Constraints on paleoclimate from 11.5 to 5.0ka from shoreline dating and hydrologic budget modeling of Baqan Tso, southwestern Tibetan Plateau

Constraints on paleoclimate from 11.5 to 5.0ka from shoreline dating and hydrologic budget modeling of Baqan Tso, southwestern Tibetan Plateau

14C dating of shoreline deposits of closed-basin lake Baqan Tso in the western Tibetan Plateau shows that lake level regressed from the undated highstand (46m above modern, 4.3× modern surface area) of likely earliest Holocene age by 11.5ka, and remained larger than modern until at least ≈5.0ka. The...

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Veröffentlicht in:Quaternary research 2015-01, Vol.83 (1), p.80-93
Hauptverfasser: Huth, Tyler, Hudson, Adam M., Quade, Jay, Guoliang, Lei, Hucai, Zhang
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Sprache:eng
Schlagworte:
Basins
Carbon-14 dating
Estimates
Freshwater
Holocene
Hydrology
Insolation
Lakes
Monsoon
Paleohydrologic model
Paleolake
Precipitation
Relative humidity
Shoreline dating
Shorelines
Tibetan Plateau
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creator Huth, Tyler
Hudson, Adam M.
Quade, Jay
Guoliang, Lei
Hucai, Zhang
description 14C dating of shoreline deposits of closed-basin lake Baqan Tso in the western Tibetan Plateau shows that lake level regressed from the undated highstand (46m above modern, 4.3× modern surface area) of likely earliest Holocene age by 11.5ka, and remained larger than modern until at least ≈5.0ka. The shoreline record broadly matches other regional climate records, with lake level closely following Northern Hemisphere summer insolation overprinted by sub-millennial lake-level oscillations. A model coupling modern land runoff and lake surface heat closely reproduces estimated modern precipitation of ≈240mm/yr. We estimate that the Baqan Tso basin required ≈380mm/yr precipitation to sustain the maximum early Holocene lake area, a 55% increase over modern. Precipitation increases, not glacial meltwater, drove lake-level changes, as Baqan Tso basin was not glaciated during the Holocene. Our estimate assumes early Holocene insolation (≈1.3% overall increase), and mean annual increases of 2°C in temperature, and 37% in relative humidity. We additionally developed a Holocene precipitation history for Baqan Tso using dated paleolake areas. Using the modern and early Holocene model results as end-members, we estimate precipitation in the western Tibetan Plateau which was 300–380mm/yr between 5.0 and 11.5ka, with error of ±29–57mm/yr (±12–15%).
doi_str_mv 10.1016/j.yqres.2014.07.011
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source Cambridge University Press Journals Complete
subjects Basins
Carbon-14 dating
Estimates
Freshwater
Holocene
Hydrology
Insolation
Lakes
Monsoon
Paleohydrologic model
Paleolake
Precipitation
Relative humidity
Shoreline dating
Shorelines
Tibetan Plateau
title Constraints on paleoclimate from 11.5 to 5.0ka from shoreline dating and hydrologic budget modeling of Baqan Tso, southwestern Tibetan Plateau
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