4.6 Article

Monitoring of Sierra Nevada Caves Reveals the Potential for Stalagmites to Archive Seasonal Variability

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FRONTIERS IN EARTH SCIENCE
卷 9, 期 -, 页码 -

出版社

FRONTIERS MEDIA SA
DOI: 10.3389/feart.2021.781526

关键词

karst; drip water geochemistry; trace element (TE); oxygen isotope (delta 18O); cave monitoring

资金

  1. NSF [EAR-141420079, AGS-804262]
  2. Cave Research Foundation Graduate Research Fellowship
  3. Berkeley Research Impact Initiative (BRII) sponsored by the UC Berkeley Library

向作者/读者索取更多资源

By monitoring and analyzing the chemical variations in drip water and calcite deposits in caves in California, the impact of local and regional precipitation and temperature changes on the site can be better understood. Despite significant variability in surface conditions, the cave environment remains constant. Drip water compositions within the cave respond to seasonal changes, while trace element concentrations can serve as indicators of seasonal weather changes.
In the southwestern United States, California (CA) is one of the most climatically sensitive regions given its low (& LE;250 mm/year) seasonal precipitation and its inherently variable hydroclimate, subject to large magnitude modulation. To reconstruct past climate change in CA, cave calcite deposits (stalagmites) have been utilized as an archive for environmentally sensitive proxies, such as stable isotope compositions (delta O-18, delta C-13) and trace element concentrations (e.g., Mg, Ba, Sr). Monitoring the cave and associated surface environments, the chemical evolution of cave drip-water, the calcite precipitated from the drip-water, and the response of these systems to seasonal variability in precipitation and temperature is imperative for interpreting stalagmite proxies. Here we present monitored drip-water and physical parameters at Lilburn Cave, Sequoia Kings Canyon National Park (Southern Sierra Nevada), CA, and measured trace element concentrations (Mg, Sr, Ba, Cu, Fe, Mn) and stable isotopic compositions (delta O-18, delta H-2) of drip-water and for calcite (delta O-18) precipitated on glass substrates over a two-year period (November 2018 to February 2021) to better understand how chemical variability at this site is influenced by local and regional precipitation and temperature variability. Despite large variability in surface temperatures and precipitation amount and source region (North Pacific vs. subtropical Pacific), Lilburn Cave exhibits a constant cave environment year-round. At two of the three sites within the cave, drip-water delta O-18 and delta H-2 are influenced seasonally by evaporative enrichment. At a third collection site in the cave, the drip-water delta O-18 responds solely to precipitation delta O-18 variability. The Mg/Ca, Ba/Ca, and Sr/Ca ratios are seasonally responsive to prior calcite precipitation at all sites but minimally to water-rock interaction. Lastly, we examine the potential of trace metals (e.g., Mn2+ and Cu(2+)as a geochemical proxy of recharge and find that variability in their concentrations has high potential to denote the onset of the rainy season in the study region. The drip-water composition is recorded in the calcite, demonstrating that stalagmites from Lilburn Cave, and potentially more regionally, could record seasonal variability in weather even during periods of substantially reduced rainfall.

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