A phytolith supported biosphere-hydrosphere predictive model for Southern Ethiopia: Insights into paleoenvironmental changes and human landscape preferences since the last glacial maximum

Markus L. Fischer; Felix Bachofer; Chad L. Yost; Ines J.E. Bludau; Christian Schepers; Verena Foerster; Henry Lamb; Frank Schäbitz; Asfawossen Asrat; Martin H. Trauth; Annett Junginger

doi:10.3390/geosciences11100418

A phytolith supported biosphere-hydrosphere predictive model for Southern Ethiopia: Insights into paleoenvironmental changes and human landscape preferences since the last glacial maximum

Markus L. Fischer, Felix Bachofer, Chad L. Yost, Ines J.E. Bludau, Christian Schepers, Verena Foerster, Henry Lamb, Frank Schäbitz, Asfawossen Asrat, Martin H. Trauth, Annett Junginger

Botswana International University of Science & Technology

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1 Citation (Scopus)

Abstract

During the past 25 ka, southern Ethiopia has undergone tremendous climatic changes, from dry and relatively cold during the Last Glacial Maximum (LGM, 25–18 ka) to the African Humid Period (AHP, 15–5 ka), and back to present-day dry conditions. As a contribution to better understand the effects of climate change on vegetation and lakes, we here present a new Predictive Vegetation Model that is linked with a Lake Balance Model and available vegetation-proxy records from southern Ethiopia including a new phytolith record from the Chew Bahir basin. We constructed a detailed paleo-landcover map of southern Ethiopia during the LGM, AHP (with and without influence of the Congo Air Boundary) and the modern-day potential natural landcover. Compared to today, we observe a 15–20% reduction in moisture availability during the LGM with widespread open landscapes and only few remaining forest refugia. We identify 25–40% increased moisture availability during the AHP with prevailing forests in the mid-altitudes and indications that modern anthropogenic landcover change has affected the water balance. In comparison with existing archaeological records, we find that human occupations tend to correspond with open landscapes during the late Pleistocene and Holocene in southern Ethiopia.

Original language	English
Article number	418
Journal	Geosciences (Switzerland)
Volume	11
Issue number	10
DOIs	https://doi.org/10.3390/geosciences11100418
Publication status	Published - Oct 8 2021

All Science Journal Classification (ASJC) codes

General Earth and Planetary Sciences

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.3390/geosciences11100418Licence: CC BY

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Fischer, M. L., Bachofer, F., Yost, C. L., Bludau, I. J. E., Schepers, C., Foerster, V., Lamb, H., Schäbitz, F., Asrat, A., Trauth, M. H., & Junginger, A. (2021). A phytolith supported biosphere-hydrosphere predictive model for Southern Ethiopia: Insights into paleoenvironmental changes and human landscape preferences since the last glacial maximum. Geosciences (Switzerland), 11(10), Article 418. https://doi.org/10.3390/geosciences11100418

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title = "A phytolith supported biosphere-hydrosphere predictive model for Southern Ethiopia: Insights into paleoenvironmental changes and human landscape preferences since the last glacial maximum",

abstract = "During the past 25 ka, southern Ethiopia has undergone tremendous climatic changes, from dry and relatively cold during the Last Glacial Maximum (LGM, 25–18 ka) to the African Humid Period (AHP, 15–5 ka), and back to present-day dry conditions. As a contribution to better understand the effects of climate change on vegetation and lakes, we here present a new Predictive Vegetation Model that is linked with a Lake Balance Model and available vegetation-proxy records from southern Ethiopia including a new phytolith record from the Chew Bahir basin. We constructed a detailed paleo-landcover map of southern Ethiopia during the LGM, AHP (with and without influence of the Congo Air Boundary) and the modern-day potential natural landcover. Compared to today, we observe a 15–20% reduction in moisture availability during the LGM with widespread open landscapes and only few remaining forest refugia. We identify 25–40% increased moisture availability during the AHP with prevailing forests in the mid-altitudes and indications that modern anthropogenic landcover change has affected the water balance. In comparison with existing archaeological records, we find that human occupations tend to correspond with open landscapes during the late Pleistocene and Holocene in southern Ethiopia.",

author = "Fischer, {Markus L.} and Felix Bachofer and Yost, {Chad L.} and Bludau, {Ines J.E.} and Christian Schepers and Verena Foerster and Henry Lamb and Frank Sch{\"a}bitz and Asfawossen Asrat and Trauth, {Martin H.} and Annett Junginger",

note = "Funding Information: Funding: This research was funded by the PhD scholarship from the Stiftung der deutschen Wirtschaft and the project “Wet Feet or Walking on Sunshine” financed by the Ministry of Culture and Science (MWK) of Baden W{\"u}rttemberg, Germany. The drilling and analysis of the “short” cores of Chew Bahir were mainly financed by the Collaborative Research Center (CRC) 806, Project Number 57444011 at University of Cologne, to a project outlined by FS and the International Continental Scientific Drilling Program (ICDP) (grant numbers TR 419/9-1,2 and SCHA 472/18-1,2). Funding Information: Acknowledgments: M.L.F. is grateful for the financial support by the Stiftung der deutschen Wirtschaft. M.L.F. thanks Fabian Sittaro for the discussions about the methods and Carina for the moon. We thank Claudia Manntschke for helping to prepare phytolith samples. We appreciate the work from the team of the atlas of the potential vegetation of Ethiopia, which provided the base to realise our study. We thank two anonymous reviewers for their comments that greatly improved the manuscript. This is publication #44 of the Hominin Sites and Paleolakes Drilling Project (HSPDP). Publisher Copyright: {\textcopyright} 2021 by the authors. Licensee MDPI, Basel, Switzerland.",

year = "2021",

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doi = "10.3390/geosciences11100418",

language = "English",

volume = "11",

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Fischer, ML, Bachofer, F, Yost, CL, Bludau, IJE, Schepers, C, Foerster, V, Lamb, H, Schäbitz, F, Asrat, A, Trauth, MH & Junginger, A 2021, 'A phytolith supported biosphere-hydrosphere predictive model for Southern Ethiopia: Insights into paleoenvironmental changes and human landscape preferences since the last glacial maximum', Geosciences (Switzerland), vol. 11, no. 10, 418. https://doi.org/10.3390/geosciences11100418

A phytolith supported biosphere-hydrosphere predictive model for Southern Ethiopia: Insights into paleoenvironmental changes and human landscape preferences since the last glacial maximum. / Fischer, Markus L.; Bachofer, Felix; Yost, Chad L. et al.
In: Geosciences (Switzerland), Vol. 11, No. 10, 418, 08.10.2021.

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

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T2 - Insights into paleoenvironmental changes and human landscape preferences since the last glacial maximum

AU - Fischer, Markus L.

AU - Bachofer, Felix

AU - Yost, Chad L.

AU - Bludau, Ines J.E.

AU - Schepers, Christian

AU - Foerster, Verena

AU - Lamb, Henry

AU - Schäbitz, Frank

AU - Asrat, Asfawossen

AU - Trauth, Martin H.

AU - Junginger, Annett

N1 - Funding Information: Funding: This research was funded by the PhD scholarship from the Stiftung der deutschen Wirtschaft and the project “Wet Feet or Walking on Sunshine” financed by the Ministry of Culture and Science (MWK) of Baden Württemberg, Germany. The drilling and analysis of the “short” cores of Chew Bahir were mainly financed by the Collaborative Research Center (CRC) 806, Project Number 57444011 at University of Cologne, to a project outlined by FS and the International Continental Scientific Drilling Program (ICDP) (grant numbers TR 419/9-1,2 and SCHA 472/18-1,2). Funding Information: Acknowledgments: M.L.F. is grateful for the financial support by the Stiftung der deutschen Wirtschaft. M.L.F. thanks Fabian Sittaro for the discussions about the methods and Carina for the moon. We thank Claudia Manntschke for helping to prepare phytolith samples. We appreciate the work from the team of the atlas of the potential vegetation of Ethiopia, which provided the base to realise our study. We thank two anonymous reviewers for their comments that greatly improved the manuscript. This is publication #44 of the Hominin Sites and Paleolakes Drilling Project (HSPDP). Publisher Copyright: © 2021 by the authors. Licensee MDPI, Basel, Switzerland.

PY - 2021/10/8

Y1 - 2021/10/8

N2 - During the past 25 ka, southern Ethiopia has undergone tremendous climatic changes, from dry and relatively cold during the Last Glacial Maximum (LGM, 25–18 ka) to the African Humid Period (AHP, 15–5 ka), and back to present-day dry conditions. As a contribution to better understand the effects of climate change on vegetation and lakes, we here present a new Predictive Vegetation Model that is linked with a Lake Balance Model and available vegetation-proxy records from southern Ethiopia including a new phytolith record from the Chew Bahir basin. We constructed a detailed paleo-landcover map of southern Ethiopia during the LGM, AHP (with and without influence of the Congo Air Boundary) and the modern-day potential natural landcover. Compared to today, we observe a 15–20% reduction in moisture availability during the LGM with widespread open landscapes and only few remaining forest refugia. We identify 25–40% increased moisture availability during the AHP with prevailing forests in the mid-altitudes and indications that modern anthropogenic landcover change has affected the water balance. In comparison with existing archaeological records, we find that human occupations tend to correspond with open landscapes during the late Pleistocene and Holocene in southern Ethiopia.

AB - During the past 25 ka, southern Ethiopia has undergone tremendous climatic changes, from dry and relatively cold during the Last Glacial Maximum (LGM, 25–18 ka) to the African Humid Period (AHP, 15–5 ka), and back to present-day dry conditions. As a contribution to better understand the effects of climate change on vegetation and lakes, we here present a new Predictive Vegetation Model that is linked with a Lake Balance Model and available vegetation-proxy records from southern Ethiopia including a new phytolith record from the Chew Bahir basin. We constructed a detailed paleo-landcover map of southern Ethiopia during the LGM, AHP (with and without influence of the Congo Air Boundary) and the modern-day potential natural landcover. Compared to today, we observe a 15–20% reduction in moisture availability during the LGM with widespread open landscapes and only few remaining forest refugia. We identify 25–40% increased moisture availability during the AHP with prevailing forests in the mid-altitudes and indications that modern anthropogenic landcover change has affected the water balance. In comparison with existing archaeological records, we find that human occupations tend to correspond with open landscapes during the late Pleistocene and Holocene in southern Ethiopia.

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VL - 11

JO - Geosciences (Switzerland)

JF - Geosciences (Switzerland)

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ER -

A phytolith supported biosphere-hydrosphere predictive model for Southern Ethiopia: Insights into paleoenvironmental changes and human landscape preferences since the last glacial maximum

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