EARLY HEARING DETECTION AND INTERVENTION VIRTUAL CONFERENCE
MARCH 2-5, 2021
(Virtually the same conference, without elevators, airplane tickets, or hotel room keys)
5/23/2019 | 10:15 AM - 10:30 AM | FLUORESCENCE SENSORS REVEAL IN-STREAM PROCESSING OF DISSOLVED ORGANIC MATTER IN RIVER NETWORKS | 251 AB
FLUORESCENCE SENSORS REVEAL IN-STREAM PROCESSING OF DISSOLVED ORGANIC MATTER IN RIVER NETWORKS
Levels of fluorescent dissolved organic matter (fDOM) in most freshwater ecosystems fluctuate on a daily basis. Yet the factors driving these changes are poorly quantified. We test the hypothesis that these changes are indicative of in-stream DOM processing, including photo-oxidation, ecosystem respiration, and primary production. To test this hypothesis, we used a network of fDOM sensors deployed in streams and rivers across the United States. We used temperature, shortwave radiation, canopy cover, and turbidity to decompose fDOM time series and disentangle the biotic and abiotic processes. Water clarity was a primary factor controlling fDOM processing, but the impact of turbidity and water color differed. Systems with high turbidity showed evidence of high respiration rates, but low levels of both photosynthesis and photo-oxidation. By contrast, high levels of fDOM in blackwater rivers led to low levels of photosynthesis, but evidence of high rates of photo-oxidation. Decreasing canopy cover and increasing temperature with watershed size were linked to greater diel fluctuation of fDOM. We conclude that overlapping signals of in-stream organic matter processing rates can be decomposed to infer rates of organic matter production and mineralization in freshwaters.
- Light
- Network
- Hydrology
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Presenters/Authors
Jacob Hosen
(), Purdue University, jhosen@purdue.edu;
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Paul Decker
(), University of Florida, phdecker@ufl.edu;
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Robert Hensley
(), University of Florida, bhensley@ufl.edu;
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Lily Kirk
(), University of Florida, lily33@ufl.edu;
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Lauren Koenig
(), University of Connecticut, Lauren.Koenig@uconn.edu;
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Peter Raymond
(), Yale University, peter.raymond@yale.edu;
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Philip Savoy
(), Duke University, prs15@duke.edu;
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Aron Stubbins
(), Northeastern University, a.stubbins@northeastern.edu;
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Matthew Cohen
(), University of Florida, mjc@ufl.edu;
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