This is the growing list of papers built upon GEOtop in its various versions.
- [22] Mauder, M., Genzel, S., Fu, J., Kiese, R., Soltani, M., Steinbrecher, R., Kunstmann, H. (2017). Evaluation of energy balance closure adjustment methods by independent evapotranspiration estimates from lysimeters and hydrological simulations. Hydrological Processes. https://doi.org/10.1002/hyp.11397
- [21] Engel, M., Notarnicola, C., Endrizzi, S., & Bertoldi, G. (2017). A sensitivity analysis of a snow model to understand spatial and temporal snow dynamic in a high-elevation catchment. Hydrological Processes, (August), 1-18. https://doi.org/10.1002/hyp.11314
- [20] Kollet, S., Sulis, M., Maxwell, R., Paniconi, C., Putti, M., Bertoldi, G., Coon, E. T., Cordano, E., Endrizzi, S., Kikinzon, E., Mouche, E., Mügler, C., Park, Y.-J., Refsgaard, J. C., Stisen, S. and Sudicky, E. (2017), The integrated hydrologic model intercomparison project, IH-MIP2: A second set of benchmark results to diagnose integrated hydrology and feedbacks. Water Resour. Res., 53, doi:10.1002/2016WR019191 .
- [19] Hingerl, L., Kunstmann, H., Wagner, S., Mauder, M., Bliefernicht, J., & Rigon, R. (2016). Spatio-temporal variability of water and energy fluxes - a case study for a mesoscale catchment in pre-alpine environment. Hydrological Processes. https://doi.org/10.1002/hyp.
- [18] Formetta G., S. Simoni, J. W. Godt, N. Lu, and R. Rigon (2016), Geomorphological control on variably saturated hillslope hydrology and slope instability, Water Resour. Res., 52,4590?4607, doi:10.1002/2015WR017626.
- [17] Formetta G., Capparelli G., David O., Green T.R., and Rigon, R., Integration of a three-dimensional process-based hydrological model into the Object Modeling System, doi:10.3390/w8010012, Water, 8, 12; 2016
- [16] Zi, T., Kumar, M., Kiely, G., Lewis, C., & Albertson, J. (2016). Environmental Modelling & Software Simulating the spatio-temporal dynamics of soil erosion , deposition , and yield using a coupled sediment dynamics and 3D distributed hydrologic model. Environmental Modelling and Software, 83, 310–325. https://doi.org/10.1016/j.
- [15] Eccel, E., Cordano, E., & Zottele, F. (2015). A project for climatologic mapping of soil water content in Trentino. Italian Journal of Agrometeorology, 1(500 m), 5–20. http
- [14] Bertoldi, G., Della, S., Notarnicola, C., Pasolli, L., Niedrist, G., & Tappeiner, U. (2014). Estimation of soil moisture patterns in mountain grasslands by means of SAR RADARSAT2 images and hydrological modeling. Journal of Hydrology, 516, 245– 257.https://doi.org/10.1016/j.
- [13] Della Chiesa, S., Bertoldi, G., Niedrist, G., Obojes, N., Endrizzi, S., Albertson, J. D., … Tappeiner, U. (2014). Modelling changes in grassland hydrological cycling along an elevational gradient in the Alps. Ecohydrology, n/a--n/a. https://doi.org/10.1002/eco.
- [12] Endrizzi, S., Gruber, S., Dall’Amico, M., & Rigon, R. (2014). GEOtop 2.0: simulating the combined energy and water balance at and below the land surface accounting for soil freezing, snow cover and terrain effects. Geoscientific Model Development, 7(6), 2831– 2857.https://doi.org/10.5194/gmd-7-
- [11] Gubler, S., Endrizzi, S., Gruber, S., & Purves, R. S. (2013). Sensitivities and uncertainties of modeled ground temperatures in mountain environments. Geoscientific Model Development, 6(4), 1319–1336. https://doi.org/10.5194/gmd-6-
- [10] Lewis, C., Albertson, J., Zi, T., Xu, X., & Kiely, G. (2013). How does afforestation affect the hydrology of a blanket peatland? A modelling study. Hydrological Processes, 27(25), 3577–3588. https://doi.org/10.1002/hyp.
- [9] Fiddes, J., & Gruber, S. (2012). TopoSUB: a tool for efficient large area numerical modelling in complex topography at sub-grid scales. Geoscientific Model Development, 5(5), 1245–1257. https://doi.org/10.5194/gmd-5-
- [8] Dall’Amico, M., Endrizzi, S., Gruber, S., & Rigon, R. (2011). A robust and energy-conserving model of freezing variably-saturated soil. The Cryosphere, 5(2), 469– 484. https://doi.org/10.5194/tc-5-
- [7] Bertoldi, G., Notarnicola, C., Leitinger, G., Endrizzi, S., Della Chiesa, S., Zebisch, M., & Tappeiner, U. (2010). Topographical and ecohydrological controls on land surface temperature in an Alpine catchment. Ecohydrology, 3(doi:10.1002/eco.129), 189–204.
- [6] Endrizzi, S., & Marsh, P. (2010). Observations and modeling of turbulent fluxes during melt at the shrub-tundra transition zone 1: point scale variations. Hydrology Research, 41(6), 471–490. article.
- [5] Gebremichael, M., Rigon, R., Bertoldi, G., & Over, T. M. (2009). On the scaling characteristics of observed and simulated spatial soil moisture fields. Nonlin. Processes Geophys., 16(1), 141–150. Retrieved from http://www.nonlin-processes-
- [4] Simoni, S., Zanotti, F., Bertoldi, G., & Rigon, R. (2007). Modelling the probability of occurrence of shallow landslides and channelized debris flows using GEOtopFS. Hydrological Processes, doi: 10.10.
- [3] Bertoldi, G., Rigon, R., & Over, T. M. (2006). Impact of Watershed Geomorphic Characteristics on the Energy and Water Budgets. Journal of Hydrometeorology, 7, 389–403.
- [2] Rigon, R., Bertoldi, G., & Over, T. M. (2006). GEOtop: A Distributed Hydrological Model with Coupled Water and Energy Budgets. Journal of Hydrometeorology, 7, 371–388.
- [1] Zanotti, F., Endrizzi, S., Bertoldi, G., & Rigon, R. (2004). The GEOtop snow module. Hydrol. Proc., 18, 3667–3679. DOI:10.1002/hyp.5794.