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Water Balance And Climate Change

(Model tools: GROWA, mGROWA)

The empirical water balance model GROWA (Kunkel & Wendland, 2002, Tetzlaff et al., 2015) has been developed for modelling water balance components in large catchment areas or regions. GROWA displays a high spatial resolution (e.g. 100m x 100m and even higher) and account for the following water balance components:

  • Total runoff
  • Surface runoff
  • Leachate rate
  • Drainage runoff
  • Natural Interflow
  • Groundwater recharge

Water Balance and climate change

Moreover, runoff components calculated by GROWA are used as boundary conditions for the analysis of diffuse nutrient pollution at the river basin scale (e.g. Wendland et al., 2009; Tetzlaff et al., 2012; Kunkel et al., 2014).

In order to analyse climate change impacts on groundwater resources or drought severity, GROWA-model has been further developed to the water balance model mGROWA (Herrmann et al., 2013). mGROWA simulates water balance components on a daily basis and takes temporally and spatially highly resolved soil moisture dynamics into account. mGROWA model applications include ensemble simulations of different regional climate models (e.g. WETTREG, REMO, etc.) in order to account for different emission scenarios and to reduce uncertainty in the mGROWA model predeictions and the assessment of the current and possible future influence of groundwater-based irrigation on groundwater resources.

Knowledge transfer and outreach:

GROWA and mGROWA model results are used in the framework of the quantitative status assessment according to the requirements of the EU-WFD (2000) and the EU-Groundwater Directive (EU-GWD, 2008) in State Agencies of the Federal German States Niedersachsen and Nordrhein-Westfalen. GROWA model has been transferred to the Environment Agency of the Republic of Slovenia (EAS). There, it is applied for various groundwater management related issues on European, national and regional level.

Key research projects:

Period Funding institutionProject / topic
2018-2019Landesamt für Natur, Umwelt und Verbraucherschutz Nordrhein-Westfalen (LANUV)Impact of climate change on water resources in NRW
2017Niedersächsischer Landesbetrieb für Wasserwirtschaft, Küsten- und NaturschutzmGROWA update Lower Saxony
2015-2019Landesamt für Natur, Umwelt und Verbraucherschutz Nordrhein-Westfalen (LANUV)Statewide modeling of water balance and nitrogen inputs into groundwater and surface waters in Nordrhein-Westfalen
2015-2017Slovenian Environment Agency (EAS)Transfer and adaption of the water balance model mGROWA to Slovenia
2014-2018Forschungszentrum Jülich, InternationalisierungsfondsInternational mGROWA cooperation network
2009-2015Federal Ministry for Education and Research (BMBF) - research program "KLIMZUG"Development of adaption strategies to mitigate the impact of climate change on groundwater resources in the Hamburg Metropol area.
2010-2014EU - FP7 Collaborative ProjectClimate induced changes on the Hydrology of Mediterranean Basins (CLIMB)
2011-2013Greek State Scholarship Foundation (IKY) & German Academic Exchange Service (DAAD)Water balance modelling in selected Greek and German catchment areas
2011-2014Landesamt für Natur, Umwelt und Verbraucherschutz Nordrhein-Westfalen (LANUV)Impact of climate change on the groundwater balance in the Federal State of North-Rhine Westphalia (NRW)
2010-2013Research cooperation with Bezirksregierung Düsseldorf, Bezirksregierung Köln, Erftverband, Geologischer Dienst NRW, LANUV NRW, RWE PowerComparison of groundwater recharge models in Lower Rhine lignite mining area, Germany
2009-2013Niedersächsisches Landesamt für Bergbau, Energie und Geologie (LBEG)Development of a water balance model to predict the inner annual variability of groundwater recharge in Lower Saxony
2008-2011Slovenian Environment Agency (EAS)Model based quantification of groundwater recharge in Slovenia
2006-2007Landesamt für Umwelt- und Arbeitsschutz Saarland (LUA)Model based quantification of groundwater recharge in Saarland
2005-2008The Scientific and Technological Research Council of Turkey (TÜBİTAK) & Federal Ministry for Education and Research (BMBF)Integrated modelling of water balance in Turkish catchment areas
2004-2006Research cooperation with RWE – Power KölnGroundwater recharge rates for regional groundwater modelling: in the Lower Rhine lignite mining area, Germany
2003-2006Research cooperation with Landesamt für Bergbau, Energie und Geologie in Niedersachsen (LBEG) and Geologischer Dienst Nordrhein-Westfalen (GD NRW)Harmonizing water balance of Nordrhein – Westfalen and Lower Saxony
2000-2001

Umweltbehörde Hamburg, BSU


Long-term usable groundwater recharge in der Metropol area Hamburg
1999-2000Research cooperation with Landesamt für Bergbau, Energie und Geologie in Niedersachsen (LBEG)Groundwater recharge in Lower Saxony
1996-1999Federal Ministry for Education and Research (BMBF) - research program "Elbe –Ökologie“Water balance and residence times in river Elbe basin (German part)

 

Key publications:

  • Frank Herrmann, Lena Hübsch, Jörg Elbracht, Nicole Engel, Luise Keller, Ralf Kunkel, Udo Müller, Herbert Röhm, Harry Vereecken, Frank Wendland (2017): Mögliche Auswirkungen von Klimaänderungen auf die Grundwasserneubildung in Niedersachsen.- Hydrologie und Wasserbewirtschaftung 61. 2017, H.4, 244-260.
  • Ambe Emmanuel Cheoa, Hans-Jürgen Voigt, Frank Wendland (2017): Modeling groundwater recharge through rainfall in the Far-North region of Cameroon.- Groundwater for Sustainable Development 5 (2017) 118–130.
  • Herrmann, F., Kunkel, R., Ostermann, U., Vereecken, H. & Wendland, F.: Projected impact of climate change on irrigation needs and groundwater resources in the metropolitan area of Hamburg (Germany).- Environ Earth Sci (2016) 75:1104 DOI: 10.1007/s12665-016-5904-y
  • Herrmann, F., Keller, L., Kunkel, R., Vereecken, H. & Wendland, F. (2015): Determination of spatially differentiated water balance components including groundwater recharge on the Federal State level – A case study using the mGROWA model in North Rhine-Westphalia (Germany).- Journal of Hydrology: Regional Studies 294-312.
  • Herrmann, F., Baghdadi, N., Blaschek, M., Deidda, R., Duttmann, R., La Jeunesse e, I., Sellami, H., Vereecken, H., Wendland, F (2015): Simulation of future groundwater recharge using a climate model ensemble and SAR-image based soil parameter distributions — A case study in an intensively-used Mediterranean catchment.- Sci. Total Environ.-http://dx.doi.org/10.1016/j.scitotenv.2015.07.036.
  • Ehlers, L., Herrmann, F., Blaschek, M., Wendland, F. & Duttmann, R. (2015): Sensitivity of mGROWA-simulated groundwater recharge to changes in soil and land use parameters in a Mediterranean environment and conclusions in view of ensemble-based climate impact simulations. Sci. Total Environ. http://dx.doi.org/10.1016/j.scitotenv. 2015.04.122
  • Kreins, P., Henseler, M., Anter, J., Herrmann, F., Wendland, F. (2015): Quantification of Climate Change Impact on Regional Agricultural Irrigation and Groundwater Demand.- Water Resources Management, Volume 29, Issue 10, pp 3585-3600.
  • Panagopoulos, A., Arampatzis, G., Kuhr, P., Kunkel, R., Tziritis, E. & Wendland, F. (2015): Area-differentiated modeling of water balance in Pinios Basin, central Greece.- Global Nest.- Vol. 17.
  • Tetzlaff, B., Andjelov, M., Kuhr, P., Uhan, J. u. Wendland, F. (2015): Model-based assessment of groundwater recharge in Slovenia.- Environmental Earth Sciences, 74, 6177–6192, DOI: 10.1007/s12665-015-4639-5.
  • Panagopoulos, A., Arampatzis, G., Tziritis, E., Pisinaras, V., Herrmann, F., Kunkel, R. & Wendland, F. (2014): Assessment of climate change impact in the hydrological regime of River Pinios Basin, central Greece.- Desalination and Water Treatment. doi: 10.1080/19443994.2014.984926.
  • Herrmann, F., Wendland, F., Hübsch, L., Müller, U. (2014): Auswirkung von möglichen Klimaänderungen auf die Grundwasserneubildung in der Metropolregion Hamburg. energie | wasser-praxis. 6/2014: S. 34f
  • Herrmann, F., Chen, S., Hübsch, L., Engel, N., Kunkel, R., Müller, U., Vereecken, H., Wendland, F. (2014): Auswirkung von möglichen Klimaänderungen auf den Bodenwasserhaushalt und die Grundwasserneubildung in der Metropolregion Hamburg. In: Kaden, S., Dietrich, O. Theobald, S. (Hrsg.). Wassermanagement im Klimawandel – Möglichkeiten und Grenzen von Anpassungsmaßnahmen. oekom Verlag.
  • Herrmann, F., Chen, S., Heidt, L., Elbracht, J., Engel, N., Kunkel, R., Müller, U., Röhm, H., Vereecken, H. & Wendland, F. (2013): Zeitlich und räumlich hochaufgelöste flächendifferenzierte Simulation des Landschaftswasserhaushalts in Niedersachsen mit dem Model mGROWA. Hydrologie und Wasserbewirtschaftung, 57(5): 206-224.
  • Herrmann, F., Jahnke, C., Jenn, F., Kunkel, R., Voigt, H-J., Voigt, J. & Wendland, F. (2009): Groundwater recharge rates for regional groundwater modelling: a case study using GROWA in the Lower Rhine lignite mining area, Germany.- Hydrogeology Journal, 8, 2049 – 2060
  • Montzka, C., M. Canty, R. Kunkel, G. Menz, H. Vereecken & F. Wendland (2008): Modelling the water balance of a mesoscale catchment basin using remotely sensed land cover data. Journal of Hydrology, 353 (3-4), 322-334.
  • Kunkel, R., H. Bogena, B. Tetzlaff & F. Wendland (2006): Digitale Grundwasserneubildungskarte von Niedersachsen, Nordrhein-Westfalen, Hamburg und Bremen: Erstellung und Auswertungsbeispiele. Hydrologie und Wasserbewirtschaftung, 50, 212-219.
  • Bogena, H., R. Kunkel, T. Schobel, H. P. Schrey & E. Wendland (2005): Distributed modeling of groundwater recharge at the macroscale. Ecological Modelling, 187, 15-26.
  • Bogena, H., R. Kunkel, C. Montzka & F. Wendland (2005): Uncertainties in the simulation of groundwater recharge at different scales. Advances in Geosciences, 5, 1-6.
  • Tetzlaff, B., Kunkel, R., Taugs, R. u. Wendland, F. (2004): Grundlagen für eine nachhaltige Bewirtschaftung von Grundwasserressourcen in der Metropolregion Hamburg.- Forschungszentrum Jülich, Reihe Umwelt/Environment, Bd. 46, Jülich, 87 S.
  • Tetzlaff, B., G. Dörhöfer, R. Kunkel & F. Wendland (2003): GIS-gestützte Ermittlung der Grundwasserneubildung in Niedersachsen. Wasser und Boden, 7/8, 53-57.
  • Wendland, F., Kunkel, R. Tetzlaff, B. & Dorhofer, G. (2003): GIS-based determination of the mean long-term groundwater recharge in Lower Saxony. Environmental Geology, 45, 273-278.
  • Kunkel, R. & F. Wendland (2002): The GROWA98 model for water balance analysis in large river basins - the river Elbe case study. Journal of Hydrology, 259, 152-162.
  • de Wit, M., C. Meinardi, F. Wendland & R. Kunkel (2000): Modelling water fluxes for the analysis of diffuse pollution at the river basin scale. Hydrological Processes, 14, 1707-1723.
  • Wendland, F. & Kunkel, R. (1999): Der Landschaftswasserhaushalt im Elbeeinzugsgebiet (Deutscher Teil). Hydrologie und Wasserbewirtschaftung, 43, 226-233.

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