Groundwater–surface water mixing shifts ecological assembly processes and stimulates organic carbon turnover

Citations Over TimeTop 1% of 2016 papers

Abstract

Environmental transitions often result in resource mixtures that overcome limitations to microbial metabolism, resulting in biogeochemical hotspots and moments. Riverine systems, where groundwater mixes with surface water (the hyporheic zone), are spatially complex and temporally dynamic, making development of predictive models challenging. Spatial and temporal variations in hyporheic zone microbial communities are a key, but understudied, component of riverine biogeochemical function. Here, to investigate the coupling among groundwater-surface water mixing, microbial communities and biogeochemistry, we apply ecological theory, aqueous biogeochemistry, DNA sequencing and ultra-high-resolution organic carbon profiling to field samples collected across times and locations representing a broad range of mixing conditions. Our results indicate that groundwater-surface water mixing in the hyporheic zone stimulates heterotrophic respiration, alters organic carbon composition, causes ecological processes to shift from stochastic to deterministic and is associated with elevated abundances of microbial taxa that may degrade a broad suite of organic compounds.

Related Papers

• → High biodiversity and distinct assembly patterns of microbial communities in groundwater compared with surface water(2022)39 cited
• → Evaluation of Temporal Contribution of Groundwater to a Small Lake through Analyses of Water Quantity and Quality(2020)20 cited
• → Total carbon analysis may overestimate organic carbon content of fresh waters in the presence of high dissolved inorganic carbon(2010)33 cited
• Relationship between surface water and groundwater in the second Songhua River basin(2014)
• → Is Your Groundwater Under the Influence of Surface Water?(1994)