4.2 Article

Aeolian sediments in paleowetland deposits of the Las Vegas Formation

Journal

QUATERNARY RESEARCH
Volume 104, Issue -, Pages 1-13

Publisher

CAMBRIDGE UNIV PRESS
DOI: 10.1017/qua.2021.14

Keywords

Groundwater discharge; Aeolian; Dust; Las Vegas Formation; Paleohydrology; Desert wetlands

Funding

  1. U.S. Geological Survey's Climate and Land Use Change Research and Development Program through the Quaternary Hydroclimate Records of Spring Ecosystems project

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The Las Vegas Formation is a well-characterized sequence of groundwater discharge deposits in southern Nevada, with a significant aeolian component. The sediments are dominated by carbonate minerals but also contain silicate minerals, and around 25% of the deposits were introduced by aeolian processes. These results have broad implications for investigations of GWD deposits in the southwestern U.S. and worldwide.
The Las Vegas Formation (LVF) is a well-characterized sequence of groundwater discharge (GWD) deposits exposed in and around the Las Vegas Valley in southern Nevada. Nearly monolithologic bedrock surrounds the valley, which provides an excellent opportunity to test the hypothesis that GWD deposits include an aeolian component. Mineralogical data indicate that the LVF sediments are dominated by carbonate minerals, similar to the local bedrock, but silicate minerals are also present. The median particle size is similar to 35 mu m, consistent with modern dust in the region, and magnetic properties contrast strongly with local bedrock, implying an extralocal origin. By combining geochemical data from the LVF sediments and modern dust, we found that an average of similar to 25% of the LVF deposits were introduced by aeolian processes. The remainder consists primarily of authigenic groundwater carbonate as well as minor amounts of alluvial material and soil carbonate. Our data also show that the aeolian sediments accumulated in spring ecosystems in the Las Vegas Valley in a manner that was independent of both time and the specific hydrologic environment. These results have broad implications for investigations of GWD deposits located elsewhere in the southwestern U.S. and worldwide.

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