1. Avila, R., U. Kautsky, P.-A. Ekström, P.-G. Åstrand, and P. Saetre. 2013. Model of the long-term transport and accumulation of radionuclides in future landscapes. AMBIO. doi: 10.1007/s13280-013-0402-x .
2. Berglund, S., E. Bosson, J.-O. Selroos, and M. Sassner. 2013. Identification and characterization of potential discharge areas for radionuclide transport by groundwater from a nuclear waste repository in Sweden. AMBIO. doi: 10.1007/s13280-013-0395-5 .
3. Brydsten, L. 2006. A model for landscape development in terms of shoreline displacement, sediment dynamics, lake formation, and lake choke-up processes. Svensk Kärnbränslehantering AB, SKB TR-06-40,Stockhom, Sweden, Report, 33 pp.
4. Brydsten, L., and M. Strömgren. 2004. Digital elevation models for site investigation programme in Forsmark. Svensk Kärnbränslehantering AB, SKB R-04-70, Stockholm, Sweden, Report, 31 pp.
5. Butts, M.B., and D.N. Graham. 2008. Evolution of an integrated surface water-groundwater hydrological modelling system, 7 pp. In IAHR International Groundwater Symposium 2008. Flow and Transport in Heterogeneous Subsurface Formations: Theory, Modelling & Applications. Istanbul, Turkey, June 18–20, 2008. Retrieved January 6, 2013, from http://feflow.info/fileadmin/FEFLOW/content_tagung/TagungsCD/papers/30.pdf .