X. Wang, H.K. Tang, J.A. Clarke (2019). Biology Letters 15(12):20190622.
Read MoreA new zygodactylid species indicates the persistence of stem passerines into the early Oligocene in North America→
/T.L. Hieronymus, D.A. Waugh, J.A. Clarke (2019). BMC Evolutionary Biology 19:3.
Read MoreMass-transfer based modeling to investigate iodine staining effects for enhanced contrast X-ray computed tomography→
/Z.-H. Li, F. Yan, R.A. Ketcham, M.W. Colbert, J.A. Clarke (2019). Palaeoworld 28:562-571.
Read MoreNew skull remains of Phorusrhacos longissimus (Aves, Cariamiformes) from the Miocene of Argentina: implications for the morphology of Phorusrhacidae→
/F.J. Degrange, D. Eddy, P. Puerta, J. Clarke (2019). Journal of Paleontology 93(6):1221–1233.
Read MoreBody size evolution in palaeognath birds is consistent with Neogene cooling-linked gigantism→
/N.M.A. Crouch, J.A. Clarke (2019). Palaeogeography, Palaeoclimatology, Palaeoecology 532:109224.
Read MoreLate Cretaceous non-avian dinosaurs from the James Ross Basin, Antarctica: description of new material, updated synthesis, biostratigraphy, and paleobiogeography→
/M.C Lamanna, E.M. Roberts, V.M. Arbour, S.W. Salisbury, J.A. Clarke, D.E. Malinzak, P.M. O’Connor (2019). Advances in Polar Science 30(3):228-250.
Read Morephenotools: An R package for visualizing and analysing phenomic datasets→
/C.M. Eliason, S.V. Edwards, J.A. Clarke (2019). Methods in Ecology and Evolution 10(9):1393-1400.
Read MoreNew fossil birds from the earliest Eocene of Mongolia→
/S.C. Hood, C.R. Torres, M.A. Norell, J.A. Clarke (2019). American Museum Novitates 2019(3934):1-24.
Read MoreIntegrating natural history collections and comparative genomics to study the genetic architecture of convergent evolution→
/S. Lamichhaney, D.C. Card, P. Grayson, J.F.R. Tonini, G.A. Bravo, K. Näpflin, F. Termignoni-Garcia, C. Torres, F. Burbrink, J.A. Clarke, T.B. Sackton, S.V. Edwards (2019). Philosophical Transactions of the Royal Society B: Biological Sciences 374(1777):20180248.
Read MoreAn avian femur from the Late Cretaceous of Vega Island, Antarctic Peninsula: removing the record of cursorial landbirds from the Mesozoic of Antarctica→
/A.R. West, C.R. Torres, J.A. Case, J.A. Clarke, P.M. O'Connor, M.C. Lamanna (2019). PeerJ 7:e7231
Read MoreConvergent regulatory evolution and loss of flight in paleognathous birds→
/T.B. Sackton, P. Grayson, A. Cloutier, Z. Hu, J.S. Liu, N.E. Wheeler, P.P. Gardner, J.A. Clarke, A.J. Baker, M. Clamp, S.V. Edwards (2019). Science 364(6435):74-78.
Read MoreChatham Island Paleocene fossils provide insight into the palaeobiology, evolution, and diversity of early penguins (Aves, Sphenisciformes)→
/J.C. Blokland, C.M. Reid, T.H. Worthy, A.J.D. Tennyson, J.A. Clarke, R.P. Scofield (2019). Palaeontologia Electronica 22.3.78:1-92.
Read MoreThe fossil record of birds from the James Ross Basin, West Antarctica→
/C.I.A.A. Hospitaleche, P. Jadwiszczak, J.A. Clarke, M. Cenizo (2019). Advances in Polar Science 30(3):251-273.
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