Evaluating the size and extent of paleolakes in central Tibet during the late Pleistocene

Xuhua Shi; Kevin P. Furlong; Eric Kirby; Kai Meng; Shasta Marrero; John Gosse; Erchie Wang; Fred Phillips

doi:10.1002/2017GL072686

Evaluating the size and extent of paleolakes in central Tibet during the late Pleistocene

Xuhua Shi, Kevin P. Furlong, Eric Kirby, Kai Meng, Shasta Marrero, John Gosse, Erchie Wang, Fred Phillips

Geosciences

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

24 Scopus citations

Abstract

Subhorizontal lake shorelines allow a geodynamic test of the size and extent of a hypothesized paleolake in central Tibet, the East Qiangtang Lake (EQL), during the last interglacial period (marine isotope stage (MIS) 5e). Reconstructions based on relict lake deposits suggest that the EQL would have been ~400 m deep and over ~66,000 km². Models of flexural rebound driven by lake recession predict that shorelines near the EQL center, at the present-day location of Siling Co, would have rebounded 60–90 m above their initial elevation. New ³⁶Cl chronology of the highest relict shorelines around Siling Co indicates that they reflect lake levels between 110 and 190 ka. These shorelines, however, are presently >300 m below their predicted elevations, implying a substantially smaller water load. Our results reveal that the expansion of Tibetan lakes during MIS 5e was relatively limited. Instead, individual lakes were supplied by river networks, much as they are today.

Original language	English (US)
Pages (from-to)	5476-5485
Number of pages	10
Journal	Geophysical Research Letters
Volume	44
Issue number	11
DOIs	https://doi.org/10.1002/2017GL072686
State	Published - Jun 16 2017

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Geophysics
General Earth and Planetary Sciences

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10.1002/2017GL072686

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title = "Evaluating the size and extent of paleolakes in central Tibet during the late Pleistocene",

abstract = "Subhorizontal lake shorelines allow a geodynamic test of the size and extent of a hypothesized paleolake in central Tibet, the East Qiangtang Lake (EQL), during the last interglacial period (marine isotope stage (MIS) 5e). Reconstructions based on relict lake deposits suggest that the EQL would have been \textasciitilde{}400 m deep and over \textasciitilde{}66,000 km2. Models of flexural rebound driven by lake recession predict that shorelines near the EQL center, at the present-day location of Siling Co, would have rebounded 60–90 m above their initial elevation. New 36Cl chronology of the highest relict shorelines around Siling Co indicates that they reflect lake levels between 110 and 190 ka. These shorelines, however, are presently >300 m below their predicted elevations, implying a substantially smaller water load. Our results reveal that the expansion of Tibetan lakes during MIS 5e was relatively limited. Instead, individual lakes were supplied by river networks, much as they are today.",

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AU - Shi, Xuhua

AU - Furlong, Kevin P.

AU - Kirby, Eric

AU - Meng, Kai

AU - Marrero, Shasta

AU - Gosse, John

AU - Wang, Erchie

AU - Phillips, Fred

PY - 2017/6/16

Y1 - 2017/6/16

N2 - Subhorizontal lake shorelines allow a geodynamic test of the size and extent of a hypothesized paleolake in central Tibet, the East Qiangtang Lake (EQL), during the last interglacial period (marine isotope stage (MIS) 5e). Reconstructions based on relict lake deposits suggest that the EQL would have been ~400 m deep and over ~66,000 km2. Models of flexural rebound driven by lake recession predict that shorelines near the EQL center, at the present-day location of Siling Co, would have rebounded 60–90 m above their initial elevation. New 36Cl chronology of the highest relict shorelines around Siling Co indicates that they reflect lake levels between 110 and 190 ka. These shorelines, however, are presently >300 m below their predicted elevations, implying a substantially smaller water load. Our results reveal that the expansion of Tibetan lakes during MIS 5e was relatively limited. Instead, individual lakes were supplied by river networks, much as they are today.

AB - Subhorizontal lake shorelines allow a geodynamic test of the size and extent of a hypothesized paleolake in central Tibet, the East Qiangtang Lake (EQL), during the last interglacial period (marine isotope stage (MIS) 5e). Reconstructions based on relict lake deposits suggest that the EQL would have been ~400 m deep and over ~66,000 km2. Models of flexural rebound driven by lake recession predict that shorelines near the EQL center, at the present-day location of Siling Co, would have rebounded 60–90 m above their initial elevation. New 36Cl chronology of the highest relict shorelines around Siling Co indicates that they reflect lake levels between 110 and 190 ka. These shorelines, however, are presently >300 m below their predicted elevations, implying a substantially smaller water load. Our results reveal that the expansion of Tibetan lakes during MIS 5e was relatively limited. Instead, individual lakes were supplied by river networks, much as they are today.

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Evaluating the size and extent of paleolakes in central Tibet during the late Pleistocene

Abstract

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