Biogeochemical Regimes in Shallow Aquifers Reflect the Metabolic Coupling of the Elements Nitrogen, Sulfur, and Carbon | Zendy

CarlEric Wegner | Zendy; Michael Gaspar | Zendy; Patricia Geesink | Zendy; Martina Herrmann | Zendy; Manja Marz | Zendy; Kirsten Küsel | Zendy

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Biogeochemical Regimes in Shallow Aquifers Reflect the Metabolic Coupling of the Elements Nitrogen, Sulfur, and Carbon

Author(s) -

CarlEric Wegner,

Michael Gaspar,

Patricia Geesink,

Martina Herrmann,

Manja Marz,

Kirsten Küsel

Publication year - 2018

Publication title -

applied and environmental microbiology

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.552

H-Index - 324

eISSN - 1070-6291

pISSN - 0099-2240

DOI - 10.1128/aem.02346-18

Subject(s) - biogeochemical cycle , groundwater , aquifer , environmental science , ecosystem , hydrology (agriculture) , transect , ecology , geology , biology , geotechnical engineering

Groundwater is a key resource for drinking water production and irrigation. The interplay between geological setting, hydrochemistry, carbon storage, and groundwater microbiome ecosystem functioning is crucial for our understanding of these important ecosystem services. We targeted the encoded and expressed metabolic potential of groundwater microbiomes along an aquifer transect that diversifies in terms of hydrochemistry and land use. Our results showed that the groundwater microbiome has a higher spatial differentiation potential than does hydrochemistry.

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