of subadult hyaenodonts and carnivorans, as well as evaluating the phylogenetic affinities of Prionogale and Namasector within Hyaenodonta, will be published by Borths & Stevens (2019), who reinterpret the type specimen of Prionogale breviceps and some of the paratype materials as preserving deciduous teeth which were previously interpreted as permanent dentition.^[94]
• Description of a partial skeleton of a medium-sized carnivorous mammal (classified as a machaeroidine oxyaenid) from the Uinta Formation (Utah, United States) and a study on machaeroidine locomotor habits and on phylogenetic affinities of machaeroidines and "creodonts" in general will be published by Zack (2019).^[95]

Name	Novelty	Status	Authors	Age	Type locality	Country	Notes	Images
Wyonycteris kingi[96]	Sp. nov	In press	Hooker	Paleogene	Woolwich Formation	United Kingdom	A member of the family Nyctitheriidae.

Other mammals

• A study on teeth development and replacement in Jurassic euharamiyidan mammals from the Yanliao Biota (China) will be published by Mao et al. (2019).^[97]
• A study on the anatomy of the petrosal of Borealestes will be published by Panciroli, Schultz & Luo (2019), who also generate an endocast of the inner ear of Borealestes.^[98]
• A revision of the teeth and mandibular fossils of members of the genus Docodon from Yale Quarry 9 at the Como Bluff site in the Upper Jurassic Morrison Formation will be published by Schultz, Bhullar & Luo (2019), who argue that the fossils from that quarry represent only one species, Docodon victor.^[99]
• Description of new dental and dentary specimens of Reigitherium from the Upper Cretaceous La Colonia Formation (Argentina) and a study on the phylogenetic relationships of this taxon will be published by Harper, Parras & Rougier (2019).^[100]

References

1. Alexandria L. Brannick; Gregory P. Wilson (2019). "New specimens of the Late Cretaceous metatherian Eodelphis and the evolution of hard-object feeding in the Stagodontidae". Journal of Mammalian Evolution. in press. doi:10.1007/s10914-018-9451-z.
2. Manuela Cascini; Kieren J. Mitchell; Alan Cooper; Matthew J. Phillips (2019). "Reconstructing the evolution of giant extinct kangaroos: comparing the utility of DNA, morphology, and total evidence". Systematic Biology. in press. doi:10.1093/sysbio/syy080. PMID 30481358.
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4. Francisco J. Goin; Emma C. Vieytes; Javier N. Gelfo; Laura Chornogubsky; Ana N. Zimicz; Marcelo A. Reguero (2019). "New metatherian mammal from the early Eocene of Antarctica". Journal of Mammalian Evolution. in press. doi:10.1007/s10914-018-9449-6.
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12. Pavel Gol’din; Oleksandr M. Kovalchuk; Tatiana Krakhmalnaya (2019). "The first record of Sirenia (Mammalia) from the early Oligocene of the Paratethys". Historical Biology: An International Journal of Paleobiology. in press. doi:10.1080/08912963.2018.1454444.
13. George E. Konidaris; George D. Koufos (2019). "Late Miocene proboscideans from Samos Island (Greece) revisited: new specimens from old collections". PalZ. in press. doi:10.1007/s12542-018-0432-6.
14. Shi-Qi Wang; Xue-Ping Ji; Tao Deng; Li-Ya Fu; Jia-Hua Zhang; Chun-Xiao Li; Zi-Ling He (2019). "Yunnan, a refuge for trilophodont proboscideans during the late Miocene aridification of East Asia". Palaeogeography, Palaeoclimatology, Palaeoecology. 515: 162–171. doi:10.1016/j.palaeo.2017.07.034.
15. Dimila Mothé; Marco P. Ferretti; Leonardo S. Avilla (2019). "Running Over the Same Old Ground: Stegomastodon Never Roamed South America". Journal of Mammalian Evolution. in press. doi:10.1007/s10914-017-9392-y.
16. Gregg F. Gunnell; Fredrick K. Manthi (2019). "Pliocene bats (Chiroptera) from Kanapoi, Turkana Basin, Kenya". Journal of Human Evolution. in press. doi:10.1016/j.jhevol.2018.01.001. PMID 29628118.
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