EARLY HEARING DETECTION AND INTERVENTION VIRTUAL CONFERENCE
MARCH 2-5, 2021
(Virtually the same conference, without elevators, airplane tickets, or hotel room keys)
5/20/2019 | 2:30 PM - 2:45 PM | ENHANCED CARBON METABOLISM DOWNSTREAM OF A STREAM CONFLUENCE MIXING ZONE | 151 G
ENHANCED CARBON METABOLISM DOWNSTREAM OF A STREAM CONFLUENCE MIXING ZONE
Stream confluences are ubiquitous features in freshwater networks and are known for distinct hydrogeomorphic characteristics relative to upstream tributaries and downstream reaches. However, the role of confluences as control points, locations that disproportionately influence ecosystem function (e.g., carbon metabolism, nutrient uptake), is still unknown. We might expect enhanced biological processes at confluences due to the delivery and mixing of carbon and nutrients. To test the potential influence of confluence mixing zones on dissolved organic carbon (DOC) removal in stream networks, we estimated DOC uptake using pulse injections of roasted barley leachate (standardized DOC source) and NaCl in two tributary reaches and downstream of their confluence. DOC uptake velocity (vf-DOC) in each tributary was 0.843 and 0.378 mm/min. vf-DOC downstream (0.94 mm/min) was higher than vf-DOC predicted from a mixing model of upstream vf-DOC and proportional flow contributions of tributaries (0.75 mm/min). This discrepancy in measured and predicted vf-DOC is also supported by bioassay experiments which found increased DOC uptake within the confluence mixing zone.. These results suggest that DOC uptake downstream of confluences cannot be estimated from tributary DOC uptake alone. Confluences may play a distinct role in carbon cycling.
- Carbon
- Metabolism
- Hotspot
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Presenters/Authors
Stephen Plont
(), Virginia Tech, plontste@vt.edu;
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Caitlin Miller
(), Virginia Tech, millca@vt.edu;
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Erin Hotchkiss
(), Virginia Tech, ehotchkiss@vt.edu;
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