What are the drivers of Caspian Sea level variation during the late Quaternary?

Quaternary Caspian Sea level variations depended on geophysical processes (affecting the opening and closing of gateways and basin size/shape) and hydro-climatological processes (affecting water balance). Disentangling the drivers of past Caspian Sea level variation, as well as the mechanisms by whi...

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Published in:	Quaternary Science Reviews
Main Authors:	Koriche, Sifan A. (author), Singarayer, Joy S. (author), Cloke, Hannah L. (author), Valdes, Paul J. (author), Wesselingh, Frank P. (author), Kroonenberg, S.B. (author), Wickert, Andrew D. (author), Yanina, Tamara A. (author)
Format:	Article in Journal/Newspaper
Language:	English
Published:	2022
Subjects:	Caspian sea level Climate change Fennoscandian ice sheet Meltwater Palaeo-drainage Fennoscandian Ice Sheet
Online Access:	http://resolver.tudelft.nl/uuid:36dfeb28-fb2c-4b9e-adde-3a54962b40ad https://doi.org/10.1016/j.quascirev.2022.107457

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record_format	openpolar
spelling	fttudelft:oai:tudelft.nl:uuid:36dfeb28-fb2c-4b9e-adde-3a54962b40ad 2024-04-28T08:18:43+00:00 What are the drivers of Caspian Sea level variation during the late Quaternary? Koriche, Sifan A. (author) Singarayer, Joy S. (author) Cloke, Hannah L. (author) Valdes, Paul J. (author) Wesselingh, Frank P. (author) Kroonenberg, S.B. (author) Wickert, Andrew D. (author) Yanina, Tamara A. (author) 2022 http://resolver.tudelft.nl/uuid:36dfeb28-fb2c-4b9e-adde-3a54962b40ad https://doi.org/10.1016/j.quascirev.2022.107457 en eng http://www.scopus.com/inward/record.url?scp=85126930716&partnerID=8YFLogxK Quaternary Science Reviews--0277-3791--75c839b8-3c13-4417-ac0b-a92ac008b88c http://resolver.tudelft.nl/uuid:36dfeb28-fb2c-4b9e-adde-3a54962b40ad https://doi.org/10.1016/j.quascirev.2022.107457 © 2022 Sifan A. Koriche, Joy S. Singarayer, Hannah L. Cloke, Paul J. Valdes, Frank P. Wesselingh, S.B. Kroonenberg, Andrew D. Wickert, Tamara A. Yanina Caspian sea level Climate change Fennoscandian ice sheet Meltwater Palaeo-drainage journal article 2022 fttudelft https://doi.org/10.1016/j.quascirev.2022.107457 2024-04-10T00:08:22Z Quaternary Caspian Sea level variations depended on geophysical processes (affecting the opening and closing of gateways and basin size/shape) and hydro-climatological processes (affecting water balance). Disentangling the drivers of past Caspian Sea level variation, as well as the mechanisms by which they impacted the Caspian Sea level variation, is much debated. In this study we examine the relative impacts of hydroclimatic change, ice-sheet accumulation and melt, and isostatic adjustment on Caspian Sea level change. We performed model analysis of ice-sheet and hydroclimate impacts on Caspian Sea level and compared these with newly collated published palaeo-Caspian sea level data for the last glacial cycle. We used palaeoclimate model simulations from a global coupled ocean-atmosphere-vegetation climate model, HadCM3, and ice-sheet data from the ICE-6G_C glacial isostatic adjustment model. Our results show that ice-sheet meltwater during the last glacial cycle played a vital role in Caspian Sea level variations, which is in agreement with hypotheses based on palaeo-Caspian Sea level information. The effect was directly linked to the reorganization and expansion of the Caspian Sea palaeo-drainage system resulting from topographic change. The combined contributions from meltwater and runoff from the expanded basin area were primary factors in the Caspian Sea transgression during the deglaciation period between 20 and 15 kyr BP. Their impact on the evolution of Caspian Sea level lasted until around 13 kyr BP. Millennial scale events (Heinrich events and the Younger Dryas) negatively impacted the surface water budget of the Caspian Sea but their influence on Caspian Sea level variation was short-lived and was outweighed by the massive combined meltwater and runoff contribution over the expanded basin. Applied Geology Article in Journal/Newspaper Fennoscandian Ice Sheet Delft University of Technology: Institutional Repository Quaternary Science Reviews 283 107457
institution	Open Polar
collection	Delft University of Technology: Institutional Repository
op_collection_id	fttudelft
language	English
topic	Caspian sea level Climate change Fennoscandian ice sheet Meltwater Palaeo-drainage
spellingShingle	Caspian sea level Climate change Fennoscandian ice sheet Meltwater Palaeo-drainage Koriche, Sifan A. (author) Singarayer, Joy S. (author) Cloke, Hannah L. (author) Valdes, Paul J. (author) Wesselingh, Frank P. (author) Kroonenberg, S.B. (author) Wickert, Andrew D. (author) Yanina, Tamara A. (author) What are the drivers of Caspian Sea level variation during the late Quaternary?
topic_facet	Caspian sea level Climate change Fennoscandian ice sheet Meltwater Palaeo-drainage
description	Quaternary Caspian Sea level variations depended on geophysical processes (affecting the opening and closing of gateways and basin size/shape) and hydro-climatological processes (affecting water balance). Disentangling the drivers of past Caspian Sea level variation, as well as the mechanisms by which they impacted the Caspian Sea level variation, is much debated. In this study we examine the relative impacts of hydroclimatic change, ice-sheet accumulation and melt, and isostatic adjustment on Caspian Sea level change. We performed model analysis of ice-sheet and hydroclimate impacts on Caspian Sea level and compared these with newly collated published palaeo-Caspian sea level data for the last glacial cycle. We used palaeoclimate model simulations from a global coupled ocean-atmosphere-vegetation climate model, HadCM3, and ice-sheet data from the ICE-6G_C glacial isostatic adjustment model. Our results show that ice-sheet meltwater during the last glacial cycle played a vital role in Caspian Sea level variations, which is in agreement with hypotheses based on palaeo-Caspian Sea level information. The effect was directly linked to the reorganization and expansion of the Caspian Sea palaeo-drainage system resulting from topographic change. The combined contributions from meltwater and runoff from the expanded basin area were primary factors in the Caspian Sea transgression during the deglaciation period between 20 and 15 kyr BP. Their impact on the evolution of Caspian Sea level lasted until around 13 kyr BP. Millennial scale events (Heinrich events and the Younger Dryas) negatively impacted the surface water budget of the Caspian Sea but their influence on Caspian Sea level variation was short-lived and was outweighed by the massive combined meltwater and runoff contribution over the expanded basin. Applied Geology
format	Article in Journal/Newspaper
author	Koriche, Sifan A. (author) Singarayer, Joy S. (author) Cloke, Hannah L. (author) Valdes, Paul J. (author) Wesselingh, Frank P. (author) Kroonenberg, S.B. (author) Wickert, Andrew D. (author) Yanina, Tamara A. (author)
author_facet	Koriche, Sifan A. (author) Singarayer, Joy S. (author) Cloke, Hannah L. (author) Valdes, Paul J. (author) Wesselingh, Frank P. (author) Kroonenberg, S.B. (author) Wickert, Andrew D. (author) Yanina, Tamara A. (author)
author_sort	Koriche, Sifan A. (author)
title	What are the drivers of Caspian Sea level variation during the late Quaternary?
title_short	What are the drivers of Caspian Sea level variation during the late Quaternary?
title_full	What are the drivers of Caspian Sea level variation during the late Quaternary?
title_fullStr	What are the drivers of Caspian Sea level variation during the late Quaternary?
title_full_unstemmed	What are the drivers of Caspian Sea level variation during the late Quaternary?
title_sort	what are the drivers of caspian sea level variation during the late quaternary?
publishDate	2022
url	http://resolver.tudelft.nl/uuid:36dfeb28-fb2c-4b9e-adde-3a54962b40ad https://doi.org/10.1016/j.quascirev.2022.107457
genre	Fennoscandian Ice Sheet
genre_facet	Fennoscandian Ice Sheet
op_relation	http://www.scopus.com/inward/record.url?scp=85126930716&partnerID=8YFLogxK Quaternary Science Reviews--0277-3791--75c839b8-3c13-4417-ac0b-a92ac008b88c http://resolver.tudelft.nl/uuid:36dfeb28-fb2c-4b9e-adde-3a54962b40ad https://doi.org/10.1016/j.quascirev.2022.107457
op_rights	© 2022 Sifan A. Koriche, Joy S. Singarayer, Hannah L. Cloke, Paul J. Valdes, Frank P. Wesselingh, S.B. Kroonenberg, Andrew D. Wickert, Tamara A. Yanina
op_doi	https://doi.org/10.1016/j.quascirev.2022.107457
container_title	Quaternary Science Reviews
container_volume	283
container_start_page	107457
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What are the drivers of Caspian Sea level variation during the late Quaternary?

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