Oligocene mammals from Ethiopia and faunal exchange between Afro-Arabia and Eurasia

John Kappelman; D. Tab Rasmussen; William J. Sanders; Mulugeta Feseha; Thomas Bown; Peter Copeland; Jeff Crabaugh; John Fleagle; Michelle Glantz; Adam Gordon; Bonnie Jacobs; Murat Maga; Kathleen Muldoon; Aaron Pan; Lydia Pyne; Brian Richmond; Timothy Ryan; Erik R. Seiffert; Sevket Sen; Lawrence Todd; Michael C. Wiemann; Alisa Winkler

doi:10.1038/nature02102

Oligocene mammals from Ethiopia and faunal exchange between Afro-Arabia and Eurasia

John Kappelman, D. Tab Rasmussen, William J. Sanders, Mulugeta Feseha, Thomas Bown, Peter Copeland, Jeff Crabaugh, John Fleagle, Michelle Glantz, Adam Gordon, Bonnie Jacobs, Murat Maga, Kathleen Muldoon, Aaron Pan, Lydia Pyne, Brian Richmond, Timothy Ryan, Erik R. Seiffert, Sevket Sen, Lawrence ToddMichael C. Wiemann, Alisa Winkler

Research output: Contribution to journal › Article › peer-review

119 Scopus citations

Abstract

Afro-Arabian mammalian communities underwent a marked transition near the Oligocene/Miocene boundary at approximately 24 million years (Myr) ago. Although it is well documented that the endemic paenungulate taxa were replaced by migrants from the Northern Hemisphere, the timing and evolutionary dynamics of this transition have long been a mystery because faunas from about 32 to 24 Myr ago are largely unknown. Here we report a late Oligocene fossil assemblage from Ethiopia, which constrains the migration to postdate 27 Myr ago, and yields new insight into the indigenous faunal dynamics that preceded this event. The fauna is composed of large paenungulate herbivores and reveals not only which earlier taxa persisted into the late Oligocene epoch but also demonstrates that one group, the Proboscidea, underwent a marked diversification. When Eurasian immigrants entered Afro-Arabia, a pattern of winners and losers among the endemics emerged: less diverse taxa such as arsinoitheres became extinct, moderately species-rich groups such as hyracoids continued into the Miocene with reduced diversity, whereas the proboscideans successfully carried their adaptive radiation out of Afro-Arabia and across the world.

Original language	English (US)
Pages (from-to)	549-552
Number of pages	4
Journal	Nature
Volume	426
Issue number	6966
DOIs	https://doi.org/10.1038/nature02102
State	Published - Dec 4 2003

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Kappelman, J., Rasmussen, D. T., Sanders, W. J., Feseha, M., Bown, T., Copeland, P., Crabaugh, J., Fleagle, J., Glantz, M., Gordon, A., Jacobs, B., Maga, M., Muldoon, K., Pan, A., Pyne, L., Richmond, B., Ryan, T., Seiffert, E. R., Sen, S., ... Winkler, A. (2003). Oligocene mammals from Ethiopia and faunal exchange between Afro-Arabia and Eurasia. Nature, 426(6966), 549-552. https://doi.org/10.1038/nature02102

Kappelman, J, Rasmussen, DT, Sanders, WJ, Feseha, M, Bown, T, Copeland, P, Crabaugh, J, Fleagle, J, Glantz, M, Gordon, A, Jacobs, B, Maga, M, Muldoon, K, Pan, A, Pyne, L, Richmond, B, Ryan, T, Seiffert, ER, Sen, S, Todd, L, Wiemann, MC & Winkler, A 2003, 'Oligocene mammals from Ethiopia and faunal exchange between Afro-Arabia and Eurasia', Nature, vol. 426, no. 6966, pp. 549-552. https://doi.org/10.1038/nature02102

@article{201ed878f82b44a7add55092ab1ef854,

title = "Oligocene mammals from Ethiopia and faunal exchange between Afro-Arabia and Eurasia",

abstract = "Afro-Arabian mammalian communities underwent a marked transition near the Oligocene/Miocene boundary at approximately 24 million years (Myr) ago. Although it is well documented that the endemic paenungulate taxa were replaced by migrants from the Northern Hemisphere, the timing and evolutionary dynamics of this transition have long been a mystery because faunas from about 32 to 24 Myr ago are largely unknown. Here we report a late Oligocene fossil assemblage from Ethiopia, which constrains the migration to postdate 27 Myr ago, and yields new insight into the indigenous faunal dynamics that preceded this event. The fauna is composed of large paenungulate herbivores and reveals not only which earlier taxa persisted into the late Oligocene epoch but also demonstrates that one group, the Proboscidea, underwent a marked diversification. When Eurasian immigrants entered Afro-Arabia, a pattern of winners and losers among the endemics emerged: less diverse taxa such as arsinoitheres became extinct, moderately species-rich groups such as hyracoids continued into the Miocene with reduced diversity, whereas the proboscideans successfully carried their adaptive radiation out of Afro-Arabia and across the world.",

author = "John Kappelman and Rasmussen, {D. Tab} and Sanders, {William J.} and Mulugeta Feseha and Thomas Bown and Peter Copeland and Jeff Crabaugh and John Fleagle and Michelle Glantz and Adam Gordon and Bonnie Jacobs and Murat Maga and Kathleen Muldoon and Aaron Pan and Lydia Pyne and Brian Richmond and Timothy Ryan and Seiffert, {Erik R.} and Sevket Sen and Lawrence Todd and Wiemann, {Michael C.} and Alisa Winkler",

note = "Funding Information: Acknowledgements We thank the Authority for Research and Conservation of Cultural Heritage, the Ministry of Culture and Sports Affairs, Ethiopia, for permission to conduct our ongoing research in the Blue Nile Basin, the Director and staff of the National Museum, Addis Ababa, for their assistance with collections, and the Gondar ARCCH for logistical support. The project is funded by grants from the National Science Foundation, the National Geographic Society, the L. S. B. Leakey Foundation, and the University Research Institute of UTAustin. W.J.S. was funded in part by a Scott Turner Award from the Department of Geological Sciences of The University of Michigan. A. Asfaw, M. Birara, F. Chanic, A. Kebede and T. Selassie provided field assistance, and M. Crawford and A. Neuenschwander aided with the interpretation of the satellite imagery. B. Miljour drafted Fig. 3. We are grateful to J.-J. Jaeger for comments and insights. We thank the people of the Chilga region for their hospitality and assistance in the fieldwork.",

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T1 - Oligocene mammals from Ethiopia and faunal exchange between Afro-Arabia and Eurasia

AU - Kappelman, John

AU - Rasmussen, D. Tab

AU - Sanders, William J.

AU - Feseha, Mulugeta

AU - Bown, Thomas

AU - Copeland, Peter

AU - Crabaugh, Jeff

AU - Fleagle, John

AU - Glantz, Michelle

AU - Gordon, Adam

AU - Jacobs, Bonnie

AU - Maga, Murat

AU - Muldoon, Kathleen

AU - Pan, Aaron

AU - Pyne, Lydia

AU - Richmond, Brian

AU - Ryan, Timothy

AU - Seiffert, Erik R.

AU - Sen, Sevket

AU - Todd, Lawrence

AU - Wiemann, Michael C.

AU - Winkler, Alisa

N1 - Funding Information: Acknowledgements We thank the Authority for Research and Conservation of Cultural Heritage, the Ministry of Culture and Sports Affairs, Ethiopia, for permission to conduct our ongoing research in the Blue Nile Basin, the Director and staff of the National Museum, Addis Ababa, for their assistance with collections, and the Gondar ARCCH for logistical support. The project is funded by grants from the National Science Foundation, the National Geographic Society, the L. S. B. Leakey Foundation, and the University Research Institute of UTAustin. W.J.S. was funded in part by a Scott Turner Award from the Department of Geological Sciences of The University of Michigan. A. Asfaw, M. Birara, F. Chanic, A. Kebede and T. Selassie provided field assistance, and M. Crawford and A. Neuenschwander aided with the interpretation of the satellite imagery. B. Miljour drafted Fig. 3. We are grateful to J.-J. Jaeger for comments and insights. We thank the people of the Chilga region for their hospitality and assistance in the fieldwork.

PY - 2003/12/4

Y1 - 2003/12/4

N2 - Afro-Arabian mammalian communities underwent a marked transition near the Oligocene/Miocene boundary at approximately 24 million years (Myr) ago. Although it is well documented that the endemic paenungulate taxa were replaced by migrants from the Northern Hemisphere, the timing and evolutionary dynamics of this transition have long been a mystery because faunas from about 32 to 24 Myr ago are largely unknown. Here we report a late Oligocene fossil assemblage from Ethiopia, which constrains the migration to postdate 27 Myr ago, and yields new insight into the indigenous faunal dynamics that preceded this event. The fauna is composed of large paenungulate herbivores and reveals not only which earlier taxa persisted into the late Oligocene epoch but also demonstrates that one group, the Proboscidea, underwent a marked diversification. When Eurasian immigrants entered Afro-Arabia, a pattern of winners and losers among the endemics emerged: less diverse taxa such as arsinoitheres became extinct, moderately species-rich groups such as hyracoids continued into the Miocene with reduced diversity, whereas the proboscideans successfully carried their adaptive radiation out of Afro-Arabia and across the world.

AB - Afro-Arabian mammalian communities underwent a marked transition near the Oligocene/Miocene boundary at approximately 24 million years (Myr) ago. Although it is well documented that the endemic paenungulate taxa were replaced by migrants from the Northern Hemisphere, the timing and evolutionary dynamics of this transition have long been a mystery because faunas from about 32 to 24 Myr ago are largely unknown. Here we report a late Oligocene fossil assemblage from Ethiopia, which constrains the migration to postdate 27 Myr ago, and yields new insight into the indigenous faunal dynamics that preceded this event. The fauna is composed of large paenungulate herbivores and reveals not only which earlier taxa persisted into the late Oligocene epoch but also demonstrates that one group, the Proboscidea, underwent a marked diversification. When Eurasian immigrants entered Afro-Arabia, a pattern of winners and losers among the endemics emerged: less diverse taxa such as arsinoitheres became extinct, moderately species-rich groups such as hyracoids continued into the Miocene with reduced diversity, whereas the proboscideans successfully carried their adaptive radiation out of Afro-Arabia and across the world.

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Oligocene mammals from Ethiopia and faunal exchange between Afro-Arabia and Eurasia

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