Holocene lake-level trends in the Rocky Mountains, U.S.A

The availability of water shapes life in the western United States, and much of the water in the region originates in the Rocky Mountains. Few studies, however, have explicitly examined the history of water levels in the Rocky Mountains during the Holocene. Here, we examine the past levels of three...

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Veröffentlicht in:	Quaternary science reviews 2009-09, Vol.28 (19-20), p.1861-1879
Hauptverfasser:	Shuman, Bryan, Henderson, Anna K., Colman, Steven M., Stone, Jeffery R., Fritz, Sherilyn C., Stevens, Lora R., Power, Mitchell J., Whitlock, Cathy
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creator	Shuman, Bryan Henderson, Anna K. Colman, Steven M. Stone, Jeffery R. Fritz, Sherilyn C. Stevens, Lora R. Power, Mitchell J. Whitlock, Cathy
description	The availability of water shapes life in the western United States, and much of the water in the region originates in the Rocky Mountains. Few studies, however, have explicitly examined the history of water levels in the Rocky Mountains during the Holocene. Here, we examine the past levels of three lakes near the Continental Divide in Montana and Colorado to reconstruct Holocene moisture trends. Using transects of sediment cores and sub-surface geophysical profiles from each lake, we find that mid-Holocene shorelines in the small lakes (4–110ha) were as much as ∼10m below the modern lake surfaces. Our results are consistent with existing evidence from other lakes and show that a wide range of settings in the region were much drier than today before 3000–2000 years ago. We also discuss evidence for millennial-scale moisture variation, including an abruptly-initiated and -terminated wet period in Colorado from 4400 to 3700calyr BP, and find only limited evidence for low-lake stands during the past millennium. The extent of low-water levels during the mid-Holocene, which were most severe and widespread ca 7000–4500calyr BP, is consistent with the extent of insolation-induced aridity in previously published regional climate model simulations. Like the simulations, the lake data provide no evidence for enhanced zonal flow during the mid-Holocene, which has been invoked to explain enhanced mid-continent aridity at the time. The data, including widespread evidence for large changes on orbital time scales and for more limited changes during the last millennium, confirm the ability of large boundary-condition changes to push western water supplies beyond the range of recent natural variability.
doi_str_mv	10.1016/j.quascirev.2009.03.003
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The extent of low-water levels during the mid-Holocene, which were most severe and widespread ca 7000–4500calyr BP, is consistent with the extent of insolation-induced aridity in previously published regional climate model simulations. Like the simulations, the lake data provide no evidence for enhanced zonal flow during the mid-Holocene, which has been invoked to explain enhanced mid-continent aridity at the time. 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The extent of low-water levels during the mid-Holocene, which were most severe and widespread ca 7000–4500calyr BP, is consistent with the extent of insolation-induced aridity in previously published regional climate model simulations. Like the simulations, the lake data provide no evidence for enhanced zonal flow during the mid-Holocene, which has been invoked to explain enhanced mid-continent aridity at the time. The data, including widespread evidence for large changes on orbital time scales and for more limited changes during the last millennium, confirm the ability of large boundary-condition changes to push western water supplies beyond the range of recent natural variability.</abstract><pub>Elsevier Ltd</pub><doi>10.1016/j.quascirev.2009.03.003</doi><tpages>19</tpages></addata></record>
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title	Holocene lake-level trends in the Rocky Mountains, U.S.A
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