Journal
JOURNAL OF GEOPHYSICAL RESEARCH-BIOGEOSCIENCES
Volume 120, Issue 4, Pages 693-706Publisher
AMER GEOPHYSICAL UNION
DOI: 10.1002/2014JG002832
Keywords
carbon quality; composition; bioavailability; hyporheic zone; flow path; organic matter
Funding
- Gordon and Betty Moore Foundation
- EPA Star Fellowship
- Odum School of Ecology
- Office Of The Director
- Office of Integrative Activities [1443108] Funding Source: National Science Foundation
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We assessed spatial and temporal patterns of dissolved organic carbon (DOC) lability and composition throughout the alluvial aquifer of the 16km(2) Nyack Floodplain in northwest Montana, USA. Water influx to the aquifer derives almost exclusively from the Middle Fork of the Flathead River, and water residence times within the aquifer range from days to months. Across seasons and channel discharge conditions, we measured DOC concentration, lability, and optical properties of aquifer water sampled from 12 wells, both near and 3m below the water table. Concentrations of DOC were typically low (54222.7 mu gL(-1); meanse), and the percentage of labile DOC averaged 1812% during 3day laboratory assays. Parallel factor analysis of fluorescence excitation-emission matrices revealed two humic-like and two amino acid-like fluorescence groups. Total DOC, humic-like components, and specific UV absorbance decreased with water residence time, consistent with sorption to aquifer sediments. However, labile DOC (both concentration and fraction) increased with water residence time, suggesting a concurrent influx or production of labile DOC. Thus, although the carbon-poor, oxygen-rich aquifer is a net sink for DOC, recalcitrant DOC appears to be replaced with more labile DOC along aquifer flow paths. Our observation of DOC production in long flow paths contrasts with studies of hyporheic DOC consumption along short (centimeters to meters) flow paths and highlights the importance of understanding the role of labile organic matter production and/or influx in alluvial aquifer carbon cycling.
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