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Subsurface microbial communities as a tool for characterizing regional-scale groundwater flow. | LitMetric

Subsurface microbial communities as a tool for characterizing regional-scale groundwater flow.

Sci Total Environ

Division of Earth and Ecosystems Sciences, Desert Research Institute, Las Vegas, NV 89119, United States; Division of Hydrologic Sciences, Desert Research Institute, Las Vegas, NV 89119, United States. Electronic address:

Published: October 2022

AI Article Synopsis

  • The study investigates how subsurface microbial communities in the Death Valley Regional Flow System can indicate groundwater flow paths using samples from 36 sites across three groundwater basins.
  • Microbial diversity varied by location, with communities divided into two main groups linked to specific basins, and network analysis showed patterns corresponding with groundwater's geochemical conditions and hydraulic connections.
  • While most communities differed significantly due to ecological processes, those near the Nevada National Security Site were more similar than expected, highlighting the role of microbial data in understanding water flow connections, particularly between noted recharge and discharge areas.

Article Abstract

Subsurface microbial community distribution patterns are influenced by biogeochemical and groundwater fluxes and may inform hydraulic connections along groundwater-flow paths. This study examined the regional-scale microbial community of the Death Valley Regional Flow System and evaluated whether subsurface communities can be used to identify groundwater-flow paths between recharge and discharge areas. Samples were collected from 36 sites in three groundwater basins: Pahute Mesa-Oasis Valley (PMOV), Ash Meadows (AM), and Alkali Flat-Furnace Creek Ranch (AFFCR). Microbial diversity within and between communities varied by location, and communities were separated into two overall groups that affiliated with the AM and PMOV/AFFCR basins. Network analysis revealed patterns between clusters of common microbes that represented groundwaters with similar geochemical conditions and largely corroborated hydraulic connections between recharge and discharge areas. Null model analyses identified deterministic and stochastic ecological processes contributing to microbial community assemblages. Most communities were more different than expected and governed by dispersal limitation, geochemical differences, or undominating processes. However, certain communities from sites located within or near the Nevada National Security Site were more similar than expected and dominated by homogeneous dispersal or selection. Overall, the (dis)similarities between the microbial communities of DVRFS recharge and discharge areas supported previously documented hydraulic connections between: (1) Spring Mountains and Ash Meadows; (2) Frenchman and Yucca Flat and Amargosa Desert; and (3) Amargosa Desert and Death Valley. However, only a portion of the flow path between Pahute Mesa and Oasis Valley could be supported by microbial community analyses, likely due to well-associated artifacts in samples from the two Oasis Valley sites. This study demonstrates the utility of combining microbial data with hydrologic, geologic, and water-chemistry information to comprehensively characterize groundwater systems, highlighting both strengths and limitations of this approach.

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Source
http://dx.doi.org/10.1016/j.scitotenv.2022.156768DOI Listing

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