Recurrent humid phases in Arabia over the past 8 million years

Monika Markowska; Hubert B. Vonhof; Huw S. Groucutt; Paul S. Breeze; Nick Drake; Mathew Stewart; Richard Albert; Eric Andrieux; James Blinkhorn; Nicole Boivin; Alexander Budsky; Richard Clark-Wilson; Dominik Fleitmann; Axel Gerdes; Ashley N. Martin; Alfredo Martínez-García; Samuel L. Nicholson; Gilbert J. Price; Eleanor M.L. Scerri; Denis Scholz; Nils Vanwezer; Michael Weber; Abdullah M. Alsharekh; Abdul Aziz Al Omari; Yahya S.A. Al-Mufarreh; Faisal Al-Jibreen; Mesfer Alqahtani; Mahmoud Al-Shanti; Iyad Zalmout; Michael D. Petraglia; Gerald H. Haug

doi:10.1038/s41586-025-08859-6

Recurrent humid phases in Arabia over the past 8 million years

Monika Markowska^*, Hubert B. Vonhof^*, Huw S. Groucutt^*, Paul S. Breeze, Nick Drake, Mathew Stewart, Richard Albert, Eric Andrieux, James Blinkhorn, Nicole Boivin, Alexander Budsky, Richard Clark-Wilson, Dominik Fleitmann, Axel Gerdes, Ashley N. Martin, Alfredo Martínez-García, Samuel L. Nicholson, Gilbert J. Price, Eleanor M.L. Scerri, Denis ScholzNils Vanwezer, Michael Weber, Abdullah M. Alsharekh, Abdul Aziz Al Omari, Yahya S.A. Al-Mufarreh, Faisal Al-Jibreen, Mesfer Alqahtani, Mahmoud Al-Shanti, Iyad Zalmout, Michael D. Petraglia^*, Gerald H. Haug

^*Corresponding author for this work

Geography and Environmental Sciences Department

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

Abstract

The Saharo-Arabian Desert is one of the largest biogeographical barriers on Earth, impeding dispersals between Africa and Eurasia, including movements of past hominins. Recent research suggests that this barrier has been in place since at least 11 million years ago¹. In contrast, fossil evidence from the late Miocene epoch and the Pleistocene epoch suggests the episodic presence within the Saharo-Arabian Desert interior of water-dependent fauna (for example, crocodiles, equids, hippopotamids and proboscideans)^{2, 3, 4, 5–6}, sustained by rivers and lakes^7,8 that are largely absent from today’s arid landscape. Although numerous humid phases occurred in southern Arabia during the past 1.1 million years⁹, little is known about Arabia’s palaeoclimate before this time. Here, based on a climatic record from desert speleothems, we show recurrent humid intervals in the central Arabian interior over the past 8 million years. Precipitation during humid intervals decreased and became more variable over time, as the monsoon’s influence weakened, coinciding with enhanced Northern Hemisphere polar ice cover during the Pleistocene. Wetter conditions likely facilitated mammalian dispersals between Africa and Eurasia, with Arabia acting as a key crossroads for continental-scale biogeographic exchanges.

Original language	English
Article number	106112
Pages (from-to)	1-25
Number of pages	25
Journal	Nature
Early online date	9 Apr 2025
DOIs	https://doi.org/10.1038/s41586-025-08859-6
Publication status	E-pub ahead of print - 9 Apr 2025

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Markowska, M., Vonhof, H. B., Groucutt, H. S., Breeze, P. S., Drake, N., Stewart, M., Albert, R., Andrieux, E., Blinkhorn, J., Boivin, N., Budsky, A., Clark-Wilson, R., Fleitmann, D., Gerdes, A., Martin, A. N., Martínez-García, A., Nicholson, S. L., Price, G. J., Scerri, E. M. L., ... Haug, G. H. (2025). Recurrent humid phases in Arabia over the past 8 million years. Nature, 1-25. Article 106112. Advance online publication. https://doi.org/10.1038/s41586-025-08859-6

@article{44cba7e397fe46debebbe5f9fd482eee,

title = "Recurrent humid phases in Arabia over the past 8 million years",

abstract = "The Saharo-Arabian Desert is one of the largest biogeographical barriers on Earth, impeding dispersals between Africa and Eurasia, including movements of past hominins. Recent research suggests that this barrier has been in place since at least 11 million years ago1. In contrast, fossil evidence from the late Miocene epoch and the Pleistocene epoch suggests the episodic presence within the Saharo-Arabian Desert interior of water-dependent fauna (for example, crocodiles, equids, hippopotamids and proboscideans)2, 3, 4, 5–6, sustained by rivers and lakes7,8 that are largely absent from today{\textquoteright}s arid landscape. Although numerous humid phases occurred in southern Arabia during the past 1.1 million years9, little is known about Arabia{\textquoteright}s palaeoclimate before this time. Here, based on a climatic record from desert speleothems, we show recurrent humid intervals in the central Arabian interior over the past 8 million years. Precipitation during humid intervals decreased and became more variable over time, as the monsoon{\textquoteright}s influence weakened, coinciding with enhanced Northern Hemisphere polar ice cover during the Pleistocene. Wetter conditions likely facilitated mammalian dispersals between Africa and Eurasia, with Arabia acting as a key crossroads for continental-scale biogeographic exchanges.",

author = "Monika Markowska and Vonhof, {Hubert B.} and Groucutt, {Huw S.} and Breeze, {Paul S.} and Nick Drake and Mathew Stewart and Richard Albert and Eric Andrieux and James Blinkhorn and Nicole Boivin and Alexander Budsky and Richard Clark-Wilson and Dominik Fleitmann and Axel Gerdes and Martin, {Ashley N.} and Alfredo Mart{\'i}nez-Garc{\'i}a and Nicholson, {Samuel L.} and Price, {Gilbert J.} and Scerri, {Eleanor M.L.} and Denis Scholz and Nils Vanwezer and Michael Weber and Alsharekh, {Abdullah M.} and {Al Omari}, {Abdul Aziz} and Al-Mufarreh, {Yahya S.A.} and Faisal Al-Jibreen and Mesfer Alqahtani and Mahmoud Al-Shanti and Iyad Zalmout and Petraglia, {Michael D.} and Haug, {Gerald H.}",

year = "2025",

month = apr,

day = "9",

doi = "10.1038/s41586-025-08859-6",

language = "English",

pages = "1--25",

journal = "Nature",

issn = "0028-0836",

publisher = "Nature Research",

}

Markowska, M, Vonhof, HB, Groucutt, HS, Breeze, PS, Drake, N, Stewart, M, Albert, R, Andrieux, E, Blinkhorn, J, Boivin, N, Budsky, A, Clark-Wilson, R, Fleitmann, D, Gerdes, A, Martin, AN, Martínez-García, A, Nicholson, SL, Price, GJ, Scerri, EML, Scholz, D, Vanwezer, N, Weber, M, Alsharekh, AM, Al Omari, AA, Al-Mufarreh, YSA, Al-Jibreen, F, Alqahtani, M, Al-Shanti, M, Zalmout, I, Petraglia, MD & Haug, GH 2025, 'Recurrent humid phases in Arabia over the past 8 million years', Nature, pp. 1-25. https://doi.org/10.1038/s41586-025-08859-6

TY - JOUR

T1 - Recurrent humid phases in Arabia over the past 8 million years

AU - Markowska, Monika

AU - Vonhof, Hubert B.

AU - Groucutt, Huw S.

AU - Breeze, Paul S.

AU - Drake, Nick

AU - Stewart, Mathew

AU - Albert, Richard

AU - Andrieux, Eric

AU - Blinkhorn, James

AU - Boivin, Nicole

AU - Budsky, Alexander

AU - Clark-Wilson, Richard

AU - Fleitmann, Dominik

AU - Gerdes, Axel

AU - Martin, Ashley N.

AU - Martínez-García, Alfredo

AU - Nicholson, Samuel L.

AU - Price, Gilbert J.

AU - Scerri, Eleanor M.L.

AU - Scholz, Denis

AU - Vanwezer, Nils

AU - Weber, Michael

AU - Alsharekh, Abdullah M.

AU - Al Omari, Abdul Aziz

AU - Al-Mufarreh, Yahya S.A.

AU - Al-Jibreen, Faisal

AU - Alqahtani, Mesfer

AU - Al-Shanti, Mahmoud

AU - Zalmout, Iyad

AU - Petraglia, Michael D.

AU - Haug, Gerald H.

PY - 2025/4/9

Y1 - 2025/4/9

N2 - The Saharo-Arabian Desert is one of the largest biogeographical barriers on Earth, impeding dispersals between Africa and Eurasia, including movements of past hominins. Recent research suggests that this barrier has been in place since at least 11 million years ago1. In contrast, fossil evidence from the late Miocene epoch and the Pleistocene epoch suggests the episodic presence within the Saharo-Arabian Desert interior of water-dependent fauna (for example, crocodiles, equids, hippopotamids and proboscideans)2, 3, 4, 5–6, sustained by rivers and lakes7,8 that are largely absent from today’s arid landscape. Although numerous humid phases occurred in southern Arabia during the past 1.1 million years9, little is known about Arabia’s palaeoclimate before this time. Here, based on a climatic record from desert speleothems, we show recurrent humid intervals in the central Arabian interior over the past 8 million years. Precipitation during humid intervals decreased and became more variable over time, as the monsoon’s influence weakened, coinciding with enhanced Northern Hemisphere polar ice cover during the Pleistocene. Wetter conditions likely facilitated mammalian dispersals between Africa and Eurasia, with Arabia acting as a key crossroads for continental-scale biogeographic exchanges.

AB - The Saharo-Arabian Desert is one of the largest biogeographical barriers on Earth, impeding dispersals between Africa and Eurasia, including movements of past hominins. Recent research suggests that this barrier has been in place since at least 11 million years ago1. In contrast, fossil evidence from the late Miocene epoch and the Pleistocene epoch suggests the episodic presence within the Saharo-Arabian Desert interior of water-dependent fauna (for example, crocodiles, equids, hippopotamids and proboscideans)2, 3, 4, 5–6, sustained by rivers and lakes7,8 that are largely absent from today’s arid landscape. Although numerous humid phases occurred in southern Arabia during the past 1.1 million years9, little is known about Arabia’s palaeoclimate before this time. Here, based on a climatic record from desert speleothems, we show recurrent humid intervals in the central Arabian interior over the past 8 million years. Precipitation during humid intervals decreased and became more variable over time, as the monsoon’s influence weakened, coinciding with enhanced Northern Hemisphere polar ice cover during the Pleistocene. Wetter conditions likely facilitated mammalian dispersals between Africa and Eurasia, with Arabia acting as a key crossroads for continental-scale biogeographic exchanges.

UR - http://www.scopus.com/inward/record.url?scp=105002174166&partnerID=8YFLogxK

U2 - 10.1038/s41586-025-08859-6

DO - 10.1038/s41586-025-08859-6

M3 - Article

AN - SCOPUS:105002174166

SN - 0028-0836

SP - 1

EP - 25

JO - Nature

JF - Nature

M1 - 106112

ER -

Recurrent humid phases in Arabia over the past 8 million years

Abstract

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