TY - JOUR
T1 - Paleoecological patterns at the Hadar hominin site, Afar Regional State, Ethiopia
AU - Reed, Kaye
N1 - Funding Information: First and foremost, I could not have done this research without the collection, mapping skills, and guidance of G.G. Eck. I am grateful for his encouragement and help through the years. Second, Chris Campisano helped immensely with the geological interpretations. Many other individuals have helped with the identification of taxa from the Hadar Formation. Some of these data are published (e.g., Gentry, 1981 ; Vrba, 1997; Frost and Delson, 2002; Boisserie, 2005; Geraads, 2005 ) and some of the work is ongoing. I benefited from the assistance of Lars Werdelin, Elisabeth Vrba, Amy Rector, Charles Lockwood, Margaret Lewis, Denis Geraads, Steve Frost, Eric Delson, Rene Bobe, Ray Bernor, and Zeresenay Alemseged. The Authority for Research and Conservation of Cultural Heritage in the Ministry for Youth, Sports and Culture of the government of Ethiopia have been helpful during both field and museum research done there. Thanks to Gerry Eck, Lillian Spencer, Chris Campisano, Bill Kimbel, Gregg Gunnell, Peter Andrews, and an anonymous reviewer who all read early versions of this manuscript. Thanks also go to Lillian for keeping me on track despite numerous obstacles. This research was supported by the L.S.B. Leakey Foundation and the Institute of Human Origins.
PY - 2008/6
Y1 - 2008/6
N2 - Reconstructing paleoecological patterns associated with hominin taxa, such as Australopithecus afarensis, is important for understanding possible evolutionary mechanisms involved in extinction and speciation events. It is critical to identify local, regional, or pan-African causal factors because patterns at these different levels may affect separate populations of the same species of hominin in unique ways. Habitat reconstructions of 12 submembers of the Hadar and Busidima formations (∼ 3.8-2.35 Ma) are presented here along with faunal differences in these submembers through time. Habitats with medium density tree and bush cover dominated the landscape through much of the earlier time period in the Hadar Formation. The lowermost Sidi Hakoma Member is the most closed habitat. The Denen Dora Member shows the influence of frequent floodplain edaphic grasslands with high abundances of reducin bovids. There is an influx of ungulates in the Kada Hadar Member (∼3.2-∼2.96 Ma) that indicates a more arid habitat populated by mammals that were recovered from earlier deposits further south in Ethiopia and Kenya. In the younger deposits from the Busidima Formation at Hadar, the landscape was open wooded grassland with some floodplain environments. The fossil assemblages from the Busidima Formation show a substantial species turnover. Although high numbers of A. afarensis specimens are associated with the lower Sidi Hakoma Member, they clearly inhabited a variety of habitats throughout the entire Hadar Formation. Australopithecus afarensis from Laetoli through Hadar times appears to have been a eurytopic species.
AB - Reconstructing paleoecological patterns associated with hominin taxa, such as Australopithecus afarensis, is important for understanding possible evolutionary mechanisms involved in extinction and speciation events. It is critical to identify local, regional, or pan-African causal factors because patterns at these different levels may affect separate populations of the same species of hominin in unique ways. Habitat reconstructions of 12 submembers of the Hadar and Busidima formations (∼ 3.8-2.35 Ma) are presented here along with faunal differences in these submembers through time. Habitats with medium density tree and bush cover dominated the landscape through much of the earlier time period in the Hadar Formation. The lowermost Sidi Hakoma Member is the most closed habitat. The Denen Dora Member shows the influence of frequent floodplain edaphic grasslands with high abundances of reducin bovids. There is an influx of ungulates in the Kada Hadar Member (∼3.2-∼2.96 Ma) that indicates a more arid habitat populated by mammals that were recovered from earlier deposits further south in Ethiopia and Kenya. In the younger deposits from the Busidima Formation at Hadar, the landscape was open wooded grassland with some floodplain environments. The fossil assemblages from the Busidima Formation show a substantial species turnover. Although high numbers of A. afarensis specimens are associated with the lower Sidi Hakoma Member, they clearly inhabited a variety of habitats throughout the entire Hadar Formation. Australopithecus afarensis from Laetoli through Hadar times appears to have been a eurytopic species.
KW - Australopithecus afarensis
KW - Paleoecology
KW - Species turnover
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U2 - 10.1016/j.jhevol.2007.08.013
DO - 10.1016/j.jhevol.2007.08.013
M3 - Article
C2 - 18191177
SN - 0047-2484
VL - 54
SP - 743
EP - 768
JO - Journal of human evolution
JF - Journal of human evolution
IS - 6
ER -