Articles | Volume 10, issue 9
https://doi.org/10.5194/gmd-10-3411-2017
https://doi.org/10.5194/gmd-10-3411-2017
Development and technical paper
 | 
18 Sep 2017
Development and technical paper |  | 18 Sep 2017

Optimizing the parameterization of deep mixing and internal seiches in one-dimensional hydrodynamic models: a case study with Simstrat v1.3

Adrien Gaudard, Robert Schwefel, Love Råman Vinnå, Martin Schmid, Alfred Wüest, and Damien Bouffard

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Cited articles

Adams, H. E. and Charles, R. M.: A Preliminary Investigation of Lake Stability and Chemical Analysis of Deep Waters of the Kigoma Sub-basin (Northern Basin) and the Kalemie Sub-basin (Southern Basin) of Lake Tanganyika, www.geo.arizona.edu/nyanza/pdf/adamscharles.pdf, 2000.
Albrecht, A., Goudsmit, G., and Zeh, M.: Importance of lacustrine physical factors for the distribution of anthropogenic 60Co in Lake Biel, Limnol. Oceanogr., 44, 196–206, 1999.
Ambrosetti, W. and Barbanti, L.: Deep water warming in lakes: an indicator of climatic change, J. Limnol., 58, 1–9, 1999.
Bäuerle, E.: Transverse baroclinic oscillations in Lake Überlingen, Aquat. Sci., 56, 145–160, 1994.
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Short summary
The study of lakes often uses numerical models to reproduce the processes occurring in nature as accurately as possible. Due to the complexity of natural systems, all numerical models need to leave aside or simplify many of the relevant processes. In this work, we improve the modelling of the impact of wind on the internal currents in deep lakes. This improves the reproduction of deep mixing, which influences the concentrations of oxygen and nutrients, with biological and chemical consequences.