Geologic Controls on Source Water Drive Baseflow Generation and Carbon Geochemistry: Evidence of Nonstationary Baseflow Sources Across Multiple Subwatersheds

The contributions and composition of baseflow sources across an extended recession period were quantified for six subwatersheds of varying size in a structurally complex watershed in coastal California using endmember mixing analysis and related to catchment characteristics (e.g., topography, geolog...

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Bibliographic Details
Published in:Water resources research 2020-07, Vol.56 (7), p.n/a
Main Authors: Richardson, C. M., Zimmer, M. A., Fackrell, J. K., Paytan, A.
Format: Article
Language:English
Subjects:
Base flow
Bedrock
Carbon
Carbon content
Catchment area
Coastal waters
Composition
Dissolved inorganic carbon
Dissolved organic carbon
Geochemistry
Geology
Groundwater
Groundwater reservoirs
Land use
Low flow
Organic carbon
Permeability
Recession
Rivers
Soil
Soil characteristics
Soil permeability
Stream discharge
Stream flow
Stream water
Subsurface water
subwatershed
Temporal variability
Temporal variations
Watersheds
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Summary:The contributions and composition of baseflow sources across an extended recession period were quantified for six subwatersheds of varying size in a structurally complex watershed in coastal California using endmember mixing analysis and related to catchment characteristics (e.g., topography, geology, land use, and soil characteristics). Both shallow subsurface and deep groundwater reservoirs were important contributors for streamflow during low flow periods, and the composition of baseflow sources across subwatersheds was directly related to geologic indices. A binary classification of underlying bedrock permeability (e.g., low vs. high) best explained the changes in shallow subsurface water and deeper groundwater inputs through the seasonal recession. Dissolved inorganic carbon (DIC), dissolved organic carbon (DOC), and specific UV absorbance at 254 nm (SUVA254) were used to provide additional insight into endmember characteristics and their contributions to baseflow. Stream water DIC concentrations were broadly controlled by mixing of groundwater and shallow subsurface water endmembers with relatively constant DIC concentrations, while stream water DOC concentrations reflected both spatial and temporal changes in shallow subsurface water DOC. Results from this study show (1) the importance of considering baseflow as a dynamic mixture of water from multiple sources, (2) the effect of geology on source composition at the subwatershed scale during low flow conditions, and (3) the impact of shifting baseflow sources on stream water dissolved carbon concentrations and the utility of using dissolved carbon concentrations to obtain additional insight into temporal variability in baseflow sources. Key Points Both deep and shallow subsurface flow paths contribute to baseflow during the summer dry down period Differences in contributions of shallow and deep subsurface flow paths to baseflow across subwatersheds are related to local geology Stream water dissolved carbon geochemistry fluctuates in line with shifting sources during the summer dry down period
ISSN:0043-1397
1944-7973
DOI:10.1029/2019WR026577