publications_generated
Holler, S., D. Kuebler, O. Conrad, O. Schmitz, C. Bonannella, T. Hengl, J. Boehner, S. Guenter, and M. Lippe (2024). “Quo vadis, smallholder forest landscape? An introduction to the LPB-RAP model”. In: Plos One 19(2). doi: 10.1371/journal.pone.0297439.
Tu, T., J. Wang, G. Zhao, T. Zhao, and X. Dong (2024). “Scaling from global to regional river flow with global hydrological models: Choice matters”. In: Journal Of Hydrology 633. doi: 10.1016/j.jhydrol.2024.130960.
Verkaik, J., E. H. Sutanudjaja, G. H. P. O. Essink, H. X. Lin, and M. F. P. Bierkens (2024). “GLOBGM v1.0: a parallel implementation of a 30 arcsec PCR-GLOBWB-MODFLOW global-scale groundwater model”. In: Geoscientific Model Development 17(1), pp. 275–300. doi: 10.5194/gmd-17-275-2024.
Bato, V. A. (2023). “Numerical Quantification of Surface Runoff and Soil Erosion using PCRaster”. In: Philippine Agricultural Scientist 106(4), pp. 389–399.
Nguyen, H. H., M. Venohr, A. Gericke, A. Sundermann, E. A. R. Welti, and P. Haase (2023). “Dynamics in impervious urban and non-urban areas and their effects on run-off, nutrient emissions, and macroinvertebrate communities”. In: Landscape And Urban Planning 231. doi: 10.1016/j.landurbplan.2022.104639.
Tangdamrongsub, N. (2023). “Comparative Analysis of Global Terrestrial Water Storage Simulations: Assessing CABLE, Noah-MP, PCR-GLOBWB, and GLDAS Performances during the GRACE and GRACE-FO Era”. In: Water 15(13). doi: 10.3390/w15132456.
Ali, S., Q. Wang, D. Liu, Q. Fu, M. M. Rahaman, M. A. Faiz, and M. J. M. Cheema (2022). “Estimation of spatio-temporal groundwater storage variations in the Lower Transboundary Indus Basin using GRACE satellite”. In: Journal Of Hydrology 605. doi: 10.1016/j.jhydrol.2021.127315.
Gebremicael, T. G., M. J. Deitch, H. N. Gancel, A. C. Croteau, G. G. Haile, A. N. Beyene, and L. Kumar (2022). “Satellite-based rainfall estimates evaluation using a parsimonious hydrological model in the complex climate and topography of the Nile River Catchments”. In: Atmospheric Research 266. doi: 10.1016/j.atmosres.2021.105939.
Mello Junior, A. V., L. M. O. Olivos, C. Billerbeck, S. S. Marcellini, W. D. Vichete, D. M. Pasetti, L. M. da Silva, G. A. d. S. Soares, and J. R. B. Tercini (2022). “Rainfall Runoff Balance Enhanced Model Applied to Tropical Hydrology”. In: Water 14(12). doi: 10.3390/w14121958.
Nguyen, H. H., A. Gericke, and M. Venohr (2022). “Importance of different imperviousness measures for predicting runoff and nutrient emissions from non-urban and urban land-uses at large spatial coverage”. In: Journal Of Environmental Management 315. doi: 10.1016/j.jenvman.2022.115105.
Wiersma, P., J. Aerts, H. Zekollari, M. Hrachowitz, N. Drost, M. Huss, E. H. Sutanudjaja, and R. Hut (2022). “Coupling a global glacier model to a global hydrological model prevents underestimation of glacier runoff”. In: Hydrology And Earth System Sciences 26(23), pp. 5971–5986. doi: 10.5194/hess-26-5971-2022.
Babalola, T. E., P. G. Oguntunde, A. E. Ajayi, F. O. Akinluyi, and E. H. Sutanudjaja (2021). “Evaluating a finer resolution global hydrological model’s simulation of discharge in four West-African river basins”. In: Modeling Earth Systems And Environment 7(4), pp. 2167–2178. doi: 10.1007/s40808-020-00948-x.
Bato, V. A., E. P. Paningbatan Jr., V. B. Ella, A. J. Alcantara, R. V. O. Cruz, and P. B. Sanchez (2021). “Using Rose’ and Manning’s Equations to Spatially Quantify Soil Erosion in Lagawe River Sub-Watershed, Ifugao, Philippines”. In: Journal Of Environmental Science And Management 24(1), pp. 45–55.
Rehana, S., G. Sireesha Naidu, N. T. Monish, and U. Sowjanya (2021). “Modeling hydro-climatic changes of evapotranspiration over a semi-arid river basin of India”. In: Journal Of Water And Climate Change 12(2), pp. 502–520. doi: 10.2166/wcc.2020.173.
Svitivchnyi, O. O. and N. G. Chemerys (2021). “Spatially distributed assessment and forecast of soil erosion losses as a basis for optimization the use of erosion-hazardous agricultural lands”. In: Journal Of Geology Geography And Geoecology 30(3), pp. 571–580. doi: 10.15421/112152.
Tangdamrongsub, N., C. Hwang, J. S. Borak, S. Prabnakorn, and J. Han (2021). “Optimizing GRACE/GRACE-FO data and <i>a priori</i> hydrological knowledge for improved global terrestial water storage component estimates”. In: Journal Of Hydrology 598. doi: 10.1016/j.jhydrol.2021.126463.
Tangdamrongsub, N. and M. Sprlak (2021). “The Assessment of Hydrologic- and Flood-Induced Land Deformation in Data-Sparse Regions Using GRACE/GRACE-FO Data Assimilation”. In: Remote Sensing 13(2). doi: 10.3390/rs13020235.
Bato, V. A. (2020). “Modelling soil erosion and runoff for a super typhoon event using PCRaster”. In: Journal Of Maps 16(2), pp. 879–889. doi: 10.1080/17445647.2020.1841037.
Bleuten, W., E. Zarov, and O. Schmitz (2020). “A high-resolution transient 3-dimensional hydrological model of an extensive undisturbed bog complex in West Siberia”. In: Mires And Peat 26. doi: 10.19189/MaP.2019.OMB.StA.1769.
Yang, X., S. Tian, W. Feng, J. Ran, W. You, Z. Jiang, and X. Gong (2020). “Spatio-Temporal Evaluation of Water Storage Trends from Hydrological Models over Australia Using GRACE Mascon Solutions”. In: Remote Sensing 12(21). doi: 10.3390/rs12213578.
Glas, H., I. Rocabado, S. Huysentruyt, E. Maroy, D. S. Cortez, K. Coorevits, P. De Maeyer, and G. Deruyter (2019). “Flood Risk Mapping Worldwide: A Flexible Methodology and Toolbox”. In: Water 11(11). doi: 10.3390/w11112371.
Schmitz, O., R. Beelen, M. Strak, G. Hoek, I. Soenario, B. Brunekreef, I. Vaartjes, M. J. Dijst, D. E. Grobbee, and D. Karssenberg (2019). “High resolution annual average air pollution concentration maps for the Netherlands”. In: Scientific Data 6, p. 190035. doi: 10.1038/sdata.2019.35.
Svetlitchnyi, A. A. and A. Piatkova V (2019). “Spatially distributed GIS-realized mathematical model of rainstorm erosion losses of soil”. In: Journal Of Geology Geography And Geoecology 28(3), pp. 562–571. doi: 10.15421/111953.
Wanders, N., S. Thober, R. Kumar, M. Pan, J. Sheffield, L. Samaniego, and E. F. Wood (2019). “Development and Evaluation of a Pan-European Multimodel Seasonal Hydrological Forecasting System”. In: Journal Of Hydrometeorology 20(1), pp. 99–115. doi: 10.1175/JHM-D-18-0040.1.
Kuppel, S., D. Tetzlaff, M. P. Maneta, and C. Soulsby (2018). “What can we learn from multi-data calibration of a process-based ecohydrological model?”. In: Environmental Modelling & Software 101, pp. 301–316. doi: 10.1016/j.envsoft.2018.01.001.
Moncada, J. A., J. A. Verstegen, J. A. Posada, M. Junginger, Z. Lukszo, A. Faaij, and M. Weijnen (2018). “Exploring policy options to spur the expansion of ethanol production and consumption in Brazil: An agent-based modeling approach”. In: Energy Policy 123, pp. 619–641. doi: 10.1016/j.enpol.2018.09.015.
Perk, M. van der, M. Stergiadi, T. C. M. de Nijs, R. N. J. Comans, and M. F. P. Bierkens (2018). “The response of metal leaching from soils to climate change and land management in a temperate lowland catchment”. In: Catena 171, pp. 426–439. doi: 10.1016/j.catena.2018.07.034.
Sutanudjaja, E. H., R. van Beek, N. Wanders, Y. Wada, J. H. C. Bosmans, N. Drost, R. J. van der Ent, I. E. M. de Graaf, J. M. Hoch, K. de Jong, D. Karssenberg, P. L. Lopez, S. Pessenteiner, O. Schmitz, M. W. Straatsma, E. Vannametee, D. Wisser, and M. F. P. Bierkens (2018). “PCR-GLOBWB 2: a 5 arcmin global hydrological and water resources model”. In: Geoscientific Model Development 11(6), pp. 2429–2453. doi: 10.5194/gmd-11-2429-2018.
Tangdamrongsub, N., S.-C. Han, S. Tian, H. M. Schmied, E. H. Sutanudjaja, J. Ran, and W. Feng (2018). “Evaluation of Groundwater Storage Variations Estimated from GRACE Data Assimilation and State-of-the-Art Land Surface Models in Australia and the North China Plain”. In: Remote Sensing 10(3). doi: 10.3390/rs10030483.
Bakker, M. P. de, K. de Jong, O. Schmitz, and D. Karssenberg (2017). “Design and demonstration of a data model to integrate agent-based and field-based modelling”. In: Environmental Modelling & Software 89, pp. 172–189. doi: 10.1016/j.envsoft.2016.11.016.
Hartanto, I. M., J. van der Kwast, T. K. Alexandridis, W. Almeida, Y. Song, S. J. van Andel, and D. P. Solomatine (2017). “Data assimilation of satellite-based actual evapotranspiration in a distributed hydrological model of a controlled water system”. In: International Journal Of Applied Earth Observation And Geoinformation 57, pp. 123–135. doi: 10.1016/j.jag.2016.12.015.
Lopez, P. L., E. H. Sutanudjaja, J. Schellekens, G. Sterk, and M. F. P. Bierkens (2017). “Calibration of a large-scale hydrological model using satellite-based soil moisture and evapotranspiration products”. In: Hydrology And Earth System Sciences 21(6), pp. 3125–3144. doi: 10.5194/hess-21-3125-2017.
Yossef, N. C., R. van Beek, A. Weerts, H. Winsemius, and M. F. P. Bierkens (2017). “Skill of a global forecasting system in seasonal ensemble streamflow prediction”. In: Hydrology And Earth System Sciences 21(8), pp. 4103–4114. doi: 10.5194/hess-21-4103-2017.
Zhou, H., Z. Luo, N. Tangdamrongsub, L. Wang, L. He, C. Xu, and Q. Li (2017). “Characterizing Drought and Flood Events over the Yangtze River Basin Using the HUST-Grace2016 Solution and Ancillary Data”. In: Remote Sensing 9(11). doi: 10.3390/rs9111100.
Schmitz, O., J.-L. de Kok, and D. Karssenberg (2016). “A software framework for process flow execution of stochastic multi-scale integrated models”. In: Ecological Informatics 32, pp. 124–133. doi: 10.1016/j.ecoinf.2016.01.009.
Graaf, I. E. M. de, E. H. Sutanudjaja, L. P. H. van Beek, and M. F. P. Bierkens (2015). “A high-resolution global-scale groundwater model”. In: Hydrology And Earth System Sciences 19(2), pp. 823–837. doi: 10.5194/hess-19-823-2015.
Tekleab, S., S. Uhlenbrook, H. H. G. Savenije, Y. Mohamed, and J. Wenninger (2015). “Modelling rainfall-runoff processes of the Chemoga and Jedeb meso-scale catchments in the Abay/Upper Blue Nile basin, Ethiopia”. In: Hydrological Sciences Journal 60(11, SI), pp. 2029–2046. doi: 10.1080/02626667.2015.1032292.
Terink, W., A. F. Lutz, G. W. H. Simons, W. W. Immerzeel, and P. Droogers (2015). “SPHY v2.0: Spatial Processes in HY drology”. In: Geoscientific Model Development 8(7), pp. 2009–2034. doi: 10.5194/gmd-8-2009-2015.
Zhang, J. and X. Chu (2015). “Impact of DEM Resolution on Puddle Characterization: Comparison of Different Surfaces and Methods”. In: Water 7(5), pp. 2293–2313. doi: 10.3390/w7052293.
Bui, Y. T., D. Orange, S. M. Visser, C. T. Hoanh, M. Laissus, A. Poortinga, D. T. Tran, and L. Stroosnijder (2014). “Lumped surface and sub- surface runoff for erosion modeling within a small hilly watershed in northern Vietnam”. In: Hydrological Processes 28(6), pp. 2961–2974. doi: 10.1002/hyp.9860.
Hilst, F. van der, J. A. Verstegen, T. Zheliezna, O. Drozdova, and A. P. C. Faaij (2014). “Integrated spatiotemporal modelling of bioenergy production potentials, agricultural land use, and related GHG balances; demonstrated for Ukraine”. In: Biofuels Bioproducts & Biorefining-biofpr 8(3), pp. 391–411. doi: 10.1002/bbb.1471.
Schmitz, O., E. Salvadore, L. Poelmans, J. van der Kwast, and D. Karssenberg (2014). “A framework to resolve spatio-temporal misalignment in component-based modelling”. In: Journal Of Hydroinformatics 16(4), pp. 850–871. doi: 10.2166/hydro.2013.180.
Trambauer, P., S. Maskey, M. Werner, F. Pappenberger, L. P. H. van Beek, and S. Uhlenbrook (2014). “Identification and simulation of space-time variability of past hydrological drought events in the Limpopo River basin, southern Africa”. In: Hydrology And Earth System Sciences 18(8), pp. 2925–2942. doi: 10.5194/hess-18-2925-2014.
Wanders, N., M. F. P. Bierkens, S. M. de Jong, A. de Roo, and D. Karssenberg (2014). “The benefits of using remotely sensed soil moisture in parameter identification of large-scale hydrological models”. In: Water Resources Research 50(8), pp. 6874–6891. doi: 10.1002/2013WR014639.
Lana-Renault, N. and D. Karssenberg (2013). “PyCatch: Component based hydrological catchment modelling [PyCatch: Modelización hidrológica a escala de cuenca con una estructura basada en componentes]”. In: Cuadernos De Investigacion Geografica 39(2), pp. 315–333. doi: 10.18172/cig.1993.
Schmitz, O., D. Karssenberg, K. de Jong, J.-L. de Kok, and S. M. de Jong (2013). “Map algebra and model algebra for integrated model building”. In: Environmental Modelling & Software 48, pp. 113–128. doi: 10.1016/j.envsoft.2013.06.009.
Yossef, N. C., H. Winsemius, A. Weerts, R. van Beek, and M. F. P. Bierkens (2013). “Skill of a global seasonal streamflow forecasting system, relative roles of initial conditions and meteorological forcing”. In: Water Resources Research 49(8), pp. 4687–4699. doi: 10.1002/wrcr.20350.
Molinari, M. E., M. Cannata, S. Begueria, and C. Ambrosi (2012). “GIS-based Calibration of MassMov2D”. In: Transactions In Gis 16(2), pp. 215–231. doi: 10.1111/j.1467-9671.2012.01316.x.
Rakovec, O., A. H. Weerts, P. Hazenberg, P. J. J. F. Torfs, and R. Uijlenhoet (2012). “State updating of a distributed hydrological model with Ensemble Kalman Filtering: effects of updating frequency and observation network density on forecast accuracy”. In: Hydrology And Earth System Sciences 16(9), pp. 3435–3449. doi: 10.5194/hess-16-3435-2012.
Tian, P., G. Zhao, J. Li, J. Gao, and Z. Zhang (2012). “Integration of monthly water balance modeling and nutrient load estimation in an agricultural catchment”. In: International Journal Of Environmental Science And Technology 9(1), pp. 163–172. doi: 10.1007/s13762-011-0010-x.
Vermaat, J. E., S. Broekx, B. Van Eck, G. Engelen, F. Hellmann, J. L. De Kok, H. Van der Kwast, J. Maes, W. Salomons, and W. Van Deursen (2012). “Nitrogen Source Apportionment for the Catchment, Estuary, and Adjacent Coastal Waters of the River Scheldt”. In: Ecology And Society 17(2). doi: 10.5751/ES-04889-170230.
Verstegen, J. A., D. Karssenberg, F. van der Hilst, and A. Faaij (2012). “Spatio-temporal uncertainty in Spatial Decision Support Systems: A case study of changing land availability for bioenergy crops in Mozambique”. In: Computers Environment And Urban Systems 36(1), pp. 30–42. doi: 10.1016/j.compenvurbsys.2011.08.003.
Weiland, F. C. S., L. P. H. van Beek, J. C. J. Kwadijk, and M. F. P. Bierkens (2012). “On the Suitability of GCM Runoff Fields for River Discharge Modeling: A Case Study Using Model Output from HadGEM2 and ECHAM5”. In: Journal Of Hydrometeorology 13(1), pp. 140–154. doi: 10.1175/JHM-D-10-05011.1.
Zhang, X., G. Hoermann, N. Fohrer, and J. Gao (2012a). “Estimating the impacts and uncertainty of changing spatial input data resolutions on streamflow simulations in two basins”. In: Journal Of Hydroinformatics 14(4), pp. 902–917. doi: 10.2166/hydro.2012.085.
Zhang, X., G. Hoermann, N. Fohrer, and J. Gao (2012b). “Parameter calibration and uncertainty estimation of a simple rainfall-runoff model in two case studies”. In: Journal Of Hydroinformatics 14(4), pp. 1061–1074. doi: 10.2166/hydro.2012.084.
Zhao, G., G. Hoermann, N. Fohrer, J. Kiesel, J. Gao, and H. Li (2012). “APPLICATION OF A NUTRIENT MODEL FOR SEDIMENT YIELD AND PHOSPHORUS LOAD ESTIMATION IN AN AGRICULTURAL CATCHMENT IN SOUTH CHINA”. In: Fresenius Environmental Bulletin 21(7A), pp. 1894–1904.
Kwast, J. van der, T. Van de Voorde, F. Canters, I. Uljee, S. Van Looy, and G. Engelen (2011). “Inferring urban land use using the optimised spatial reclassification kernel”. In: Environmental Modelling & Software 26(11), pp. 1279–1288. doi: 10.1016/j.envsoft.2011.05.012.
Zhang, X., G. Hoermann, J. Gao, and N. Fohrer (2011). “Structural uncertainty assessment in a discharge simulation model”. In: Hydrological Sciences Journal 56(5), pp. 854–869. doi: 10.1080/02626667.2011.587426.
Zhao, G. J., G. Hoermann, N. Fohrer, H. P. Li, J. F. Gao, and K. Tian (2011). “Development and application of a nitrogen simulation model in a data scarce catchment in South China”. In: Agricultural Water Management 98(4), pp. 619–631. doi: 10.1016/j.agwat.2010.10.022.
Zhao, G., G. Hoermann, N. Fohrer, J. Gao, H. Li, and P. Tian (2011). “Application of a Simple Raster-Based Hydrological Model for Streamflow Prediction in a Humid Catchment with Polder Systems”. In: Water Resources Management 25(2), pp. 661–676. doi: 10.1007/s11269-010-9719-4.
Karssenberg, D., O. Schmitz, P. Salamon, K. de Jong, and M. F. P. Bierkens (2010). “A software framework for construction of process-based stochastic spatio-temporal models and data assimilation”. In: Environmental Modelling & Software 25(4), pp. 489–502. doi: 10.1016/j.envsoft.2009.10.004.
Van Der Knijff, J. M., J. Younis, and A. P. J. De Roo (2010). “LISFLOOD: a GIS-based distributed model for river basin scale water balance and flood simulation”. In: International Journal Of Geographical Information Science 24(2), pp. 189–212. doi: 10.1080/13658810802549154.
Weerts, A. H., J. Schellekens, and F. S. Weiland (2010). “Real-Time Geospatial Data Handling and Forecasting: Examples From Delft-FEWS Forecasting Platform/System”. In: Ieee Journal Of Selected Topics In Applied Earth Observations And Remote Sensing 3(3), pp. 386–394. doi: 10.1109/JSTARS.2010.2046882.
Begueria, S., T. W. J. Van Asch, J. .-. Malet, and S. Groendahl (2009). “A GIS-based numerical model for simulating the kinematics of mud and debris flows over complex terrain”. In: Natural Hazards And Earth System Sciences 9(6), pp. 1897–1909. doi: 10.5194/nhess-9-1897-2009.
Beskow, S., C. R. Mello, L. D. Norton, N. Curi, M. R. Viola, and J. C. Avanzi (2009). “Soil erosion prediction in the Grande River Basin, Brazil using distributed modeling”. In: Catena 79(1), pp. 49–59. doi: 10.1016/j.catena.2009.05.010.
Beskow, S., C. R. de Mello, G. Coelho, A. M. da Silva, and M. R. Viola (2009). “SURFACE RUNOFF IN A WATERSHED ESTIMATED BY DYNAMIC AND DISTRIBUTED MODELING”. In: Revista Brasileira De Ciencia Do Solo 33(1), pp. 169–178. doi: 10.1590/S0100-06832009000100018.
Durdu, O. F. and V. Cvetkovic (2009). “Modeling water and nutrients fluxes in the Buyuk Menderes drainage basin, Turkey”. In: Water Science And Technology 59(3), pp. 531–541. doi: 10.2166/wst.2009.013.
Schmitz, O., D. Karssenberg, W. P. A. van Deursen, and C. G. Wesseling (2009). “Linking external components to a spatio-temporal modelling framework: Coupling MODFLOW and PCRaster”. In: Environmental Modelling & Software 24(9), pp. 1088–1099. doi: 10.1016/j.envsoft.2009.02.018.
Sheikh, V., S. Visser, and L. Stroosnijder (2009). “A simple model to predict soil moisture: Bridging Event and Continuous Hydrological (BEACH) modelling”. In: Environmental Modelling & Software 24(4), pp. 542–556. doi: 10.1016/j.envsoft.2008.10.005.
Barreto-Neto, A. A. and C. R. de Souza Filho (2008). “Application of fuzzy logic to the evaluation of runoff in a tropical watershed”. In: Environmental Modelling & Software 23(2), pp. 244–253. doi: 10.1016/j.envsoft.2007.07.006.
Karssenberg, D. and J. S. Bridge (2008). “A three-dimensional numerical model of sediment transport, erosion and deposition within a network of channel belts, floodplain and hill slope: extrinsic and intrinsic controls on floodplain dynamics and alluvial architecture”. In: Sedimentology 55(6), pp. 1717–1745. doi: 10.1111/j.1365-3091.2008.00965.x.
Koscielny, M. (2008). “Impact of mountain developments on hydrological processes and geodynamic evolution of mountainsides (Les Arcs, Savoie, France)”. In: Bulletin Of Engineering Geology And The Environment 67(4), pp. 585–595. doi: 10.1007/s10064-008-0165-y.
Hoermann, G., X. Zhang, and N. Fohrer (2007). “Comparison of a simple and a spatially distributed hydrologic model for the simulation of a lowland catchment in Northern Germany”. In: Ecological Modelling 209(1). General Assembly of the European-Geosciences-Union, Vienna, AUSTRIA, APR 02-07, 2006, pp. 21–28. doi: 10.1016/j.ecolmodel.2007.07.019.
Karssenberg, D., K. de Jong, and J. van der Kwast (2007). “Modelling landscape dynamics with Python”. In: International Journal Of Geographical Information Science 21(5). Symposium on Advances in Spatio-Temporal Modelling of Environment and Landscape, Ultrecht Univ, Acad Hall, Utrecht, NETHERLANDS, OCT 26, 2005, pp. 483–495. doi: 10.1080/13658810601063936.
Thonon, I., K. de Jong, M. van der Perk, and H. Middelkoop (2007). “Modelling floodplain sedimentation using particle tracking”. In: Hydrological Processes 21(11), pp. 1402–1412. doi: 10.1002/hyp.6296.
Burrough, P. A., D. Karssenberg, and W. P. A. van Deursen (2005). “Environmental Modelling with PCRaster”. In: GIS, Spatial Analysis and Modeling. Ed. by D. J. Maguire, M. F. Goodchild, and M. Batty. Redlands, California: ESRI, pp. 333–356.
Darracq, A., F. Greffe, F. Hannerz, G. Destouni, and V. Cvetkovic (2005). “Nutrient transport scenarios in a changing Stockholm and Malaren valley region, Sweden”. In: Water Science And Technology 51(3-4). 7th IWA International Specialised Conference on Diffuse Pollution and Basin Management, Dublin, IRELAND, AUG 17-21, 2003, pp. 31–38. doi: 10.2166/wst.2005.0572.
Kamphorst, E., J. Chadoeuf, V. Jetten, and J. Guérif (2005). “Generating 3D soil surfaces from 2D height measurements to determine depression storage”. In: Catena 62(2-3). 1st Meeting on Significance of Soils Surface Characteristics in Soil Erosion, Strasbourg, FRANCE, SEP, 2001, pp. 189–205. doi: 10.1016/j.catena.2005.05.006.
Karssenberg, D. and K. de Jong (2005a). “Dynamic environmental modelling in GIS: 1. Modelling in three spatial dimensions”. In: International Journal Of Geographical Information Science 19(5), pp. 559–579. doi: 10.1080/13658810500032362.
Karssenberg, D. and K. de Jong (2005b). “Dynamic environmental modelling in GIS: 2. Modelling error propagation”. In: International Journal Of Geographical Information Science 19(6), pp. 623–637. doi: 10.1080/13658810500104799.
Visser, S., G. Sterk, and D. Karssenberg (2005a). “Modelling water erosion in the Sahel: application of a physically based soil erosion model in a gentle sloping environment”. In: Earth Surface Processes And Landforms 30(12), pp. 1547–1566. doi: 10.1002/esp.1212.
Visser, S., G. Sterk, and D. Karssenberg (2005b). “Wind erosion modelling in a Sahelian environment”. In: Environmental Modelling & Software 20(1), pp. 69–84. doi: 10.1016/j.envsoft.2003.12.010.
Visser, S., L. Stroosnijder, and W. Chardon (2005). “Nutrient losses by wind and water measurements and modelling”. In: Catena 63(1), pp. 1–22. doi: 10.1016/j.catena.2005.07.003.
Schmidt, J. and R. Dikau (2004). “Modeling historical climate variability and slope stability”. In: Geomorphology 60(3-4), pp. 433–447. doi: 10.1016/j.geomorph.2003.11.001.
Sveditchnyi, A., S. Plotnitskiy, and O. Stepovaya (2003). “Spatial distribution of soil moisture content within catchments and its modelling on the basis of topographic data”. In: Journal Of Hydrology 277(1-2), pp. 50–60. doi: 10.1016/S0022-1694(03)00083-0.
Karssenberg, D. (2002). “The value of environmental modelling languages for building distributed hydrological models”. In: Hydrological Processes 16(14), pp. 2751–2766. doi: 10.1002/hyp.1068.
Karssenberg, D., P. A. Burrough, R. Sluiter, and K. de Jong (2001). “The PCRaster software and course materials for teaching numerical modelling in the environmental sciences”. In: Transactions In Gis 5(2), pp. 99–110. doi: 10.1111/1467-9671.00070.
De Roo, A., C. Wesseling, and W. Van Deursen (2000). “Physically based river basin modelling within a GIS: the LISFLOOD model”. In: Hydrological Processes 14(11-12), pp. 1981–1992. doi: 10.1002/1099-1085(20000815/30)14:11/12<1981::AID-HYP49>3.0.CO;2-F.
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