Hydroclimatic processes as the primary drivers of the Early Khvalynian transgression of the Caspian Sea: new developments

It has been well established that during the late Quaternary, the Khvalynian transgression of the Caspian Sea occurred, when the sea level rose tens of meters above the present level. Here, we evaluate the physical feasibility of the hypothesis that the maximum phase of this extraordinary event (kno...

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Bibliographic Details
Published in:Hydrology and Earth System Sciences
Main Authors: Gelfan, Alexander, Panin, Andrey, Kalugin, Andrey, Morozova, Polina, Semenov, Vladimir, Sidorchuk, Alexey, Ukraintsev, Vadim, Ushakov, Konstantin
Format: Article in Journal/Newspaper
Language:English
Published: Copernicus Publications 2024
Subjects:
Ice
Online Access:https://doi.org/10.5194/hess-28-241-2024
https://noa.gwlb.de/receive/cop_mods_00071069
https://noa.gwlb.de/servlets/MCRFileNodeServlet/cop_derivate_00069379/hess-28-241-2024.pdf
https://hess.copernicus.org/articles/28/241/2024/hess-28-241-2024.pdf
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Summary:It has been well established that during the late Quaternary, the Khvalynian transgression of the Caspian Sea occurred, when the sea level rose tens of meters above the present level. Here, we evaluate the physical feasibility of the hypothesis that the maximum phase of this extraordinary event (known as the “Early Khvalynian transgression”) could be initiated and maintained for several thousand years solely by hydroclimatic factors. The hypothesis is based on recent studies dating the highest sea level stage (well above +10 m a.s.l.) to the final period of deglaciation, 17–13 kyr BP, and studies estimating the contribution of the glacial waters in the sea level rise for this period as negligible. To evaluate the hypothesis put forward, we first applied the coupled ocean and sea-ice general circulation model driven by the climate model and estimated the equilibrium water inflow (irrespective of its origin) sufficient to maintain the sea level at the well-dated marks of the Early Khvalynian transgression as 400–470 km3 yr−1. Secondly, we conducted an extensive radiocarbon dating of the large paleochannels (signs of high flow of atmospheric origin) located in the Volga basin and found that the period of their origin (17.5–14 ka BP) is almost identical to the recent dating of the main phase of the Early Khvalynian transgression. Water flow that could form these paleochannels was earlier estimated for the ancient Volga River as 420 km3 yr−1, i.e., close to the equilibrium runoff we determined. Thirdly, we applied a hydrological model forced by paleoclimate data to reveal physically consistent mechanisms of an extraordinarily high water inflow into the Caspian Sea in the absence of a visible glacial meltwater effect. We found that the inflow could be caused by the spread of post-glacial permafrost in the Volga paleocatchment. The numerical experiments demonstrated that the permafrost resulted in a sharp drop in infiltration into the frozen ground and reduced evaporation, which all together generated the Volga runoff ...