The aim of this study was to simulate the hydrology and salinity fluxes in the Sandspruit catchment with the JAMS/J2000 – NaCl semi-distributed hydrosalinity model and to Identify land use/management scenarios that would minimise the impacts of dryland salinisation on water resources in the Sandspruit catchment. This investigation provides evidence of the potential to use deep rooted perennial species to mitigate the impacts of dryland salinity
Reference:
Bugan, R.D.H., Fink, M., Jovanovic, N., De Clercq, W.P., Helmschrot, J., Steudel, T., Pfenning, B. and Fischer, C. 2013. Land use management: A dryland salinity mitigation measure (Western Cape, South Africa). In International Interdisciplinary Conference on Land Use and Water Quality Reducing the Effects of Agriculture. The Hague, the Netherlands (10 - 13 June 2013)
Bugan, R. D., Fink, M., Jovanovic, N., De Clercq, W., Helmschrot, J., Steudel, T., ... Fischer, C. (2013). Land use management: A dryland salinity mitigation measure (Western Cape, South Africa). LUWQ2013. http://hdl.handle.net/10204/7443
Bugan, Richard DH, M Fink, Nebojsa Jovanovic, WP De Clercq, J Helmschrot, T Steudel, B Pfenning, and C Fischer. "Land use management: A dryland salinity mitigation measure (Western Cape, South Africa)." (2013): http://hdl.handle.net/10204/7443
Bugan RD, Fink M, Jovanovic N, De Clercq W, Helmschrot J, Steudel T, et al, Land use management: A dryland salinity mitigation measure (Western Cape, South Africa); LUWQ2013; 2013. http://hdl.handle.net/10204/7443 .
International Interdisciplinary Conference on Land Use and Water Quality Reducing the Effects of Agriculture. The Hague, the Netherlands (10 - 13 June 2013)