2022 articles
Fish; Agnatha, Thelodonti, Placoderm, Acanthodians, Chondrichthyes, Fish, Crossopterygians, Lungfish, Coelocanths, Fish Ichnology, Fish burrows, Fish Coprolites
Amphibians; Temnospondyli ("Labyrinthodons", Early Amphibians), Reptilosauromorph, Lepospondyli, Amphibians
Reptilia; Lower Reptiles (“Anapsids”), Turtles, Diapsida (Lower Lepidosauromorphs), Lizards and snakes, Sphenodonts, Ichthyosaurs, Sauropterygians and Placodontians, Lower Archosauromorpha, “Thecodontia, Pseudosuchia", Crocodilia (Mesosuchia, Eusuchia), Pterosaurs
Dinosaurs; Dinosauromorpha Theropoda, Sauropodomorpha (Sauropoda, Prosauropoda), Ornithischia, Armored dinosaurs, Dinosaurs in general, Aves (Mesozoic)
Synapsids; Pelycosaurs, Theriodontia, Deinocephalia, Mammals (Mesozoic)
Eggs, Ichnology, Palaeopathologies, Gastroliths, Stomach contents, Coprolites,Cannibalism, Regurgitalite, Fire (Mesozoic, Paleozoic), Beetle Borrings, Toothmarks, Histology, Soft tissue, Bonebed, Taphonomy, Burrows, DNA (and Blood), (suppose) Tertiary Dinosaurs, Venomous, Extinction
Genus: Nova (1)
Tujiaaspis GAI, LI, FERRON, KEATING, WANG, DONOGHUE & ZHU, 2022
Species: Nova (1)
Tujiaaspis vividus GAI, LI, FERRON, KEATING, WANG, DONOGHUE & ZHU, 2022
Ferron, H. G., and Donoghue, P. C. J., 2022, Evoutionary analysis of swimming a speed in early vertebrates challenges the 'New Head Hypothesis': Communications Biology, published online, 8pp. Link to pdf
Gai, Z., Li, Q., Ferron, H. G., Keating, J. N., Wang, J., Donoghue, P. C. J., and Zhu, M., 2022, Galeaspid anatomy and the origin of vertebrate paired appendages: Nature, v. 609, p. 959-963. (Tujiaaspis vividus)
Gai, Z., Zhu, M,. Ahlberg, P. E., and Donoghue, P. C. J., 2022, The evolution of the spiracular region from jawless fishes to tetrapods; Frontiers, orignal research, v. 10 article 887172, 17pp. Link to pdf
Märss, T., Wilson, M. V. H., and Viljus, M., 2022, Endolymphatic structures in headshields of the osteostracan genus Tremataspis (Agnatha) from the Silurian of Estonia: Estonian Journal of Earth Sciences, v. 71, n. 3, p. 135-156. Link to pdf
Meng, Y.-Y, Zhu, M., Li, Q., and Gai, Z.-K., 2022, new data on the cranial anatomy of Pterogonaspis (Tridensaspidae, Galeaspida) from the lower Devonian of Yunnan, China and its evolutionary implications: The Anatomical Record, 14pp. Link to pdf
Wilk, O., Szrek, P., and Ginter, M., 2022, Environmental differentiation reflected by vertebrate vaunal diversity in the Lower Devonian of the Holy Cross Mountains, Poland: Geological Quarterly, v. 66, n. 35, 9pp. Link to pdf
Ferron, H. G., and Donoghue, P. C. J., 2022, Evoutionary analysis of swimming a speed in early vertebrates challenges the 'New Head Hypothesis': Communications Biology, published online, 8pp. Link to pdf
Wilk, O., Szrek, P., and Ginter, M., 2022, Environmental differentiation reflected by vertebrate vaunal diversity in the Lower Devonian of the Holy Cross Mountains, Poland: Geological Quarterly, v. 66, n. 35, 9pp. Link to pdf
Genus: Nova (1)
Amazichthys JOBBINS, RUCKLIN, FERRON & KLUG, 2022
Species: Nova (1)
Amazichthys trinajsticae JOBBINS, RUCKLIN, FERRON & KLUG, 2022
Charest, F., Johanson, Z., and Cloutier, R., 2022, The preorbital depresson and recess of antiarch placodersm (jawed stem-gnathostomes) revisited from an ontogenetic (saltatory) point of view: Journal of Vertebrate Paleontology, e2116334, v. 42, n. 1, 20pp.
Ferron, H. G., and Donoghue, P. C. J., 2022, Evoutionary analysis of swimming a speed in early vertebrates challenges the 'New Head Hypothesis': Communications Biology, published online, 8pp. Link to pdf
Jobbins, M., Rucklin, M., Ferron, H. G., and Klug, C., 2022, A new seleonsteid placoderm from the Late Devonian of the eastern Anti-Atlas (Morocco) with preserved body outline and its ecomorphology: Frontiers in Ecology and Evolution, 10:060158, 20pp. (Amazichthys trinajsticae) Link to pdf
Plax, D. P., and Newman, M. J., 2022, Placoderm remains from the Middle Devonian of Belarus: In: Fossil Record 8, edited by Lucas, S G., Blodgett, R. B., Lichtig, A.., and Hunt, A. P., New Mexico Museum of Natural History & Science, Bulletin 90, p. 331-337.
Trinajstic, K,. Long, J. A., Sanchez, S., Boisvert, C A., Snitting, D., Tafforeau, P., Dupret, V,. Clement, A. M., Currie, P. D., Roelofs, B., Bevitt, J. J,. Lee, M. S. Y,. and Ahlberg, P. E., 2022, Exceptional preservation of organs in Devonian placoderms from the Gogo lagerstätte: Science, v. 377, p. 1311-1314.
Wilk, O., Szrek, P., and Ginter, M., 2022, Environmental differentiation reflected by vertebrate vaunal diversity in the Lower Devonian of the Holy Cross Mountains, Poland: Geological Quarterly, v. 66, n. 35, 9pp. Link to pdf
Anonymous, 2022, The rise of fishes illuminated by discovery of fossil treasure hoard: Phys Org, published online, 3pp. Link to pdf
Ferron, H. G., Ballell, A., Botella, H., and Martinez-Perez, C., 2022, Biomechanics of Machaeracanthus pectoral fin spines provide evidence for distinctive spine function and lifestyle among early Chondrichthyans: Journal of Vertebrate Paleontology, v. 41, n. 6, e2090260, 4pp.
Gai, Z., Zhu, M,. Ahlberg, P. E., and Donoghue, P. C. J., 2022, The evolution of the spiracular region from jawless fishes to tetrapods; Frontiers, orignal research, v. 10 article 887172, 17pp. Link to pdf
Schnetz, L., Butler, R. J., Coates, M. I., and Sansom, I. J., 2022, Skeletal and soft tissue completeness of the acanthodian fossil record: Palaeontology, e12616 published online, 27pp. Link to pdf
Wilk, O., Szrek, P., and Ginter, M., 2022, Environmental differentiation reflected by vertebrate vaunal diversity in the Lower Devonian of the Holy Cross Mountains, Poland: Geological Quarterly, v. 66, n. 35, 9pp. Link to pdf
Speices: Nova (2)
Parvodus huizodus WEN, KRIWET, ZHANG, BENTON, DUFFIN, HUANG, ZHOU, HU & MA, 2022
Protoxynotus maryrmelnhofi FEICHTINGER, GUINOT, STRAUBE, HARZHAUSER, AUER, CORIC, KRANNER, SCHELLHORN, LADWIG, THEIS & POLLERSPOCK, 2022
Allen, J. G., and Shimada, K., 2022, Fossil vertebrates from a unique marine bonebed of the Upper Cretaceous Smoky Hill Chalk, Western Kansas, U.S. A., new insights into the Paleoecology of the Niobrara Formation: Journal of Vertebrate Paleontology, v. 41, n. 6, e2066999, 22pp.
Amalfitano, J., Dalla Vecchia, F. M,. Carnevale, G., Fornaciari, E., Roghi, G., and Giuberti, L., 2022, Morphology and paleobiology of the Late Cretaceous large-sized shark Cretodus crassidens (Dixon, 1850) (Neoselachii; Lamniformes): Journal of Paleontology, published online, 23pp. Link to pdf
Bardet, N., Guinot, G., Yilmaz, I. O., and Hosgor, I., 2022, New marine vertebrates (elasmobranchs, actinopterygians, reptiles) from the Upper Cretaceous Arabic Platform of SE Turkey: Comptes Rendus Palevol, v. 21, p. 837-845. Link to pdf
Brand, N A., Heckert, A. B., Sanchez, I., Foster, J. R., Hunt-Foster, R. K., and Eberle, J. J, 2022, New Late Cretaceous microvertebrate assemblage from the Campania-Maastrichtian Williams Fork Formation, northwestern Colorado, USA, and its paleoenvironmental implications: Acta Palaeontologica Polonica, v. 67, n 3, p. 579-600. Link to pdf
Feichtinger, I., Guinot, G., Straube, N., Harzhauser, M., Auer, G., Coric, S., Kranner, M., Schellhorn, S., Ladwig, J, Theis, D., and Pollerspock, J., 2022, Revision of the Cretaceous shark Protoxynotus (Chondrichthyes, Squaliformes) and early evolution of somnosid sharks: Cretaceous Research, v. 140, 105331, 11pp. (Protoxynotus maryrmelnhofi)
Greif, M., Ferron, H. G., and Klug, C., 2022, A new Meckel's cartilage from the Devonian Hangenberg black shale in Morocco and its position in chondrichthyan jaw morphospace: PeerJ 10:e14418 http://doi.org/10.7717/perj.14418, 20pp. Link to pdf
Hodnett, J.-P. M., Santucci, V. L., and Tweet, J. S., 2022, The occurrence of the Middle Mississippian Carcharopsis wortheni (Chondrichthyes, Euselachii) at Death Valley National Park, California: In: Fossil Record 8, edited by Lucas, S G., Blodgett, R. B., Lichtig, A.., and Hunt, A. P., New Mexico Museum of Natural History & Science, Bulletin 90, p. 177-181.
Hodnett, J.-P. M., Tweet, J. S., and Santucci, V. L., 2022, The occurrence of fossil cartilaginous fishes (Chondrichthyes) within the Parks and Mounuments of the National Park Service: In: Fossil Record 8, edited by Lucas, S G., Blodgett, R. B., Lichtig, A.., and Hunt, A. P., New Mexico Museum of Natural History & Science, Bulletin 90, p. 183-208.
Kanno, S., Tokumaru, S., Nakagaki, S., Nakajima, Y., Misaki, A., Hikida, Y., and Sato, T., 2022, Santonian-Campanian neoselachian faunas of the Upper Cretaceous Yezo Group in Nakagawa Town, Hokkaido, Japan: Cretaceous Research, v. 133, 14pp.
Moyano-Pax, D., Rodzalla, S., Agnolin, F., Vera, E., Coronel, M. D., Varela, A. N., Gomez-Dacal, A. R., Aranciaga-Rolando, A. M., D-Angelo, J., Perez-loinaze, V., Richiano, S., Chimento, N., Motta, M. J., Sterli, J., Manabe, M., Tsuihiji, T., Isasi, M. P., Poire, D. G., and Novas, F. E., 2022, The uppermost Cretaceous continental deposits at the southern end of Patagonia, the Chorrillo Formation case study (Austral-Magallanes Basin): Sedimentology, fossil contenent and reginoal implications: Cretaceous Research, v. 130, 105059, 30pp.
Manitkoon, S., Deeseri, U., Lauprasert, K., Warapeang, P., Nonsrirach, T., Nilpanapan, A., Wongko, K., and Chanthasit, P., 2022, Fossil assemblage from Khok Pha Suam Locality of northeastern, Thailand: an oveview of vertebrate diversity from the Early Cretaceous Khok Kruat Formation (Aptian-Albian): Fossil Record, v. 25, n. 1, p. 83-98. Link to pdf
Pochat-Cottiloux, Y., Allain, R., and Lasseron, M., 2022, Microvertebrate fauna from Gadoufaoua (Niger, Aptian, Early Cretaceous): Comptes Rendus Palevol, v. 21,n . 41, p. 901-926. Link to pdf
Reguero, M. A., Gasparini, Z., Olivero, E. B., Coria, R. A., Fernandez, M. S., O'Gorman, J. P., Gouiric-Cavalli, S., Hospitaleche, C. A., Bona, P., Iglesias, A., Gelfo, J. N., Raffi, M. A., Moly, J. J., Santillana, S. N., and Cardenas, M., 2022, Late Campanian-Early Maastrichtian vertebrates from the James Ross Basin, West Antarctica: updated synthesis, biostratigraphy, and paleobiogeography: Anais da Academia Brasileira de Ciencias, published online, 34pp. Link to pdf
Stumpf, S., Meng, S., and Kriwet, J, 2022, Diversity patterns of Late Jurassic Chondrichthyans: new insights from a historically collected hybodontiform tooth assemblage from Poland: Diversity, v. 14, 85, published online, 18pp. Link to pdf
Wen, W., Kriwet, J., Zhang, Q., Benton, M. J., Duffin, C. J,. Huang, J., Zhou, C., Hu, S., and Ma, Z., 2022, Hybodontiform shark remains (Chondrichthes, Elasmobranchii) from the lower Triassic of Yunnan Province, china, wiht comments on hybodontiform diverity across the PTB: Journal of Vertebrate Paleontology, e2108712, v. 42, n. 1, 15pp. (Parvodus huizodus)
Wilk, O., Szrek, P., and Ginter, M., 2022, Environmental differentiation reflected by vertebrate vaunal diversity in the Lower Devonian of the Holy Cross Mountains, Poland: Geological Quarterly, v. 66, n. 35, 9pp. Link to pdf
Genus: Nova (13)
Apuliadercetis DIAZ-CRUZ, ALVARADO-ORTEGA & CANTALICE, 2022
Calypsoichthys ARGYRIOU, ALEXOPOULOS, CARRILLO-BRICENO & CAVIN, 2022
Capassopiscis TAVERNE, 2022
Francischanos RIBEIRO, BOCKMANN & POY7ATO-ARIZA, 2022
Harenaichthys KIM, LEE, PARK, LEE, WINKLER, JACOBS & BARSBOLD, 2022
Italopterus SHEN & ARRATIA, 2022
Kaykay GOUIRIC-CAVALLI & ARRATIA, 2022
Lophionotus GALLO, de PAIVA, PETRA & BRITO, 2022
Nusaviichthys ALVARADO-ORTEGA & ALVES, 2022
Palaeoneiros GILES, FEILICH, WARNOCK, PIERCE & FRIEDMAN, 2022
Protoholocentrus SCHWARZHANS & JAGT, 2022
Seinstedtia SCHULTZE, ARRATIA, HAUSCHKE & WILDE, 2022
Spinascutichthys MURRAY, CHIDA & HOLMES, 2022
Species: Nova (18)
Acipensor anisiferos HILTON & GRANDE, 2022
Acipenser praeparatorum HILTON & GRANDE, 2022
Apuliadercetis gonzalezae DIAZ-CRUZ, ALVARADO-ORTEGA & CANTALICE, 2022
Calypsoichthys pavlakiensis ARGYRIOU, ALEXOPOULOS, CARRILLO-BRICENO & CAVIN, 2022
Capassopiscis pankowskii TAVERNE, 2022
Centroberyx vaalsensis SCHWARZHANS & JAGT, 2022
Harenaichthys lui KIM, LEE, PARK, LEE, WINKLER, JACOBS & BARSBOLD, 2022
Ichthyotringa pindica ARGYRIOU, ALEXOPOULOS, CARRILLO-BRICENO & CAVIN, 2022
Kaykay lafken GOUIRIC-CAVALLI & ARRATIA, 2022
Lophionotus parnaibbensis GALLO, de PAIVA, PETRA & BRITO, 2022
Notogoneus maarvelis GRANDE, WILSON, REYES, BURYAK WOLFE & SIVER, 2022
Nusaviichthys nerivelaia ALVARADO-ORTEGA & ALVES, 2022
Palaeoneiros clackorum GILES, FEILICH, WARNOCK, PIERCE & FRIEDMAN, 2022
Protoholocentrus janjanssensi SCHWARZHANS & JAGT, 2022
Saurichthys taotie FANG, SUN, JI & WU, 2022
Seinstedtia parva SCHULTZE, ARRATIA, HAUSCHKE & WILDE, 2022
Sillaginocentrus rispus SCHWARZHANS & JAGT, 2022
Spinascutichthys pankowskiae MURRAY, CHIDA & HOLMES, 2022
Teffichthys elegans YUAN, XU, DAI, WANG, LIU, JIA, MIAO & SONG, 2022
Synonym: Nova (4)
Francischanos moraesi (SILVA-SANTOS, 1955) RIBEIRO, BOCKMANN & POY7ATO-ARIZA, 2022
= Dastilbe moraesi SILVA-SANTOS, 1955
Italopterus magnificus (TINTORI & SASSI, 1987) SHEN & ARRATIA, 2022
= Thoracopterus magnificus TINTORI & SASSI, 1987
Italopterus martinisi (TINTORI & SASSI, 1992) SHEN & ARRATIA, 2022
= Thoracopterus martinisi TINTORI & SASSI, 1992
Potanicnthys wushaensis (TINTORI, SUN, LOMBARDO, JIANG, JI & MOTANI, 2012) SHEN & ARRATIA, 2022
= Thoracopterus wushaensis TINTORI, SUN, LOMBARDO, JIANG, JI & MOTANI, 2012
= Potanichthys xigyiensi XU, ZHAO, GAO & WU, 2012
Allen, J. G., and Shimada, K., 2022, Fossil vertebrates from a unique marine bonebed of the Upper Cretaceous Smoky Hill Chalk, Western Kansas, U.S. A., new insights into the Paleoecology of the Niobrara Formation: Journal of Vertebrate Paleontology, v. 41, n. 6, e2066999, 22pp.
Alvarado-Ortega, J., and Alves, Y. M., 2022, Nusaviichthys nerivelai gen. et sp. nov., an Albian crossognathiform fish form the Tlayua lagerstatte, Mexico: Cretaceous Research, v. 135, 105189, 21pp. (Nusaviichthys nerivelai)
Alvarado-Ortega, J., and Porras-Muzquiz, H. G., 2022, On the presence of Xiphactinus (Teleostei, Ichthyodeciformes) in the Coniacian-Campanian marie deposits of the Piedritas site, Coahuila, northern Mexico: Revista Mexicana deCiencias Geologicas, v. 39, n. 3, p. 142-150. Link to pdf
Anonymous, 2022, Triassic revolution: animals grew back faster and smarter after mass extinction: Phys Org, published online, 3pp. Link to pdf
Argyriou, T., Alexopoulos, A., Carrillo-Briceno, J. D., and Cavin, 2022, A fossil assemblage from the mid-late Maastrichtian of Gavdos Island, Greece, provides insights into the pre-extinction pelagic ichthyofaunas of the Tethys: Public Library of Science (PLOS), One, v. 17, n. 4, 31 pp. (Calypsoichthys pavlakiensis, Ichthyotringa pindica) Link to pdf
Bakaev, A. S., 2022, On the revision of the Permian Ray-Finned fishes of European Russia. Part 1: Palaeontological Journal, v. 56, n. 5, p. 564-573. Link to pdf
Bardet, N., Guinot, G., Yilmaz, I. O., and Hosgor, I., 2022, New marine vertebrates (elasmobranchs, actinopterygians, reptiles) from the Upper Cretaceous Arabic Platform of SE Turkey: Comptes Rendus Palevol, v. 21, p. 837-845. Link to pdf
Benton, M. J., and Wu, F,. 2022, Triassic revolution: Frontiers in Earth Science, v. 10, article 89954, 119pp. Link to pdf
Brand, N A., Heckert, A. B., Sanchez, I., Foster, J. R., Hunt-Foster, R. K., and Eberle, J. J, 2022, New Late Cretaceous microvertebrate assemblage from the Campania-Maastrichtian Williams Fork Formation, northwestern Colorado, USA, and its paleoenvironmental implications: Acta Palaeontologica Polonica, v. 67, n 3, p. 579-600. Link to pdf
Cooper, S. L. A., Marson, K. J., Smith, R. E., and Martill, D., 2022, Contrasting preservation in pcnodont fishes reveals first record of regurgitalites from the Upper Crtaceous (Maastrichtian) Moroccan phosphate deposits: Cretaceous Research, v. 131, 105111, 15pp.
Copper, S. L. A., and Maxwell, E. E., 2022, Revision of the pachycormid fish Saurostomus esocinus Agassiz from the Early Jurassic (Toarcian) of Europe, with new insight into the origins of suspension-feeding in Pachycormidae: Papers in Palaeontology, e1467, 47pp.
Diaz-Cruz, J. A., Alvarado-Orgega, J,. Cantalice, K. M., 2022, Apuliadercetis gonzalezae sp. nov., a North American Campanina dercetid fish (Teleostei, Aulopiformes) from Tzimol, Chiapas, Mexico: Cretaceous Research, v. 130, 105060, 17pp. (Apuliadercetis gonzalezae)
Fang, G.-Y., Sun, Y-L., Ji, C., and Wu, F.-X., 2022, First record of Saurichthys (Actinopterygii: Saurichthyidae) from the Late Triassic of eastern Paleo-Tethys: Vertebrata PalAsiatica, published online, 16pp. (Saurichthys taotie) Link to pdf
Gale, L., Hitij, T., Vicic, B., Kriznar, M., Zalohar, J., Celarc, B., and Vrabec, M., 2022, A sedimentological descritpion of the Middle Triassic vertebrate-bearign limestones from Velika planina, the Kamnik-Savinja Alps, Slovenia: Geologia Croatica, v. 75, n. 1, p. 13 pp. Link to pdf
Gallo, V., de Paiva, H. C. L., Petra, R., and Brito, P., 2022, Lophionotus parnaibbensis, sp. nov. (Semionotiformes, Semionotidae) in teh Upper Jurassic of the Parnaiba basin, northeastern Brazil: Journal of Vertebrate Paleontology, v. 41, n. 4, e1994983, 10 pp. (Lophionotus parnaibbensis)
Giles, S., Feilich, K, Warnock, R. C. M., Pierce, S. E., and Friedman, M., 2022, A Late Devonian actinopterygian suggests high lineage survivorship across the end-Devonian mass extinction: Nature Ecology and Evolution, published online, 10pp. (Palaeoneiros clackorum)
Gouiric-Cavalli, S., and Arratia, G., 2022, A new Pachycormiformes (Actinopterygii) form the Upper Jurassic of Gondwana sheds light on the evolutionary history of the group: Journal of Systematic Palaeontology, DOI: 10.1080/14772019.2022.2049382, 34pp. (Kaykay lafken)
Grande, T. C., Wilson, M. V. H., Reyes, A. V., Bueyak, S. D., Wolfe, A. P., and Siver, P. A., 2022, A new, La-te Cretaceous gonorynchiform fush in the genus Notogoneus from drill core of creater-lake deposits in a kimberlite maar, Northwest Territories, Canada:Cretaceos Research, v. 135, 105176, 19pp. (Notogoneus maarvelis)
Henderson, S., Dunne, E. M., Fasey, S. A., and Giles, S., 2022, The early diversification of ray-finned fishes (Actinopterygii): hpotheses, challenges adn future preospects: Biological Reviews, published online, 32pp. Link to pdf
Hilton, E. J., and Grande, L., 2022, Late Cretaceous sturgeons (Acipenseridae) from North America, with two new species from the Tanis site in the Hell Creek Formation of North Dakota: Journal of paleontology, published online, 29pp. (Acipenser praeparatorum, Acipensor anisiferos) Link to pdf
Kim, S.-H.,, Lee, Y.-N., Park, J,-Y., Lee, S., Winkler, D. A., Jacobs, L. L, and Barsbold, R., 2022, A new species of Osteoglossomorpha (Actinopterygii: Teleostei) from the Upper Cretaceous Nemegt Formation of Mongolia: Oaleobiological and opaleobiogeographic implications: Cretaceous Research, 135, 105214, 13 pp. (Harenaichthys lui)
Klock, C., Leuzinger, L., Santucci, R. M., Martinelli, A. G., Marconato, A., Marinho, T. S., Luz, Z., and Vennemann, T., 2022, A bone to pick: stable isotope compositions as tracers of food sources and paleoecology for notosuchians in the Brazilian Upper Cretaceous Bauru Group: Cretaceous Reserach, v. 131, 105113, 13pp.
Liston, J., and Maltese, A., 2022, The shock of unexpected conservatism: a counter-singal to pachycormid divergence? Ciencias da Terra/Earth Sciences Journal, v. 20,n. 1, p. 26-36. Link to pdf.
Manitkoon, S., Deeseri, U., Lauprasert, K., Warapeang, P., Nonsrirach, T., Nilpanapan, A., Wongko, K., and Chanthasit, P., 2022, Fossil assemblage from Khok Pha Suam Locality of northeastern, Thailand: an oveview of vertebrate diversity from the Early Cretaceous Khok Kruat Formation (Aptian-Albian): Fossil Record, v. 25, n. 1, p. 83-98. Link to pdf
Minikh, A. V., and Andrushkevich, S. O., New data on the Late Permian actnopterygian fish Toyemia Minich, a zonal genus of the Permian biostratigraphic scheme based on ichthyofauna from the Eastern Europe, Izvestiya of Saratov University, Earth Sciences, v. 22, issue 3, p. 178-184. Link to pdf
Murray, A. M., Chida and Holmes, R. B., 2022, New enchodontoid fish (Teleostei: Aulopiformes) from the Late Cretaceous of Lebanon: Journal of Vertebrate Paleontology, e210370, v. 42, n. 1, 13pp. (Spinascutichthys pankowskiae)
Novikov, I. V., Sennikov, A. G., and Uliakhin, A. V., 2022, First find of reptiles in the nearshore marine Lower Triassic of the Bolshoe Bogdo Mountain (Peri-Caspian Depression): Palaeontological Journal, v. 56, n. 5, p. 583-589. Link to pdf
Otero, R. A., 2022, Ray-finned fishes (Actinopterygii) from the Upper Jurassic (oxfordian) of the Atacama Desert, Northern Chile: PeerJ 10:e13739 DOI 10.771/peerj.13739, 26pp. Link to pdf
Otero, R. A., and Suarez, M. E., 2022, Ray-finned fishes (Actinopterygii) from the lower Maasrichtian of Algarrobo central Chile: Cretaceous Research, v. 130, 105027, 9pp.
Pochat-Cottiloux, Y., Allain, R., and Lasseron, M., 2022, Microvertebrate fauna from Gadoufaoua (Niger, Aptian, Early Cretaceous): Comptes Rendus Palevol, v. 21,n . 41, p. 901-926. Link to pdf
Reguero, M. A., Gasparini, Z., Olivero, E. B., Coria, R. A., Fernandez, M. S., O'Gorman, J. P., Gouiric-Cavalli, S., Hospitaleche, C. A., Bona, P., Iglesias, A., Gelfo, J. N., Raffi, M. A., Moly, J. J., Santillana, S. N., and Cardenas, M., 2022, Late Campanian-Early Maastrichtian vertebrates from the James Ross Basin, West Antarctica: updated synthesis, biostratigraphy, and paleobiogeography: Anais da Academia Brasileira de Ciencias, published online, 34pp. Link to pdf
Ribeiro, A. C., Bockmann, F. A., and Poyato-Arisa, F. J., 2022, Francischanos, a replacement genus for Dastilbe moraesi Silva-Santos, 1955, from the Quirico Formation, Lower Cretacous of the Sanfranciscana basin, Brazil (Ostario0hsi: Gonorynchiformes): Cretaceous Research, v. 135, 105212, 14pp. (Francischanos moraesi = Dastilbe moraesi)
Schultze, H.-P., Arratia, G., Hauschke, N., and Wilde, V., 2022, Osteichthyan Fishes from the uppermost Norian (Triassic) of the Fuchsberg near Seinstedt, Lower Saxony (Germany): Diversity, v. 14, 901, 20pp. (Seinstedtia parva) Link to pdf
Schwarzhans, W. W., and Jagt, J. W. M., 2022, Silicified bony fish otoliths from the Vaals Formaton (Lower Campanian) of Vaals-Eschberg, the Netherlands: Cretaceous Research, v. 139, 12pp. (Centroberyx vaalsensis, Protoholocentrus janjanssensi, Sillaginocentrus rispus)
Shen, C., and Arratia, G., 2022, Re-description of the sexually dimorphic peltopleuriform fish Wushaichthys exquisitus (Middle Triassic, China): taxonomic implicaitons and phylogenetic relatinoships: Journal os Systematic Palaeontology, published online, 26pp. (Potanicnthys wushaensis = Thoracopterus wushaensis, = Potanichthys xigyiensis, Italopterus magnificus = Thoracopterus magnificus, Italopterus martinisi = Thoracopterus martinisi)
Stinnesbeck, E. S., Wagele, J. w., Herder, F., Rust, J, and Stinnesbeck, W., 2022, A fish-parasitic isopod (Cymothoidae) on the pachyrhizodont Goulmimichthys roberti from the Lower Turonian (Upper Cretaceous) Vallecillo plattnkalk, NE Mexico: Cretaceous Reserach, v. 129, 105019, 9 pp.
Taverne, L., 2022, The Pantodontidae (Teleostei, Osteoglossomorpha) from the marine Cenomanina (Upper Cretaceous) of Lebanon. 4. Capassopiscis pankowskii gen. and sp. nov.: Geo-Eco-Trop, v. 46, n. 1, P, 149-148. (Capassopiscis pankowskii) Link to pdf
Wick, S. L., and Brink, A. A., 2022, A new non-marine osteichthyan fauna from the Upper Cretaceous (Campanian) of West Texas: Additional evidence for latitudinal segregation among boney fish in the Westenr Interior: Cretaceous Research, v. 139, 105299, 32pp.
Wilk, O., Szrek, P., and Ginter, M., 2022, Environmental differentiation reflected by vertebrate vaunal diversity in the Lower Devonian of the Holy Cross Mountains, Poland: Geological Quarterly, v. 66, n. 35, 9pp. Link to pdf
Won, C. G., So, K.-S., Pak, U. S., Ju, I. Y., Ri, C. J., Jon, S. H., and Ma., J., 2022, Discovery of Early Cretaceous Sinuiju biota in the Democratic People's Republic of Korea and comparison with Jehol biota in China: Cretaceous Research, v. 139, 7pp.
Yuan, Z., Xu, G.-H., Dai, X, Wang, F, Liu, X., Jia, E, Miao, L, and Song, H., 2022, A new perleidid neopterygian fish from the Early Triassic (Dienerian, Induan) of South China, with a reassessment of relationships of Perleidiformes: PeerJ 10:e13448 DOI 19.7717/peerj.13448, 31pp. (Teffichthys elegans) Link to pdf
Yu, Z., Dong, L., Huyskens, M. H., Yin, Q.-Z., Wang, Y., Deng, C., and He, H., 2022, The exceptionally preserved Early Cretaceous "Moqi Fauna" from eastern Inner Mongolia, China, and its age relatinoships with the Jehol Biota: Palaeogeography, Palaeoclimatology, Palaeoecology, v. 589, 110824, 14pp. Link to pdf
Genus: Nova (1)
Qikiqtania STEWART, LEMBERG, DALY, DAESCHLER & SHUBIN, 2022
Species: Nova (1)
Qikiqtania wakei STEWART, LEMBERG, DALY, DAESCHLER & SHUBIN, 2022
Ciudad Real, M., Mondejar Fernandez, J, Vidal, D., and Botella, H., 2022, Is Onychodontida (Osteichthyes, Sarcopterygia) monophyletic? Assessing discordant phylogenies with quantitative comaprative cladistics: Spanish Journal of Palaeontology, published online, 13pp. Link to pdf
Gai, Z., Zhu, M,. Ahlberg, P. E., and Donoghue, P. C. J., 2022, The evolution of the spiracular region from jawless fishes to tetrapods; Frontiers, orignal research, v. 10 article 887172, 17pp. Link to pdf
Jia, J., Anderson, J. S., Jiang, J.-P., Wu, W., Shubin, N. H., and Gao, K.-Q., 2022, Ossification patterns of the carpus and tarsus in salamanders and impacts of preaxial dominance on the fin-to-limb transition: Science Advances, publihsed online, 13pp. Link to pdf
Stewart, T. A., Lemberg, J. B., Daly, A., Daeschler, E. B., and Shubin, N. H., 2022, A new elpistostegalian from the Late Devonian of the Candian Arctic: Nature, published online, 6pp. (Qikiqtania wakei) Link to pdf
Genus: Nova (1)
Rinconodus PANZERI, GOUIRIC CAVALLI, CIONE & FILIPPI, 2022
Species: Nova (2)
Ceratodus guangangensis WANG, JIANG, WANG, GAO & ZHU, 2022
Rinconodus salvadori PANZERI, GOUIRIC CAVALLI, CIONE & FILIPPI, 2022
Brand, N A., Heckert, A. B., Sanchez, I., Foster, J. R., Hunt-Foster, R. K., and Eberle, J. J, 2022, New Late Cretaceous microvertebrate assemblage from teh Campania-Maastrichtian Williams Fork Formation, northwestern Colorado, USA, and its paleoenvironmental implications: Acta Palaeontologica Polonica, v. 67, n 3, p. 579-600. Link to pdf
Panzeri, K. M., Gouiric Cavalli, S., Cione, A. L., and Filippi, L. S., 2022, Description of the first Cretaceous (Santonian) articulated skeletal lungfish remains form South America, Argentina: Comptes Rendus Palevol, v. 21, n. 37, p. 815-835. (Rinconodus salvadori) Link to pdf
Panzeri, K. M., Pereyra, M. E., and Cione, A. L., 2022, The South Americna dipnoan Metaceratodus baibianorum (Dipnoi, Ceratopdontidae) from the Upper retaceous La Colonia Formation, Patagonia, Argentina: an approach from the histology of the tooth plates: Cretaceous Reserach, v. 133, 105144, 11pp.
Pochat-Cottiloux, Y., Allain, R., and Lasseron, M., 2022, Microvertebrate fauna from Gadoufaoua (Niger, Aptian, Early Cretaceous): Comptes Rendus Palevol, v. 21,n . 41, p. 901-926. Link to pdf
Wang, Z., Jiang, Z., Wang, X., Gao, J., and Zhu, S., 2022, Tooth plates of Ceratodus (Dipnoi, Ceratodontidae) from the Upper Jurassic Shaximiao Formation of Guang-an, Sichuan Province, China: Acta Geological Sinica (English Edition), v. 96, n. 3, p. 766-775. (Ceratodus guangangensis) Link to pdf
Kim, K. S., Lockley, M. G., Romilio, A., Bae, S M, and Lim, J. D., 2022, Fish swim traces from the Jindong Formation (Cretaceous) Korea: implications for lake basin ichnofacies and paleoecology, v. 131, 12pp.
Temnospondyli ("Labyrinthodons", Early Amphibians)
Genus: Nova (2)
Buettnerepton GEE & KUFNER, 2022
Termonerpeton CLACK, SMITHSON & RUTA, 2022
Species: Nova (1)
Termonerpeton makrydactulus CLACK, SMITHSON & RUTA, 2022
Synonym: Nova (1)
Buettnerepton bakeri (CASE, 1931) GEE & KUFNER, 2022
= Metoposaurus baker CASE, 1931
Anonymous, 2022, A bone cancer tumor more than 215 million years old: Phys Org, published online, 4pp. Link to pdf
Bowler, N., Sumida, S. S., and Huttenlocker, A. K., 2022, Histological evidene for dermal-endochondral co-ossification of the dorsal blades in the late Paleozoic amhibian Platyhystrix rugosus (Temnospondyli: Dissorophidae): Journal of Vertebrate Paleontology, e2144338, publihsed online, 8 pp.
Clack, J. A., Smithson, T. R., and Ruta, M., 2022, A Mississippian (ealry Carboniferous) tetrapod showing early diversification of the hind limbs: Communications Biology, published online, 10pp. (Termonerpeton makrydactulus) Link to pdf
Gai, Z., Zhu, M,. Ahlberg, P. E., and Donoghue, P. C. J., 2022, The evolution of the spiracular region from jawless fishes to tetrapods; Frontiers, orignal research, v. 10 article 887172, 17pp. Link to pdf
Gee, B. M., and Kufner, A. M., 2022, Revision of the Late Triassic metoposaurid "Metoposaurus" bakeri (Amphibia: Temnospondyli) from Texas, USA and a phylogenetic analysis of the Metoposauridae: PeerJ 10:e14065 DOI 10.7717/peerj.14065, 133pp. (Buettnerepton bakeri = Metoposaurus bakeri) Link to pdf
Gee, B. M., and Sidor, C. A., 2022, Cold capitosaurs and polar plagiosaurs: new temnospondyl records from the Upper Fremouw Formation (Middle Triassic) of Antarctica: Journal of Vertebrate Paleontology, v. 41, n. 4, e1009096, 13pp.
Jia, J., Anderson, J. S., Jiang, J.-P., Wu, W., Shubin, N. H., and Gao, K.-Q., 2022, Ossification patterns of the carpus and tarsus in salamanders and impacts of preaxial dominance on the fin-to-limb transition: Science Advances, publihsed online, 13pp. Link to pdf
Novikov, I. V., Sennikov, A. G., and Uliakhin, A. V., 2022, First find of reptiles in the nearshore marine Lower Triassic of the Bolshoe Bogdo Mountain (Peri-Caspian Depression): Palaeontological Journal, v. 56, n. 5, p. 583-589. Link to pdf
Schoch, R. R., 2022, Phylogeny of the amphibamiform temnospondyls: the relationships of taxa known by adults, larvae and neotenes: Journal of Systematic Palaeontology, v. 20,n . 1, p. 30pp.
Sues, H.-D., Olsen, P. E., Fedak, T. J., and Schoch, R. R., 2022, Diverse assemblage of Middle Triassic continental tetrapods from Newark Supergroup of Nova Scotia (Canada): Journal of Vertebrate Paleontology, v. 41, n. 4, e2-23168, 15pp.
Surmik, D., S.-M. J., Szczygielski, T., Kamaszewski, M., Kalita, S., Teschner, E. M., Drodz, D., Duda, P., Rothschild, B. M., and Konietzko-Meier, D., 2022, An insight into cancer palaeobiology: does the Mesozoic neoplasm support tissue organizaion field theory of tumorigensis? BMC Ecology and Evolution, v. 22: 143, 13pp. Link to pdf
, Whitney, M. R., Otoo, B. K. A., Angielczyk, K. D., and Pierce, S. E., 2022, Fossil bone histology reveals ancient origins for rapid juvenile growth in tetrapods: Communications Biology, published online, 9pp. Link to pdf
Species: Nova (1)
Belebey shumovi BULANOV, KOVALENKO, MacDOUBALL,GOLUBEV, FROBISH, PODURETS & BAKAEV, 2022
Abel, P., Pommery, Y,. Ford, D. P., Koyabu, D., and Werneburg, I., 2022, Skull sutures and cranial mechanics in the Permina Reptile Captorhinus aguti and the evolution of the temporal region in early amniotes: Frontiers in Ecology adn Evolution, v. 10, article 841784, 28pp. Link to pdf
Bulanov, V. V., Kovalenko, E. S., MacDougall, M. J,. Golubev, V. K., Frobisch, J., Podurets, K. M,. and Kakaev, A. S., 2022, Tooth replacement and reparative dentine formation in the middle Permian bolosaurids of European Russia: Historical Biology, DOI: 10.1080/08912063.2022.2067752, 14pp. (Belebey shumovi)
Demarco, P. N., Ferigolo, J., and Pineiro, G., 2022, Isometry in mesosaurs: implicaions for growth patterns in early amniotes: Acta Palaeontologica Polonica, v. 67, published online, 34pp. Link to pdf
Ezcurra, M. D., and Sues, H.-D., 2022, A re-assessment of the osteology and phylogenetic relatinoships of the enigmatic, large-headed reptile Sphodrosaurus pennsylvanicus (Late Triassic, Pennsylvania, USA) indicates archosauriform affinities: Journal of Systematic Palaeontology, published online. 35pp.
Klembara, J., Berman, D. S., Henrici, A. C,. Martens, T,. and Hain, M, 2022, Spontaneous Article: Reconstruction of the skull and description of new anatomical features of Diadectes absitus (Diadectidae, Diadectomorpha) from the early Permian of central Germany: Earth and Environmental Science Transactions of the Royal Society of Edinbourgh, published online, 12pp. Link to pdf
Sidor, C. A., Ide, O., Larsson, H. C. E., O'Keefe, F. R., Smith, R. M. H., Steyer, J.-S., and Modesto, S. P., 2022, The vertebrate fauna of the upper Permina of Niger - XI. cranial material of a juvenile Moradisaurus grandis (Reptilia: Captorhinidae): Journal of Vertebrate Paleontology, e2030345, 13pp.
Sidor, C. A., Ide, O., Larsson, H. C. E., O'Keefe, F. R., Smith, R. M. H., Steyer, J.-S., and Modesto, S. P., 2022, The vertebrate fauna of the upper Permina of Niger - XI. cranial material of a juvenile Moradisaurus grandis (Reptilia: Captorhinidae): Journal of Vertebrate Paleontology, e2030345, V. 41 n. 5, 13pp.
Sues, H.-D., Olsen, P. E., Fedak, T. J., and Schoch, R. R., 2022, Diverse assemblage of Middle Triassic continental tetrapods from Newark Supergroup of Nova Scotia (Canada): Journal of Vertebrate Paleontology, v. 41, n. 4, e2-23168, 15pp.
Verriere, A., and Fröbisch, J., 2022, Ontogenetic, dietary, and environmental shifts in Mesosauridae: PeerJ 10:e13866 http://doi.org/10.7717/peerj.13866, 27 pp. Link to pdf
Verriere, A., Fröbisch, N B., and Fröbisch, J., 2022, Regionalization, constraints, and the ancestral ossification patterns in the vertebral column of amniotes: Scientific Reports, published online, 12pp. Link to pdf
Genus: Nova (3)
Appalachemys GENTRY, KIERNAN & PARHAM, 2022
Leaviathanochelys CASTILLO-VISA, LUJAN, GALOBART & SELLES, 2022
Tongemys JOYCE, BOURQUE, FERNANDEZ & ROLLOT, 2022
Species: Nova (4)
Appalachemys ebersolei GENTRY, KIERNAN & PARHAM, 2022
Hutchemys walkerorum JASINSKI, HECKERT, SAILAR, LICHTIG, LUCAS & DODSON, 2022
Leaviathanochelys aenigmatica CASTILLO-VISA, LUJAN, GALOBART & SELLES, 2022
Tongemys enigmatica JOYCE, BOURQUE, FERNANDEZ & ROLLOT, 2022
Adrian, B., 2022, Stratigraphic range extension of the turtle Boremys pulchra (Testudinata, Baenidae) through at least the uppermost Cretaceous: Fossil Record, v. 25, n. 2, p. 275-285. Link to pdf
Baillie, K. U., 2022, Newly identified softshell turtle lived alongside T. rex and Triceratops: Phys Org, published online, 3pp. Link to pdf
Benton, M. J., and Wu, F,. 2022, Triassic revolution: Frontiers in Earth Science, v. 10, article 89954, 119pp. Link to pdf
Castillo-Visa, O., Lujan, A. H,. Galobart, A., and Selles, A., 2022, A gigantic bizarre marine turtle (Testudines: Chelonioidea) from the Middle Campanian (Late Cretaceous of South-western Europe: Scientific Reports, published online, 10pp. (Leaviathanochelys aenigmatica) Link to pdf
Chiarenza, A. A., Waterson, A. M., Schmidt, D N., Valdes, P. J., Yesson, C., Holroyd, P. A., Collinson, M. E., Farnsworth, A., Nicholson, D B., Varela, S., and Barrett, P. M., 2022, 100 million years of turtle paleoniche dynamics enable the predition of latitudinal range shifts in a warming world: Current Biology, v. 33, 13pp. Link to pdf
Danilov, I. G., Obraztsova, E. M., Arkhangelsky, M.S., Ivanov, A. V., & Averianov, A. O., 2022, Protostega gigas and other sea turtles from the Campanian of Eastern Europe, Russia: Cretaceous Research, v. 135, 105196, 13pp.
Ferguson, A. L., and Tapanila, L., 2022, Rare clutch of Cretaceous turtle eggs 0reserved in teh Kaiparowits Formation of southern Utah: Cretaceous Research, v. 135, 105197, 12pp.
Figueiredo, S. D., Cunha, P. P., Pereda-Suberbiola, X., de Carvalho, C. N., de Souza Carvalho, I., Buffetaut, E., Tong, H., Sousa, M. F., Antunes, V., and Anastacio, R., 2022, The dinosaur tracksite from the lower Barremian of Areia do Mastro Fromation (Cabo Espichel, Portugal): implicatiosn for dinosaur behavior: Cretaceous Research, v. 137, 105219, 14pp.
Gentry, A. D., Kiernan, C. R., and Parham, J. F., 2022, A large non-marine turtle from the Upper Cretaceous of Alabama and a review of North American "Macrobaenids": The Anatomical Record, publihsed online, 20pp. (Appalachemys ebersolei)
Guerrero, A., and Perez-Garcia, A., 2022, Analysisof shell anomalies in the Spanish upper cretaceous basal pan-pleurodire Dortoka vasconica (Dortokidae)L The Anatomical Record, published online, 9pp. Link to pdf
Jasinski, S. E.,, Heckert, A. B., Sailar, C, LIchtig, A. J., Lucas, S. G., and Dodson, P.,, 2022, A softshell turtle (Testudines: Trionychidae: Plastomeminae) from the uppermost Cretaceous (Maastrichtian) Hell Creek Formation, North Dakota, USA, with implications for the evolutinoary relationshps of plastomenines and other trionychids: Cretaceous Research, v. 135, 105172, 17pp. (Hutchemys walkerorum)
Joyce, W., G., 2022, A review of helochelydrid shell material from late Albian to early Cenomanian greensands of Southern England, United Kingdom: Anatomical Record, published online, 13pp.
Joyce, W. G., Bourque, J. R., Fernandez, V., and Rollot, Y., 2022, An alternative interpretation of small-bodied turtles from the "Middle Purbeck" of England as a new species of compsemydid turtle: Fossil Record, v. 25, n. 2, p. 263-274. (Tongemys enigmatica) Link to pdf
Klock, C., Leuzinger, L., Santucci, R. M., Martinelli, A. G., Marconato, A., Marinho, T. S., Luz, Z., and Vennemann, T., 2022, A bone to pick: stable isotope compositions as tracers of food sources and paleoecology for notosuchians in the Brazilian Upper Cretaceous Bauru Group: Cretaceous Reserach, v. 131, 105113, 13pp.
Langer, M. C., Delcourt, R., Montefeltro, F C., Silva Junior, J. C. G., Soler, M. G., Ferreira, G. S., Ruiz, J. V., Barcelos, L. A., Onary, S., Marsola, J. C. A., Castro, M. C., Cidade, G. M., and Batezelli, A., 2022, The Bauru Basin in Sao Paulo and its tetrapods: Derbyana, Sao Paulo, v. 43: e776, 52pp. Link to pdf
Manitkoon, S., Deeseri, U., Lauprasert, K., Warapeang, P., Nonsrirach, T., Nilpanapan, A., Wongko, K., and Chanthasit, P., 2022, Fossil assemblage from Khok Pha Suam Locality of northeastern, Thailand: an oveview of vertebrate diversity from the Early Cretaceous Khok Kruat Formation (Aptian-Albian): Fossil Record, v. 25, n. 1, p. 83-98. Link to pdf
Moyano-Pax, D., Rodzalla, S., Agnolin, F., Vera, E., Coronel, M. D., Varela, A. N., Gomez-Dacal, A. R., Aranciaga-Rolando, A. M., D-Angelo, J., Perez-Loinaze, V., Richiano, S., Chimento, N., Motta, M. J., Sterli, J., Manabe, M., Tsuihiji, T., Isasi, M. P., Poire, D. G., and Novas, F. E., 2022, The uppermost Cretaceous continental deposits at the southern end of Patagonia, the Chorrillo Formation case study (Austral-Magallanes Basin): Sedimentology, fossil contenent and reginoal implications: Cretaceous Research, v. 130, 105059, 30pp.
Pochat-Cottiloux, Y., Allain, R., and Lasseron, M., 2022, Microvertebrate fauna from Gadoufaoua (Niger, Aptian, Early Cretaceous): Comptes Rendus Palevol, v. 21,n . 41, p. 901-926. Link to pdf
Rollot, Y., Evers, S. W., Cifelli, R L., and Joyce, W. G., 2022, New isnsights into the cranial osteology of the Early Cretaceous paracryptodirian turtle Lakotemys australodakotensis: PeerJ 10:e13230 http://doi.org/10.7717/peerj.13230, 36pp. Link to pdf
Rollot, Y., Evers, S. W., Pierce, S E., and Joyce, W. G., 2022, Cranial osteology, taxonomic reassessment, and phylogenetic relationships of the Early Cretaceous (Aptian-Albian) turtle Trinitichelys hiatti (Paracryptodira): PeerJ 20:e14138 DOI 10.7717/peerj.14138, 52pp. Link to pdf
Scheyer, T. M., Klein, N, Evers, S W., Mautner, A.-K., and Pabst, B., 2022, First evidence of Prognochelys quenstedtii (Testudinata) from the Plateosaurus bonebeds (Norian, Late Triassic) fo Frick, Canton Aargau, Switzerland: Swiss Journal fo Palaeontology, published online, 17pp. Link to pdf
Szczygielski T., and Slowiak, J., 2022, Shell histology of the Triassic turtle, Proterochersis porebensis Szczygielski & Sulej, 2016, provides novel insights about shell ankylosis: Comptes Rendus Palevol, v. 21, n. 29, p. 619-679. Link to pdf
Genus: Nova (2)
Maiothisavros MOONEY, MAHO, BEVITT & REISZ, 2022
Pomolispondylus CHENG, MOON, YAN, MOTANI, JIANG, AN & FANG, 2022
Species: Nova (2)
Maiothisavros dianeae MOONEY, MAHO, BEVITT & REISZ, 2022
Pomolispondylus biani CHENG, MOON, YAN, MOTANI, JIANG, AN & FANG, 2022
Anonymous, 2022, Animals evoluved the ablity to gallop 472 million years ago: Phys Org, published online, 2pp. Link to pdf
Anonymous, 2022, Changes in the tree canopy facilitated the evolution of the first-ever gliding reptile, new study suggests: Phys Org, published online, 4pp. Link to pdf
Benton, M. J., and Wu, F,. 2022, Triassic revolution: Frontiers in Earth Science, v. 10, article 89954, 119pp. Link to pdf
Bindellini, G., and Dal Sasso, C., 2022, First skeletal remains of Helveticosaurus from the Middle Triassic Italian outcrops of the southern Alps, with remarks on an isolated tooth: Rivista italiana di Paleontologia e Stratigrafia, v. 128, n. 3, p. 625-642. Link to pdf
Bolet, A., Stubbs, T. L., Herrera-Flores, J. A., and Benton, M. J., 2022, The Jurassic rise of squamates as supported by lepidosaur disparity and evolutionary rates: elife, 2022:11:e66511. DO: https://doi.org/10.7554/elife.66511, 41pp. Link to pdf
Buffa, V., Frey, E., Steyer, J.-S., and Laurin, M., 2022, The postcranial skeleton of the gliding reptile Coelurosauravus elivensis Piveteau, 1926 (Diapsida, Weigeltisauridae) form the Late Permian of Madagascar: Journal of vertebrate Paleontology, e2108713, v. 42, n. 1, 31pp.
Cheng, L., Moon, B. C., Yang, C., Motani, R., Jiang, D,. An, Z., and Fang, Z., 2022, The oldest record of Saurosphargiformes (Diapsida) from South China could fill an ecological gap in the Early Triassic biotic recovery: PeerJ 10:e13569 DOI 10.,7717/peerj.13569, 26pp. (Pomolispondylus biani) Link to pdf
McElroy, E. J., and Granatosky, M. C., 2022, The evolution of asymmetrical gaits in gnathostome vertebrates: Journal of Experimental Biology, v. 224, jeb243235 doi: 10.1242/jeb.24335, 7pp. Link to pdf
Mooney, E. D., Maho, T., Bevitt, J. J, and Reisz, R. R., 2022, An intriguing new diapsid reptile with evidence of mandibulo-dental pathology from the early Permian of Oklahoma revealed by neutron tomography: PLOS, Public Library of Science, One, v. 17, n. 11; e0276772, 24pp. (Maiothisavros dianeae) Link to pdf
Genus: Nova (5)
Cryptovaranoides WHITESIDE, CHAMBI-TROWELL & BENTON, 2022
Eoscincus BROWNSTEIN, MEYER, FABBRI, BHULLAR & GAUTHIER, 2022
Microteras BROWNSTEIN, MEYER, FABBRI, BHULLAR & GAUTHIER, 2022
Morohasaurus IKEDA, OTA, TANAKA, IKUNO, KUBOTA, TANAKA & SAEGUSA, 2022
Retinosaurus CERNANSKY, STANLEY, DAZA, BOLETT, SALVADOR ARIAS, BAURER, VIDAL-GRACIA, BEVIT, PERETTI, AUNG & EVANS, 2022
Species: Nova (5)
Cryptovaranoides microlanius WHITESIDE, CHAMBI-TROWELL & BENTON, 2022
Eoscincus ornatus BROWNSTEIN, MEYER, FABBRI, BHULLAR & GAUTHIER, 2022
Microteras borealis BROWNSTEIN, MEYER, FABBRI, BHULLAR & GAUTHIER, 2022
Morohasaurus kamitakiensis IKEDA, OTA, TANAKA, IKUNO, KUBOTA, TANAKA & SAEGUSA, 2022
Retinosaurus nkamtiensis CERNANSKY, STANLEY, DAZA, BOLETT, SALVADOR ARIAS, BAURER, VIDAL-GRACIA, BEVIT, PERETTI, AUNG & EVANS, 2022
Allen, J. G., and Shimada, K., 2022, Fossil vertebrates from a unique marine bonebed of the Upper Cretaceous Smoky Hill Chalk, Western Kansas, U.S. A., new insights into the Paleoecology of the Niobrara Formation: Journal of Vertebrate Paleontology, v. 41, n. 6, e2066999, 22pp.
Bardet, N., Guinot, G., Yilmaz, I. O., and Hosgor, I., 2022, New marine vertebrates (elasmobranchs, actinopterygians, reptiles) from the Upper Cretaceous Arabic Platform of SE Turkey: Comptes Rendus Palevol, v. 21, p. 837-845. Link to pdf
Bennion, R. E., MacLaren, J. A., Coombs, E. J., Marx, F. G., Lambert, O., and Fischer, V., 2022, Convergence and constraint in the cranial evolution of mosasaurid reptiles and early cetaceans: Paleobiology, published online, 17pp. Link to pdf
Bolet, A., Stubbs, T. L., Herrera-Flores, J. A., and Benton, M. J., 2022, The Jurassic rise of squamates as supported by lepidosaur disparity and evolutionary rates: elife, 2022:11:e66511. DO: https://doi.org/10.7554/elife.66511, 41pp. Link to pdf
Brand, N A., Heckert, A. B., Sanchez, I., Foster, J. R., Hunt-Foster, R. K., and Eberle, J. J, 2022, New Late Cretaceous microvertebrate assemblage from the Campania-Maastrichtian Williams Fork Formation, northwestern Colorado, USA, and its paleoenvironmental implications: Acta Palaeontologica Polonica, v. 67, n 3, p. 579-600. Link to pdf
Brownstein, C. D., Meyer, D. L., Fabbri, M., Bhullar, B.-A. S., and Gauthier, J. A., 2022, Evolutionary origins of the prolonged extant squamate radiation: Nature Communications 12:7087, 11pp. (Eoscincus ornatus, Microteras borealis) Link to pdf
Cernasky, A., Stanley, E. L., Daza, J. D., Bolet, A., Salvador Arias, J., Bauer, A. M., Vidal-Garcia, M., Bevitt, J. J., Peretti, A. M., Aung, N. N., and Evans, S. E., 2022, A new Early Cretaceous lizard in Myanmar amber with exceptionally preserved integument: Scientific Reports, published online, 12pp. (Retinosaurus nkamtiensis) Link to pdf
Cross, S. R. R., Moon, B. C., Stubbs, T L., Rayfield, E. J., and Benton, M. J., 2022, Climate, competition, and the rise of mosasauroid ecomorphological disparity: Palaeontology, e12590, published online, 24pp. Link to pdf
Hernandez, A. C., Bolet, A., Torices, A. and Perez-Garcia, A., 2022, Identification of a large anguimorph lizard (Reptilia, Squamata) by an articulated hindlimb from teh upper Maastrichtian (Upper Cretaceosu) of Basturs-1 (Lleida, Spain): Cretaceous Research, v. 131, 105094, 14pp.
Ikeda, T., Ota, H, Tanaka, T., Ikuno, K., Kubota, K., Tanaka, K., and Saegusa, H, 2022, A fossil monstersauria (Squamata: Anguimorpha) from the Lower Cretaceous Ohyamashimo Formation of the Sasayama Group in Tamba City, yogo Prefecture, Japan,: Cretaceosu Research, v. 130, 105063, 10pp. (Morohasaurus kamitakiensis)
Langer, M. C., Delcourt, R., Montefeltro, F C., Silva Junior, J. C. G., Soler, M. G., Ferreira, G. S., Ruiz, J. V., Barcelos, L. A., Onary, S., Marsola, J. C. A., Castro, M. C., Cidade, G. M., and Batezelli, A., 2022, The Bauru Basin in Sao Paulo and its tetrapods: Derbyana, Sao Paulo, v. 43: e776, 52pp. Link to pdf
Legendre, L. J., Choi, S., and Clarke, J. A., 2022, The diverse terminology of reptile eggshell microstructure and its effect on phylogenetic comparative analyses: Journal of Anatomy, published online, 26pp. Link to pdf
Leuzinger, L., Kocsis, L,. Luz, Z., Vennemann, T,. Ulyanovo, A., and Fernandez, M,. 2022, Latest Maastrichtian middle- and high-latitude mosasaurs and fish isotopic composition: carbon source, thermoregulation strategry, and thermal latitudinal gradient: Paleobolobgy, published online, 21pp. Link to pdf
MacLaren, J. A., Bennion, R. F., Bardet, N., and Fischer, V., 2022, Global ecomorphological restructuring of dominant marine reptiles prior to the Cretaceous-Palaeogene mass extinction: Proceedings of the Royal Society, Series B, 289, 10pp.
Malkani, M. S., 2022, Plates boundary and structural geology of Balochistan and Indus basins thorugh field observations on Chaman Transform fault and western Indus Suture (Pakistan): Dinosaurs from Pakistan with attributed bones and key features: Titanosaurs from India with updated assessment on Jainosaurus: Open Journal of Geolgy, v. 12, p. 1032-1079. Link to pdf
Moyano-Pax, D., Rodzalla, S., Agnolin, F., Vera, E., Coronel, M. D., Varela, A. N., Gomez-Dacal, A. R., Aranciaga-Rolando, A. M., D-Angelo, J., Perez-Loinaze, V., Richiano, S., Chimento, N., Motta, M. J., Sterli, J., Manabe, M., Tsuihiji, T., Isasi, M. P., Poire, D. G., and Novas, F. E., 2022, The uppermost Cretaceous continental deposits at the southern end of Patagonia, the Chorrillo Formation case study (Austral-Magallanes Basin): Sedimentology, fossil contenent and reginoal implications: Cretaceous Research, v. 130, 105059, 30pp.
Pyron, P. A., Burbrink, F. T., and Wiens, J. J., 2022, A phylogeny and revised classificaion of Squamata, including 4161 species of lizards and snakes: BMC Evolutionary Biology, 13:93, 53pp.
Ramakrishnan, A., 2022, Fossils of 30-Foot prehistoric marine lizard unearthed in Texas: Phys Org, published online, 3pp. Link to pdf
Reguero, M. A., Gasparini, Z., Olivero, E. B., Coria, R. A., Fernandez, M. S., O'Gorman, J. P., Gouiric-Cavalli, S., Hospitaleche, C. A., Bona, P., Iglesias, A., Gelfo, J. N., Raffi, M. A., Moly, J. J., Santillana, S. N., and Cardenas, M., 2022, Late Campanian-Early Maastrichtian vertebrates from the James Ross Basin, West Antarctica: updated synthesis, biostratigraphy, and paleobiogeography: Anais da Academia Brasileira de Ciencias, published online, 34pp. Link to pdf
Rempert, T. H., Melchers, A. P. M. V., Rempert, A. N., Haque, M. R., and Armstrong, A. R., 2022, Occurrence of Mosasaurus hoffmannii Mantell, 1829 (Squamata, Mosasauriae) in teh Maasrichtian Phosphates of Morocco: The Journal of Paleontological Sciences: JPS.C.22.001, 22pp. Link to pdf
Skawinski, T., 2022, Rediscovery and redescription of the only known mosasaur bone from the Turonian (Upper Cretaceous) of Poland: PeerJ 10:e14278 http://doi.org/10.7717/peerj.14278,12pp. Link to pdf
Strauss, K., 2022, Researchers discover controversial four-legged 'snake' is a different ancient animal: Phys Org, published online, 3pp. Link to pdf
Whiteside, D. I., Chambi-Trowell, S. A. V., and Benton, M. J., 2022, A Triassic crown squamate: Science Advances, Research Article, v. 8, eabq8274, 18pp. (Cryptovaranoides microlanius) Link to pdf
Wooley, M. R., Chinsamy, A, and Caldwell, M. W., 2022, Unraveling the taxonomy of the South African mosasaurids: Frontiers in Earth Science, published online, 22pp. Link to pdf
Yu, Z., Dong, L., Huyskens, M. H., Yin, Q.-Z., Wang, Y., Deng, C., and He, H., 2022, The exceptionally preserved Early Cretaceous "Moqi Fauna" from eastern Inner Mongolia, China, and its age relatinoships with the Jehol Biota: Palaeogeography, Palaeoclimatology, Palaeoecology, v. 589, 110824, 14pp. Link to pdf
Zaher, H., Mohabey, D. M., Garzziotin, F G., and Mantilla, J. A. W., 2022, The skull of Sanajeh inicus, a Cretaceous snake with an upper temporal bar, and the origin of ophidian wide-gaped feeding: Zoological Journal of the Linnean Society, published online, 42pp.
Genus: Nova (2)
Navajosphenodon SIMOES, KINNEY-BRODERICK & PIERCE, 2022
Opisthiamimus DeMAR JR, JONES & CARRANO, 2022
Species: Nova (2)
Navajosphenodon sani SIMOES, KINNEY-BRODERICK & PIERCE, 2022
Opisthiamimus gregori DeMAR JR, JONES & CARRANO, 2022
Anantharama, S., deMar Jr., D. G., Sivakumar, R., Dassarma, D., Mantilla, G. P. W., and Mantilla, J. A. W., 2022, First rhynchocephalian (Reptilia, Lepdosauria) from the Cretaceous-Paleogene of India: Journal of Vertebrate Paleontology, published online, 10pp. Link to pdf
Anantharama, S., deMar Jr., D. G., Sivakumar, R., Dassarma, D., Mantilla, G. P. W., and Mantilla, J. A. W., 2022, First rhynchocephalian (Reptilia, Lepdosauria) from the Cretaceous-Paleogene of India: Journal of Vertebrate Paleontology, e2118059, v. 42, n. 1, 10pp.
Bolet, A., Stubbs, T. L., Herrera-Flores, J. A., and Benton, M. J., 2022, The Jurassic rise of squamates as supported by lepidosaur disparity and evolutionary rates: elife, 2022:11:e66511. DO: https://doi.org/10.7554/elife.66511, 41pp. Link to pdf
DeMar Jr., D. G., Jones, M. E. H., and Carrano, M. T., 2022, A nearly complete skeleton of a new eusphenodontian from the Upper Jurassic Morrison Formation, Wyoming, USA, provides insight into the evolution of and diversity of Rhynchocephalia (Reptilia: Lepidosauria): Journal of Systematic Palaeontology, published online, 64pp. (Opisthiamimus gregori) Link to pdf
Herrera-Flores, J. A., Stubbs, T. L,. and Sour-Tovar, F,. 2022, Redescription of the type specimens of the Late Jurassic rhynchocephalian Opisthias rarus and a new specimen of Theretairus antiquus from Quarry 9, Morrison Formation, Wyoming, USA: Acta Palaeontologica Polonica, v. 67, n. 3, p. 623-630. Link to pdf
Simoes, T. R., Kinney-Broderick, G., and Pierce, S. E., 2022, An exceptionally preserved Sphenodon-like sphenodontian reveals deep time conservation of the tuatara skeleton and ontogeny: Communications Biology, 19pp. (Navajosphenodon sani) Link to pdf
Genus: Nova (2)
Baisesaurus
REN, JIANG, XIANG, SULLIVAN, HE, CHENG & HAN, 2022Magnipterygius MAISCH & MATZKE, 2022
Species: Nova (2)
Baisesaurus robustus REN, JIANG, XIANG, SULLIVAN, HE, CHENG & HAN, 2022
Magnipterygius huenei MAISCH & MATZKE, 2022
Synonym: Nova (1)
Temnodontosaurus zetlandicus (SEELEY, 1880) LABOURY, BENNION, THUY, WEIS & FISCHER, 2022
= Ichthyosaurus zetlandicus SEELEY, 1880
Anonymous, 2022, Fish-like marine reptil buried in its own blubber in southern Germany 150 million years ago: Phys Org, published online, 3pp. Link to pdf
Anonymous, 2022, Large bodies helped extinct marine reptiles with long necks swim, new study finds: Phys Org, publisehd online, 3pp. Link to pdf
Delsett, L. L., Friis, H., Kölbl-Ebrt, M., and Hurum, H. H., 2022, The soft tissue and skeletal anatomy of two Late Jurassic ichthyosaur specimens for the Solnhofen archipelago: PerJ 10:e13173 DOI 10.7717/peerj.13173, 24pp. Link to pdf
Eriksson, M. E., de la Garza, R., Horn, E., and Lindgren, J., 2022, A review of ichthyosaur (Reptilia, Ichthyopterygia) soft tissues with implicaitons for life reconstructions: Earth-Science Reviews, v. 226, 14pp. Link to pdf
Fischer, V., Laboury, A., Bernacki, K., Garbay, L., Gillen, Y., Rollinger, C., Thill, A., Weis, R., and Thuy, B., 2022, A fragmentary leptonectid ichthyosaurian from the lower Pliensbachian of Luxembourg: Palaeontologia Electronica, v, 25,n , 2, 15pp. Link to pdf
Gutarra, S., Stubbs, T. L., Moon, B. C., Palmer, C., and Benton, M. J., 2022, Large size in aquatic tetrapods compensates for high drag caused by extreme body proportions: Communitactions Biology, published online, 12pp. Link to pdf
Holm, T. B., Delsett, L. L., and Alsen, P., 2022, Vertebral size ratios and the ichthyosaurian vertebral column - a case study based on Late Jurassic fossils from North-East Greenland: Bulletin of the Geological Society of Denmark, v. 70, 17pp. Link to pdf
Kelley, N. P., Irmis, R. B., dePolo, P. E., Noble, P. J., Montague-Judd, D., Little, H., Blundell, J., Rasmussen, C., Percival, L. M. E., Mather, T. A., and Pyenson, N. D., 2022, Grouping behavior in a Triassic marine apex predatoer: Current Biology, v. 32, p. 5398-5405.
Laboury, A., Bennion, R. F., Thuy, B., Weis, R,. and Fischer, V., 2022, Anatomy and phylogenetic relatinoships of Temnodontosaurus zetlandicus (Reptilia: IChthyosauria): Zoological Journal of the linnean Society, published online, 23pp. (Temnodontosaurus zetlandicus = Ichthyosaurus zetlandicus)
Lomax, D. R., and Massare, J. A., 2022, Rediscovery of two casts of the historically important 'Proteo-saurus', the first complete ichthyosaur skeleton: Royal Society Open Science, v. 9: 220966, 13pp. Link to pdf
Lomax, D. R., Sachs, S., and Hall, A., 2022, The ultiamte 'Iffyosaur'-an unusual ichthyosaur composite containing British and German material of different geological stages: Paludicola, v. 14,n . 1, p. 32-42. Link to pdf
Lukeneder, A., Zverkov, N, Kaurin, D., and Blüml, V., 2022, First Early Cretaceous ichthyosaurs of Austria and the problem of Jurassic-Cretaceous ichthyosaurian faunal turnover: Cretaceous Research, v. 136, 105220, 10pp.
Maisch, M. W., and Matzke, A. T., 2022, Magnipterygius huenei n. gen. n. sp., a nw small stenopterygiid (Reptilia: Ichthyosauria) from the Posidonienschiefer Formation of SW Germany: Neues Jahrbuch für Geologie und Paläontologie, Abhandlungen, v. 303, n. 2, p. 169-201. (Magnipterygius huenei)
Maxwell, E. E., Cooper, S. L. A., Mujal, E., Miedema, F., Serafini, G., & Schweigert, T., 2022, Evaluating the existence of vertebrate deadfall communities from the Early Jurassic Posidonienschiefer Formation: Geosciences, v. 12, 158, 29pp. Link to pdf
Miedema, F., and Maxwell, E. E., 2022, Ontogenetic variation in the skull of Stenopterygius quadriscissus with an emhasis on prenatal development. Scientific Reports, published online, 18pp. Link to pdf
Nakajima, Y., Shigeta, Y, Houssaye, A,. Zakharov, Y. D., Popov, A. M., and Sander, P. M., 2022, Early Triassic ichthyopterygian fossils from the Russian Far East: Scientific Reports, published online, 15pp. Link to pdf
Qiao, Y., Liu, J,. Wolniewicz, A. S., Lijima, M, Shen, Y,. Wintrich, T., Li, Q., and Sander, P. M., 2022, A globally distrubted durophagous mairne reptile clade supports the rapid recovery of pelagic ecosystems after the Permo-Triassic mass extinction: Communications Bioloyg, 5:1242, published online, 9pp. Link to pdf
Ren, J., Jiang, H., Xiang, K., Sullivan, C., He, Y., Cheng, L., and Han, F., 2022, A new basal ichthyosauromorph from the Lower Triassic (Olenkian) of Zhebao, Guangzi Autonomous Region, South China: PeerJ 10:e13098 DOI 10.7717/peerj.13209, 25pp. (Baisesaurus robustus) Link to pdf
Roberts, A. J., Engelschion, V. S., and Hurum, J. H., 2022, First three-dimensional skull of the Middle Triassic mixosaurid ichthyosaur Phalarodon fraasi from Svalbard, Norway: Acta Plaeontologica Polonica, v. 67, n. 1, p. 51-62. Link to pdf Link to Supplmentary pdf
Sander, P. M., Perez de Villar, P. R., Furrer, H., and Wintrich, T., 2022, Giant Late Triassic ichthyosaurs from the Kossen Formaton of the Swiss Alps and their paleobiological implications: Journal of Vertebrate Paleontology, v. 41, n. 6, e2046017, 15pp.
Serafini, G., Maxwell, E. E., Fornaciari, E., and Papazzoni, C A., 2022, Revision of platypterygiine rostral materal from the Northern Apennines (Italy): New insights on distal neurovascular anatomy and tooth replacement in Cretaceous ichthyosaurs: Cretaceous Research, v. 135, 14pp.
Zverkov, N. G., 2022, A problem of naming of the families of Late Jurassic and Cretaceous ichthyosaurs: Paleontological Journal, v. 56, n. 4, p. 108-116.
Genus: Nova (7)
Eardasaurus KETCHUM & BENSON, 2022
Eiectus NOE & GOMEZ-PEREZ, 2022
Honghesaurus XU, REN, ZHAO, LIAO & FENG, 2022
Monquirasaurus NOE & GOMEZ-PEREZ, 2022
Plesioelasmosaurus SCHUMACHER & EVERHART, 2022
Prosantosaurus KLEIN, FURRER, EHRBAR, LADEIRA, RICHTER & SCHEYER, 2022
Serpentisuchops PERSONS IV, STREET & KELLEY, 2022
Species: Nova (7)
Eardasaurus powelli KETCHUM & BENSON, 2022
Eiectus longmani NOE & GOMEZ-PEREZ, 2022
Honghesaurus longicaudalis XU, REN, ZHAO, LIAO & FENG, 2022
Nothosaurus luopingensis SHANG, LI & WANG, 2022
Plesioelasmosaurus walkeri SCHUMACHER & EVERHART, 2022
Prosantosaurus scheffoldi KLEIN, FURRER, EHRBAR, LADEIRA, RICHTER & SCHEYER, 2022
Serpentisuchops pfisterae PERSONS IV, STREET & KELLEY, 2022
Synonyum: Nova (1)
Monquirasaurus boyacensis (HAMPE, 1992) NOE & GOMEZ-PEREZ, 2022
= Kronosaurus boyacensis HAMPE, 1992
Anonymous, 2022, Large bodies helped extinct marine reptiles with long necks swim, new study finds: Phys Org, publisehd online, 3pp. Link to pdf
Anonymous, 2022, Plesiosaur fossils found in the Sahara suggest they weren't just marine animals: Phys Org, published online, 4pp. Link to pdf
Gale, L., Hitij, T., Vicic, B., Kriznar, M., Zalohar, J., Celarc, B., and Vrabec, M., 2022, A sedimentological descritpion of the Middle Triassic vertebrate-bearign limestones from Velika planina, the Kamnik-Savinja Alps, Slovenia: Geologia Croatica, v. 75, n. 1, p. 13 pp. Link to pdf
Gutarra, S., Stubbs, T. L., Moon, B. C., Palmer, C., and Benton, M. J., 2022, Large size in aquatic tetrapods compensates for high drag caused by extreme body proportions: Communitactions Biology, published online, 12pp. Link to pdf
Ketchum, H. F., and Benson, R. B. J., 2022, A new pliosaurid from the Oxford Clay Formation of Oxfordshire, UK: Acta Palaeontologica Polonica, v. 67, n. 2, p. 297-315. (Eardasaurus powelli) Link to pdf Link to supplementary information
Krahl, A., Lipphaus, A., Sander, P. M., and Witzel, U., 2022, Determination of muscle strength and functional in plesiosaur limbs: finite element structural analyses of Cryptoclidus eurymerus humerus and femur: PeerJ 10:e13342 DOI 10.7717/'peerj.13342, 48pp. Link to pdf
Krahl, A., and Werneburg, I., 2022, Deep-time invention and hydrodynamic convergencs through amnoite flipper evolution: The Anatomical Recor, published online, 33pp. Link to pdf
Klein, N., Eggmaier, S., and Hagdorn, H., 2022, The redescription of the holotype of Nothosaurus mirabilis (Diapsida, Eosauropterygia) --a historical skeleton form the Muschelkalk (Middle Triassic, Anisian) near Bayreuth (southern, Germany): PeerJ 10Le13818 D?OI 10.7717/peerj.13818, 59pp. Link to pdf
Klein, N., Furrer, H., Ehrbar, I., Ladeira, M T., Richter, H., and Scheyer, T. M., 2022, A new pachypleurosaur from the Early Ladinian Prosanto Formation in the Eastern Alps of Switzerland: Journal of Palaeontology, 141:12, 27pp. (Prosantosaurus scheffoldi) H
Klein, N., Wintrich, T., Hagdorn, H., Spiller, D., Winkelhorst, H., Goris, G., and Scheyer, T. M., 2022, Placodus (Placodontia, Sauropterygia) dentaires from Wnterswijk, The Netherlands (middle Anisian) and Hünfeld, Hesse, Germany (Late Anisian) with comments on ontogenetic changes: Paläontologische Zeitschrif, published online, 14pp. Link to pdf
Kubo, T., Tozu, M., Kubo, M. O., Aotsuka, K., and Endo, H., 2022, Inspecting a fake plesiosaur lim using CT scan: Fossils, The Palaeontological Society of Japan, v. 112, p. 1-2. Link to pdf
Malkani, M. S., 2022, Plates boundary and structural geology of Balochistan and Indus basins thorugh field observations on Chaman Transform fault and western Indus Suture (Pakistan): Dinosaurs from Pakistan with attributed bones and key features: Titanosaurs from India with updated assessment on Jainosaurus: Open Journal of Geolgy, v. 12, p. 1032-1079. Link to pdf
Maxwell, E. E., Cooper, S. L. A., Mujal, E., Miedema, F., Serafini, G., & Schweigert, T., 2022, Evaluating the existence of vertebrate deadfall communities from the Early Jurassic Posidonienschiefer Formation: Geosciences, v. 12, 158, 29pp.
Moyano-Pax, D., Rodzalla, S., Agnolin, F., Vera, E., Coronel, M. D., Varela, A. N., Gomez-Dacal, A. R., Aranciaga-Rolando, A. M., D-Angelo, J., Perez-Loinaze, V., Richiano, S., Chimento, N., Motta, M. J., Sterli, J., Manabe, M., Tsuihiji, T., Isasi, M. P., Poire, D. G., and Novas, F. E., 2022, The uppermost Cretaceous continental deposits at the southern end of Patagonia, the Chorrillo Formation case study (Austral-Magallanes Basin): Sedimentology, fossil contenent and reginoal implications: Cretaceous Research, v. 130, 105059, 30pp.
Noe, L. F., and Gomez-Perez, M., 2022, Giant pliosaurids (Sauropterygia; Plesiosauria) from the Lower Cretaceous peri-Gondwana seas of Colombia and Asutralia: Cretaceous Research, v. 132, 105122, 29pp. (Monquirasaurus boyacensis = Kronosaurus boyacensis, Eiectus longmani)
Persons IV, W. S., Street, H. P., and Kelley, A., 2022, A long-snouted and long-necked polycotylid pleiosaur from the Late Cretaceous of North America: iSience, publihsed online, 16pp. (Serpentisuchops pfisterae) Link to pdf
Scheyer, T. M., Oberli, U., Klein, N., and Furrer, H., 2022, A large osteoderm-bearing rib from the Upper Triassic Kössen Formation (Norian/Rhaetian) of eastern Switzerland: Swiss Journal of Palaeontology, published online, 9pp. Link to pdf
Schumacher, B. A., and Everhart, M. J., 2022, Washed ashore - New elasmosaurid specimens (Plesiosauria: Sauropterygia) from the Late Cretaceous of Colorado and Kansas and thier bearing on elasmosuarid lineages of the Western Interior Seaway: Transactiosn of the Kansas Academy of Science, v. 125, n. 3-4, p. 237-263. (Plesioelasmosaurus walkeri)
Shang, Q.-H., Li, C., and Wang, W., 2022, Nothosaurus luopingensis sp. nov. (Sauropterygia) from the Anisian, Middle Triassic of Luoping, Yunnan Province, China: Vertebratea PalAsiatia, v. 60, n . 4, p. 249-270. (Nothosaurus luopingensis) Link to pdf
Swaby, E., 2022, Plesiosaurs, pliosaurs, hybodonts: looking back at three prehistoric predators of the Jurassic seas: Phys Org, 3pp. Published online.
Xu, G.-H., Ren, Y, Zhao, L.-J., Liao, J.-L., and Feng, D.-H., 2022, A long-tailed marine reptile from China provides new insights into the Middle Triassic pachypleurosaur radiation: Scientific Reports, published online, 12pp. (Honghesaurus longicaudalis) Link to pdf
Genus: Nova (3)
Kosmodraco BROWNSTEIN, 2022
Puercosuchus MARSH, PARKER, NESBITT, KLIGMAN & STOCKER, 2022
Vigilosaurus gaochangensis CHEN & LIU, 2022
Species: Nova (4)
Champsosaurus norelli BROWNSTEIN, 2022
Kosmodraco magnicornis BROWNSTEIN, 2022
Puercosuchus traverorum MARSH, PARKER, NESBITT, KLIGMAN & STOCKER, 2022
Vigilosaurus gaochangensis CHEN & LIU, 2022
Synonymon: Nova (1)
Kosmodraco dakotensis (ERICKSON, 1987) BROWNSTEIN, 2022
= Simoedosaurus dakotensis ERICKSON, 1987
Anonymous, 2022, Triassic revolution: animals grew back faster and smarter after mass extinction: Phys Org, published online, 3pp. Link to pdf
Anonymous, 2022, Triassic specimen found to be early relative of pterosaurs a century after its discovery: Phys Org, published online, 2 pp. Link to pdf
Benton, M. J., and Wu, F,. 2022, Triassic revolution: Frontiers in Earth Science, v. 10, article 89954, 119pp. Link to pdf
Bestwick, J,. Godoy, P. L., Maidment, S. C R., Ezcurra, M D,. Wroe, M., Raven, T. J,. Bonsor, J. A., and Butler, R. J., 2022, Relative skull size evolution in Mesozoic Archosauromorphs: potential drivers and morhpological uniquenes of erythrosuchid archosauriforms: Palaeontology, published online, 23pp. Link to pdf
Brownstein, C. D., 2022, High morphological disparity in a bizarre Paleocene fauna of predatory freshwater reptiles: BMC Ecology and Evolution, 2:34, Open Access, 23pp. (Kosmodraco dakotensis = Simoedosaurus kakotensis, Kosmodraco magnicornis, Champsosaurus norelli) Link to pdf
Chambi-Trowell, S. A. V., Whiteside, D. I., Skinner, M,. Benton, M. J., and Rayfield, E. J., 2022, Phylogenetic relationships of the European trilophosaurids Tricuspisaurus thomasi and Variodens inopinatus: Journal of Vertebrate Paleontology, v. 41, n. 4, e2-23168, 15pp.
Chen, J., and Liu, J., 2022, A late Permian archosauriform from Xinjiang shows evidence of parasagittal posture: The Science of Nature, 110:1, 10pp. (Vigilosaurus gaochangensis)
De-Oliveira, T. M., Kerber, L,. de Franca, M. A. G., and Pinheiro, F. L., 2022, Archosauriform remains from the Lower Triassic Sanga do Cabral Formation of Brazil: Journal of Vertebrate Paleontology, v. 41, n. 6, e2068066, 12pp.
Ezcurra, M. D., and Sues, H.-D., 2022, A re-assessment of the osteology and phylogenetic relatinoships of the enigmatic, large-headed reptile Sphodrosaurus pennsylvanicus (Late Triassic, Pennsylvania, USA) indicates archosauriform affinities: Journal of Systematic Palaeontology, published online. 35pp.
Griffin, C. T., Wynd, B M., Munyikwa, D., Broderick, T. J., Zondo, M., Tolan, S., Langer, M. C., Nesbitt, S. J., and Taruvinga, H. R., 2022, Africa's oldest dinosaurs reveal early suppression of dinosaur distribution: Nature, published online, 7pp. Link to pdf
Marsh, A. D., Parker, W. G., Nesbitt, S. J., Kligman, B. T., and Stocker, M. R., 2022, Puercosuchus traverorum n. gen. n. sp.: a new malerisaurine azendohsaurid (Archosaurmorpha: Allokotosauria) from two monodominate bonebeds in the Chinle Formation (Upper Triassic, Norian) of Arizona: Journal of Paleontology, v. 96, memoir 90, 39pp. (Puercosuchus traverorum)
Matsumoto, R., Hirayama, R., Miyata, S., Yoshida, M, Mitsuzuka, S., Takisawa, T., Evans, S. E., 2022, The first choristoderan record from the Upper Cretaceosu of Asia, Tamagawa Formation, Kuji Group, Japan: Cretaceous Reseach, v. 129, 104999, 7pp.
Novikov, I. V., Sennikov, A. G., and Uliakhin, A. V., 2022, First find of reptiles in the nearshore marine Lower Triassic of the Bolshoe Bogdo Mountain (Peri-Caspian Depression): Palaeontological Journal, v. 56, n. 5, p. 583-589. Link to pdf
Sengupta, S., and Bandyopadhyay, S., 2022, The osteology of Shringasaurus indicus, an archoauromorph from the Middle Triassic Denwa Formation, Satpura Gondwana basin, Central India: Journal of Vertebrtae Paleontology, e2010740, v. 41, n. 5, 28pp.
Simao-Oliveira, D. de, Pinheiro, F. L., de Andrade, M B., and Pretto, F. A., 2022, Redescritption, taxonomic revaluation and phylogenetic affinities of Proterochampsa nodosa (Archosaurifoormes: Proterochampsidae) from the Early Late Triassic of the Candelaria Sequence (Santa MAria Supersequence): Zoological Journal of the Linnean Society, publihsed online, 23pp.
Sues, H.-D., Olsen, P. E., Fedak, T. J., and Schoch, R. R., 2022, Diverse assemblage of Middle Triassic continental tetrapods from Newark Supergroup of Nova Scotia (Canada): Journal of Vertebrate Paleontology, v. 41, n. 4, e2-23168, 15pp.
Wilson, J. D., Wisniewski, A., Nesbitt, S., and Bever, G., 2022, Comparative braincase morphology of Trilophosaurus buettneri and the early evolution of the pan-archosaurian neurocranium: Journal of Vertebrate Paleontology, e2123712, v. 42,n . 1, 21pp.
Genus: Nova (3)
Mambawakale BUTLER, FERNANDEZ, NESBIT, LEITE & GOWER, 2022
Scolotosuchus SENNIKOV, 2022
Stenoscelida MüLLER, GARCIA & de OLIVEIRA FONSECA, 2022
Species: Nova (3)
Mambawakale ruhuhu BUTLER, FERNANDEZ, NESBIT, LEITE & GOWER, 2022
Scolotosuchus basileus SENNIKOV, 2022
Stenoscelida aurantiacus MüLLER, GARCIA & de OLIVEIRA FONSECA, 2022
Anonymous, 2022, Triassic revolution: animals grew back faster and smarter after mass extinction: Phys Org, published online, 3pp. Link to pdf
Benson, R. B. J., Godoy, P., Bronzati, M., Butler, R. J., and Gearty, W., 2022, Reconstructed evolutionary patterns for crocodile-line archosaurs demostrate impact of failure to log-transform body size data: Communications Biology, published online, 4pp. Link to pdf
Benton, M. J., and Wu, F,. 2022, Triassic revolution: Frontiers in Earth Science, v. 10, article 89954, 119pp. Link to pdf
Butler, R. J., Fernandez, V., Nesbitt, S. J,. Leite, J. V., and Gower, D. J., 2022, A new pseudosuchian archosaur, Mambawakale ruhuhu gen. et sp. nov., from the Middle Triassic Manda Beds of Tanzania: Royal Society Open Science, v. 9, 211622, 28pp. (Mambawakale ruhuhu) Link to pdf
Griffin, C. T., Wynd, B M., Munyikwa, D., Broderick, T. J., Zondo, M., Tolan, S., Langer, M. C., Nesbitt, S. J., and Taruvinga, H. R., 2022, Africa's oldest dinosaurs reveal early suppression of dinosaur distribution: Nature, published online, 7pp. Link to pdf
Kischlat, E.-E., 2022, Phytosaurian nomenclature: Parasuchia, Belondontia or Phytosauria? Revisita Brasilieria de Paleontologia, v. 25, n. 1, p. 38-50. Link to pdf
Lautenschlager, S., 2022, Functional and ecomorphological evolution of orbit shape in mesozoic archosaurs in driven by body size and diet: Communications Biology, published online, 11pp. Link to pdf
Müeller, R. T., Garcia, M. S., and de Oliveira Fonseca, A,. 2022, A new proterochampsid (Archosauriformes: Proterochampsia) from the Late Triassic of southern Brazil and the emergence of archosaurian hind limb traits: Journal of Systematic Palaeontology, v. 20, n. 1, 2128913, 19pp. (Stenoscelida aurantiacus) Link to pdf
Sennikov, A. G., 2022, A new pseudosuchian from the Early Triassic of Eastern Europe: Paleontological Journal, v. 56 n. 11, p. 1391-1418. (Scolotosuchus basileus)
Stockdale, M. T., and Benton, M. J., 2022, Reply to: 'Reconstructed evolutionary patterns from crocodile-line archosaurs demostrate the impact of failure to log-transform body size data': Communications Biology, published online, 4pp. Link to pdf
Weems, R.E., 2022, Additions to the vertebrate fauna of the Taylorsville Basin, Virgina: In: Fossil Record 8, edited by Lucas, S G., Blodgett, R. B., Lichtig, A.., and Hunt, A. P., New Mexico Museum of Natural History & Science, Bulletin 90, p. 461-465.
Yirka, B., 2022, New species of Triassic-era crocodile-like reptile unearthed in Brazil: Phys Org, published online, 2pp. Link to pdf
Genus: Nova (6)
Confractosuchus WHITE, BELL, COMPIONE, SANSALONE, BROUGHAM, BEVITT, MOLNAR, COOK, WROE & ELLIOTT, 2022
Eptalofosuchus MARINHO, MARTINELLI, BASILICI, SOARES, MARCONATO, RIBEIRO & IORI, 2022
Hanyusuchus IIJIMA, QIAO, LIN, PENG, YONEDA & LIU, 2022
Kinyang BROCHU, de CELIS, ADAMS, DRUMHELLER, HESTLER, BENEFIT, GROSSMAN, KIERA, LEHMANN, LIUTKUS-PIERCE, MANTHI, McCROSSIN, McNULTY & JUMA, 2022
Titanochampsa FACHINI, GODOY, MARSOLA, MONTEFELTRO & LANGER, 2022
Yanjisuchus RUMMY, WU, CLARK, ZHAO, JIN, SHIBATA, JIN & XU, 2022
Species: Nova (9)
Confractosuchus sauroktonos WHITE, BELL, COMPIONE, SANSALONE, BROUGHAM, BEVITT, MOLNAR, COOK, WROE & ELLIOTT, 2022
Diplocynodon kochi VENCZEL & CODREA, 2022
Eptalofosuchus viridi MARINHO, MARTINELLI, BASILICI, SOARES, MARCONATO, RIBEIRO & IORI, 2022
Hanyusuchus sinensis IIJIMA, QIAO, LIN, PENG, YONEDA & LIU, 2022
Kinyang tchernovi BROCHU, de CELIS, ADAMS, DRUMHELLER, HESTLER, BENEFIT, GROSSMAN, KIERA, LEHMANN, LIUTKUS-PIERCE, MANTHI, McCROSSIN, McNULTY & JUMA, 2022
Maomingosuchus acustirostris MASSONNE, AUGUSTIN, MATZKE, WEBER & BöHME, 2022
Sebecus ayrampu BRAVO, POL & GACRIA-LOPEZ, 2022
Titanochampsa iorii FACHINI, GODOY, MARSOLA, MONTEFELTRO & LANGER, 2022
Yanjisuchus longshanensis RUMMY, WU, CLARK, ZHAO, JIN, SHIBATA, JIN & XU, 2022
Anonymous, 2022, Previously unknown crocodile species lived in Asia 39 millino years ago: Phys Org, pubslihed online, 2pp. Link to pdf
Anonymous, 2022, Triassic revolution: animals grew back faster and smarter after mass extinction: Phys Org, published online, 3pp. Link to pdf
Benson, R. B. J., Godoy, P., Bronzati, M., Butler, R. J., and Gearty, W., 2022, Reconstructed evolutionary patterns for crocodile-line archosaurs demostrate impact of failure to log-transform body size data: Communications Biology, published online, 4pp. Link to pdf
Benton, M. J., and Wu, F,. 2022, Triassic revolution: Frontiers in Earth Science, v. 10, article 89954, 119pp. Link to pdf
Brand, N A., Heckert, A. B., Sanchez, I., Foster, J. R., Hunt-Foster, R. K., and Eberle, J. J, 2022, New Late Cretaceous microvertebrate assemblage from the Campania-Maastrichtian Williams Fork Formation, northwestern Colorado, USA, and its paleoenvironmental implications: Acta Palaeontologica Polonica, v. 67, n 3, p. 579-600. Link to pdf
Bravo, G. G., Pol, D., and Garcia-Lopez, D A., 2022, A new sebecid mesoeucrocodylian from the Paleocene of northwestern Argentina: Journal of Vertebrate Paleontology, e1979020, 14pp. (Sebecus ayrampu)
Castanera, D., Pascual-Arribas, C., Canudo, J. I., and Puertolas-Pascual, E., 2022, A new look at Crocodylopodus meijidei: implications for crocodylomorph locomotion: Jounral of Vertebrate Paleontology, e 2020803, v. 41, n. 5, 19pp.
Cubo, J., Aubier, P., Faure-Brac, M. G., Martet, G., Pellarin, R., Pelletan, I., and Sena, M. V. A., 2022, Paleohistological inferences of thermometabolic regimes in Notosuchia (Pseudosuchia: Crocodylomorpha) revisited: Paleobiology, publihsed online, 11pp. Link to pdf
Fachini, T. S., Godoy, P. L., Marsola, J C A., Montefeltro, F. C., and LAnger, M. C., 2022, A large-sized mesoeucrocodylian from the Late Cretaceous of Brazil with possible neosuchian affinities: Historical Biology, published online, 14pp. (Titanochampsa iorii) Link to pdf
Iijima, M,. Qiao, Y., Lin, W., Peng, Y., Yoneda, M., and Liu, J., 2022, An intermediate crocodylian linking two extant gharials from the Bronze Age of China and its human-induced extinction: Proceedings of the Royal Society, series B., v. 289, 9pp. (Hanyusuchus sinensis) Link to pdf
Klock, C., Leuzinger, L., Santucci, R. M., Martinelli, A. G., Marconato, A., Marinho, T. S., Luz, Z., and Vennemann, T., 2022, A bone to pick: stable isotope compositions as tracers of food sources and paleoecology for notosuchians in the Brazilian Upper Cretaceous Bauru Group: Cretaceous Reserach, v. 131, 105113, 13pp.
Langer, M. C., Delcourt, R., Montefeltro, F C., Silva Junior, J. C. G., Soler, M. G., Ferreira, G. S., Ruiz, J. V., Barcelos, L. A., Onary, S., Marsola, J. C. A., Castro, M. C., Cidade, G. M., and Batezelli, A., 2022, The Bauru Basin in Sao Paulo and its tetrapods: Derbyana, Sao Paulo, v. 43: e776, 52pp. Link to pdf
Lautenschlager, S., 2022, Functional and ecomorphological evolution of orbit shape in mesozoic archosaurs in driven by body size and diet: Communications Biology, published online, 11pp. Link to pdf
Lewis, R. C., 2022, Reserachesr discover crocodile species that likely preyed on human ancestors: Phys Org, publhsed online, 2pp. Link to pdf
Manitkoon, S., Deeseri, U., Lauprasert, K., Warapeang, P., Nonsrirach, T., Nilpanapan, A., Wongko, K., and Chanthasit, P., 2022, Fossil assemblage from Khok Pha Suam Locality of northeastern, Thailand: an oveview of vertebrate diversity from the Early Cretaceous Khok Kruat Formation (Aptian-Albian): Fossil Record, v. 25, n. 1, p. 83-98. Link to pdf
Marinho, T. S., Martinelli, A. G., Basilici, G., Soares, M. V. T., Marconata, A., Ribeiro, L. C. B., and Iori, F. V., 2022, First Upper Cretaceous notosuchians (Crocodyliformes) from the Uberaba Formation (Bauru Group), southeastern Brazil: enhancing crocodyliform diveristy: Cretaceous Research, v. 129, 104000, p. 13pp. (Eptalofosuchus viridi)
Martin, J. E., Richardin, P., Perrichon, G., Pochat-Cottilloux, Y., Phouybanhdyt, B., Salaviale, C., and Adrien, J., 2022, The oldest occurrence of Crocodylus in Madagascar and the Holocene crocodylian turnover: Journal of Vertebrate Paleontology, v. 41, n. 6, e2063058, 6pp.
Massonne, T., Augustin, F. J., Matzke, A. T., Weber, E,. And Böhme, M., 2022, A new species of Maomingosuchus from the Eocene of the Na Duong Basin (northern Vietnam) sheds new light on the phylogenetic relationship of tomistomine crocodylians adn thier dispersal from Europe to Asia: Journal of Systematic Palaeontology, publishies online, 35pp. (Maomingosuchus acustirostris) Link to pdf
Massonne, T., and Böhme, M, 2022, Re-evaluation of the morphology and phylogeny of Diplocynodon levantinicum Huene & Nikoloff, 1963 and the stratigraphic age of the West Maritsa coal field (Upper Hhrace Basin, Bulgaria): PeerJ 10:e14167 DOI 10.7717/peerj.14167, 35pp. Link to pdf
Maxwell, E. E., Cooper, S. L. A., Mujal, E., Miedema, F., Serafini, G., & Schweigert, T., 2022, Evaluating the existence of vertebrate deadfall communities from the Early Jurassic Posidonienschiefer Formation: Geosciences, v. 12, 158, 29pp.
Mort, J. L., Martin, J E., Picot, L., and Hua, S., 2022, Fist description of the most complete Metriorynchus aff. superciliosus (Thalattosuchia) specimen from the Callovian of the Vaches-Noires cliffs (Normandy, france) and limitations in teh classification of Metriorhynchidae): Annales de Paleontologie, v. 108, 102539, 21pp.
Pochat-Cottiloux, Y., Allain, R., and Lasseron, M., 2022, Microvertebrate fauna from Gadoufaoua (Niger, Aptian, Early Cretaceous): Comptes Rendus Palevol, v. 21,n . 41, p. 901-926. Link to pdf
Puertolas-Pascula, E.,, Serrano-Martinez, A, Perez-Pueyo, M., and Badenas, B.,, 2022, New data on the neuroanatomy of basal eusuchia crocodylomorphs (Allodaposuchidae) from the Upper Cretaceous os Spain: Cretaceous Research, v. 135, 105170, 17pp.
Ribeiro, T. B., da Costa Pereira, P. V. L. G., Brusatte, S. L., dos Anjos Candeiro, C. R., and Bergqvist, L. P., 2022, An eye for an eye, a tooth for a tooth: archosaurian teeth from the Acu Formation (Albian-Cenomanian), Potiguar Basin, Northeast Brazil: Cretaceous Research, v. 128, 105005, 16pp.
Ristevski, J., Weisbecker, V., Scanlon, J. D., Price, G. J., and Salisbury, S. W., 2022, Cranial anatomy of the mekusuchine crocodylian Trilophosuchus rackhami Willis, 1993: The Anatomical Record, published online, 59pp. Link to pdf
Rummy, P., Wu, X.-C., Clark, J M., Zhao, Q., Jin, C.-Z., Shibata, M., Jin, F., and Xu, X., 2022, A new paralligatorid (Crocodyliformes, Neosuchia) from the Mid-Cretaceous of Jilin province, northeastern China: Cretaceous Research, v. 129, 105018, 23pp. (Yanjisuchus longshanensis)
Serafini, G., Gordon, C. M., Foffa, D., Cobianchi, M., and Giusberti, L,. 2022, Tough to digest: first record of Teleosauroidea (Thalattosuchia) in a regurgitalite from the Upper Jurassic of north-eastern Italy: Papers in Paleontology, e 1474, published online, 22pp. Link to pdf
Stockdale, M. T., and Benton, M. J., 2022, Reply to: 'Reconstructed evolutionary patterns from crocodile-line archosaurs demostrate the impact of failure to log-transform body size data': Communications Biology, published online, 4pp. Link to pdf
To, K. H. T., Nesbitt, S., and Stocker, M. R., 2022, An early-diverging crocodylomorph from the Early Norian (Late Triassic) of Texas demonstrates a wide distribution of early members across low-latitude Pangea: Journal of Vertebrate Paleontology, v. 41,n . 6, e2075752, 6pp.
Venczel, M., and Codrea, V. A., 2022, A new late Eocene alligatoroid crocodyliform from Transylvania: Comptes Rendus Paleovol, v. 21, p. 411-429. (Diplocynodon kochi) Link to pdf
Voiculescu-Holvad, C., 2022, Historical material of cf. Thoracosaurus from the Maastrichtian of Denmark provides new insight into the K/Pg distribution of Crocodylia: Cretaceous Researchv, v. 139, 16pp.
White, M.A., Bell, P. R., Campione, N. E., Sansalone, G., Brougham, T., Bevitt, J. J., Molnar, R. E., Cook, A. G., Wroe, S., and Elliott, D. A., 2022, Abdominal contents reveal Cretaceous crocodyliforms ate dinosaurs: Gondwana Research, v. 106, p. 281-302. (Confractosuchus sauroktonos) Link to pdf
Anatomical Record Special Issue
von Baczkao, M. B., Desojo, J. B., Gower, D. J., Ridgely, R., Bona, P., and Witmer, L. M., 2021, New digital braincase endocasts of two species of Desmatosuchus and neurocranial diversity within Aetosauria (Archosauria: Pseudosuchia): The Anatomical Record, Special Issue, v. 305, p. 2415-2434.
Bestwick, J., Jones, A. S,. Nesbitt, S. J., Lautenschlager, S., Rayfirled, E. J,. Cuff, A. R., Button, D. J., Barrett, P. M., Porro, L. B., and Butler, R. J., 2021, Cranial functional morphology of the pseudosuchian Effigia and implications for its ecological role in the Triassic: The Anatomical Record, Special Issue Article, v. 305, p. 2435-2462.
Bona, P., Blanco, M. V. F., Ezcurra, M. D., von Baczko, M. B., Desojo, J. B,. and Pol, D., 2021, On the homology of crocodylian post-dentary bones and their macroevolution througnout Pesudosuchia: The Anatomical Record, Special Issue Article, v. 305, p. 2980-3001.
Bowman, C. I. W,. Young, M. T., Schwab, J. A., Walsh, S., Witmer, L. M., Herrera, Y., Choiniere, J,. Dollman, K. N., and Brusatte, S. L., 2021, Rostral neurovasculature indicates sensory trade-offs in Mesozoic pelagic crocodylomorphs: The Anatomical Record, Special Issue Article, v. 305, p. 2654-2669.
Brochu, C. A., de Celis, A., Adams, A. J., Drumheller, S. K., Nestler, J. H., Benefit, B. R., Grossman, A., Kirera, F., Lehmann, T., Liutkus-Pierce, C., Manthi, F. K., McCrossin, M. L., McNulty, K. P., and Juma, R. N., 2022, Giant dwarf crocodiles from the Miocene of Kenya and crocodylid faunal dynamics in the late Cenozoic of East Africa: Anatomical Record, published online, 37pp. (Kinyang tchernovi) Link to pdf
Brochu, C. A., de Celis, A., Adams, A. J., Drumheller, S. K., Nestler, J. H., Benefit, B. R., Grossman, A., Kirera, F., Lehmann, T., Liutkus-Pierce, C., Manthi, F. K., McCrossin, M. L., McNulty, K. P., and Juma, R. N., 2022, Giant dwarf crocodiles from the Miocene of Kenya and crocodylid faunal dynamics in the late Cenozoic of East Africa: Anatomical Record, Special Issue Article, p. 2729-2765. (Kinyang tchernovi) Link to pdf
Cowgill, T., Young, M. T., Schwab, J. A., Walsh, S., Witmer, L. M., Herrera, Y., Dollman, K. N., Choiniere, J. N., and Brussatte, S. L., 2021, Paranasal sinus system and upper respiratory tract evolution in Mesozoic pelagic crocodylomorphs: The Anatomical Record, Special Issue Article, v. 305, p. 2583-2603.
Dollman, K. N, and Choiniere, J. N, 2022, Palate evolution in early-branching crocodylomorphs: implications for homology, systematics, and ecomorphology: The Anatomical Record, Special Issue Article, v. 305, p. 2766-2890.
Dumont Jr., B. V,. Santuci, R. M,. de Andrade, M. B., and de Oliveira, C. E. M,. 2020, Paleoneurology of Baurusuchus (Crocodyliformes: Baurusuchidae), ontogenetic variation, brain size, and sensorial implications: The Anatomical Record, Special Issue Article, v. 305, p. 26780-2694.
Fernandez, M. S., and Herrera, Y,. 2021, Active airflow of the paranasal sinuses in extinct crocodyliformes: evidence from anatural cast of teh thalattosuchian Dakosaurus andiniensis: The Anatomcial Record, Special Issue Article, v. 305, p. 2604-2619.
Holliday, C. M., and Schachner, E. R., 2022, Dispatches from the age of crocodiles: new discoveries from ancient lineages: The Anatomical record, Special Issue Article, v. 305, p. 2343-2352.
Gignac, P. M., Smaers, J. B., and O'Brien, H. D., 2021, Unexpected bite-force conservatism as a stable performance foundation across mesoeucrocodylian historical diversity: The Anatomical Record, Special Issue Article, p. v. 305, p. 2823-2837.
Lorente, A. G., 2022, Els jaciments paleontologics del Cretaci Superior contiental dels pirineus: noves especies de dinosaures I vertebrates de l'lla Iberoarmoricana, Isurus, no. 14, p. 38-44. Link to pdf
Malkani, M. S., 2022, Plates boundary and structural geology of Balochistan and Indus basins thorugh field observations on Chaman Transform fault and western Indus Suture (Pakistan): Dinosaurs from Pakistan with attributed bones and key features: Titanosaurs from India with updated assessment on Jainosaurus: Open Journal of Geolgy, v. 12, p. 1032-1079. Link to pdf
Melstrom, K. M, Turner, A. H., and Irmis, R. B,. 2021, Reevaluation of the cranial osteology and phylogenetic position of the early crocodyliform Eopneumatosuchus colberti, with an emphasis on its endocranial anatomy: The Anatomical Record, Special Issue Article, v. 305, p. 2557-2582.
Morris, Z. S., Vliet, K. A., Abzhanov, A., and Pierce, S. E,. 2021, Developmental origins of the crocodylian skull table and platyrostral face: The Anatomical Record, Special Issue article, v. 305, p. 2838-2853.
Nieto, M. N., Degrange, F J,. Seller,s K. C., Pol, D., and holliday, C. M., 2021, Biomechanical performance of the cranio-mandibular complex of the small notosuchian Araripesuchus gomesii (Notosuchia, Uruguaysuchidae): The Anatomical Record, Special Issue, v. 305, p. 2695-2707.
Pochat-Cottilloux, Y,. Martin, J. E., Jouve, S., Perrichon, G,. Adrien, J,. Salaviale, C., de Muizon, C,. Cespedss, R., and Amiot, R., 2021, The neuronanatomy of Zulmasuchus querejazus (Crocodylomorpha, Sebecidae) and its implications for the paleoecology of sebecosuchians: The anatomical Record, Special Issue Article, v. 305, p. 2708-2728.
Ruebensthal, A. A., Klein, M. D., Yi, H., Xu, X., and Clark, J. M., 2022, Anatomy and relationships of te eearly diverging Crocodylomorphs Junggarasuchus sloani and Dibothrosuchus elaphros: The Anatomical Record, Special issue Article, v. 305, p. 2463-2556.
Wilberg, E. W., Beyl, A. R., Pierce, S. E., and Turner, A. H., 2021, Cranial and endocranial anatomy of a three-dimensionally preserved teleosauroid thalattosuchian skull: The Anatomcial Record, Special Issue Article, v. 305, p. 2620-2653.
Genus: Nova (7)
Cascocauda YANG, BENTON, HONE, XU, McNAMARA & JIANG, 2022
Dearc JAGIELSKA, O'SULLIVAN, FUNSTON, BUTLER, CHALLANDS, CLARK, FRASER, PENNY, ROSS, WILKINSON & BRUSATTE, 2022
Epapatelo FERNANDES, MATEUS, ANDRES, POLCYN, SCHULP, GONCALVES & JACOBS, 2022
Lingyuanopterus XU, JIANG & WANG, 2022
Pachagnathus MARTINEZ, ANDRES, APALDETTI & CERDA, 2022
Thanatosdrakon DAVID, RIGA & KELLNER, 2022
Yelaphomte MARTINEZ, ANDRES, APALDETTI & CERDA, 2022
Species: Nova (8)
Cascocauda rong YANG, BENTON, HONE, XU, McNAMARA & JIANG, 2022
Dearc sgiathanach JAGIELSKA, O'SULLIVAN, FUNSTON, BUTLER, CHALLANDS, CLARK, FRASER, PENNY, ROSS, WILKINSON & BRUSATTE, 2022
Epapatelo otyikokolo FERNANDES, MATEUS, ANDRES, POLCYN, SCHULP, GONCALVES & JACOBS, 2022
Lingyuanopterus camposi XU, JIANG & WANG, 2022
Pachagnathus benitoi MARTINEZ, ANDRES, APALDETTI & CERDA, 2022
Quetzalcoatlus lawsoni LEHMAN, 2021 (published 2022)
Thanatosdrakon amaru DAVID, RIGA & KELLNER, 2022
Yelaphomte praderioi MARTINEZ, ANDRES, APALDETTI & CERDA, 2022
Alarcon-Munoz, J,. Buldrini, K. E., Bajor, D., and Rubilar-Rogers, D., 2022, Note on new pterosaur remains (Archosauria: Pterodactyloidea) form Cerro La Isla, Atacama Region, Northern Chile: Boletin del Museo Nacional de Historia Natural, Chile, v. 71, n. 2, p. 1-8. Link to pdf
Alarcon-Munoz, J., Codorniu, L., Gonzalez, E., Suarez, M. E., Suarez, M,m Vicencio-Campos, O., Soto-Acuna, S., Kaluza, J., Vargas, A. O., and Rubilar-Rogers, D., 2022, A new locality with ctenochasmatid Pterosaurs (Pterosauria: Pterodactyloidea) in the Atacama Desert, Northern Chile: Cretaceous Research, v. 135, 105173, 22pp.
Andres, B., 2021 (published 2022), Phylogenetic systematics of Quetzalcoatlus Lawson 1975 (Pterodactyloidea: Azhdarchoidea): In: The Late Cretaceous Pterosaur Quetzalcoatlus Lawson, 1975 (Pterodactyloidea: Azhdarchoidea), edited by Padian, K., and Brown, M A., Journal of Vertebrate Paleontology, v. 41, supplement ot number 2, Memoir 19, 203-217.
Andres, B., and Langston Jr, W., 2021 (published 2022), Morphology and taxonomy of Quetzalcoatlus Lawson, 1975 (Pterodactyloidea; Azhdarchoidea): In: The Late Cretaceous Pterosaur Quetzalcoatlus Lawson, 1975 (Pterodactyloidea: Azhdarchoidea), edited by Padian, K., and Brown, M A., Journal of Vertebrate Paleontology, v. 41, supplement ot number 2, Memoir 19, 46-202.
Anonymous, 2022, Triassic specimen found to be early relative of pterosaurs a century after its discovery: Phys Org, published online, 2 pp. Link to pdf
Anonymous, 2022, New pterosaur species identified in sub-Saharan Africa: Phys Org, published online, 2 pp. Link to pdf
Augustin, F. J., Kampouridis, P., Hartung, J, Albersdörfer, R., and Matzke, A. T., 2022, The geologically oldest specimen of Pterodactylus: a new exquisitely preserved skeleton from the Upper Jurassic (Kimmeridgian) Plattenkalk deposits of Painten (Bavaria, Germany): Fossil Record, v. 25, n. 2, p. 331-343. Link to pdf
Augustin, F. J,. Matzke, A. T., Maisch, M. W., Kampouridis, P., and Dsiki-Sava, Z., 2022, The first record of pterosaurs from the Lower Cretceous Hutubei Formation (lower Tugulu Group) of the soutehrn Junggar Basin (NW China) - a glimpse into an unusual ecosystem: Cretaceous Research, v. 130, 105066, 8pp.
Averianov, A. O., Ivantsov, S. V., Leshchinskiy, S. V., and Skutschas, P. P., 2022, First pterosaur bone from the Lower Cretaceous of Siberia, Russia: Cretaceous Research, v. 137, 106230, 6pp.
Aureliano, T., Ghilardi, A. M., Fernandes, A. A., and Ricardi-Branco, F. S., 2023, Air sac attachments or tendon scars: the distinction between soft tissue traces in archosaur bone: Zoological journal of the Linnean Society, published online, 8pp.
Averianov, A. O., and Kurin, A. S., 2022, A new specimen of pteranodontid pterosaur Bogolubovia orientalis form the upper cretaceous of Penza Province, Russia: Historical Biology, published online, 8pp.
Benton, M. J, 2022, A colourful view of the origin of dinosaur feathers: Nature, v. 604, p. 630-631. Link to pdf
Benton, M. J., and Wu, F,. 2022, Triassic revolution: Frontiers in Earth Science, v. 10, article 89954, 119pp. Link to pdf
Brown, M. A., Sagebiel, J. C., and Andres, B., 2021 (published 2022), The discovery, local distribution, and curation of the giant Azhdarchid pterosaurs from Big Bend national Park: In: The Late Cretaceous Pterosaur Quetzalcoatlus Lawson, 1975 (Pterodactyloidea: Azhdarchoidea), edited by Padian, K., and Brown, M A., Journal of Vertebrate Paleontology, v. 41, supplement ot number 2, Memoir 19, 2-20.
Cincotta, A., Nicolai, M., Campos, H. B. N., McNamara, M., D'Alba, L., Shawkey, M. D., Kischlat, E.-E., Yans, J., Carleer, R., Escuillie, F., and Godefroit, P., 2022, Pterosaur melanosomes support signalling functions for early feathers: Nature, published online, 5pp. Link to pdf
Clark, A. D., and Hone, D. W. E., 2022, Evolutionary pressures and aerial insectivory reflected in anurognathid pterosaurs: Journal of Anatomy, published online, 10pp.
Dalla Vecchia, F. M., 2022, The presernce of an orbitoantorbital fenestra: further evidence of the anurognathid peculiary within the pterosauria: Rivista Italiana di Paleontologia e Stratigrafia, v. 128, n. 1, p. 23-42. Link to pdf
David, L. D. O., Riga, B. J. G., & Kellner, A. W. A., 2022, Thanatosdrakon amaru, gen. et sp. nov., a giant azhdarchid pterosaur from the Upper Cretaceous of Argentina: Cretaceous Research, v. 137, 105228, 27pp. (Thanatosdrakon amaru)
Duque, R. R. C., Pinheiro, F. L., and Barreto, A. M. F., 2022, The ontogentic growth of anhangueridae (Pterosauria, Pterodactyloidea) premaxillary crest as revealed by a crestless Anhanguera specimen: Journal of Vertebrate Paleontology, e2116984, v. 42, n. 1, 10pp.
Fernandes, A. E., Mateus, O., Andres, B., Polcyn, M. J., Schulp, A. S., Goncalves, A. O., and Jacobs, L. L., 2022, Pterosaurs from Late Creaceosu of Angola: Diversity, v. 14, published online, 27pp. (Epapatelo otyikokolo) Link to pdf
Figueiredo, S. D., Cunha, P. P., Pereda-Suberbiola, X., de Carvalho, C. N., de Souza Carvalho, I., Buffetaut, E., Tong, H., Sousa, M. F., Antunes, V., and Anastacio, R., 2022, The dinosaur tracksite from the lower Barremian of Areia do Mastro Fromation (Cabo Espichel, Portugal): implicatiosn for dinosaur behavior: Cretaceous Research, v. 137, 105219, 14pp.
Foffa, D., Dunne, E. M., Nesbitt, S. J., Butler, R. J., Fraser, N. C., Brusatte, S. L., Farnsworth, A., Lunt, D. J,. Valdes, P. J., Walsh, S, and Barrett, P. M., 2022, Scleromochlus and the early evoution of Pterosauromorpha: Nature, published online, 6pp.
Gao, D.-S., Jiang, S.-X., Xu, L., Cheng, X., Yang, L.-L., Jian, S.-H., and Wang, X.-L., 2022, Reappraisal of the largest ctenochasmatid Moganopterus zhuiana Lü et al., 2012: Vertebrata Palasiatica, published online, 15pp. Link to pdf
Goto, Y., Yoda, K., Weimerskirch, H., and Sato, K., 2022, How did extinct giant birds and pterosaurs fly? a comprehensive modeling approach to evaluate soaring performance: Proceedings of the National Academy of Science PNAS Nexus, v .1, 16pp. Link to pdf
Griffin, B., Martin-Silverstone, E., Demuth, O., Pegas, R., Palmer, C., and Rayfield, E., 2022, Constraining pterosaur launch: range of motion in the pectoral and pelvic girdles of a medium-sized ornithocheiraean pterosaur: Biological Journal of the Linnean Society, published online, 17 pp. Link to pdf
Jagielska, N., O'Sullivan, M,. Funston, G. F., Butler, I. B., Challands, T. J,. Clark, N. D. L., Fraer, N C,. Penny, A,. Ross, D. A., Wilkinson, M, and Brusatte, S. L., 2022, A skeleton from the Middle Jurassic of Scotland illuminates an earlier origin of large pterosaurs: Current Biology, v. 32, p. 1-8. (Dearc sgiathanach) Link to pdf
Jiang, S., Wang, X., Zheng, Z., Cheng, X., Wang, X., Wei, G., and Kellner, A. W. A., 2022, Two emetolite-pterosaur associations from the Late Jurassic of China: showing the first evidence for antiperistalsis in pterosaurs: Philosophical Transactions of the Royal Society, Series B., v. 377, p. 8pp. Link to pdf
Kellner, A. W. A., Holgado, B., Grillo, O., Pretto, F. A., Kerber, L., Pinheiro, F. L., Soares, M. B., Schultz, C. L., Lopes, R. T., Araujo, O., and Müller, R. T., 2022, Reassessment of Faxinalipterus minimus, a purported Triassic pterosaur from southern Brazil with description of a new taxon: PeerJ 10:e13276 http://doi.org/10.7717/peerj.13276, 32pp. Link to pdf
Lautenschlager, S., 2022, Functional and ecomorphological evolution of orbit shape in mesozoic archosaurs in driven by body size and diet: Communications Biology, published online, 11pp. Link to pdf
Lehman, T. M,. 2021 (published 2022), Habitat of the giant pterosaur Quetzalcoatlus Lawson 1975 (Pterodactyloidea: Azhdarchoidea): a paleoenvironmental reconstruction of the Javelina Formation (Upper Cretaceous), Big Bend National Park, Texas: In: The Late Cretaceous Pterosaur Quetzalcoatlus Lawson, 1975 (Pterodactyloidea: Azhdarchoidea), edited by Padian, K., and Brown, M A., Journal of Vertebrate Paleontology, v. 41, supplement ot number 2, Memoir 19, 21-45. (Quetzalcoatlus lawsoni)
Li, Y., Zhu, X., Wang, Q., Jiang, S., Yang, Y., Luo, W., and Wang, X., 2022, Apatite in Hamipterus tianshanensis eggshell: advances in understanding the structure of pterosaur eggs by Raman spectroscopy: Heritage Science, publihsed online, 14pp. Link to pdf
Malkani, M. S., 2022, Plates boundary and structural geology of Balochistan and Indus basins thorugh field observations on Chaman Transform fault and western Indus Suture (Pakistan): Dinosaurs from Pakistan with attributed bones and key features: Titanosaurs from India with updated assessment on Jainosaurus: Open Journal of Geolgy, v. 12, p. 1032-1079. Link to pdf
Manitkoon, S., Deeseri, U., Lauprasert, K., Warapeang, P., Nonsrirach, T., Nilpanapan, A., Wongko, K., and Chanthasit, P., 2022, Fossil assemblage from Khok Pha Suam Locality of northeastern, Thailand: an oveview of vertebrate diversity from the Early Cretaceous Khok Kruat Formation (Aptian-Albian): Fossil Record, v. 25, n. 1, p. 83-98. Link to pdf
Martinez, R. N., Andres, B., Apaldetti, C., and Cerda, I. A., 2022, The dawn of the flying reptiles: first Triassic record in southern hemisphere: Papers in Palaeontology, e1424, published online, 20pp. (Yelaphomte praderioi, Pachagnathus benitoi) Link to pdf
Müller, R. T., 2022, The closest evolutionary relatives of pterosaurs: What the morphospace occupation of different skeletal reigons tell us about lagerpetids: Anatomical Record, published online, 7pp. Link to pdf
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Pegas, R. V., Holgado, B., David, L. D. O., Baiano, M. A., and Costa, F. R., 2022, On the pterosur Aerotitan sudamericanus (Neuquen Basin, Upper Cretaceous of Argentina), with comments on azhdarchoid phylogeny and jaw anatomy: Cretaceous Research, v. 128, 104998, 20pp.
Pentland, A. H., Poropat, S. F., White, M. A., Rigby, S. L., Vickers-Rich, P., Rich, T. H., and Elliott, D. A., 2022, New anhanguerian pterosaur remains from the Lower Cretaceous of Queensland, Australia: Alcheringa: An Australasian Journal of Paleontology, DOI: 10.1080/0311558.2022.2065028 10 pp. Link to pdf
Pentland, A. H., Poropat, S. F., White, M. A., Rigby, S. L., Bevitt, J. J., Ducan, R. J., Sloan, T., Elliott, R. A., Elliott, H. A., Elliott, J. A., and Elliott, D. A., The osteology of Ferrodraco lentoni, an anhanguerid pterosaur from the mid-Cretaceous of Australia: Journal of Vertebrate Paleontlogy, published online, 26pp.
Pentland, A. H., Poropat, S. F., White, M. A., Rigby, S. L., Bevitt, J. J., Ducan, R. J., Sloan, T., Elliott, R. A., Elliott, H. A., Elliott, J. A., and Elliott, D. A., The osteology of Ferrodraco lentoni, an anhanguerid pterosaur from the mid-Cretaceous of Australia: Journal of Vertebrate Paleontlogy, e2038182, v. 41,n. 5, 26pp.
Pittman, M., Kaye, T. G., Campos, H. B., and Habib, M. B., 2022, Quadrupeal water launch capability demonstrated in small Late Jurassic pterosarus: Scientific Repors, published online, 8pp. Link to pdf
Pochat-Cottiloux, Y., Allain, R., and Lasseron, M., 2022, Microvertebrate fauna from Gadoufaoua (Niger, Aptian, Early Cretaceous): Comptes Rendus Palevol, v. 21,n . 41, p. 901-926. Link to pdf
Reguero, M. A., Gasparini, Z., Olivero, E. B., Coria, R. A., Fernandez, M. S., O'Gorman, J. P., Gouiric-Cavalli, S., Hospitaleche, C. A., Bona, P., Iglesias, A., Gelfo, J. N., Raffi, M. A., Moly, J. J., Santillana, S. N., and Cardenas, M., 2022, Late Campanian-Early Maastrichtian vertebrates from the James Ross Basin, West Antarctica: updated synthesis, biostratigraphy, and paleobiogeography: Anais da Academia Brasileira de Ciencias, published online, 34pp. Link to pdf
Sangster, S., 2022, The osteology of Dimorphodon macronyx, a non-pterodactyloid pterosaur from the Lower Jurassic of Dorset, England: Palaeontological Society, Monography fo the Palaeontolographical Society, 48pp.
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Xu, Y., Jiang, S., and Wang, X., 2022, A new istiodactylid pterosaur, Lingyuanopterus camposi gen. et sp. nov., from the Jiufotang Formation of western Liaoning, China: PeerJ 10e13819 http://doi.org/10.7717/peerj.13819, 30pp. (Lingyuanopterus camposi) Link to pdf
Yang, Z., Benton, M. J., Hone, D. W. E., Xu, X., McNamara, M. E., and Jiang, B., 2022, Allometric analysis sheds light on the systematics and ontogeny of anurognathid pterosaurs: Journal of Vertebrate Paleontology, e2029796, 16pp. (Cascocauda rong)
Yang, Z., Benton, M. J., Hone, D. W. E., Xu, X., McNamara, M. E., and Jiang, B., 2022, Allometric analysis sheds light on the systematics and ontogeny of anurognathid pterosaurs: Journal of Vertebrate Paleontology, e2029796, v. 41, n. 5, 16pp. (Cascocauda rong)
Zhou, C.-F., Niu, T,. and Yu, D., 2022, New data on the postcranial skeleton of the tapejarid Sinopterus from the Early Cretaceous Jehol Biota: Historical Biology, published onlien, 8pp.
Zhou, C.-F., Yu, D., Zhu, Z,. and Andres, B., 2022, A new wing skeleton of the Jehol tapejarid Sinopterus and its implications for ontogeny and paleoecology of the Tapejaridae: Scientific Reports, published online, 10pp. Link to pdf
Zhou, C.-F., Zhu, Z., and Chen, J., 2022, First pterosuar from the Early Cretaceous Huajiying Formation of the Jehol Biota, northern Hebei Province, China: insights on the pedal divesity of Pterodactyloidea: Historical Biology, published online, 7pp.
Genus: Nova (1)
Maehary KELLNER, HOLGADO, GRILLO, PRETTO, KERBER, PINHEIRO, SOARES, SCHULTZ, LOPES, ARAUJO & MüLLER, 2022
Species: Nova (1)
Maehary bonapartei KELLNER, HOLGADO, GRILLO, PRETTO, KERBER, PINHEIRO, SOARES, SCHULTZ, LOPES, ARAUJO & MüLLER, 2022
Benton, M. J., and Wu, F,. 2022, Triassic revolution: Frontiers in Earth Science, v. 10, article 89954, 119pp. Link to pdf
Kellner, A. W. A., Holgado, B., Grillo, O., Pretto, F. A., Kerber, L., Pinheiro, F. L., Soares, M. B., Schultz, C. L., Lopes, R. T., Araujo, O., and Müller, R. T., 2022, Reassessment of Faxinalipterus minimus, a purported Triassic pterosaur from southern Brazil with description of a new taxon: PeerJ 10:e13276 http://doi.org/10.7717/peerj.13276, 32pp. (Maehary bonapartei) Link to pdf
Müller, R. T., 2022, The closest evolutionary relatives of pterosaurs: What the morphospace occupation of different skeletal reigons tell us about lagerpetids: Anatomical Record, published online, 7pp. Link to pdf
Genus: Nova (13)
Daurlong WANG, CAU, GUO, MA QING & LIU, 2022
Dzharonyx AVERIANOV & SUES, 2022
Elemgasem BAIANO, POL, BELLARDINI, WINDHOLZ, CERDA, GARRIDO, & CORIA, 2022
Guemesia AGNOLIN, CERRONI, SCANFERLA, GOSWANI, PAULINA-CARABAJAL, HALLIDAY, CUFF & REUIL, 2022
Iberospinus MATEUS & ESTRAVIZ-LOPES, 2022
Maip ROLANDO, MOTTA, AGNOLIA, MANABE, TSUIHIJJI & NOVAS, 2022
Meraxes CANALE, APESTEGUIA, GALLINA, MITCHELL, SMITH, CULLEN, SHINYA, HALUZA, GIANECHINI & MAKOVICKY, 2022
Natovenator LEE, LEE, CURRIE, SISSONS, PARK, KIM, BARSBOLD & TSOGTBAATAR, 2022
Ondogurvel AVERIANOV & LOPATIN, 2022
Papiliovenator PEI, QIN, QEN, ZHAO, WANG, LIU, GUO, LIU, YE, WANG, YIN, DAI & XU, 2022
Paralitherizinosaurus KOBAYASHI, TAKASAKI, FIORILLO, CHINZORIG & HIKIDA, 2022
Shansaraiki MALKANI, 2022
Vectiraptor LONGRICH, MARTILL & JACOBD, 2022
Species: Nova (16)
Daspletosaurus wilsoni WARSHAW & FOWLER, 2022
Daurlong wangi
WANG, CAU, GUO, MA QING & LIU, 2022Dzharonyx eski A
VERIANOV & SUES, 2022Elemgasem nubilus
BAIANO, POL, BELLARDINI, WINDHOLZ, CERDA, GARRIDO, & CORIA, 2022Guemesia ochoai
AGNOLIN, CERRONI, SCANFERLA, GOSWANI, PAULINA-CARABAJAL, HALLIDAY, CUFF & REUIL, 2022Iberospinus natarioi
MATEUS & ESTRAVIZ-LOPES, 2022Maip macrothorax
ROLANDO, MOTTA, AGNOLIA, MANABE, TSUIHIJJI & NOVAS, 2022Meraxes gigas
CANALE, APESTEGUIA, GALLINA, MITCHELL, SMITH, CULLEN, SHINYA, HALUZA, GIANECHINI & MAKOVICKY, 2022Natovenator polydontus
LEE, LEE, CURRIE, SISSONS, PARK, KIM, BARSBOLD & TSOGTBAATAR, 2022Ondogurvel alifanovi
AVERIANOV & LOPATIN, 2022Papiliovenator neimengguensis
PEI, QIN, QEN, ZHAO, WANG, LIU, GUO, LIU, YE, WANG, YIN, DAI & XU, 2022Paralitherizinosaurus japonicus
KOBAYASHI, TAKASAKI, FIORILLKOBAYASHI, TAKASAKI, FIORILLO, CHINZORIG & HIKIDA, 2022Shansaraiki insafi
MALKANI, 2022Tyranosaurus imperator
PAUL, PERSONS IV & RAALTE, 2022Tyrannoaurus reginalPAUL, PERSONS IV & RAALTE, 2022
Vectiraptor greeni
LONGRICH, MARTILL & JACOBD, 2022Agnolin, F. L., Cerroni, M. A., Scanferla, A., Goswami, A., Paulina-Carabajal, A., Halliday, T,. Cuff, A. R., and Reuil, S., 2022, First definitive abelisaurid theropod from the Late Cretaceous of northwestern Argentina: Journal of Vertebrate Paleontology, e2002348, 17 pp. (Guemesia ochoai)
Agnolin, F. L., Cerroni, M. A., Scanferla, A., Goswami, A., Paulina-Carabajal, A., Halliday, T,. Cuff, A. R., and Reuil, S., 2022, First definitive abelisaurid theropod from the Late Cretaceous of northwestern Argentina: Journal of Vertebrate Paleontology, v. 41, n. 4, e2002348, 17 pp.
Anonymous, 2022, Dense bones allowed Spinosaurus to hunt underwater, study shows: Phys Org, published online, 4pp. Link to pdf
Anonymous, 2022, Triassic revolution: animals grew back faster and smarter after mass extinction: Phys Org, published online, 3pp. Link to pdf
Anonymous, 2022, Speed of spinosaurid dinosaur teeth replacemnt accounts for thier overabundance in Cretaceous sites: Phys Org, published online, 2pp. Link to pdf
Anonymous, 2022, Ostrich-like dinosaurs found in Mississippi are among the world's largest ornithomimosaurs at more than 800kg: Phys Org, published online, 2pp. Link to pdf
Anonymous, 2022, T. rex's fancy footwork owed to special ligaments, study finds: Phys Org, 2pp. Link to pdf
Aureliano, T., Ghilardi, A. M., Muller, R. T., Kerber, L., Pretto, F. A., Fernandes, M. A., Ricardi-Branco, F., and Wedel, M. J., 2022, The absence of an invasive air sac system in the earliest dinosaurs suggests multiple origins of vertebral pneumaticity: Scientific Reports, publihsed online, 11pp. Link to pdf
Averianov, A. O., and Lopatin, A. V., 2022, A re-appraisal of Parvicurosor remotus from the Late Cretaceous of Mongolia: implications for the phylogeny and taxonomy of alvarezsaurid theropod dinosaurs: Journal of Systematic Paleontology, published online, 32pp.
Averianov, A .O., and Lopatin, A.V., 2022. A new alvarezsaurid theropod dinosaur from the Upper Cretaceous of Gobi Desert, Mongolia: Cretaceous Research, v. 135, 105168
Averianov, A. O., and Lopatin, A. V., 2022, First discovery of theropod dinosaurs of the family Avimimidae in the Late Cretaceous of central Asia: Doklady Earth Sciences, v. 506, n. 2, p. 210-213. Link to pdf
Averianov, A. O., Sizov, A. V., Grigoriev, D V., Pestchevitskaya, E. B., Vitenko, D. D., and Skutschas, P. P., 2022, New data on dinosaurs from the Lower Cretaceous Murtoi Formation of Transbaikalia, Russia: Cretaceous Research, v. 138, 105287, 16pp.
Averianov, A. O., and Sues, H.-D., 2022, New material and diagnosis of a new taxon of alvarezsaurid (Dinosauria, Theropoda) from the Upper Cretaceous Bissekty Formation of Uzbekistan: Journal of Vertebrate Paleontology, e2036174, 13pp. (Dzharonyx eski)
Averianov, A. O., and Sues, H.-D., 2022, New material and diagnosis of a new taxon of alvarezsaurid (Dinosauria, Theropoda) from the Upper Cretaceous Bissekty Formation of Uzbekistan: Journal of Vertebrate Paleontology, e2036174, v. 41, n. 5, 13pp. (Dzharonyx eski)
Baiano, M. A., and Cerda, I. A., 2022, Osteohistology of Aucasaurus garridoi (Dinosauria, Theropoda, Abelisauridae): inferences on lifestyle and growth strategy: Historical Biology, published online, 12pp.
Baiano, M. A., and Filippi, L. S., 2022, Allosauroid (Theropoda, Tetanurae) remains from the Sierra Barrosa Formation (Middle Coniacian, Upper Cretaceous), Patagonia, Argentina: Publicacion Electronica, published online, 10pp. Link to pdf
Baiano, M. A., Pol, D., Bellardini, F., Windholz, G. J., Cerda, I. A., Garrido, A. C., and Coria, R. A., 2022, Elemgasem nubilus: a new brachyrostran abelisaurid (Theropoda, Ceratosauria) from the Portezuelo Formation (Upper Cretaceous) of Patagonia, Argentina: Papers in Paleontology, published online, 38pp. (Elemgasem nubilus)
Ballell, A., Benton, M. J., and Rayfield, E. J., 2022, Dental form and function in the early feeding diversificationof dinosaurs: Science Advance, v. 8, 13pp. Link to pdf
Barker, C. T., Lockwood, J. A. F., Naish, D., Brown, S., Hart, A., Tulloch, E., and Gostling, N. J., 2022, A European giant: a large spinosaurid (Dinosauria: Theropoda) from the Vectis Formation (Wealden Group, Early Cretaceous, UK: PeerJ 10:e13543 http://doi.org/10.7717/peerj.1543, 42pp. Link to pdf
Barta, D. E., Griffin, C. T., and Norell, M. A., 2022, Osteohistology of a Triassic dinosaur population reveals highly variable growth trajectories typified early dinosaur ontogeny: Scientific Reports, published online, 14pp. Link to pdf
Benton, M. J., and Wu, F,. 2022, Triassic revolution: Frontiers in Earth Science, v. 10, article 89954, 119pp. Link to pdf
Brand, N A., Heckert, A. B., Sanchez, I., Foster, J. R., Hunt-Foster, R. K., and Eberle, J. J, 2022, New Late Cretaceous microvertebrate assemblage from the Campania-Maastrichtian Williams Fork Formation, northwestern Colorado, USA, and its paleoenvironmental implications: Acta Palaeontologica Polonica, v. 67, n 3, p. 579-600. Link to pdf
Brilhante, N. S., de Franca, T. C., Castro, F., da Costa, L. S., Currie, P. J., de Azevedo, S. A. K., and Delcourt, R., 2022, A dromaeosaurid-like claw from the Upper Cretaceous of southern France: Historical Biology, an International Journal of Paleobiology, published online, 10pp.
Canale, J. I., Apesteguia, S., Gallina, P. A., Mitchell, J., Simth, N. D., Cullen, T. M., Shinya, A., Haluza, A., Gianechini, F. A., and Makovicky, P. J., 2022, New giant carnivorous dinosaur reveals convergent evolutionary trends in theropod arm reduction: Current Biology, v. 32, 8 pp. (Meraxes gigas) Link to pdf
Carr, T. D., Napoli, J. G., Brusatte, S. L., Holtz Jr., T. R., Hone, D. W. E., Williamson, T. E., and Zanno, L. E., 2022, Insufficient evidence for multiple species of Tyrannosaurus in the Latest Cretaceous of North America: a comment on "The Tyrant Lizard King, Queen and Emperor: multiple lines of morphological and stratigraphic evidence support subtle evolution and probable speciation within the North American genus Tyrannosaurus": Evolutionary Biology, published online, 15pp. Link to pdf
Cerroni, M. A., Baiano, M. A., Canale, J. I,. Agnolin, F. L., Otero, A., and Novas, F. E., 2022, Appendicular osteology of Skorpiovenator bustingorryi (Theropoda, Abelisauridae) with comments on phylogenetic features of abelisaurids: Journal of Systematic Palaeontology, v. 20, n. 1, 32pp.
Chapelle, K. E. J., Barrett, P. M., Choiniere, J. N., and Botha, J., 2022, Interelemental osteohistological variation in Massopondylus carinatus and its implications for locomotion: PeerJ 10:e13918 DOI 10.7717/peerj.13918, 41pp. Link to pdf
Cincotta, A., Nicolai, M., Campos, H. B. N., McNamara, M., D'Alba, L., Shawkey, M. D., Kischlat, E.-E., Yans, J., Carleer, R., Escuillie, F., and Godefroit, P., 2022, Pterosaur melanosomes support signalling functions for early feathers: Nature, published online, 5pp. Link to pdf
Dong, L., Jia, L, Wang, J., and Wu, X., 2022, A tyrannosauroid from the Upper Cretaceous of Tianzhen, Shanxi Province, China and its burial environment: Acta Geologica Sinica, v. 95, published online, 9pp. (Jinbeisaurus wangi)
Egawa, S., Griffin, C. T., Bishop, P. J,. Pintore, R,. Tsai, H. P., Botelho, J. F., Smith-Paredes, D., Kuratani, S., Norell, M. A., Nesbitt, S. J., Hutchinson, J. R., and Bhullar, B.-A. S., 2022, The dinosaurian femoral head experienced a morphogenetic shaft from torsion to growth along the avian stem: Proceedings of the Royal Society, sereis B, v. 289: 20220740, 12pp. Link to pdf
Fabbri, M., Navalon, G., Benson, R. B. J., Pol, D., O'Connor, J., Bhullar, B.-A. S., Erickson, G. M., Norell, M. A., Orkney, A., Lamanna, M. C., Zouhri, S., Becker, J., Emke, A., DalSasso, C., Bindellini, G., Maganuco, S., Auditorie, M., and Ibrahim, N., 2022, Subaqueous foraging among carnivorous dinosaurs: Nature, Published online, 6pp.
Farlow, J. O., Coroian, D., Currie, P. J., Foster, J. R., Mallon, J. C., and Therrien, F., 2022, "Dragons" on the landscape: modeling the abundance of large carnivorous dinosaurs from the Upper Jurassic Morrison Formation (USA) and the Upper Cretaceous Dinosaur Park Formation (Canada): Anatomical Record, publihse online, 28pp. Link to pdf
Foster, W., Brusatte, S. L., Carr, T. D., Williamson, T. E., Yi, L., and Lu, J., 2022, The cranial anatomy of the long-snouted tyrannosaurid dinosaur Qianzhousaurus sinensis from the Upper Cretaceous of China; Journal of Vertebrate Paleontology, v. 41, n. 4, e1999251, 30pp.
Gao, T. P., Yin, X. Ch., Shih, Ch. K., Rasnitsyn, A. P., Emeljanov, A. F., Xu, X., Chen, Sh., Wang, Ch., and Ren, D., 2022, Reply to: "Insects with 100 Million-Year-Old Dinosaur feathers are not Ectoparsites" and "Crawlers of the Scale Insect Mesophthirus (Homoptera Xylococcidae) on Feathers in Burmese amber-wind transport or phoresy on dinosaurs?": Paleontological Journal, v. 56, n. 3, p. 333-337.
Griffin, C. T., Wynd, B M., Munyikwa, D., Broderick, T. J., Zondo, M., Tolan, S., Langer, M. C., Nesbitt, S. J., and Taruvinga, H. R., 2022, Africa's oldest dinosaurs reveal early suppression of dinosaur distribution: Nature, published online, 7pp. (Mbiresaurus raathi) Link to pdf
Hamm, C. A., Hampe, O., Mews, J., Gunter, C., Milke, R., Witzmann, F., Savic, L. J., Hect, L., Meister, S,. Hamm, B, Asbach, P., and Diekhoff, T., 2022, Quantitative dual-energy CT as a nondestructive tool to identify indicators for fossilized bone in vertebrate paleontology: Scientific Reports, published online, 11pp. Link to pdf
Hendrickx, C., Bell, P. R., Pittman, M., Milner, A. R. C., Cuesa, E., O'Connor, J., Loewen, M., Currie, P. J., Mateus, O., Kaye, T. G., and Delcourt, R., 2022, Morphology and distribution of scales, dermal ossifications, and other non-feather integumentary structures in non-avialan theropod dinosaurs: Biological Reviews, published online, 43pp. Link to pdf
Herculano-Houzel, S., 2022, Theropod dinosaurs had primate-like numbers of telencephalic neurons: Journal of Comparative Neurology, published online, 13pp.
Hone, D. W. E., Dececchi, T. A., Sullivan, C., Xu, X., and Larsson, H. C. E., 2022, Generalist diet of Microraptor zhaoianus included mammals: Journal of Vertebrate Paleontology, e2134437, 9pp.
Hone, D. W. E., and Holtz Jr, R. R., 2022, Comment on: Aquatic adaptation in the skull of carnivorous dinosaurs (Theropoda: Spinosauridae) and the evolution of aquatic habits in spinosaurids. 93: 275-284: Cretaceous Research, v 134, 194152, 4pp.
Isasmendi, E., Torices, A., Canudo, J. I,. Currie, P. J., and Pereda-Suberbiola, X., 2022, Upper Cretaceous European theropod palaeobiodiversity, palaeobiogeography and the intra-Maastrichtian faunal turnover: new contributions from the Iberian fossil site of Lano: Papers in Palaeontology, published online, 38pp.
Jasinski, S. E., Sullivan, R. M., Carter, A. M., Johnson E. H., Dalman, S. G., Zariwala, J., and Currie, P. J., 2022, Osteology and reassessment of Dineobellator notohesperus, a southern eudromaeosaur (Theropoda: Dromaeosauridae: Eudromaeosauria) from the latest Cretaceous of New Mexico: The Anatomical Reecord, published online, 45pp.
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Kobayashi, Y., Takasaki, R., Fiorillo, A. R., Chinzorig, T., and Hikida, Y., 2022, New therizinosaurid dinosaur from the marine Osoushinai Formation (Upper Cretaceous, Japan) provides insight for function and evolution of therizinosaur claws: Scientific Reports, 12:7207, published online, 12pp. (Paralitherizinosaurus japonicus) Link to pdf
Kotevski, J., and Poropat, S. F., 2022, On the first dinosaur tooth reported from Australia (Theropoda: Megaraptoridae): Alcheringa: An Australasian Journal of Palaeontology, published online, 6pp.
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Langer, M. C., Delcourt, R., Montefeltro, F C., Silva Junior, J. C. G., Soler, M. G., Ferreira, G. S., Ruiz, J. V., Barcelos, L. A., Onary, S., Marsola, J. C. A., Castro, M. C., Cidade, G. M., and Batezelli, A., 2022, The Bauru Basin in Sao Paulo and its tetrapods: Derbyana, Sao Paulo, v. 43: e776, 52pp. Link to pdf
Lautenschlager, S., 2022, Functional and ecomorphological evolution of orbit shape in mesozoic archosaurs in driven by body size and diet: Communications Biology, published online, 11pp. Link to pdf
Lee, S., Lee, Y.-N., Currie, P. J., Sissons, R., Park, J.-Y., Kim, S.-H., Barsbold, R., and Tsogtbaatar, K., 2022, A non-avian dionsaur with a streamlined body exhibits potential adaptations for swimming: Communications Biology, published online, 9pp. (Natovenator polydontus) Link to pdf
Lehman, T. M., Cobb, J,. Sylvester, P., and Souders, A. K., 2022, The Cretaceous-Paleogene contact in the Tornillo Group of Big Bend National Park, West Texas, USA: Geosphere, published online, 34pp. Link to pdf
Longrich N. R., Martill. . M., and Jacobs, M. L., 2022, A new Dromaeodaurid dinosaur from the Wessex Formation (lower Cretaceous, Berremian) of the Isle of Wight, and implications for European palaeobiogeography: Cretaceous Reaearch v. 134, 105123, 20 pp. (Vectiraptor greeni)
Lorente, A. G., 2022, Els jaciments paleontologics del Cretaci Superior contiental dels pirineus: noves especies de dinosaures I vertebrates de l'lla Iberoarmoricana, Isurus, no. 14, p. 38-44. Link to pdf
Malkani, M. S., 2022, Plates boundary and structural geology of Balochistan and Indus basins thorugh field observations on Chaman Transform fault and western Indus Suture (Pakistan): Dinosaurs from Pakistan with attributed bones and key features: Titanosaurs from India with updated assessment on Jainosaurus: Open Journal of Geolgy, v. 12, p. 1032-1079. (Shansaraiki insafi) Link to pdf
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Mateus, O., and Estraviz-Lopez, D., 2022, A new theropod dinosaur from the early cretaceous (Barremian) of Cabo Espichel, Portugal: implications for spinosaurid evolution: Public Library of Science (PLOS), One, v. 17, n. 2, 48 pp. (>) Link to pdf
McDavid, S. N., and Bugos, J. E., 2022, Taxonomic notes on Megapnosaurus and 'Syntarsus' (Theropoda: Coelophysidae): The Mosasaur, v, 12, p. 1-5. Link to pdf
Meade, L. E., and Ma, W., 2022, Cranial muscle reconstructions quantify adaptation for high bite forces in Oviraptorosauria: Scientific reports, published online, et al., 15pp. Link to pdf
Mendez, A. H., Gianechini, F. A., Paulina-Carabajal, A., Flippi, L. S., Juarez-Valieri, R. D., Cerda, I. A., AND Garrido, A. C., 2022, New furileusaurian remains from La Invernada (NORTHERN Patagonia, Argentina): a site of unusual abelisaurids abundance:
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Nottrodt, R. E., 2022, First articulated ornithomimid specimens from the upper Maastrichtian Scollard Formation of Alberta, Canada: Journal of Vertebrate Paleontology, e2019754, 15pp.
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Oswald, T., Curtice, B., Bolander, M., and Lopez, C., 2022, Observation of claw use and feeding behavior of the red-legged Seriema and its implications for claw use in deninonchosaurs: Journal of the Arizona-Nevada Academy of Science, v. 50, n. 1, p. 17-21.
Padian, K., 2022, Why tyrannosaurid forelimbs were so short: an integrative hypothesis: Acta Palaeontologica Polonica, v. 67, n. 1, p. 63-78. Link to pdf
Paterna, A., and Cau, A., 2022, New giant theropod material from the Kem Kem Compound Assembalge (Morocco) with implicatons on the diversity of the mid-Cretaceous carcharodontosaurids from North Africa: Historical Biology, published online, 9pp.
Paul, G. S., 2022, Observations on Paleospecies determination, with additional data on Tyrannosaurus including its highly divergent species specific supraorbital display ornaments that give T. rex a new and unique life appearance: BioRxiv preprint, 94pp.
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Wang, D.-h., and Xing, L.-d., 2022, An overview of vertebrate paleopathology and Mesozoic vertebrate paleopathological records of China: Acta Palaeontologica Sinica, v. 61, n. 2, p. 256-268.
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Genus: Nova (9)
Abditosaurus
ZANZA, RAZZOLINI, GIL-dELGADO, CANUDO & GALOBART, 2022Caieiria allocaudata
SILVA JUNIOR, MARTINELLI, MARINHO, da SILVA & lANER, 2022Ibirania
NAVARRO, GHILARDI, AURELIANONAVARRO, GHILARDI, AURELIANO, DIEZ DIAZ, BANDEIRA, CATTARUZZI, IORI, MARTNE, CARVALHO, ANELLI, FERNANDES & ZAHER, 2022Khanazeem
MALKANI, 2022Menucocelsior R
OLANDO, MARSA, AGNOLIN, MOTTA, ROZADILLA & NOVAS, 2022Mbiresaurus
BRODERICK, ZONDO, TOLAN, LANGER, NESBITT & TARUVINGA, 2022Perijasaurus
RINCON, PAJARO, VELANDIA, EZCURRA & MANTILLA, 2022Tuebingosaurus
FERNANDEZ & WERNBURG, 2022Yuzhoulong
DAI, TAN, XIONG, MA, LI, YU, WEI, WANG, YI, WEI, YOU & REN, 2022Species: Nova (9)
Abditosaurus kuehnei
Caieiria allocaudata SILVA JUNIOR, MARTINELLI, MARINHO, da SILVA & lANER, 2022
Ibirania parva
NAVARRO, GHILARDI, AURELIANONAVARRO, GHILARDI, AURELIANO, DIEZ DIAZ, BANDEIRA, CATTARUZZI, IORI, MARTNE, CARVALHO, ANELLI, FERNANDES & ZAHER, 2022Khanazeem saraikistani
MALKANI, 2022Menucocelsior arriagadai
ROLANDO, MARSA, AGNOLIN, MOTTA, ROZADILLA & NOVAS, 2022Mbiresaurus raathi
BRODERICK, ZONDO, TOLAN, LANGER, NESBITT & TARUVINGA, 2022Perijasaurus lapaz
RINCON, PAJARO, VELANDIA, EZCURRA & MANTILLA, 2022Tuebingosaurus maierfritzorum
FERNANDEZ & WERNBURG, 2022Yuzhoulong qurenensis
DAI, TAN, XIONG, MA, LI, YU, WEI, WANG, YI, WEI, YOU & REN, 2022Anonymous, 2022, Fossils of sauropodomorph ancestor show it walked upright, was quick and agile: Phys Org, published online, 2pp. Link to pdf
Anonymous, 2022, Triassic revolution: animals grew back faster adn smarter after mass extinction: Phys Org, published online, 3pp. Link to pdf
Anonymous, 2022, Largest dinosaur skeleton in Europe may have been found in Portugal: Phys Org, published online, 3pp. Link to pdf.
Anonymous, 2022, Previously unknown species of dinosaur identified in southwestern Germany: Phys, Org, published online, 3pp. Link to pdf
Anonymous, 2022, Paleongology: No supersonic boom for dinosaur tails: Phys org, published online, 2pp. Link to pdf
Averianov, A. O., and Lopatin, A. V., 2022, New data on Sibirotitan, a titanosauriform sauropod from the Early Cretaceous of Western Siberia: Doklady Earth Sciences, v. 506, part 1, p. 650-653.
Averianov, A. O., Sizov, A. V., Grigoriev, D V., Pestchevitskaya, E. B., Vitenko, D. D., and Skutschas, P. P., 2022, New data on dinosaurs from the Lower Cretaceous Murtoi Formation of Transbaikalia, Russia: Cretaceous Research, v. 138, 105287, 16pp.
Ballell, A., Rayfield, E. J., and Benton, M. J., 2022, Walking with early dinosaurs: appendicular myology of the Late Triassic sauropodomorph Thecodontosaurus antiquus: Royal Society Open Science,v. 9, 21135, 27pp. Link to pdf
Bellardini, F., Coria, R. A., Pino, D. A., Windholz, G. J,. Baiano, M A., and Martinelli, A G., 2022, Osteology and phylogenetic relationships of Ligabuesaurus leanzai (Dinosauria: Sauropoda) from the Early Cretaceous of the Neuquen Basin, Patagonia, Argentina: Zoological Journal of the Linnean Society, published online, 61pp. Link to pdf
Bellardini, F,. Coria, R. A., Windholz, G. J., Martinelli, A. G., and Baiano, M. A., 2022, Revisiting the early cretaceous sauropod agustinia ligaubei (Dinosauria: diplodociodea) from southern neuquen basin (Patagonia, Argentina), with implicatiosn on the early evolution of rebbachisaurids: Historical Biology, published online, 27pp.
Benton, M. J., and Wu, F,. 2022, Triassic revolution: Frontiers in Earth Science, v. 10, article 89954, 119pp. Link to pdf
Brand, N A., Heckert, A. B., Sanchez, I., Foster, J. R., Hunt-Foster, R. K., and Eberle, J. J, 2022, New Late Cretaceous microvertebrate assemblage from the Campania-Maastrichtian Williams Fork Formation, northwestern Colorado, USA, and its paleoenvironmental implications: Acta Palaeontologica Polonica, v. 67, n 3, p. 579-600. Link to pdf
Brum, A. S., Bandeira, K. L. N., Sayao, J. M., Campos, D. A., and Kellner, A. W. A., 2022, Microstructure of axial bones of lithostrotian titnosaurs (Neosauropoda: Sauropodomorpha) shows extended fast-growing phase: Cretaceous Research, v. 136, 105220, 29pp.
Calvo, J. O, Ramirez, A., Salgado, L., and Otero, A., 2022, Juvenile titanosaurian (Dinosauria: Sauropoda) remains from the Upper Cretaceosu of Barreales Lake, Neuquen, Argentina: Cretaceous Research, v. 131, 105096, 7pp.
Cerda, I. A., Novas, F. E,. Carballiod, J. L., and Salgado, L., 2022, Osteohistology of the hyperelongate hemispinous processes of Amargasaurus cazaui (Dinosauria: Sauropoda): implications for soft tissue reconstruction and functional significance: Journal of Anatomy, published online, 15pp.
Cerda, I. A., Pol, D., Otero, A., and Chinsamy, 2022, Palaeobiology of the early sauropodomorph Mussaurus patagonicus inferred from its long bone histology: Palaeontology, published online 48pp.
Conti, S., Tschopp, E,. Mateus, O., Zanni, A., Masarati, P., and Sala, G., 2022, Multibody analysis and soft tissue strength refute supersonic dinosaur tail: Scientific Reports, published online, 12:19245, 9pp. Link to pdf
Dai, H., Tan, C., Xiong C., Ma, Q., Li, N., Yu, H., Wei, Z., Wang, P., Yi, J., Wei, G., You, H., and Ren, X., 2022, New macronarian from the Middle Jurassic of Chongqing, China: phylogenetic and biogeographic implications for neosauropod dinosaur evolution: Royal Society Open Science, v. 9, 22074, 30pp. (Yuzhoulong qurenensis) Link to pdf
Damke, L. V. S., Bem, F. P., Doering, M., Piovesan, T. R., and Müller, R. T., 2022, The elongated neck of sauropodomorph dinosurs evoloved gradually: The Anatomical Record, published online, 11pp.
Demuth, O. E., Benito, J,. Tschopp, E., Lautenschlager, S., Mallison, H., Heeb, N., and Field, D. J., 2022, Topology-based three-dimensional reconstruction of delicate skeletal fossil remains and the quantification of thier taphonomic deformation: Frontiers in Ecology and Evolution, volume 10, article 828006, 22pp. Link to pdf
Dhiman, H, Verman, V., and Prasad, G. V. R., 2022, First ovum-in-ovo pathological titanosaurid egg throws light on the reproductive biology of sauropod dinosaurs: Scientific Reports, 12:9363: 14pp, Link to pdf
Fernandez, O. R. R., and Werneburg, I., 2022, A new massopodan sauropodomorph from Trossingen Formation (Germany) hidden as 'Plateosaurus' for 100 years in the historical Tübingen collection: Vertebrate Zoology, v. 72, p. 771-822. (Tuebingosaurus maierfritzorum) Link to pdf
Fiorelli, L. E., Martinelli, A. G., da Silva, J. I., Hechenleitner, E. M., Soares, M. V. T., Silva Junior, J. C. G., da Silva, J. C., Bores, M. R., Ribeiro, L. C. B., Marconato, A., Basilici, G., and da Silva Marinho, T., 2022, First titanosaur dinosaur nesting site from the Late Cretaceous of Brazil: Scientific Repots, published online, 13pp. Link to pdf
Florides, G. A., and Christodoulides, P., 2022, On dinosaur reconstruction: the head: Open Journal of Geology, v. 12, p. 371-432. Link to pdf
Garderes, J. P., Gallina, P. A., Whitlock, J. A., and Toledo, N., 2022, Neuroanaomy of a diplodocid sauropod dinosaur from the Lower Cretaceous of Patagonia, Argentina: Cretaceous Research, v. 129, 105024, 11pp.
Griffin, C. T., Wynd, B M., Munyikwa, D., Broderick, T. J., Zondo, M., Tolan, S., Langer, M. C., Nesbitt, S. J., and Taruvinga, H. R., 2022, Africa's oldest dinosaurs reveal early suppression of dinosaur distribution: Nature, published online, 7pp. (Mbiresaurus raathi) Link to pdf
Jannel, A., Salisbury, S. W., and Panagiotopoulou, O., 2022, Softening the steps to gigantism in sauropod dinosaurs through the evolution of a pedal pad: Science Advances, v. 8, 13 pp. Link to pdf
Junior, J. C. G. S., Montefeltro, F. C., Marinho, T. S., Martinelli, A. G., and Langer, M. C., 2022, Finite elements analysis suggests a defensive role for ostoderms in titanosaur dinosaurs (Sauropoda): Cretaceous Research, v. 129, 105031, 4pp.
Keller, T., and Or, D., 2022, Farm vehicles approaching weights of sauropods exceed safe mechanical limits for soil functioning: Proceedings of the National Academy of Science, v. 119, n. 21, 6pp. Link to pdf
Langer, M. C., Delcourt, R., Montefeltro, F C., Silva Junior, J. C. G., Soler, M. G., Ferreira, G. S., Ruiz, J. V., Barcelos, L. A., Onary, S., Marsola, J. C. A., Castro, M. C., Cidade, G. M., and Batezelli, A., 2022, The Bauru Basin in Sao Paulo and its tetrapods: Derbyana, Sao Paulo, v. 43: e776, 52pp. Link to pdf
Lehman, T. M., Cobb, J,. Sylvester, P., and Souders, A. K., 2022, The Cretaceous-Paleogene contact in the Tornillo Group of Big Bend National Park, West Texas, USA: Geosphere, published online, 34pp. Link to pdf
Lorente, A. G., 2022, Els jaciments paleontologics del Cretaci Superior contiental dels pirineus: noves especies de dinosaures I vertebrates de l'lla Iberoarmoricana, Isurus, no. 14, p. 38-44. Link to pdf
Malkani, M. S., 2022, Plates boundary and structural geology of Balochistan and Indus basins thorugh field observations on Chaman Transform fault and western Indus Suture (Pakistan): Dinosaurs from Pakistan with attributed bones and key features: Titanosaurs from India with updated assessment on Jainosaurus: Open Journal of Geolgy, v. 12, p. 1032-1079. (Khanazeem saraikistani) Link to pdf
Manitkoon, S., Deeseri, U., Lauprasert, K., Warapeang, P., Nonsrirach, T., Nilpanapan, A., Wongko, K., and Chanthasit, P., 2022, Fossil assemblage from Khok Pha Suam Locality of northeastern, Thailand: an oveview of vertebrate diversity from the Early Cretaceous Khok Kruat Formation (Aptian-Albian): Fossil Record, v. 25, n. 1, p. 83-98. Link to pdf
Mocho, P., Perez-Garcia A., and Codrea, V A., 2022, New titanosaurian caudal remains provide insights on the sauropod diversity of the Hateg Island (Romania) during the Late Cretaceous: Historical Biology, an International Journal of Paleobiology, published online, 36pp.
Moyano-Pax, D., Rodzalla, S., Agnolin, F., Vera, E., Coronel, M. D., Varela, A. N., Gomez-Dacal, A. R., Aranciaga-Rolando, A. M., D-Angelo, J., Perez-Loinaze, V., Richiano, S., Chimento, N., Motta, M. J., Sterli, J., Manabe, M., Tsuihiji, T., Isasi, M. P., Poire, D. G., and Novas, F. E., 2022, The uppermost Cretaceous continental deposits at the southern end of Patagonia, the Chorrillo Formation case study (Austral-Magallanes Basin): Sedimentology, fossil contenent and regional implications: Cretaceous Research, v. 130, 105059, 30pp.
Müller, R. T., 2022, On the presence and shape of anterolateral scars in the ontogenetic series of femora for two early sauropodomorpha dinosaurs from the Upper Triassic of Brazil: Paleontological Research, v. 26, n. 1, p. 1-7. Müller, R. T., and Garcia, M. S., 2022, A sauropodomorph (Dinosauria, Saurischia) specimen from the Upper Triassic of Southern Brazil and the early increase in size in sauropodomorpha: Journal of Vertebrate Paleontology, e2002879, 20 pp. Link to pdf
Müller, R. T., and Garcia, M. S., 2022, A sauropodomorph (Dinosauria, Saurischia) specimen from the Upper Triassic of Southern Brazil and the early increase in size in sauropodomorpha: Journal of Vertebrate Paleontology, v. 41, n. 4, e2002879, 20 pp. Navarro, B. A., Ghilardi, A. M., Aureliano, T., Diez Diaz, V., Bandeira, K. L. N., Cattaruzzi, A. G. S., Iori, F. V., Martine, A. M., Carvalho, A B., Anelli, L. E., Fernandes, M. A., and Zaher, H., 2022, A new nanoid titanosaur (Dinosauria: Sauropoda) from the Upper Cretaceous of Brazil: Ameghiniana, v .59, n. 5, p. 317-354. (Ibirania parva) Otero, A., and Pol, D., 2022, Ontogenetic changes in the postcranial skeleton of
Mussasaurus patagonicus (Dinosauria, Sauropodomorpha) and thier impact on the phylogenetic relationships of early sauropodomorphs: Journal of Systematic Palaeontology, published online, 50pp. Link to pdf Pal, S., and Ayyasami, K., 2022, The lost titan of Cauvery: Geology Today, v. 38, n. 3, p. 112-116. Paramo, A., Escaso, F., Mocho, P., Marcos-Fernandez, F., and Sanz, J. L., 2022, 3D geometric morphometrics of the hind limb in the titanosaur sauropods from Lo Hueco (Cuenca, Spain): Cretaceous Research, v. 134, 105147, 33pp. Pittman, M., Enriquez, N. J., Bell, P. R., Kaye, T. G., and Upchurch, P., 2022, Newly detected data from Haestasaurus and review of sauropod skin morphology suggests Early Jurassic origin of skin papillae: Communications Biology, published online, 8pp. Link to pdf Preuschoft, H., 2022, Mechanical analysis of the wide-hipped titanosaur Savannasaurus elliottorum: Paleobiodiversity and Palaeonevironments, publisehd online, 5pp. Link to pdf Price, J. R., and Whitlock, J. A., 2022, Dental histology of Diplodocus (Sauropoda, Diplodocoidea): Journal of Vertebrate Palaeontology, e2099745, v. 42, n. 1, 4pp. Ren, X.-X., Jiang, S., Wang, X.-R., Peng, G.-Z., Ye, Y., King, L,. and You, H.-L., 2022, Osteology of Dashanpusaurus dongi (Sauropoda: Macronaria) and new evolutionary evidence from Middle Jurassic Chinese sauropods: Journal of Systematic Palaeontology, v. 20: 1, 2032886, DOI: 10.1080/14772019.2022.2132886, 72pp. Rigby, S. L., Poropat, S. F., Mannion, P. D., Pentland, A. H., Sloan, T., Rumbold, S. J., Webster, C. B., and Elliott, D. A., 2022, A juvenile Diamantinasaurus matildae (Dinosauria: Titanosauria) from the Upper Cretaceous Winton Formation of Queensland, Australia, with implicatons for sauropod ontogeny: Journal of Vertebrate Paleontology, v. 41, n. 6, e2047991, 20 pp. Rincon, A. F., Pajaro, D. A. R., Velandia, H. F. J., Ezcurra, M. D., and Mantilla, A. W., 2022, A sauropod from the Lower Jurassic La Quinta formation (Dept, Cesar, Colombia) and the initial diversification of eusauropods at low latitudes: Journal of Vertebrate Paleontology, e2077112, 24pp. (Perijasaurus lapaz) Link to pdf
Rincon, A. F., Pajaro, D. A. R., Velandia, H. F. J., Ezcurra, M. D., and Mantilla, A. W., 2022, A sauropod from the Lower Jurassic La Quinta formation (Dept, Cesar, Colombia) and the initial diversification of eusauropods at low latitudes: Journal of Vertebrate Paleontology, e2077112, v. 42,n . 1, 24pp. (Perijasaurus lapaz)
Rolando, M. A., Marsa, J. A. G., Agnolin, F. L., Motta, M. J., Rozadilla, S., Novas, F. E., 2022, The sauropod record of Salitral Ojo del Agua: an Upper Cretaceosu (Allen Formatin) fossiliferous locality from northern Patagonia, Argentina: Cretaceous Research, v. 129, 105029, 25pp. (Menucocelsior arriagadai) Sakaki, H,. Winkler, D. E., Kubo, T., Hirayama, R., Uno, H., Miyata, S., Endo, H,, Sasaki, K., Takisawa, T., and Kubo, M. O., 2022, Non-occlusal dental microwear texture analysis of a titanosauriform sauropoda dinosaur from the Upper Cretaceous (Turonian) Tamagawa Formation, northeastern Japan:
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Schade, M., Knotschke, N., Hornig, M. K., Paetzel, C., and Stumpf, S., 2022, Neurovascular anatomy of dwarf dinosaur implies precociality in sauropods: eLife 2022: 11:e82190, 22pp. Link to pdf Schroeter, E. R., Ullmann, P. V., Maculey, K., Ash, R. D., Zheng, W., Schweitzer, M. H., and Lacovara, K. J., 2022, Soft-tissue, rare earth element, adn molecular analyses of Dreadnoughtus schrani, an exceptionally complete titanosaur from Argentina: Biology, v, 11, published online, 31 pp. Link to pdf Sharma, A., Singh, S., and Satheesh, S. R., 2022, The first tuiasaurian sauropod from India reported from the Middle Jurassic (Bathonian) sediments of Jaisalmer Basin, Rajasthan, India: Neues Jahrbuch für Geologie und Paläontologie, Abhandlungen, v. 304, n. 2, p. 187-203. Silva Junior, J. C. G., Martinelli, A. G., Marinho, T. S., da Silva, J. I., and Langer, M. C., 2022, New specimens of Baurutitan britoi and a taxonomic reassessment of the titanosaur dinosaur fauna (Sauropoda) form the Serra da Galga Formation (Late Cretaceous) of Brazil: PeerJ 10:e24333, 44pp. (Caieiria allocaudata) Link to pdf Soto, M., Montenegro, F., Mesa, V., and Perea, D., 2022, Sauropod (Dinosauria: Saurischia) remains from the Mercedes and Ascenco Formations (sensu Bossi, 1966), Upper Cretaceous of Uruguay: Cretaceous Research, v. 131, 105072, 14pp. Taylor, M. P., 2022, Almost all known sauropod necks are incomplete and distorted: PeerJ 10:e12810 DOI 10.7717/peerj.12810, 35pp. Link to pdf
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Hudiesaurus sinojapanoroum
Dong, 1997, from the Turpan Basin, China, and the evolution of hyper-robust antebrachia in sauropods: Journal of Vertebrate Paleontology, v. 41, n. 4, e1994414, 31pp.
Vila, B., Selles, A., Moreno-Azanza, Razzolini, Gil-Delgado, Canudo, J. I., and Galobart, A., 2022, A titanosaurian sauropod with Gondwana affinities in the latest Cretaceous of Europe: Nature Ecology & Evolution, published online, 9pp. (Abditosaurus kuehnei) Link to pdf Winholz, G. J., Cerda, I. A., Carballido, J. L., and Rauhut, O. W. M., 2022, Palaeobiologial inferences for the South American dicraeosaurid Brachytrachelopan mesai (Dinosauria; Sauropoda) based on bone histology of the holotype: Historical Biology, published online, 10p. Windholz, G. J., Coria, R. A., Bellardini, F., Baiano, M. A., Pino, D., Ortega, F., and Currie, P. J., 2022, On a dicraeosaurid specimen from the Mulichinco Formation (Valanginian, Neuquen Basin) of Argentina and phylogenetic relatinoships of the South American dicraeosaurids (Sauropoda Diplodocoidea): Comptes Rendus Palevol, v. 21, n. 45, 991-1019. Link to pdf Woodruff, D. C., Wolff, E. D. S., Wedel, M. J, Dennison, S., and Witmer, L. M., 2022, The first occurrence of an avian-style respiratory infection in a non-avian dinosaur: Scientific Reports, published online, 12pp. Link to pdf Zhang, X.Q., Li, N,. Xie, Y., Li, D.-Q., and You, H-L., 20222, Redescritpion of the dorsal verterae of the mamenchisaurid sauropod
Xinjiangtitan shanshanensis
Wu, et al., 2012, Historical biology, an international journal of Paleobiology, published online, 27pp. Link to pdf Zhou, Y., Dai, H., You, H., Ma, Q., Tan, C., Li, N., Lin, Y., and Li, D., 2022, Zircon geochronology of the new dinosaur fauna in the Middle Jurassic lower Shaximiao Formation in Chongqing, SW China: Palaeogeography, Palaeoclimatology, Palaeoecology, v. 592, 5pp. Ornithischia Genus: Nova (6)
Bisticeratops
DALMAN, JASINSKI & LUCAS, 2022
Huallasaurus
ROZADILLA, BRISSON-EGLI, AGNOLIN, ARANCIAGA-ROLANDO & NOVAS, 2022
Iyuku
FORSTER, de KLERK, POOLE, CHINSAMY-TURAN, ROBERTS & ROSS, 2022 Kelumapusaurus
ROZADILLA, BRISSON-EGLI, AGNOLIN, ARANCIAGA-ROLANDO & NOVAS, 2022
Nevadadromeus BONDE, HALL, KRUMENACKER & VARRICCHIO, 2022
Transylvanosaurus AUGUSTIN, BASTIAANS, DUMBRAVA & CSIKI-SAVA, 2022 Species: Nova (5)
Bisticeratops froeseorum
DALMAN, JASINSKI & LUCAS, 2022
Iyuku raathi FORSTER, de KLERK, POOLE, CHINSAMY-TURAN, ROBERTS & ROSS, 2022
Kelumapusaurus machi
ROZADILLA, BRISSON-EGLI, AGNOLIN, ARANCIAGA-ROLANDO & NOVAS, 2022
Nevadadromeus schmitti BONDE, HALL, KRUMENACKER & VARRICCHIO, 2022
Transylvanosaurus platycephalus AUGUSTIN, BASTIAANS, DUMBRAVA & CSIKI-SAVA, 2022 Synonym: Nova (1)
Huallasaurus australis (BONAPARTE, FRANCHI, POWELL & SEPULVEDA, 1984) ROZADILLA, BRISSON-EGLI, AGNOLIN, ARANCIAGA-ROLANDO & NOVAS, 2022 = Kritosaurus australis
BONAPARTE, FRANCHI, POWELL & SEPULVEDA, 1984 Anne, J., Whitney, M., Brocklehurst, R., Donnelly, K., and Rothschild, B., 2022, Unusual leasions seen in the caudals of the hadrosaur, Edmontosaurus annectens: Anatomical Record, v. 306, p. 594-606. Anonymous, 2022, Dinosaur 'mummies' might not be as unusual as we think: Phys Org, published online, 2 pp. Link to pdf Ashworth, J., 2022, 'Bird-hipped' Jurassic dinosaur was one of the first to live in herds: Phys Org, published online, 4 pp. Link to pdf Augustin, F. J., Bastiaans, D., Dumbrava, M. D., and Cisiki-Sava, Z., 2022, A new ornithopod dinosaur, Transylvanosaurus platycephalus gen. et sp. nov. (Dinosauria: Ornithischia), from the Upper Cretaceous of the Hateg Basin, Romania: Journal ov Vertebrate Paleontology, DOI: 10.180/02724634.2022.2133610, 23pp. (Transylvanosaurus platycephalus) Link to pdf
Averianov, A. O., Sizov, A. V., Grigoriev, D V., Pestchevitskaya, E. B., Vitenko, D. D., and Skutschas, P. P., 2022, New data on dinosaurs from the Lower Cretaceous Murtoi Formation of Transbaikalia, Russia: Cretaceous Research, v. 138, 105287, 16pp. Baag, S. J., and Lee, Y.-N., 2022, Bone histology on Koreaceratopd hwaseongensis (Dinosauria: Ceratopsia) from the Lower Cretaceous of South Korea: Cretaceoue Research, v. 134, 105150, 12pp. Ballell, A., Benton, M. J., and Rayfield, E. J., 2022, Dental form and function in the early feeding diversification of dinosaurs: Science Advances, v 7 eagq5201: 13pp. Link to pdf Bell, P. R., Hendrickx, C., Pittman, M., and Kaye, T. G., 2022, Oldest preserved umbilical scar reveals dinosaurs had 'belly buttons': BMC Biology, 20:132, 7 pp. Link to pdf
Benton, M. J., and Wu, F,. 2022, Triassic revolution: Frontiers in Earth Science, v. 10, article 89954, 119pp. Link to pdf Bertozzo, F., Bolotsky, I., Golotsky, Y. L., Poberezhskiy, A., Ruffell, A., Godefroit, P., and Murphy, E., 2022, A pathological ulna of Amurosaurus riabinini from the Upper Cretaceous of Far Eastern Russia: Historical Biology, published online, 8pp. Bonde, J. W., Hall, R. L., Krumenacker, L. J., and Varricchio, D. J., 2022, Nevadadromeus schmitti (gen. et sp. nov.), a new basal neornithischian with affinities to the Thescelosaurinae, from the Upper Cretaceous (Cenomanian) Willow Tank Formation of southern Nevada: Journal of the Arizona Nevada Academy of Sciene, published online, 8pp. (Nevadadromeus schmitti) Chen, X., Tan, K, Lu, L,. and Ji, S., 2022, Occurrence of Protoceratops hellenikorhinus (Ceratopsia: Protoceratopsidae) in Alxa regon, western Inner Mongolia, China: Acta Geological Sinica (100th Anniversary), v. 96, n. 11, p. 3722-3732. Link to pdf Cullen, T. M., Zhang, Z., Spencer, J., and Cousens, B,. 2022, Sr-O-C isotope signatures reveal herbivore niche-partitioning in a Cretaceous ecosystem: Paleontology, published online, 11pp. Link to pdf D'Anastasio, R., Cilli, J, Bacchia, F., Fanti, F., Gobbo, G., and Capasso, L., 2022, Histological and chemical diagnosis of a combat lesion in
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Sierraceratops turneri, a new chasmosaurine ceratopsid from the Hall Lake Formation (Upper Cretaceous) of south-central New Mexico: Cretaceous Research, v. 130, 105034, 28pp Dalman, S. G., Jasinski, S. E., and Lucas, S. G., 2022, A new chasmosaurine ceratopsid from the Upper Cretaceous (Campanian) Farmington Member of the Kirtland Formation, New Mexico: New Mexico Museum of Natural History and Science, Bulletin, 90, p. 127-152. (Bisticeratops froeseorum) Link to pdf Drumheller, S. K., Boyd, C A., Barnes, B. M S,. and Householder, M. L., 2022, Biostratinomic alterations of an
Edmontosaurus "mummy" reveal a pathway for soft tissue preservation without invoking "exceptial conditions".
PLOS,
Public Library of Science, One,v. 17, n. 10, 25pp. Link to pdf Figueiredo, S. D., de Souza Carvalho, I., Pereda-Suberbiola, X., Cunha, P. P., Strantzali, I. B., and Antunes, V., 2022, Ornithopod dinosaur remains from the Papo Seco Formation (lower Barremian, Lusitanian Basin, Portugal): a review of old and new finds: Historical Biology, published online, 12pp. Fiorillo, A. R., McCarthy, P. J., Kobayashi, Y.,and Suarez, M. B., 2022, Cretaceous Dinosaurs across Alaska show the role of Paleoclimate in structuring ancient large-herbivore populations: Geosciences, V. 12, 161, 14pp. Link to pdf
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Iguanodon bernissartensis axial bones (Dinosauria, Ornithopoda) from the Early Cretaceous of Morella, Spain: Diversity, v. 14, published online, 16pp.
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Jorgewich-Cohen, G., Townsend, S. W., Padovese, L. R., Klein, N., Praschag, P., Ferrara, C. R., Ettmar, S., Menezes, S., Varani, A. P., Serano, J., Schachez-Villagra, M. R., 2022, Common evolutionary origin of acoustic communication in chonanate vertebrates: Nature Communications, published online, 7pp. Link to pdf
Langer, M. C., Delcourt, R., Montefeltro, F C., Silva Junior, J. C. G., Soler, M. G., Ferreira, G. S., Ruiz, J. V., Barcelos, L. A., Onary, S., Marsola, J. C. A., Castro, M. C., Cidade, G. M., and Batezelli, A., 2022, The Bauru Basin in Sao Paulo and its tetrapods: Derbyana, Sao Paulo, v. 43: e776, 52pp. Link to pdf
Lautenschlager, S., 2022, Functional and ecomorphological evolution of orbit shape in mesozoic archosaurs in driven by body size and diet: Communications Biology, published online, 11pp. Link to pdf
Lehman, T. M., Cobb, J,. Sylvester, P., and Souders, A. K., 2022, The Cretaceous-Paleogene contact in the Tornillo Group of Big Bend National Park, West Texas, USA: Geosphere, published online, 34pp. Link to pdf Libke, C., Bell, P. R., Somrs, C. M., and McKellar, R. C., 2022, New scale type from a small-bodied hadrosaur in the Frenchman Formation of southern Saskatchewan: potential implications for integumentary diversity in
Edmontosaurus annectens:
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Maidment, S. C. R., Chapelle, K. E. J,. Bonser, J. A,. Button, D., and Barrett, P. M., 2022, Osteology and relationships of
Cumnoria prestwichii (Ornithischia: Ornithopoda) from the Late Jurassic of Oxfordshire, UK: Monographs of the Palaeontolographical Society, 17t:664, 55pp.
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Gryposaurus notabilis (Dinsoauria: Hadrosauridae): The Anatomical Record, Special issue article, 23pp. Published online,
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Torosaurus (Ornithischia: Ceratopsidae) in Canada and its taxonomic implications: Zoological Journal of the Linnean Society, published online, 15pp.
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Stegoceras validum (Ornithischia: Pachycephalosauridae) and implications for the head-butting hypothesis: PLOS,
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Moyano-Pax, D., Rodzalla, S., Agnolin, F., Vera, E., Coronel, M. D., Varela, A. N., Gomez-Dacal, A. R., Aranciaga-Rolando, A. M., D-Angelo, J., Perez-Loinaze, V., Richiano, S., Chimento, N., Motta, M. J., Sterli, J., Manabe, M., Tsuihiji, T., Isasi, M. P., Poire, D. G., and Novas, F. E., 2022, The uppermost Cretaceous continental deposits at the southern end of Patagonia, the Chorrillo Formation case study (Austral-Magallanes Basin): Sedimentology, fossil contenent and reginoal implications: Cretaceous Research, v. 130, 105059, 30pp.
Nirody, J. A., Goodwin, M. B., Horner, J. R., Huynh, T. L., Colbert, M. W., Smith, D. K., and Evans, D. C., 2022, Quantifying vascularity in the frontoparietal dome of
Stegoceras validum (Dinosauria: Pachycephalosauridae) from the high resolution CT scans: Journal of Vertebrate Paleontology, published online, 6pp.
Nirody, J. A., Goodwin, M. B., Horner, J. R., Huynh, T. L., Colbert, M. W., Smith, D. K., and Evans, D. C., 2022, Quantifying vascularity in the frontoparietal dome of
Stegoceras validum (Dinosauria: Pachycephalosauridae) from the high resolution CT scans: Journal of Vertebrate Paleontology, published online, v. 41,n . 5, 6pp.
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Deinonychus teeth associated with a skeleton of Tenontosaurus from the Cloverly Formation (Lower Cretaceous), Montana, USA Cretaceous Research, v. 140, 10pp.
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Norman, D. B., Baron, M. G., Garcia, M. S., and Müller, R. T., 2022, Taxonomic, palaeobiologial and evolutionary implications of a pylogenetic hypothesis for Ornithischia (Archosauria: Dinosauria): Zoological Journal of the Linnean Society, published online, 37pp.
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Paul, G. S., 2022, Observations on Paleospecies determination, with additional data on Tyrannosaurus including its highly divergent species specific supraorbital display ornaments that give T. rex a new and unique life appearance: BioRxiv preprint, 94pp.
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Rotatori, F. M., Moreno-Azanza, M., and Mateus, O., 2022, Reapprasial and new material of the holotype of Draconyx loureiroi (Ornithischia: Iguanodontia) provide insights on the tempo and modo of evolution of thumb-spiked dinosaurs: Zoological Journal of the Linnean Society, published online, 42pp.
Rozadilla, S., Brisson-Egli, F., Agnolin, F. L., Aranciaga-Rolando, A. M., and Novas, F. E., 2022, A new hadrosaurid (Dinosauria: Ornithischia) from the late Cretaceous of northern Patagonia and the radiation of South American hadrosaurids: Journal of Systematic Palaeontology, published online, 29pp. (Kelumapusaurus machi, Huallasaurus australis, = Kritosaurus australis) Link to pdf
Samathi, A., and Suteethorn, S., 2022, New materials of iguanodontians (Dinosauria: Ornithopoda) from the Lower Cretaceous Khok Kruat Formation, Ubon Ratchathani, Thailand: Zootaxa, n. 5094 (2), p. 301-320. Link to pdf
Scott, E. E., Chiba, K., Fanti, F., Saylor, B. Z., Evans, D. C., and Ryan, M. J., 2022, Taphonomy of a monodominat Gryposaurus sp. bonebed from the Oldman Formation (Campanian) of Alberta, Canada: Canadian Journal of Earth Sciences, published online, 17pp.
Scott, S. H. W., Ryan, M. J., and Evans, D. C., 2022, Postcranial description of Wendiceratops pinhornensis and a taphonomic analysis of teh oldest monodominat ceratopsid bonebed: Anatomical Record, published online, 18pp.
Son, M., Lee, Y.-N., Zorigt, B., Kobayashi, Y., Park, J.-Y., Lee, S, Kim, S-H., and Lee, K. Y., 2022, A new juvenile Yamaceratops (Dinosauria, Ceratopsia) from theJavkhlant Formation (Upper Cretaceous) of Mongolia: PeerJ 10:e13176 DOI 10.7717/peerj.13176, 44pp. Link to pdf
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Takasaki, R,. Chiba, K., Fiorillo, A. R., Brink, K. S., Evans, D. C., Fanti, F., Saneyoshi, M., Maltese, A., and Ishigaki, S., 2022, Description of teh first definitive Corythosaurus (Dinosauria, Hadrosauridae) specimens form the Judith River Formaiton in Montana, USA and thier paleobiogeographical significance: Anatomical Record, published online, 21pp.
Ullmann, P. V., Ash, R. D., and Scannella, J. B., 2022, Taphonomic and diagenetic pathways to protein preservation, part II: the case of Brachylophosaurus canadensis specimen MOR 2598: Biology, v. 11, published online, 24pp. Link to pdf
Verdu, F. J., Godefrit, P., Royo-Torres, R., Cobos, A., and Alcala, L., 2022, Individual variation in the postcranial skeleton of the Early Cretaceous Iguanodon bernissartensis (Dinosauria: Ornithopoda): Cretaceous Research, v. 74, p. 65-86.
White, M.A., Bell, P. R., Campione, N. E., Sansalone, G., Brougham, T., Bevitt, J. J., Molnar, R. E., Cook, A. G., Wroe, S., and Elliott, D. A., 2022, Abdominal contents reveal Cretaceous crocodyliforms ate dinosaurs: Gondwana Research, v. 106, p. 281-302. Link to pdf
Wyenberg-Henzler, T., 2022, Ecomorphospace occupation of large herbivorous dinosaurs from Late Jurassic through to the Late Cretaceous time in North America: Peerj 10:e13174 http://doi.org/10.7717/peerj.13174, 34pp. Link to pdf
Wyenberg-Henzler, T., Patterson, R. T., and Mallon, J. C., 2022, Ontogentic dietary shifts in North American hadrosuarids (Dinosauria: Ornithischia): Cretaceous Research, v. 135, 105177, 15pp. Link to pdf
Xing, H., Gu, W., Hai, S., Yu, T, Han, D., Zhang, Y,. and Zhang, S., 2022, Osteological and taxonomic reassessments of Sahaliyania elunchunorum (Dinosauria, Hadrosauridae) from the Upper Cretaceous Yuliangzi Formation, northeastern China: Journal of Vertebrate Paleontology, e2085111, 23pp.
Xing, H., Gu, W,. Hai, S., You, T,. Han, D., Zhang, Y,. and Zhang, S., 2022, Osteological and taxonomic reassessments of Sahliyania elunchunorum (Dinosauria, Hadrosauridae) from the Upper Cretaceous Yuliangzi Formation, Northeast China: Journal of Vertebrate Paleontology, v. 41,n . 6, e2085111, 23pp.
Xing, L., Niu, K., Yang, T.-R., Wang, D., Miyashita,T., and Mallon, J. C., 2022, Hadrosauroid eggs and embryos from the Upper Cretaceous (Maastrichtian) of Jiangxi Province, China: BMC Ecology and Evolution, 22:60, published online, 9pp. Link to pdf
Genus: Nova (4)
Bashanosaurus
DAI, LI, MAIDMENT, WEI, ZHOU, HU, MA, WANG, HU & PENG, 2022Jakapil
RIGUETTI, APESTEGUIA & PEREDA-SUBERBIOLA, 2022Patagopelta
RIGUETTI, PEREDA-SUBERBIOLA, PONCE, SALGADO, APESTEGUIA, ROZADILLA & ARBOUR, 2022Yuxisaurus kopchicki YAO, BARRETT, YANG, XU & BI, 2022
Species: Nova (4)
Bashanosaurus primitivus
DAI, LI, MAIDMENT, WEI, ZHOU, HU, MA, WANG, HU & PENG, 2022Jakapil kaniukura
RIGUETTI, APESTEGUIA & PEREDA-SUBERBIOLA, 2022Patagopelta cristata
RIGUETTI, PEREDA-SUBERBIOLA, PONCE, SALGADO, APESTEGUIA, ROZADILLA & ARBOUR, 2022Yuxisaurus kopchicki YAO, BARRETT, YANG, XU & BI, 2022
Anonymous, 2022, Ankylosaur was sluggish and deaf: Phys Org, published online, 2pp. Link to pdf
Cincotta, A., Nicolai, M., Campos, H. B. N., McNamara, M., D'Alba, L., Shawkey, M. D., Kischlat, E.-E., Yans, J., Carleer, R., Escuillie, F., and Godefroit, P., 2022, Pterosaur melanosomes support signalling functions for early feathers: Nature, published online, 5pp. Link to pdf
Dai, H., Li, N., Maidment, S. C. R., Wei, G., Zhou, Y., Hu, X., Ma, Q., Wang, X., Hu, H., and Peng, G., 2022, New stegosaurs from the Middle Jurassic lower Member of the Shaximiao Formation of Chongqing, China: Journal of Vertebrate Paleontology, e1995737, 14pp. (Bashanosaurus primitivus)
Dai, H., Li, N., Maidment, S. C. R., Wei, G., Zhou, Y., Hu, X., Ma, Q., Wang, X., Hu, H., and Peng, G., 2022, New stegosaurs from the Middle Jurassic lower Member of the Shaximiao Formation of Chongqing, China: Journal of Vertebrate Paleontology, e1995737, v. 41, n. 5, 14pp. (Bashanosaurus primitivus)
Frauenfelder, T. G., Bell, P. R., Brougham, T., Brevitt, J. J., Bicknell, R. D. C., Kear, B. P., Wroe, S., and Campione, N. E., 2022, New ankylosaurian cranial remains from the Lower Cretaceous (Upper Albian) Toolebuc Formation of Queensland, Australia: Frontiers in Earth Sciences, v. 10 article 803505, 17pp. Link to pdf
Manitkoon, S., Deeseri, U., Lauprasert, K., Warapeang, P., Nonsrirach, T., Nilpanapan, A., Wongko, K., and Chanthasit, P., 2022, Fossil assemblage from Khok Pha Suam Locality of northeastern, Thailand: an oveview of vertebrate diversity from the Early Cretaceous Khok Kruat Formation (Aptian-Albian): Fossil Record, v. 25, n. 1, p. 83-98. Link to pdf
Riguetti, F. J., Apesteguia, S., and Pereda-Suberbiola, X., 2022, A new Cretaceous thyrophoran from Patagonia supports a South American lineage of armoured dinosaurs: Scientific Reports, published online, 12pp. (Jakapil kaniukura) Link to pdf
Riguetti, F., Pereda-Suberbiola, X., Poince, D., Salgado, L., Apesteguia, S., Rozadilla, S., and Arbour, V., 2022, A new small-bodied ankylosaurian dinosaur from the Upper Cretaceous of North Patagonia (Rio Negro Province, Argentina): Journal of Systematic Paleontology, 20: 1, 2137441, DOI: 10.1080/14772019.2022.2137441, 33pp. (Patagopelta cristata) Link to pdf
Sanchez-Fenollosa, S., Suner, M, and Cabos, A., 2022, New fossils of Stegosaurs from the Upper Jurassic of the Eastern Iberian Peninsula (Spain): Diversity, v. 14, 1047, 15pp. Link to pdf
Santos-Cubedo, A., de Santisteban, C., Poza, B., and Meseguer, S., 2022, Primeros fosiles de nodosauridos (Nodosauridae) del yacimiento Ana, Cretacico Inferior de Cinctorres (Castellon, Espana): Isurus, n. 14, p. 46-52. Link to pdf
Schade, M., and Ansorge, J,. 2022, New thyreophoran dinosaur material from the Early Jurassic of northeastern Germany: Paläontologische Zeitschrift, published online, 9pp. Link to pdf
Schade, M., Stumpf, S, Kriwet, J., Kettler, C., and Pfaff, C., 2022, Neuroanatomy of the nodosaurid Struthiosaurus austriacus (Dinosauria: Thyreophora) supports potential ecological differentiations within Ankylosauria: Scientific Reports, published online, 9pp. Link to pdf
Tan, K., Chen, X., Lu, L., and Ji, S., 2022, On the ankylosaurid Pinacosaurus from the Late Cretaceous of Alxa Right Banner, Inner Mongolia: Acta Geologica Sinca (100th Anniversary), v. 96, n. 11, p. 3733-3740.
Wyenberg-Henzler, T., 2022, Ecomorphospace occupation of large herbivorous dinosaurs from Late Jurassic through to the Late Cretaceous time in North America: Peerj 10:e13174 http://doi.org/10.7717/peerj.13174, 34pp. Link to pdf
Yao, X., Barrett, P. M., Yang, L,. Xu, X., and Bi, S., 2022, A new early branching armored dinosaur from the Lower Jurassic of southwetern China: eLife, 11:e75248. DOI:https://doi.org/10.7554/eLife.75248, 37pp. (Yuxisaurus kopchicki) Link to pdf
Dinosaurs in generalAnonymous, 2022, Al breakthrough could revolutionize how we research dinosaur fossils: Phys org, published online, 2pp. Link to pdf
Anonymous, 2022, Low volcanic temperature ushered in global cooling and the thriving of dinosaurs: Phys Org, published online, 2pp. Link to pdf
Anonymous, 2022, Chinese fossil eggs show dinosaur decline before extinction: Phys Org, published online, 2pp. Link to pdf
Benton, M. J, 2022, A colourful view of the origin of dinosaur feathers: Nature, v. 604, p. 630-631. Link to pdf
Beveridge, T. L., Roberts, E. M., Ramezani, J,. Titus, A. L., Eaton, J. G., Irmis, R. B, and Sertich, J. J. W., 2022, Refined geochronology and revised stratigraphic nomenclature of the Upper Cretaceous Wahweap Formation, Utah, U.SA. and the age of early Campanian vertebrates from southern Laramidia: Palaeogeography, Palaeoclimatology, Palaeoecology, v. 591, 22pp.
Blob, R. W., Espinoza, I. G., and Iijima, M., 2022, Anatomy informs geology: hydrodynamic dispersal of alligator bones, with implications for taphonomic interpretations of fossil deposits of crocodylians, dinosaurs, and other morphologically novel taxa: Anatomical Record, published online, 13pp. Link to pdf
David, R., Bronzati, M., and Benson, R. B. J., 2022, Comment on "The early origin of a birdlike inner ear and the evolution of dinosaurian movement and vocalization": Science, v. 376, 2 pp. Link to pdf
Garcia-Giron, J., Chiarenza, A. A., Alahuhta, J., DeMar Jr., D. G., Heino, J., Mannion, P. D., Williamson, T. E., Wilson Mantilla, G. P., and Brusatte, S. L., 2022, Shifts in food webs and niche stability shaped survivorship and extinction at the end-Cretaceous: Science Advances, Research Article, v. 8, eadd5040, 11pp. Link to pdf
Griffin, C. T., Botelho, J. F., Hanson, M., Fabbri, M., Smith-Paredes, D., Carney, R. M., Norell, M. A., Egawa, S,m Gatesy, S. M., Rowe, T. B., Elsey, R. M., Nesbitt, S. J., and Bhullar, B.-A. S., 2022, The developing bird pelvis passes through ancestral dinosaurian conditions: Nature, published online, 7pp.
Han, F., Wang, Q., Wang, H., Zhu, X., Zhou, X., Wang, Z., Fang, K., Stidham, T. A., Wang, W., Wang, X., Li, X., Qin, H., Fan, L., Wen, C., Luo, J., Pan, Y., and Deng, C., 2022, Low dinosaur biodiversity in central China 2 million years prior to the end -Cretaceous mass extinction: Proceedings of the National Academy of Science, v. 119, n. 3, e2211234119, 11pp.
Hanson, M., Hoffman, E. A., Norell, M. A., and Bhullar, B.-A. S., 2021, Response to Comment on "The early origin of a birdlike inner ear adn teh evolutino of dinosaurian movement and vocalization": Science, v. 376, 3pp. Link to pdf
Ma, M., Zhang, W., Zhao, M, Qiu, Y,. Cai, H, Chen, J, and Liu, X., 2022, Deccan Traps volcanism implicated in the extinction of non-avian dinosaurs in southeastern China: Geophysical Research Letters, 1-.1029/2022GI.100342, 10pp. Link to pdf
Manucci, F., and Romano, M., 2022, Reviewing the iconography and the central role of 'paleoart': four centuries of geo-palaeontological art: Historical Biology, an International Journal of Paleobiology, published online, 48pp. Link to pdf
Martin, J. E., Hassler, A., Montagnac, G., Therrien, F., and Balter, V., 2022, The stability of dinosur communities before the Cretaceous-Paleogene (K-Pg) boundary: a perspective from southern Alberta using calcium isotopes as a dietary proxy: The Geological Society of America, Bulletin, v. 134, n. 9/10, p. 2548-2560. Link to pdf
Olsen, P., Sha, J., Fang, Y., Chang, C., Whiteside, J H., Kinney, S., Sues, H.-D., Kent, D., Schaller, M., and Vajda, V., 2022, Arctic ice and the ecological rise of the dinosaurs: Science Advancds, research article, publihsed online, 9pp. Link to pdf
Ramezani, J., Beferidge, T. L., Rogers, R. R., Eberth, D. A., and Roberts, E. M., 2022, Calibrating the zenith of dinosaur diversity in the Campanian of the Western Interior basin by CA-ID-TIMS U-Pb geochronology: Scientific Reports, v. 12, 16026, 20pp.
Reolid, M., Ruebsam, W., and Benton, M. J., 2022, Dinosaur extinctions related to the Jenkyns event (early Toarcian, Jurassic): Spanish Journal of Palaeontology, v. 37, n. 2, p. 123-140. Link to pdf
Schroeder, K. M., Lyons, S. K., and Smith, F. A., 2022, Response to comment on "the influence of juvenile dinosaurs on community structure and diversity": Science, published online, 5pp. Link to pdf
Shelton, J., 2022, Going to 'femoral head' of class to explain dinosaur evolution: Phys Org, 3pp. Link to pdf
Yu, C., Quin, F., Li, Y,. Qin, Z,. and Norell, M., 2022, CT segmentation of dinosaur fossils by deep learning Frontiers in Earth Science, original research, volume 9, article 805271, 8pp. Link to pdf
Genus: Nova (6)
Beiguornis WANG, JU, WU, LIU, GUO & JI, 2022
Brevidentavis O'CONNOR, STIDHAM, HARRIS, LAMANNA, BAILLEUL, HU, WANG & YOU, 2022
Janavis BENITO, KUO, WIDRIG, JAGT & FIELD, 2022
Kaririavis CARVALHO, AGNOLIN, ROZADILLA, NOVAS, ANDRADE & XAVIER-NETO, 2022
Meemannavis O'CONNOR, STIDHAM, HARRIS, LAMANNA, BAILLEUL, HU, WANG & YOU, 2022
Musivavis WANG, CAU, LUO, KUNDRAT, WU, JU, GUO, LIU & JI, 2022
Species: Nova (7)
Beiguornis khinganensis WANG, JU, WU, LIU, GUO & JI, 2022
Brevidentavis zhangi O'CONNOR, STIDHAM, HARRIS, LAMANNA, BAILLEUL, HU, WANG & YOU, 2022
Confuciusornis shifan WANG, HU, ZHANG, WANG, ZHAO, SULLIVAN & XU, 2022
Janavis finalidens BENITO, KUO, WIDRIG, JAGT & FIELD, 2022
Kaririavis mater CARVALHO, AGNOLIN, ROZADILLA, NOVAS, ANDRADE & XAVIER-NETO, 2022
Meemannavis ductrix O'CONNOR, STIDHAM, HARRIS, LAMANNA, BAILLEUL, HU, WANG & YOU, 2022
Musivavis amabilis WANG, CAU, LUO, KUNDRAT, WU, JU, GUO, LIU & JI, 2022
Anonymous, 2022, Hollow fossil melanosomes suggest earliest appearance of brilliant iridescent color in bird feathers: Phys Org, et al., 2pp. Link to pdf
Anonymous, 2022, New fossil birds discovered near China's Great Wall - one had a movable, sensitive 'chin': Phys Org, published online, 3 pp.
Allen, J. G., and Shimada, K., 2022, Fossil vertebrates from a unique marine bonebed of the Upper Cretaceous Smoky Hill Chalk, Western Kansas, U.S. A., new insights into the Paleoecology of the Niobrara Formation: Journal of Vertebrate Paleontology, v. 41, n. 6, e2066999, 22pp.
Bell, A., and Chiappe, L. M., 2022, The Hesperornithiformes: a review of the diversity, distribution, and ecology of the earliest diving birds: In: Evolution and Palaeobiology of Flightless Birds, edited by Buffetatut, E., and Angst, D., Diversity, p. 5-32.
Benito, J,. Chen, A., Wilson, L. E., Bhullar, B.-A, S, Burnham, D,. and Field, D. J., 2022, Forty new specimens of Ichthyornis provide unprecendented insight into the postcranial morphology of crownward stem group birds: PeerJ 20:e13919 DOI 10.7717/peerj.13919, 134pp. Link to pdf
Benito, J., Kuo, P.-C., Widrig, K. E., Jagt, J. W. M., and Field, D. J., 2022, Cretaceous ornithurine supports a neognathous crown bird ancestor: Nature, v. 612, 19pp. (Janavis finalidens)
Carvalho, I. de S., Agnolin, F. L., Rozadilla, S., Novas, F. E., Andrade, J. A. F. G., and Xavier-Neto, J., 2022, A new ornithuromorph bird from the Lower Cretaceous of South America: Journal of Vertebrate Paleontology, v. 41, n. 4, e9188623, 12pp. (Kaririavis mater)
Chiappe, L. M., Navalon, G., Martinelli, A. G., Nava, W., and Field, D J., 2022, Fossil basicranium clarifies the origin of the avian central nervous system and inner ear: Proceedings or the Royal Society, Series B., v. 289: 20221398, 12pp. Link to pdf
David, R., Bronzati, M., and Benson, R. B. J., 2022, Comment on "The early origin of a birdlike inner ear and teh evolution of dinosaurian movement and vocalizatioin": Science, v. 376, 2 pp. Link to pdf
Demuth, O. E., Benito, J,. Tschopp, E., Lautenschlager, S., Mallison, H., Heeb, N., and Field, D. J., 2022, Topology-based three-dimensional reconstruction of delicate skeletal fossil remains and the quantification of thier taphonomic deformation: Frontiers in Ecology and Evolution, volume 10, article 828006, 22pp. Link to pdf
Diez Diaz, V., Cuesta, E., Vidal, D., and Belvedere, M., 2022, Editorial: Technological frontiers in dinosaur science mark a new age of opportunity for early career researchers: Frontiers, v. 10, article 973459, 3pp. Link to pdf
Hanson, M., Hoffman, E. A., Norell, M. A., and Bhullar, B.-A. S., 2021, Response to Comment on "The early origin of a birdlike inner ear and the evolution of dinosaurian movement and vocalization": Science, v. 376, 3pp. Link to pdf
Hu, H., Wang, Y., Fabbri, M, O'Connor, J. K., McDonald, P. G., Wroe, S., Yin, X., Zheng, X., Zhou, Z., and Benson, R. B. J., 2022, Cranial osteology and palaeobiology of the Early Cretaceous bird Jeholornis prima (Aves: Jeholornithiformes): Zoological Journal of the Linnean Society, published online, 20pp.
Hu, H., Wang, Y., McDonald, P. G., Wroe, S., O'Connor, J. K., Bjarnason, A., Bevitt, J. J., Yin, X., Zheng, X., Zhou, Z., and Benson, R. B. J., 2022, Earliest evidence for fruit consumption and potential seed dispersal by birds: eLife, publihsed online, 19pp. Link to pdf
Langer, M. C., Delcourt, R., Montefeltro, F C., Silva Junior, J. C. G., Soler, M. G., Ferreira, G. S., Ruiz, J. V., Barcelos, L. A., Onary, S., Marsola, J. C. A., Castro, M. C., Cidade, G. M., and Batezelli, A., 2022, The Bauru Basin in Sao Paulo and its tetrapods: Derbyana, Sao Paulo, v. 43: e776, 52pp.
Liu, D., Chiappe, L. M., WuLiu, D., Chiappe, L. M., Wu, B., Meng, Q., Zhang, Y., Qui, R., Xing, H, and Zheng, Z., 2022, Cranial and dental morhpology in a bohaiornithid enantiornithine with in formation on its tooth replacment pattern: Cretaceous Research, v. 129, 106021, 18pp.
Malkani, M. S., 2022, Plates boundary and structural geology of Balochistan and Indus basins thorugh field observations on Chaman Transform fault and western Indus Suture (Pakistan): Dinosaurs from Pakistan with attributed bones and key features: Titanosaurs from India with updated assessment on Jainosaurus: Open Journal of Geolgy, v. 12, p. 1032-1079. Link to pdf
Miller, C. V., Pittman, M., Wang, X., Zheng, X., and Bright, J. A., 2022, Diet of Mesozoic toothed birds (Longipterygidae) inferred from quantitative analysis of extant avian diet proxies: BMC Biology, 20:101, publisehd online, 37pp. Link to pdf
Moyano-Pax, D., Rodzalla, S., Agnolin, F., Vera, E., Coronel, M. D., Varela, A. N., Gomez-Dacal, A. R., Aranciaga-Rolando, A. M., D-Angelo, J., Perez-Loinaze, V., Richiano, S., Chimento, N., Motta, M. J., Sterli, J., Manabe, M., Tsuihiji, T., Isasi, M. P., Poire, D. G., and Novas, F. E., 2022, The uppermost Cretaceous continental deposits at the southern end of Patagonia, the Chorrillo Formation case study (Austral-Magallanes Basin): Sedimentology, fossil contenent and reginoal implications: Cretaceous Research, v. 130, 105059, 30pp.
O'Connor, J. K., Stidham, T. A., Harris, J. D., Lamanna, M. C., Bailleul, A. M., Hu, H,. Wang, M, and You, H.-L., 2022, Avian skulls reprsent a diverse ornithuromorph fauna from the Lower Cretaceous Xiagou Formation, Gansu Province, China: Journal of Systematics and Evolution, v. 60, issue 5, p. 1172-1198. (Brevidentavis zhangi, Meemannavis ductrix) Link to pdf
Pittman, M., Kaye, T. G., Wang, X., Zheng, X,. Dececchi, T. A., and Hartman, S A., 2022, Preserved soft anatomy confirms shoulder-powered upstroke of early theropod flyers, reveals enhanced early paygostylian upstroke, and explains early sternum loss: Proceedings of the Anacademy of Science, v. 119,n . 47, e2205476119, 8pp. Link to pdf
Reguero, M. A., Gasparini, Z., Olivero, E. B., Coria, R. A., Fernandez, M. S., O'Gorman, J. P., Gouiric-Cavalli, S., Hospitaleche, C. A., Bona, P., Iglesias, A., Gelfo, J. N., Raffi, M. A., Moly, J. J., Santillana, S. N., and Cardenas, M., 2022, Late Campanian-Early Maastrichtian vertebrates from the James Ross Basin, West Antarctica: updated synthesis, biostratigraphy, and paleobiogeography: Anais da Academia Brasileira de Ciencias, published online, 34pp. Link to pdf
Shelton, J., 2022, Going to 'femoral head' of class to explain dinosaur evolution: Phys Org, 3pp. Link to pdf
Wang, M., Stidham, T. A., O'Connor, J. K., and Zhou, Z., 2022, insight into the evolutionary assemblage of cranial kinesis from a Cretaceous bird: eLife 2022: 11:e81337, 18pp. Link to pdf
Wang, R., Hu, D,. Zhang, M, Wang, S,. Zhao, Q,. Sullivan, C. and Xu, X., 2022, A new confuciusornithid bird with a secondary epiphyseal ossification reveals phylogenetic changes in confuciusornithid flight mode: Communications Biology, Published online, 13pp. (Confuciusornis shifan) Link to pdf
Wang, X., Cau, A., LWang, X., Cau, A., Luo, X., Kundrat, M., Wu, W., Ju, S., Guo, Z., Liu, Y., and Ji, Q., 2022, A new bohairornithid-like bird from the Lower Cretaceous of China fills a gap in enanatiornithine disparity: Journal of Paleontology, v. 96, n. 4, p. 961-976. (Musivavis amabilis)
Wang, X., Ju, S., Wu, W., Liu, Y., Guo, Z., and Ji, Q., 2022, The first enantiornithine bird from the Lower Cretaceous Longjiang Formation in teh Great khingan Range of Inner Mongolia: Acta Geologica Sinica, v. 96, 12pp. (anensis)
Won, C. G., So, K.-S., Pak, U. S., Ju, I. Y., Ri, C. J., Jon, S. H., and Ma., J., 2022, Discovery of Early Cretaceous Sinuiju biota in the Democratic People's Republic of Korea and comparison with Jehol biota in China: Cretaceous Research, v. 139, 7pp.
Genus: Nova (2)
Eoscansor LUCAS, RINEHART, CELESKEY, BERMAN, & HENRICI, 2022
Lalieudorhynchus WERNEBURG, SPANLER, FALCONNET, STEYER, VIANEY-LIAUD, & SCHNEIDER, 2022
Species: Nova (2)
Eoscansor cobrensis LUCAS, RINEHART, CELESKEY, BERMAN, & HENRICI, 2022
Lalieudorhynchus gandi WERNEBURG, SPANLER, FALCONNET, STEYER, VIANEY-LIAUD, & SCHNEIDER, 2022
Lucas, S. G., Rinehart, L. F., Celeskey, M. D, Berman, D S., and Henrici, A. C., 2022, A scansorial varanopid eupelycosaur from the Pennsylvanian of New Mexico: Annals of Carnegie Museum, v. 87, n. 3, p. 167-205. (Eoscansor cobrensis)
Marugan-Lobon, J., Gomez-Recio, M., and Nebreda, S. M., 2022, The gemetry of synapsid skull disparity: Historical Biology, DOI: 10.1080/08912963.2022.2971708 9pp.
Reisz, R. R., Scott, D., and Modesto, S. P., 2022, Cranial anatomy of teh caseid synapsid Cotylorhynchus romeri, a large terrestrial herbivore from the Lower Periian of Oklahoma, U.S. A.: Fronteries in Earth Science, original reserach, v. 10, article 847560, 19pp. Link to pdf
Werneburg, R., Spindler, F., Falconnet, J., Steyer, J.-S., Vianey-Liaud, M., and Schneider, J. W., 2022, A caseid synapsid from the Permain (Guadalupian) of the Lodeve basin (Occitanie, France): Palaeo Vertebrata, published online, 36pp. (Lalieudorhynchus gandi) Link to pdf
Theriodontia
Genus: Nova (2)
Notictoides SIDOR, KULIK & HUTTENLOCKER, 2022
Tessellatia GAETANO, ABDALA, SEOANE, TARTAGLIONE, CHULTZ, OTERO, LEARDI, APALDETTI, KRAPOVICKAS & STIMBACH, 2022
Species: Nova (3)
Bienotheroides zingshanensis LIU, ZHOU, WANG & XUE, 2022
Notictoides absens SIDOR, KULIK & HUTTENLOCKER, 2022
Tessellatia bonapartei GAETANO, ABDALA, SEOANE, TARTAGLIONE, CHULTZ, OTERO, LEARDI, APALDETTI, KRAPOVICKAS & STIMBACH, 2022
Anonymous, 2022, Triassic revolution: animals grew back faster adn smarter after mass extinction: Phys Org, published online, 3pp. Link to pdf
Anonymous, 2022, Neutrons help track down mammalian ancestors: Phys Org, published online, 2 pp. Link to pdf
Bendel, E.-M., Kammerer, C. F., Luo, Z.-X., Smith, R. M. H., and Fröbisch, J., 2022, The earliest segmental sternum in a Permina synapsid and its implications for the evolution of mammalian locomotion and ventilation: Scientific Reports, published online, 9pp. Link to pdf
Benton, M. J., and Wu, F,. 2022, Triassic revolution: Frontiers in Earth Science, v. 10, article 89954, 119pp. Link to pdf
Cabreira, S. F., Schultz, C. L., da Silva, L. R., Lora, L. H. P., Pakulski, C., do Rego, R. C. B., Soares, M B., Smith, M. M., and Richter, M., 2022, Diphyodont tooth replacement of Brasilodon- a Late Triassic eucynodont that challenges the time of orign of mammals: Journal of Anatomy, published online, 17 pp.
Flippinin, F. S., Abdala, F., and Cassini, G. H., 2022, Body mass estimation in Triassic cynodonts from Argentina based on limb variables: Acta Palaeontologica Polonica, v. 67, n. 2, p. 543-557. Link to pdf Link to supplementary information
Gaetano, L. C., Abdala, F., Seoane, F. D., Tartaglionte, A., Schulz, M., Otero, A., Leardi, J. M., Apaldetti, C., Krapovickas, V., and Stimback, E., 2022, A new cynodont from the Upper Triassic los Colorados Formation (Argentina, South America) reveals a novel paleobiogeographic context for mammalian ancestors: Scientific Reprots, 12:6451, 13pp. (Tessellatia bonapartei) Link to pd
Griffin, C. T., Wynd, B M., Munyikwa, D., Broderick, T. J., Zondo, M., Tolan, S., Langer, M. C., Nesbitt, S. J., and Taruvinga, H. R., 2022, Africa's oldest dinosaurs reveal early suppression of dinosaur distribution: Nature, published online, 7pp. Link to pdf
Huttenlocker, A. K, Botha, J., Browning, C., Kulik, Z., Tshibalanganda, M., and du Plessis, A., 2022, A Gulliver Scaloposaurus (Therapsida, Therocephalia) from the Katberg Formation of South Africa and its impliction for Lilliput assemblages during the Early Triassic reovery: Journal of Afrian Earth Sciences, v. 196, 104720, 10pp.
Kammerer, C. F., and Rubidge, B. S., 2022, The earliest gorgonopsians from the Karoo Basin of Soputh Africa: Journal of African Earth Sciences, v, 194, published online, 11pp.
Liu, L., Zhou, C.-F., Wang, J,-S., and Xue, J.-Z., 2022, A new tritylodontid from the Middle Jurasic Shaximiao Formation of westenr Hubei, China: Historical Bilogy, published online, 10pp. (Bienotheroides zingshanensis)
Marugan-Lobon, J., Gomez-Recio, M., and Nebreda, S. M., 2022, The gemetry of synapsid skull disparity: Historical Biology, DOI: 10.1080/08912963.2022.2971708 9pp.
Norton, L. A., Abdala, F., Rubidge, B. S., and Botha, J., 2022, Tooth replacement in the non-mammalian cynodon Cynosaurus suppostus (Therapsida) from the Late Permian of South America: Journal of Vertebrate Paleontology, V. 41, n. 4, e2001650, 21pp.
Olroyd, S. L., and Sidor, C. A., 2022, Nomenclature, comparative anatomy, and evoluton of the reflected lamina of the angular in non-mammalian synapsids: Journal of Vertebrate Paleontology, e2101923, 20pp.
Preuschoft, H., Krahl, A., and Werneburg, I., 2022, From sprawling to parasagittal locomotion in therapsida:a preliminary study of historically collected museum specimens: Vertebrate Zoology, v. 72, p. 907-936. Link to pdf
Sidor, C. A., Kulik, Z. T., and Huttenlocker, A. K., 2022, A new bauriamorph therocephalian adds a novel componenet to the Lower Triassic tetrapod assemblage of the Fremouw Formation (Transantarctic Basin) of Antarctica: Journal of Vertebrate Paleontology, e2081510, 16pp. (Notictoides absens)
Sidor, C. A., Kulik, Z. T., and Huttenlocker, A. K., 2022, A new bauriamorph therocephalian adds a novel componenet to the Lower Triassic tetrapod assemblage of the Fremouw Formation (Transantarctic Basin) of Antarctica: Journal of Vertebrate Paleontology, v. 41, n. 6, e2081510, 16pp. (Notictoides absens)
Wynd, B., Abdala, F., and Nesbitt, S. J., 2022, Ontogenetic growth in the crania of Exaeretodon argentinus (Synapsida: Cynodontia) captures a dietary shift: PeerJ 10e:14196 http://doi.org/10.7717/peerj.14196, 37pp. Link to pdf
Deinocephalia
Genus: Nova (1)
Kembawacela ARAUJO, MACUNGO, FERNANDEZ, CHINDEBVU & JACOBS, 2022
Species: Nova (1)
Kembawacela yajuwayeyi ARAUJO, MACUNGO, FERNANDEZ, CHINDEBVU & JACOBS, 2022
Araujo, R., Macungo, Z., Fernandez, V., Chindebvu, E. G., and Jacobs, L. L., 2022, Kembawacela yajuwayeyi n. sp., a new cistecephalid species (Dicynodontia: Emydopoidea) from the Upper Permian of Malawi: Journal of African Earth Sciences, v. 196, 104726, 22pp. (Kembawacela yajuwayeyi) Link to pdf
Griffin, C. T., Wynd, B M., Munyikwa, D., Broderick, T. J., Zondo, M., Tolan, S., Langer, M. C., Nesbitt, S. J., and Taruvinga, H. R., 2022, Africa's oldest dinosaurs reveal early suppression of dinosaur distribution: Nature, published online, 7pp. Link to pdf
Kammerer, C. F., Araujo, R., Cumbane, K., Macungo, Z., Smith, R. M. H., and Angielczyk, K. D., 2022, New material of Dicynodon angielczyki (Synapsida: Anomodontia) from Mozambique and Zambia with biostratigraphic implications from Africna Permo-Triassic basins: Journal of Vertebrate Paleontology, v. 41, n. 6, e2041652, 9pp.
Kulik, Z. T., and Sidor, C A., 2022, A test of Bergmann's rule in the Early Triassic: latitude, body size, and samping in Lystrosaurus: Paleobiology, published online, 15pp. Link to pdf
Macungo, Z., Benoit, J, Fernandez, V., and Araujo, R. M N., 2022, X-ray microcomputed and synchrotron tomographic analysis of the basicranial axis of emydopoid dicynodonts: implications for fossoriality and phylogeny: Zoological Journal of the Linnean Society, published online, 46pp.
Marugan-Lobon, J., Gomez-Recio, M., and Nebreda, S. M., 2022, The gemetry of synapsid skull disparity: Historical Biology, DOI: 10.1080/08912963.2022.2971708 9pp.
Sues, H.-D., Olsen, P. E., Fedak, T. J., and Schoch, R. R., 2022, Diverse assemblage of Middle Triassic continental tetrapods from Newark Supergroup of Nova Scotia (Canada): Journal of Vertebrate Paleontology, v. 41, n. 4, e2-23168, 15pp.
Genus: Nova (7)
Amarillodon MARTIN, GOIN, SHCULTZ, & GELFO, 2022
Beckumia MARTIN, AVERIANOV, SCHULTZ, SCHELLHORN & SCHWERMANN, 2022
Cifellilestes DAVIS, JAGER, ROUGIER, TRUJILLO & CHAMBERLAIN, 2022
Cifellitherium MARTIN, AVERIANOV, SCHULTZ, SCHELLHORN & SCHWERMANN, 2022
Erythrobaatar JIN, MAO, DU, YANG & MENG, 2022
Minutolestes
MARTIN, AVERIANOV, SCHULTZ, SCHELLHORN & SCHWERMANN, 2022Treslagosodon MARTIN, GOIN, SHCULTZ, & GELFO, 2022
Species: Nova (7)
Amarillodon meridionalis MARTIN, GOIN, SHCULTZ, & GELFO, 2022
Beckumia sinemeckelia MARTIN, AVERIANOV, SCHULTZ, SCHELLHORN & SCHWERMANN, 2022
Cifellilestes ciscoensis DAVIS, JAGER, ROUGIER, TRUJILLO & CHAMBERLAIN, 2022
Cifellitherium sunderlandicum MARTIN, AVERIANOV, SCHULTZ, SCHELLHORN & SCHWERMANN, 2022
Erythrobaatar garnensis JIN, MAO, DU, YANG & MENG, 2022
Minutolestes submersus MARTIN, AVERIANOV, SCHULTZ, SCHELLHORN & SCHWERMANN, 2022
Treslagosodon shehuensis MARTIN, GOIN, SHCULTZ, & GELFO, 2022
Anonymous, 2022, Triassic revolution: animals grew back faster adn smarter after mass extinction: Phys Org, published online, 3pp. Link to pdf
Benton, M. J., and Wu, F,. 2022, Triassic revolution: Frontiers in Earth Science, v. 10, article 89954, 119pp. Link to pdf
Brand, N A., Heckert, A. B., Sanchez, I., Foster, J. R., Hunt-Foster, R. K., and Eberle, J. J, 2022, New Late Cretaceous microvertebrate assemblage from the Campania-Maastrichtian Williams Fork Formation, northwestern Colorado, USA, and its paleoenvironmental implications: Acta Palaeontologica Polonica, v. 67, n 3, p. 579-600. Link to pdf
Davis, B. M, Jäger, K. R. K., Gougier, G. W., Truillo, K., and Chamberlain, K., 2022, A morganucodontan mammaliaform from the Upper Jurassic Morrison Formation, UTAH, USA: Acta Palaeontologica Polonica, v. 67,n . 1, p 77-93. (Cifellilestes ciscoensis) Link to pdf Link to supplimentary pdf
Devillet, G., Sun, Y., Li, H, and Smith, T., 2022, A new partial skeleton of Kryptobaatar from the Upper Cretaceous of Bayan Mandahu (Inner Mongolia, China) relaunch the question about variability in djadochtatherioid multituberculate mammals: Cretaceous Reserach, v. 130, 105041, 17pp.
Jäger, K. R. K., Gill, P. G., Maritn, T, and Corfe, I. J,. 2022, Molar morphology and occlusion of the Early Jurassic mammaliaform Erythrotherium parringtoni: Acta Palaeontologica Polonica, v. 67, n. 4, p. 975-982. Link to pdf
Jin, X., Mao, F., Du, T., Yang, Y., and Meng, J., 2022, A new multituberculate from the latest Cretaceous of central China and its implications for multituberculate tooth homologies and occlusion: Journal of Mammalian Evolution, publihsed online, 20pp. (Erythrobaatar garnensis) Link to pdf
Lehman, T. M., Cobb, J,. Sylvester, P., and Souders, A. K., 2022, The Cretaceous-Paleogene contact in the Tornillo Group of Big Bend National Park, West Texas, USA: Geosphere, published online, 34pp. Link to pdf
Luo, Z.-X., Bhullar, B.-A. S., Crompton, A. W., Neander, A. I., and Rowe, T. B., 2022, Reexamination of the mandibular and dental morphology of the Early Jurassic mammaliaform Hadrocodium wui: Acta Palaeontologica Polonica, v. 67, n. 1, p. 95-113. Link to pdf
Mao, F., Liu, C., and Meng, J., 2022, New material of the trechnotherian mamal Lactodens from the Early Cretaceous Jehol Biota: comparison with Origolestes and implications for mammal evolution: Acta Palaeontolgoica Polonica, v. 67, n. 1, p. 135-153. Link to pdf
Martin, T., Averianov, A. O., Schultz, J. A., Schellhorn, R., and Schwermann, A. H., 2022, First spalacotheriid and dryolestid mammals from the Cretaceous of Germany: Acta Palaeontologica Polonica, v. 67, n. 1, p. 155-175. (Cifellitherium sunderlandicum, Minutolestes submersus, Beckumia sinemeckelia) Link to pdf Link to supplementary pdf
Martin, T., Goin, F. J., Schultz, J. A., and Gelfo, J. N., 2022, Early Late Cretaceous mammals from southern Patagonia (Santa Cruz province, Argentina): Cretaceous Research, v. 133, p. 1-13pp. (Amarillodon meridionalis, Treslagosodon shehuensis).
Pochat-Cottiloux, Y., Allain, R., and Lasseron, M., 2022, Microvertebrate fauna from Gadoufaoua (Niger, Aptian, Early Cretaceous): Comptes Rendus Palevol, v. 21,n . 41, p. 901-926. Link to pdf
Rich, T. H., Krause, D. W., Trusler, P., White, M. A., Kool, L., Evans, A. R., Morton, S., and Vickers-Rich, P., 2022, Second specimen of Corriebaatar marywaltersae from the Lower Cretaceous of Australia confirms its multitubercualte affinities: Acta Palaoneotlogica Polonica, v. 67, n. 1, p. 115-134. Link to pdf Link to supplementary pdf
Solomon, A. A., Codrea, V. A., Venczel, M., and Smith, T., 2022, New data on Barbatodon oardaensis Codrea, Solomon, Venczel & Smith, 2014, the smallest Late Cretaceous multituberculate mammal from Europe: Comptes Rendus Palevol, v. 12, n. 13, p. 253-271.
Anonymous, 2022, Chinese fossil eggs show dinosaur decline before extinction: Phys Org, published online, 2pp. Link to pdf
Chen, Z., He, Q., Zhang, S., and Cheng, X., 2022, The first record of dinosaur eggs from teh Qianshan Basin of Anhui Province, China: Geology in China, v. 49,n. 4, p. 1346-1347. Link to pdf
Han, F., Wang, Q., Wang, H., Zhu, X., Zhou, X., Wang, Z., Fang, K., Stidham, T. A., Wang, W., Wang, X., Li, X., Qin, H., Fan, L., Wen, C., Luo, J., Pan, Y., and Deng, C., 2022, Low dinosaur biodiversity in central China 2 million years prior to the end -Cretaceous mass extinction: Proceedings of the National Academy of Science, v. 119, n. 3, e2211234119, 11pp.
Legendre, L. J., Choi, S., and Clarke, J. A., 2022, The diverse terminology of reptile eggshell microstructure and its effect on phylogenetic comparative analyses: Journal of Anatomy, published online, 26pp. Link to pdf
Wang, Q., Xing, H., Shi, H.-T., Fang, K,-Y., Zhu, X.-F., Zhou, M.-X., and Wang, X., -L., 2022, First discovery of dinosaur eggs in Nanhu Gebi of Hami, Xinjinag, Uygur Autononous Region of China: Vertebrata PalAsiatic, published online, 4pp. Link to pdf
Xu, L., Xie, J., Zdang, S., Cdoi, S., Kim, N.-H., Gao, D., Jin, X., Jia, S., Gao, Y., 2022, Fossil turtle eggs from the Upper Cretaceous Gaogou Formation, Xiaguan-Gaoqiu Basin, Neixiang County, Henan Province, China: interpretation of the transformation fromaragonite to calcite in fossil turtle eggshell: Cretaceous Research, v. 234, 105166, 16pp.
Ichnogenus: Nova (2)
Tetratopodus TOMASELLI, DAVID, RIGA, CORIA, MERCADO, GUERRA & TIVIROLI, 2022
Zhuchengichnites ZHANG, SUN, CHEN, CUI & CHEN, 2022
Ichnospecies: Nova (3)
Pteraichnus gracilis HA, KIM, LIM, LOCKLEY, YOO & LIM, 2022
Tetratopodus malarguensis TOMASELLI, DAVID, RIGA, CORIA, MERCADO, GUERRA & TIVIROLI, 2022
Zhuchengichnites perfectus ZHANG, SUN, CHEN, CUI & CHEN, 2022
Anonymous, 2022, Injured dinosaur left behind unusual footprints: Phys Org, published online, 2pp. Link to pdf
Allen, L. F,. Stimson, M. R., King, O. A., Norrad, R. E., Lucas, S. G., Mann, A., Hinds, S. J., Park, A. F., Calder, J. H., Maddin, H., and Montplasir, M,. 2022, A Batrachichnus salamandroides trackway from the Minto Formation of central New Brunswick, Canada: implicaitons for alternative tracemaker interpretations: Atlantic Geoscience, v. 58, p. 239-260. Link to pdf
Bertling, M,. Buatois, L. A., Knaust, D,. Laing, B., Mangano, M. G,. Meyer, N,. Mikulas, R., Minter, N. J,. Neumann, C., Rindsbeg, A. K., Uchman, A., and Wisshak, M,. 2022, Names for trace fossils 2.0: theory and practice in ichnotaxonomy: Lethaia Review, published online, 19pp. Link to pdf
Bordy, E. M., Lockley, M. G., Rampersadh, A., Mukaddam., R, and Head, H. V., 2022, Life and land engulfed in the Late Early Jurassic Karoo Lavas of southern Gondwana: Geological Magazine, published online, 22pp. Link to pdf
Castanera, D., Pascual-Arribas, C., Canudo, J. I., and Puertolas-Pascual, E., 2022, A new look at Crocodylopodus meijidei: implications for crocodylomorph locomotion: Jounral of Vertebrate Paleontology, e 2020803, v. 41, n. 5, 19pp.
Dalman, S. G,. and Lucas, S. G., 2022, Lower Jurassic Dinosaur tracksites from southwestern Massachusetts: In: Fossil Record 8, edited by Lucas, S G., Blodgett, R. B., Lichtig, A.., and Hunt, A. P., New Mexico Museum of Natural History & Science, Bulletin 90, p. 119-125.
Diaz-Martinez, I., Heredia, A. M., Gonzalez, S. N., Canale, N., de Valais, S., Console-Gonella, C. A., Montes, R. M., Caratelli, M., Urzagasti-Torres, S., Fischer, G., Lecuona, A., Paniceres, P., Salgado, l., and Citton, P., 2022, Pterosaur tracks from the Upper Cretaceous Anaceleto Formation (Neuquen Basin), Northern Patagonia, Argenitna: insights into Campanian Pterosaur diversity in Gondwana: Diversity, v. 14, 16pp.
Diaz-Martinez, I., Lopes-Horgue, M. A., Agirrezabala, L. M, Console-Gonella, C, and Pereda-Suberbiola, X., 2022, Dinosaur tracks in a Cretaceous (Lower Albian) braid delta system (Basque-Cantabrian Basin, Western Pyrenes): linking trace fossils suites and short-term preservaiton windows: In: Ichnology in Shallow-marine adn Transitional environments, Geological Society, London, Special Publication, n. 522, edited by Console-Gonella, C., de Valias, S, Diaz-MArtinez, I,. Citton, P, Verde, M, and McIIroy, D., 14pp.
Enriquez, N. J., Campione, N. E., White, M. A., Fanti, F., Sissons, R. L., Sullivan, C., Vavrek, M. J., and Bell, P. R., 2022, The dinosaur tracks of Tyrants Aisle: an Upper Cretaceous ichnofauna from Unit 4 of the Wapiti Formation (upper Campanian), Alberta, Canada: Public Library of Science (PLOS), One, v. 17, n. 2, 45 pp. Link to pdf
Falkingham, P., and Lallensack, J. N., 2022, We discovered how the largest dinosaurs walked, and it was more like rhinos than elephants: Phys Org, publisehd online, 3pp. Link to pdf
Figueiredo, S. D., Carvalho, I. S., Pereda-Suberbila, X., Cunha, P. P., Antunes, V., adn Diaz-Martinez, I., 2022, New ornithopod footpritns from the Areia do Mastro Formation (Lower Cretaceous), Espichel Cape (Portugal, Western Iberia) and thier context in the Iberian ichnological ornithoopd record: Cretaceous Research, v. 131, 105069, 11pp.
Figueiredo, S. D., Cunha, P. P., Pereda-Suberbiola, X., de Carvalho, C. N., de Souza Carvalho, I., Buffetaut, E., Tong, H., Sousa, M. F., Antunes, V., and Anastacio, R., 2022, The dinosaur tracksite from the lower Barremian of Areia do Mastro Fromation (Cabo Espichel, Portugal): implicatiosn for dinosaur behavior: Cretaceous Research, v. 137, 105219, 14pp.
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Gleeson, S., 2022, 100 million-year-old footprints of world's biggest dinosaur species found at restruant in China: Phys Org, published online, 2pp. Link to pdf
Guillaume, A. R.D., Costa, F., and Mateus, O., 2022, Stegosaur tracks from the Upper Jurassic of Portugal: new occurrences and perspectives: Ciencias da Terra/Earth Sciences Journal, v. 20, n. 1, p. 37-60. Link to pdf
Henderson, D. M., Borkovic, B., Sanchez, J., and Kowalchuk, A. I., 2022, A busy time at the beach: multiple examples of gregarious dinosaur behaviour inferred from a set of trackways from the Late Cretaceous of Alberta, Canada: Canadian Journal of Earth Sciences, v. 59, p. 608-622.
Ha, S., Kim, K. S., Lim, . S., Lockley, M G., Yoo, J. S., and Lim, J. D., 2022, Diminutive pterosaur tracks adn trackways (Pteraichnus gracilis ichnosp. nov.) from the Lower Crteaceous Jinju Formation, Gyeongsang Basin, Korea: Cretaceous Reserach, v. 131, 105080, 12pp. (Pteraichnus gracilis)
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Herrera-Castillo, C. M,. Moratalla, J J, Belaustegui, Z., Maruga-Lobon, J,. Martin-Abad, H,. Nebreda, S. M. Lopez-Archilla, A. I., and Buscalioni, A. D., 2022, A theropod trackway providing evidence of a phathological foot from the exceptional locality of Las Hoyas (upper Barremian, Serrania de Cuenca, Spain): Public Library of Science (PLOS), One, v. 17, n. 4, 24 pp. Link to pdf
Ju, S., Wang, X., Dong, Y., Liu, Y., Ji, Y., and Ji, Q., 2022, New discovery of dinosaur footprints in the Tuchengzi Formation at Xuanhua, Hebei Province: Acta Geologica Sinica, v. 96, n. 7, 2295-2311. Link to pdf
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Dridi, J.,, 2022, First report of diverse vertebrate coprpfaunas from the Lower Cretaceous of Tunisia: Cretaceous Research, v. 135, 105192, 19pp.
Catharina, A. S., Kneller, B. C., Marques, J. C., McArthur, A. D., Cevallos-Ferriz, S. R. S., Theurer, T., Kane, I. A., and Muirhead, D., 2022, Timing and causes of foredt fire at the K-Pg boundary: Nature, publidhed online, 11pp. Link to pdf
Fox, C. P., Whiteside, J. H., Olsen, P. E., Cui, X., Summons, R. E., Idiz, E., and Grice, K., 2022, Two-pronged kill mechanism at the end-Triassic mass exinction: Geology, published online, 6pp. Link to pdf
Integuments
Hendrickx, C., Bell, P. R., Pittman, M., Milner, A. R. C., Cuesa, E., O'Connor, J., Loewen, M., Currie, P. J., Mateus, O., Kaye, T. G., and Delcourt, R., 2022, Morphology and distribution of scales, dermal ossifications, and other non-feather integumentary structures in non-avialan theropod dinosaurs: Biological Reviews, published online, 43pp. Link to pd
Hendrickx, C., Bell, P. R., Pittman, M., Milner, A. R. C., Cuesa, E., O'Connor, J., Loewen, M., Currie, P. J., Mateus, O., Kaye, T. G., and Delcourt, R., 2022, Morphology and distribution of scales, dermal ossifications, and other non-feather integumentary structures in non-avialan theropod dinosaurs: Biological Reviews, published online, 43pp. Link to pd