Publication: Linking soil- and stream-water chemistry based on a Riparian Flow-Concentration Integration Model
Linking soil- and stream-water chemistry based on a Riparian Flow-Concentration Integration Model
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Citations
Seibert, J., Grabs, T., Köhler, S., Laudon, H., Winterdahl, M., & Bishop, K. (2009). Linking soil- and stream-water chemistry based on a Riparian Flow-Concentration Integration Model. Hydrology and Earth System Sciences, 13, 2287–2297. https://doi.org/10.5194/hess-13-2287-2009
Abstract
Abstract
Abstract
The riparian zone, the last few metres of soil through which water flows before entering a gaining stream, has been identified as a first order control on key aspects of stream water chemistry dynamics. We propose that the distribution of lateral flow of water across the vertical profile of soil water chemistry in the riparian zone provides a conceptual explanation of how this control functions in catchments where matrix flow predominates. This paper presents a mathematical implementation of this concept as well as the model assumptio
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Creators (Authors)
- Grabs, T
- Köhler, S
- Laudon, H
- Winterdahl, M
- Bishop, K
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Citations
Seibert, J., Grabs, T., Köhler, S., Laudon, H., Winterdahl, M., & Bishop, K. (2009). Linking soil- and stream-water chemistry based on a Riparian Flow-Concentration Integration Model. Hydrology and Earth System Sciences, 13, 2287–2297. https://doi.org/10.5194/hess-13-2287-2009
