Mid- to late Holocene Indian Ocean Monsoon variability recorded in four speleothems from Socotra Island, Yemen

Maïté Van Rampelbergh; Dominik Fleitmann; Sophie Verheyden; Hai Cheng; Lawrence Edwards; Peter De Geest; David De Vleeschouwer; Stephen J. Burns; Albert Matter; Philippe Claeys; Eddy Keppens

doi:10.1016/j.quascirev.2013.01.016

Mid- to late Holocene Indian Ocean Monsoon variability recorded in four speleothems from Socotra Island, Yemen

Maïté Van Rampelbergh, Dominik Fleitmann, Sophie Verheyden, Hai Cheng, Lawrence Edwards, Peter De Geest, David De Vleeschouwer, Stephen J. Burns, Albert Matter, Philippe Claeys, Eddy Keppens

Earth and Environmental Sciences-Twin Cities

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53 Scopus citations

Abstract

Four stalagmites covering the last 7.0 ka were sampled on Socotra, an island in the northern Indian Ocean to investigate the evolution of the northeast Indian Ocean Monsoon (IOM) since the mid Holocene. On Socotra, rain is delivered at the start of the southwest IOM in May-June and at the start of the northeast IOM from September to December. The Haggeher Mountains act as a barrier forcing precipitation brought by the northeast winds to fall preferentially on the eastern side of the island, where the studied caves are located. δ¹⁸O and δ¹³C and Mg/Ca and Sr/Ca signals in the stalagmites reflect precipitation amounts brought by the northeast winds. For stalagmite STM6, this amount effect is amplified by kinetic effects during calcite deposition. Combined interpretation of the stalagmites' signals suggest a weakening of the northeast precipitation between 6.0 and 3.8 ka. After 3.8 ka precipitation intensities remain constant with two superimposed drier periods, between 0 and 0.6 ka and from 2.2 to 3.8 ka. No link can be established with Greenland ice cores and with the summer IOM variability.In contrast to the stable northeast rainy season suggested by the records in this study, speleothem records from western Socotra indicate a wettening of the southwest rainy season on Socotra after 4.4 ka. The local wettening of western Socotra could relate to a more southerly path (more over the Indian Ocean) taken by the southwest winds. Stalagmite STM5, sampled at the fringe between both rain areas displays intermediate δ¹⁸O values. After 6.2 ka, similar precipitation changes are seen between eastern Socotra and northern Oman indicating that both regions are affected similarly by the monsoon. Different palaeoclimatologic records from the Arabian Peninsula currently located outside the ITCZ migration pathway display an abrupt drying around 6 ka due to their disconnection from the southwest rain influence. Records that are nowadays still receiving rain by the southwest winds, suggest a more gradual drying reflecting the weakening of the southwest monsoon.

Original language	English (US)
Pages (from-to)	129-142
Number of pages	14
Journal	Quaternary Science Reviews
Volume	65
DOIs	https://doi.org/10.1016/j.quascirev.2013.01.016
State	Published - Apr 1 2013

Bibliographical note

Funding Information:
We thank the Yemen Ministry of Water and Environment and the Environment Protection Authority (EPA – Socotra Branch), the members of the Socotra Karst Project and of the Friends of Socotra group for their help during the fieldwork. Maïté Van Rampelbergh also want to thank Mr. R. Van Dierendonck for his interest and support, Kay Van Damme for sharing his knowledge on Socotra's vegetation cover and Dirk Van Dorpe for providing additional information on the Hoq Cave dimensions. This work is support by the Hercules Foundation to Philippe Claeys, and Research Foundation Flanders (FWO) through project G-0422-10 to Philippe Claeys.

Keywords

Indian Ocean Monsoon
Paleoclimate
Socotra
Speleothems
Stable isotopes
Trace elements

UN SDGs

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

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Van Rampelbergh, M., Fleitmann, D., Verheyden, S., Cheng, H., Edwards, L., De Geest, P., De Vleeschouwer, D., Burns, S. J., Matter, A., Claeys, P., & Keppens, E. (2013). Mid- to late Holocene Indian Ocean Monsoon variability recorded in four speleothems from Socotra Island, Yemen. Quaternary Science Reviews, 65, 129-142. https://doi.org/10.1016/j.quascirev.2013.01.016

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abstract = "Four stalagmites covering the last 7.0 ka were sampled on Socotra, an island in the northern Indian Ocean to investigate the evolution of the northeast Indian Ocean Monsoon (IOM) since the mid Holocene. On Socotra, rain is delivered at the start of the southwest IOM in May-June and at the start of the northeast IOM from September to December. The Haggeher Mountains act as a barrier forcing precipitation brought by the northeast winds to fall preferentially on the eastern side of the island, where the studied caves are located. δ18O and δ13C and Mg/Ca and Sr/Ca signals in the stalagmites reflect precipitation amounts brought by the northeast winds. For stalagmite STM6, this amount effect is amplified by kinetic effects during calcite deposition. Combined interpretation of the stalagmites' signals suggest a weakening of the northeast precipitation between 6.0 and 3.8 ka. After 3.8 ka precipitation intensities remain constant with two superimposed drier periods, between 0 and 0.6 ka and from 2.2 to 3.8 ka. No link can be established with Greenland ice cores and with the summer IOM variability.In contrast to the stable northeast rainy season suggested by the records in this study, speleothem records from western Socotra indicate a wettening of the southwest rainy season on Socotra after 4.4 ka. The local wettening of western Socotra could relate to a more southerly path (more over the Indian Ocean) taken by the southwest winds. Stalagmite STM5, sampled at the fringe between both rain areas displays intermediate δ18O values. After 6.2 ka, similar precipitation changes are seen between eastern Socotra and northern Oman indicating that both regions are affected similarly by the monsoon. Different palaeoclimatologic records from the Arabian Peninsula currently located outside the ITCZ migration pathway display an abrupt drying around 6 ka due to their disconnection from the southwest rain influence. Records that are nowadays still receiving rain by the southwest winds, suggest a more gradual drying reflecting the weakening of the southwest monsoon.",

keywords = "Indian Ocean Monsoon, Paleoclimate, Socotra, Speleothems, Stable isotopes, Trace elements",

author = "{Van Rampelbergh}, Ma{\"i}t{\'e} and Dominik Fleitmann and Sophie Verheyden and Hai Cheng and Lawrence Edwards and {De Geest}, Peter and {De Vleeschouwer}, David and Burns, {Stephen J.} and Albert Matter and Philippe Claeys and Eddy Keppens",

note = "Funding Information: We thank the Yemen Ministry of Water and Environment and the Environment Protection Authority (EPA – Socotra Branch), the members of the Socotra Karst Project and of the Friends of Socotra group for their help during the fieldwork. Ma{\"i}t{\'e} Van Rampelbergh also want to thank Mr. R. Van Dierendonck for his interest and support, Kay Van Damme for sharing his knowledge on Socotra's vegetation cover and Dirk Van Dorpe for providing additional information on the Hoq Cave dimensions. This work is support by the Hercules Foundation to Philippe Claeys, and Research Foundation Flanders (FWO) through project G-0422-10 to Philippe Claeys.",

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T1 - Mid- to late Holocene Indian Ocean Monsoon variability recorded in four speleothems from Socotra Island, Yemen

AU - Van Rampelbergh, Maïté

AU - Fleitmann, Dominik

AU - Verheyden, Sophie

AU - Cheng, Hai

AU - Edwards, Lawrence

AU - De Geest, Peter

AU - De Vleeschouwer, David

AU - Burns, Stephen J.

AU - Matter, Albert

AU - Claeys, Philippe

AU - Keppens, Eddy

N1 - Funding Information: We thank the Yemen Ministry of Water and Environment and the Environment Protection Authority (EPA – Socotra Branch), the members of the Socotra Karst Project and of the Friends of Socotra group for their help during the fieldwork. Maïté Van Rampelbergh also want to thank Mr. R. Van Dierendonck for his interest and support, Kay Van Damme for sharing his knowledge on Socotra's vegetation cover and Dirk Van Dorpe for providing additional information on the Hoq Cave dimensions. This work is support by the Hercules Foundation to Philippe Claeys, and Research Foundation Flanders (FWO) through project G-0422-10 to Philippe Claeys.

PY - 2013/4/1

Y1 - 2013/4/1

N2 - Four stalagmites covering the last 7.0 ka were sampled on Socotra, an island in the northern Indian Ocean to investigate the evolution of the northeast Indian Ocean Monsoon (IOM) since the mid Holocene. On Socotra, rain is delivered at the start of the southwest IOM in May-June and at the start of the northeast IOM from September to December. The Haggeher Mountains act as a barrier forcing precipitation brought by the northeast winds to fall preferentially on the eastern side of the island, where the studied caves are located. δ18O and δ13C and Mg/Ca and Sr/Ca signals in the stalagmites reflect precipitation amounts brought by the northeast winds. For stalagmite STM6, this amount effect is amplified by kinetic effects during calcite deposition. Combined interpretation of the stalagmites' signals suggest a weakening of the northeast precipitation between 6.0 and 3.8 ka. After 3.8 ka precipitation intensities remain constant with two superimposed drier periods, between 0 and 0.6 ka and from 2.2 to 3.8 ka. No link can be established with Greenland ice cores and with the summer IOM variability.In contrast to the stable northeast rainy season suggested by the records in this study, speleothem records from western Socotra indicate a wettening of the southwest rainy season on Socotra after 4.4 ka. The local wettening of western Socotra could relate to a more southerly path (more over the Indian Ocean) taken by the southwest winds. Stalagmite STM5, sampled at the fringe between both rain areas displays intermediate δ18O values. After 6.2 ka, similar precipitation changes are seen between eastern Socotra and northern Oman indicating that both regions are affected similarly by the monsoon. Different palaeoclimatologic records from the Arabian Peninsula currently located outside the ITCZ migration pathway display an abrupt drying around 6 ka due to their disconnection from the southwest rain influence. Records that are nowadays still receiving rain by the southwest winds, suggest a more gradual drying reflecting the weakening of the southwest monsoon.

AB - Four stalagmites covering the last 7.0 ka were sampled on Socotra, an island in the northern Indian Ocean to investigate the evolution of the northeast Indian Ocean Monsoon (IOM) since the mid Holocene. On Socotra, rain is delivered at the start of the southwest IOM in May-June and at the start of the northeast IOM from September to December. The Haggeher Mountains act as a barrier forcing precipitation brought by the northeast winds to fall preferentially on the eastern side of the island, where the studied caves are located. δ18O and δ13C and Mg/Ca and Sr/Ca signals in the stalagmites reflect precipitation amounts brought by the northeast winds. For stalagmite STM6, this amount effect is amplified by kinetic effects during calcite deposition. Combined interpretation of the stalagmites' signals suggest a weakening of the northeast precipitation between 6.0 and 3.8 ka. After 3.8 ka precipitation intensities remain constant with two superimposed drier periods, between 0 and 0.6 ka and from 2.2 to 3.8 ka. No link can be established with Greenland ice cores and with the summer IOM variability.In contrast to the stable northeast rainy season suggested by the records in this study, speleothem records from western Socotra indicate a wettening of the southwest rainy season on Socotra after 4.4 ka. The local wettening of western Socotra could relate to a more southerly path (more over the Indian Ocean) taken by the southwest winds. Stalagmite STM5, sampled at the fringe between both rain areas displays intermediate δ18O values. After 6.2 ka, similar precipitation changes are seen between eastern Socotra and northern Oman indicating that both regions are affected similarly by the monsoon. Different palaeoclimatologic records from the Arabian Peninsula currently located outside the ITCZ migration pathway display an abrupt drying around 6 ka due to their disconnection from the southwest rain influence. Records that are nowadays still receiving rain by the southwest winds, suggest a more gradual drying reflecting the weakening of the southwest monsoon.

KW - Indian Ocean Monsoon

KW - Paleoclimate

KW - Socotra

KW - Speleothems

KW - Stable isotopes

KW - Trace elements

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SN - 0277-3791

VL - 65

SP - 129

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JO - Quaternary Science Reviews

JF - Quaternary Science Reviews

ER -

Mid- to late Holocene Indian Ocean Monsoon variability recorded in four speleothems from Socotra Island, Yemen

Abstract

Bibliographical note

Keywords

UN SDGs

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