EARLY HEARING DETECTION AND INTERVENTION VIRTUAL CONFERENCE
MARCH 2-5, 2021
(Virtually the same conference, without elevators, airplane tickets, or hotel room keys)
5/26/2021 | 8:30 AM - 10:30 AM | Surface and groundwater denitrification create contrasting patterns of carbon, nitrogen, and sulfur at watershed scales | Virtual Platform
Surface and groundwater denitrification create contrasting patterns of carbon, nitrogen, and sulfur at watershed scales
Nitrogen and phosphorus pollution have triggered eutrophication in most freshwater and coastal ecosystems, contributing to a loss in biodiversity and costing the global economy trillions every year. Much of the research on nutrient transport and retention has focused on surface environments, which are both easy to access and biologically active. However, recent research suggests that subsurface processes and characteristics may be more important in determining watershed-level nutrient fluxes and removal than previously understood. We tested the importance of residence time, biogeochemical reaction rate, and flowpath in determining nitrate concentration by collecting a biogeochemical dataset from 14 wells and 12 streams in a small watershed in western France. Water chemistry in both the surface and subsurface showed high temporal variability, but groundwater was substantially more spatially variable, attributable to long transport times (10-60 years) and patchy distribution of electron donors. Isotopes of nitrate and sulfate revealed fundamentally different processes dominating the surface (heterotrophic denitrification and sulfur reduction) and subsurface (autotrophic denitrification and sulfate production from weathering). Characterizing how these worlds are both linked and decoupled is critical to meeting water quality targets and ensuring water security in the Anthropocene.
- Land use
- Nutrient cycling
- Residence time
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Presenters/Authors
Mary Proteau
(), Brigham Young University, mary.proteau@gmail.com;
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Emilee Severe
(), Brigham Young University, emileesevere25@gmail.com;
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Isabella Errigo
(), Brigham Young University, ierrigo95@gmail.com;
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Benjamin Abbott
(), Brigham Young University, Department of Plant and Wildlife Sciences, benabbott@byu.edu;
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Sayedeh Sayedi
(), Brigham Young University, Department of Plant and Wildlife Sciences, sarasayedi91@gmail.com ;
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Gilles Pinay
(), CNRS-OSUR, Rennes, France, gilles.pinay@univ-rennes1.fr;
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Tamara Kolbe
(), Swedish University for Agricultural Science, Uppsala, Sweden, tamara.kolbe@slu.se;
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