Orbital controls on eastern African hydroclimate in the Pleistocene

Rachel L. Lupien; James M. Russell; Emma J. Pearson; Isla S. Castañeda; Asfawossen Asrat; Verena Foerster; Henry F. Lamb; Helen M. Roberts; Frank Schäbitz; Martin H. Trauth; Catherine C. Beck; Craig S. Feibel; Andrew S. Cohen

doi:10.1038/s41598-022-06826-z

Orbital controls on eastern African hydroclimate in the Pleistocene

Rachel L. Lupien, James M. Russell, Emma J. Pearson, Isla S. Castañeda, Asfawossen Asrat, Verena Foerster, Henry F. Lamb, Helen M. Roberts, Frank Schäbitz, Martin H. Trauth, Catherine C. Beck, Craig S. Feibel, Andrew S. Cohen

Continental Scientific Drilling Facility

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25 Scopus citations

Abstract

Understanding eastern African paleoclimate is critical for contextualizing early human evolution, adaptation, and dispersal, yet Pleistocene climate of this region and its governing mechanisms remain poorly understood due to the lack of long, orbitally-resolved, terrestrial paleoclimate records. Here we present leaf wax hydrogen isotope records of rainfall from paleolake sediment cores from key time windows that resolve long-term trends, variations, and high-latitude effects on tropical African precipitation. Eastern African rainfall was dominantly controlled by variations in low-latitude summer insolation during most of the early and middle Pleistocene, with little evidence that glacial–interglacial cycles impacted rainfall until the late Pleistocene. We observe the influence of high-latitude-driven climate processes emerging from the last interglacial (Marine Isotope Stage 5) to the present, an interval when glacial–interglacial cycles were strong and insolation forcing was weak. Our results demonstrate a variable response of eastern African rainfall to low-latitude insolation forcing and high-latitude-driven climate change, likely related to the relative strengths of these forcings through time and a threshold in monsoon sensitivity. We observe little difference in mean rainfall between the early, middle, and late Pleistocene, which suggests that orbitally-driven climate variations likely played a more significant role than gradual change in the relationship between early humans and their environment.

Original language	English (US)
Article number	3170
Journal	Scientific reports
Volume	12
Issue number	1
DOIs	https://doi.org/10.1038/s41598-022-06826-z
State	Published - Dec 2022

Bibliographical note

Funding Information:
We wish to thank Laura Messier and Xiaonan Zhang for sample preparation assistance, Rafael Torozo, Marcelo Alexandre, and Ewerton Santos for laboratory assistance, and members of the Hominin Sites and Paleolakes Drilling Project for useful discussions. Initial core processing and sampling were conducted at the US National Lacustrine Core Facility (LacCore) at the University of Minnesota. This research was supported by the National Science Foundation (NSF) Grants EAR 1826938, EAR 1123942, EAR 1338553, and BCS 1241859, the International Continental Scientific Drilling Program (ICDP), and by the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) through the Priority Program SPP 1006 ICDP (SCHA 472/13 and /18, TR 419/8 and /10), the CRC 806 Research Project “Our way to Europe” Grant 57444011, and the UK Natural Environment Research Council (NERC) Grant NE/K014560/1. Data will be made available at the World Data Center-A for Paleoclimatology. This is publication #50 of the Hominin Sites and Paleolakes Drilling Project.

Publisher Copyright:
© 2022, The Author(s).

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@article{aed5b879a1254eacb07d796b1b28168c,

title = "Orbital controls on eastern African hydroclimate in the Pleistocene",

abstract = "Understanding eastern African paleoclimate is critical for contextualizing early human evolution, adaptation, and dispersal, yet Pleistocene climate of this region and its governing mechanisms remain poorly understood due to the lack of long, orbitally-resolved, terrestrial paleoclimate records. Here we present leaf wax hydrogen isotope records of rainfall from paleolake sediment cores from key time windows that resolve long-term trends, variations, and high-latitude effects on tropical African precipitation. Eastern African rainfall was dominantly controlled by variations in low-latitude summer insolation during most of the early and middle Pleistocene, with little evidence that glacial–interglacial cycles impacted rainfall until the late Pleistocene. We observe the influence of high-latitude-driven climate processes emerging from the last interglacial (Marine Isotope Stage 5) to the present, an interval when glacial–interglacial cycles were strong and insolation forcing was weak. Our results demonstrate a variable response of eastern African rainfall to low-latitude insolation forcing and high-latitude-driven climate change, likely related to the relative strengths of these forcings through time and a threshold in monsoon sensitivity. We observe little difference in mean rainfall between the early, middle, and late Pleistocene, which suggests that orbitally-driven climate variations likely played a more significant role than gradual change in the relationship between early humans and their environment.",

author = "Lupien, {Rachel L.} and Russell, {James M.} and Pearson, {Emma J.} and Casta{\~n}eda, {Isla S.} and Asfawossen Asrat and Verena Foerster and Lamb, {Henry F.} and Roberts, {Helen M.} and Frank Sch{\"a}bitz and Trauth, {Martin H.} and Beck, {Catherine C.} and Feibel, {Craig S.} and Cohen, {Andrew S.}",

note = "Funding Information: We wish to thank Laura Messier and Xiaonan Zhang for sample preparation assistance, Rafael Torozo, Marcelo Alexandre, and Ewerton Santos for laboratory assistance, and members of the Hominin Sites and Paleolakes Drilling Project for useful discussions. Initial core processing and sampling were conducted at the US National Lacustrine Core Facility (LacCore) at the University of Minnesota. This research was supported by the National Science Foundation (NSF) Grants EAR 1826938, EAR 1123942, EAR 1338553, and BCS 1241859, the International Continental Scientific Drilling Program (ICDP), and by the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) through the Priority Program SPP 1006 ICDP (SCHA 472/13 and /18, TR 419/8 and /10), the CRC 806 Research Project “Our way to Europe” Grant 57444011, and the UK Natural Environment Research Council (NERC) Grant NE/K014560/1. Data will be made available at the World Data Center-A for Paleoclimatology. This is publication #50 of the Hominin Sites and Paleolakes Drilling Project. Publisher Copyright: {\textcopyright} 2022, The Author(s).",

year = "2022",

month = dec,

doi = "10.1038/s41598-022-06826-z",

language = "English (US)",

volume = "12",

journal = "Scientific reports",

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T1 - Orbital controls on eastern African hydroclimate in the Pleistocene

AU - Lupien, Rachel L.

AU - Russell, James M.

AU - Pearson, Emma J.

AU - Castañeda, Isla S.

AU - Asrat, Asfawossen

AU - Foerster, Verena

AU - Lamb, Henry F.

AU - Roberts, Helen M.

AU - Schäbitz, Frank

AU - Trauth, Martin H.

AU - Beck, Catherine C.

AU - Feibel, Craig S.

AU - Cohen, Andrew S.

N1 - Funding Information: We wish to thank Laura Messier and Xiaonan Zhang for sample preparation assistance, Rafael Torozo, Marcelo Alexandre, and Ewerton Santos for laboratory assistance, and members of the Hominin Sites and Paleolakes Drilling Project for useful discussions. Initial core processing and sampling were conducted at the US National Lacustrine Core Facility (LacCore) at the University of Minnesota. This research was supported by the National Science Foundation (NSF) Grants EAR 1826938, EAR 1123942, EAR 1338553, and BCS 1241859, the International Continental Scientific Drilling Program (ICDP), and by the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) through the Priority Program SPP 1006 ICDP (SCHA 472/13 and /18, TR 419/8 and /10), the CRC 806 Research Project “Our way to Europe” Grant 57444011, and the UK Natural Environment Research Council (NERC) Grant NE/K014560/1. Data will be made available at the World Data Center-A for Paleoclimatology. This is publication #50 of the Hominin Sites and Paleolakes Drilling Project. Publisher Copyright: © 2022, The Author(s).

PY - 2022/12

Y1 - 2022/12

N2 - Understanding eastern African paleoclimate is critical for contextualizing early human evolution, adaptation, and dispersal, yet Pleistocene climate of this region and its governing mechanisms remain poorly understood due to the lack of long, orbitally-resolved, terrestrial paleoclimate records. Here we present leaf wax hydrogen isotope records of rainfall from paleolake sediment cores from key time windows that resolve long-term trends, variations, and high-latitude effects on tropical African precipitation. Eastern African rainfall was dominantly controlled by variations in low-latitude summer insolation during most of the early and middle Pleistocene, with little evidence that glacial–interglacial cycles impacted rainfall until the late Pleistocene. We observe the influence of high-latitude-driven climate processes emerging from the last interglacial (Marine Isotope Stage 5) to the present, an interval when glacial–interglacial cycles were strong and insolation forcing was weak. Our results demonstrate a variable response of eastern African rainfall to low-latitude insolation forcing and high-latitude-driven climate change, likely related to the relative strengths of these forcings through time and a threshold in monsoon sensitivity. We observe little difference in mean rainfall between the early, middle, and late Pleistocene, which suggests that orbitally-driven climate variations likely played a more significant role than gradual change in the relationship between early humans and their environment.

AB - Understanding eastern African paleoclimate is critical for contextualizing early human evolution, adaptation, and dispersal, yet Pleistocene climate of this region and its governing mechanisms remain poorly understood due to the lack of long, orbitally-resolved, terrestrial paleoclimate records. Here we present leaf wax hydrogen isotope records of rainfall from paleolake sediment cores from key time windows that resolve long-term trends, variations, and high-latitude effects on tropical African precipitation. Eastern African rainfall was dominantly controlled by variations in low-latitude summer insolation during most of the early and middle Pleistocene, with little evidence that glacial–interglacial cycles impacted rainfall until the late Pleistocene. We observe the influence of high-latitude-driven climate processes emerging from the last interglacial (Marine Isotope Stage 5) to the present, an interval when glacial–interglacial cycles were strong and insolation forcing was weak. Our results demonstrate a variable response of eastern African rainfall to low-latitude insolation forcing and high-latitude-driven climate change, likely related to the relative strengths of these forcings through time and a threshold in monsoon sensitivity. We observe little difference in mean rainfall between the early, middle, and late Pleistocene, which suggests that orbitally-driven climate variations likely played a more significant role than gradual change in the relationship between early humans and their environment.

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Orbital controls on eastern African hydroclimate in the Pleistocene

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