Benjamin Campforts
Cited by
Cited by
Transient river response, captured by channel steepness and its concavity
V Vanacker, F von Blanckenburg, G Govers, A Molina, B Campforts, ...
Geomorphology 228, 234-243, 2015
Accurate simulation of transient landscape evolution by eliminating numerical diffusion: the TTLEM 1.0 model
B Campforts, W Schwanghart, G Govers
Earth Surface Dynamics 5 (1), 47-66, 2017
Keeping the edge: A numerical method that avoids knickpoint smearing when solving the stream power law
B Campforts, G Govers
Journal of Geophysical Research: Earth Surface 120 (7), 1189-1205, 2015
Simulating the mobility of meteoric 10Be in the landscape through a coupled soil-hillslope model (Be2D)
B Campforts, V Vanacker, J Vanderborght, S Baken, E Smolders, ...
Earth and Planetary Science Letters 439, 143-157, 2016
Numerical modelling of landscape and sediment flux response to precipitation rate change
JJ Armitage, AC Whittaker, M Zakari, B Campforts
Earth Surface Dynamics 6 (1), 77-99, 2018
Land use impacts on soil erosion and rejuvenation in Southern Brazil
V Vanacker, Y Ameijeiras-Mariño, J Schoonejans, JT Cornélis, ...
Catena 178, 256-266, 2019
Landslide mobilization rates: A global analysis and model
J Broeckx, M Rossi, K Lijnen, B Campforts, J Poesen, M Vanmaercke
Earth-Science Reviews, 102972, 2020
Tracking spatial variation in river load from Andean highlands to inter-Andean valleys
GE Tenorio, V Vanacker, B Campforts, L Álvarez, S Zhiminaicela, ...
Geomorphology 308, 175-189, 2018
Parameterization of river incision models requires accounting for environmental heterogeneity: insights from the tropical Andes
B Campforts, V Vanacker, F Herman, M Vanmaercke, W Schwanghart, ...
Earth Surface Dynamics 8 (2), 447-470, 2020
Meteoric beryllium‐10 as a tracer of erosion due to postsettlement land use in west‐central Minnesota, USA
NA Jelinski, B Campforts, JK Willenbring, TE Schumacher, S Li, DA Lobb, ...
Journal of Geophysical Research: Earth Surface 124 (4), 874-901, 2019
Predicting gully densities at sub‐continental scales: a case study for the Horn of Africa
M Vanmaercke, Y Chen, N Haregeweyn, S De Geeter, B Campforts, ...
Earth Surface Processes and Landforms 45 (15), 3763-3779, 2020
HyLands 1.0: a Hybrid Landscape evolution model to simulate the impact of landslides and landslide-derived sediment on landscape evolution
B Campforts, C Shobe, P Steer, M Vanmaercke, D Lague, J Braun
Geoscientific Model Development, 2020
Interactions between deforestation, landscape rejuvenation, and shallow landslides in the North Tanganyika–Kivu Rift region, Africa
A Depicker, G Govers, L Jacobs, B Campforts, J Uwihirwe, O Dewitte
Earth Surface Dynamics 9 (3), 445-462, 2021
Numerical modeling of Earth's dynamic surface: a community approach
GE Tucker, E Hutton, M Piper, B Campforts, T Gan, KR Barnhart, A Kettner, ...
EarthArXiv, 2021
Slope gradient controls soil thickness and chemical weathering in subtropical Brazil: understanding rates and timescales of regional soilscape evolution through a combination …
L Brosens, B Campforts, J Robinet, V Vanacker, S Opfergelt, ...
Journal of Geophysical Research: Earth Surface, e2019JF005321, 2020
What goes up must come down: Improving numerical simulation of landscape evolution at different timescales
B Campforts
The system can't perform the operation now. Try again later.
Articles 1–16