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A coupled subsurface-flow and metabolism model to study the effects of solute fluxes in the hyporheic zone

Authors
Notay, Kunwar Vikramjeet (BTU Cottbus-Senftenberg)
Search for Kunwar Vikramjeet Notay in Research Programmes Information System
Mendoza-Lera, Clara (BTU Cottbus-Senftenberg)
Search for Clara Mendoza-Lera in Research Programmes Information System
Federlein, Laura L. (BTU Cottbus-Senftenberg)
Search for Laura L. Federlein in Research Programmes Information System
Molkenthin, Frank (BTU Cottbus-Senftenberg)
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Chapter Water management
Volume Proceedings of the 28th Conference on Environmental Informatics - Informatics for Environmental Protection, Sustainable Development and Risk Management
Conference EnviroInfo 2014 - ICT for Energy Effieciency
Oldenburg, 2014
Year 2014
Abstract of the Article
The hyporheic zone and the streambed host a great part of the energy and material fluxes through
river ecosystems. However, the role of heterogeneities in the hyporheic zone in metabolism is not
clearly understood. This paper proposes a new way to approach the question by using a coupled
subsurface-flow and metabolism model for investigating the role of heterogeneities in the hyporheic
metabolism. Our results show that (i) our coupled model is feasible for investigating solute fluxes in
the hyporheic zone under heterogeneous set-ups, and (ii) the incorporation of heterogeneities seems
be of relevance for hyporheic metabolism estimations
Pages 293 - 300
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