Hominid environments at Hadar from paleosol studies in a framework of Ethiopian climate change Export

@article{citeulike:2915376, abstract = {The amount and seasonal distribution of paleo-rainfall is a major concern of paleoanthropology because they determine the nature of the vegetation and the structure of the ecosystem, particularly in eastern Africa. The [delta]18O and [delta]13C of paleosol carbonates are quantitative proxies of these critical features of the paleoenvironment. The Afar region of Ethiopia lies between the African and Indian summer monsoons, and is prone to profound climate change. In the western Afar, the dominant paleoenvironment of the Hadar Formation during the late Pliocene was a major meandering river's distal low, flat floodplain, on which muds accreted that were continuously transformed into vegetated soils with Bk horizons rich in CaCO3. The mean [delta]13C of paleosols throughout the Hadar Formation translates to an average vegetative cover across the extensive floodplain of about 30\% of the C4 grasses and 70\% of unspecified C3 plants. The character of the paleosols, such as the one at Locality 333, and their [delta]18OCarbonate argue for a highly seasonal rainfall of about twice today's amount, implying that the C3 plants were mostly sizeable trees and that the biome for Australopithecus afarensis was a grassy woodland. The amount of grasses abruptly increased in the lower Busidima Formation with its early Homo and artifacts to a more open grassy woodland of ca. 50\% grasses. However, this transition in [delta]13C is not mirrored in the [delta]18O, which persists at a quite negative average value of -6.4[per mille sign] over the entire >2-Myr duration of both formations. This value for the carbonate means that the paleosoil water was a quite negative -4.1[per mille sign], a significant 5[per mille sign] more negative than our estimate of modern rain at Hadar. We put the negative [delta]18O of paleo-Hadar's rainfall into an isotopic framework of the dynamic history of climate change in sub-Saharan northern Africa. There have been two end-member climate regimes: (1) an earlier persistently pluvial Pliocene regime, with its strong summer monsoon, as registered in the Hadar Formation; and (2) the modern cyclical, mostly arid regime that began ca. 1 Myr ago, which has been punctuated by about ten cyclically predictable brief millennia-long pluvial episodes. The best known pluvial of the latter regime is the latest one, the African Humid Period (AHP), just 9.0-6.5 kyr ago, whose [delta]18ORainfall matches that for paleo-Hadar. The known climatological factors that brought on the AHP are probably the same ones that were persistently present for the Afar of the Pliocene. This dynamic rainfall history undoubtedly has influenced hominid occupation of the keystone Afar area at the gateway out of, and into, Africa.}, author = {Aronson, James L. and Hailemichael, Million and Savin, Samuel M.}, citeulike-article-id = {2915376}, citeulike-linkout-0 = {http://dx.doi.org/10.1016/j.jhevol.2008.04.004}, citeulike-linkout-1 = {http://www.sciencedirect.com/science/article/B6WJS-4ST45P2-1/1/727a348d3ace22f666bca61076221e18}, doi = {10.1016/j.jhevol.2008.04.004}, journal = {Journal of Human Evolution}, keywords = {200806, climat, environnement, ethiopie, evolution, hadar, paleontologie-humaine}, posted-at = {2008-06-22 18:36:28}, priority = {2}, title = {Hominid environments at Hadar from paleosol studies in a framework of Ethiopian climate change}, url = {http://dx.doi.org/10.1016/j.jhevol.2008.04.004}, volume = {In Press, Corrected Proof} }

TY - JOUR ID - citeulike:2915376 L3 - citeulike-article-id:2915376 N2 - The amount and seasonal distribution of paleo-rainfall is a major concern of paleoanthropology because they determine the nature of the vegetation and the structure of the ecosystem, particularly in eastern Africa. The [delta]18O and [delta]13C of paleosol carbonates are quantitative proxies of these critical features of the paleoenvironment. The Afar region of Ethiopia lies between the African and Indian summer monsoons, and is prone to profound climate change. In the western Afar, the dominant paleoenvironment of the Hadar Formation during the late Pliocene was a major meandering river's distal low, flat floodplain, on which muds accreted that were continuously transformed into vegetated soils with Bk horizons rich in CaCO3. The mean [delta]13C of paleosols throughout the Hadar Formation translates to an average vegetative cover across the extensive floodplain of about 30% of the C4 grasses and 70% of unspecified C3 plants. The character of the paleosols, such as the one at Locality 333, and their [delta]18OCarbonate argue for a highly seasonal rainfall of about twice today's amount, implying that the C3 plants were mostly sizeable trees and that the biome for Australopithecus afarensis was a grassy woodland. The amount of grasses abruptly increased in the lower Busidima Formation with its early Homo and artifacts to a more open grassy woodland of ca. 50% grasses. However, this transition in [delta]13C is not mirrored in the [delta]18O, which persists at a quite negative average value of -6.4[per mille sign] over the entire >2-Myr duration of both formations. This value for the carbonate means that the paleosoil water was a quite negative -4.1[per mille sign], a significant 5[per mille sign] more negative than our estimate of modern rain at Hadar. We put the negative [delta]18O of paleo-Hadar's rainfall into an isotopic framework of the dynamic history of climate change in sub-Saharan northern Africa. There have been two end-member climate regimes: (1) an earlier persistently pluvial Pliocene regime, with its strong summer monsoon, as registered in the Hadar Formation; and (2) the modern cyclical, mostly arid regime that began ca. 1 Myr ago, which has been punctuated by about ten cyclically predictable brief millennia-long pluvial episodes. The best known pluvial of the latter regime is the latest one, the African Humid Period (AHP), just 9.0-6.5 kyr ago, whose [delta]18ORainfall matches that for paleo-Hadar. The known climatological factors that brought on the AHP are probably the same ones that were persistently present for the Afar of the Pliocene. This dynamic rainfall history undoubtedly has influenced hominid occupation of the keystone Afar area at the gateway out of, and into, Africa. JF - Journal of Human Evolution TI - Hominid environments at Hadar from paleosol studies in a framework of Ethiopian climate change VL - In Press, Corrected Proof KW - 200806 KW - climat KW - environnement KW - ethiopie KW - evolution KW - hadar KW - paleontologie-humaine AU - Aronson, James AU - Hailemichael, Million AU - Savin, Samuel UR - http://dx.doi.org/10.1016/j.jhevol.2008.04.004 ER -