| Modeling soil processes: Review, key challenges, and new perspectives H Vereecken, A Schnepf, JW Hopmans, M Javaux, D Or, T Roose, ... Vadose zone journal 15 (5), vzj2015. 09.0131, 2016 | 656 | 2016 |
| Modelling root–soil interactions using three–dimensional models of root growth, architecture and function VM Dunbabin, JA Postma, A Schnepf, L Pagès, M Javaux, L Wu, D Leitner, ... Plant and soil 372, 93-124, 2013 | 295 | 2013 |
| A dynamic root system growth model based on L-Systems: Tropisms and coupling to nutrient uptake from soil D Leitner, S Klepsch, G Bodner, A Schnepf Plant and soil 332, 177-192, 2010 | 207 | 2010 |
| Traits related to differences in function among three arbuscular mycorrhizal fungi C Thonar, A Schnepf, E Frossard, T Roose, J Jansa Plant and Soil 339, 231-245, 2011 | 156 | 2011 |
| CRootBox: a structural–functional modelling framework for root systems A Schnepf, D Leitner, M Landl, G Lobet, TH Mai, S Morandage, C Sheng, ... Annals of botany 121 (5), 1033-1053, 2018 | 139 | 2018 |
| Root system markup language: toward a unified root architecture description language G Lobet, MP Pound, J Diener, C Pradal, X Draye, C Godin, M Javaux, ... Plant physiology 167 (3), 617-627, 2015 | 131 | 2015 |
| A dynamic model of nutrient uptake by root hairs D Leitner, S Klepsch, M Ptashnyk, A Marchant, GJD Kirk, A Schnepf, ... New Phytologist 185 (3), 792-802, 2010 | 124 | 2010 |
| Changes of Ni biogeochemistry in the rhizosphere of the hyperaccumulator Thlaspi goesingense M Puschenreiter, A Schnepf, IM Millan, WJ Fitz, O Horak, J Klepp, ... Plant and Soil 271, 205-218, 2005 | 124 | 2005 |
| Recovering root system traits using image analysis exemplified by two-dimensional neutron radiography images of lupine D Leitner, B Felderer, P Vontobel, A Schnepf Plant physiology 164 (1), 24-35, 2014 | 121 | 2014 |
| Impact of growth and uptake patterns of arbuscular mycorrhizal fungi on plant phosphorus uptake—a modelling study A Schnepf, T Roose, P Schweiger Plant and soil 312, 85-99, 2008 | 100 | 2008 |
| Soil compaction impacts soybean root growth in an Oxisol from subtropical Brazil MT de Moraes, H Debiasi, JC Franchini, AA Mastroberti, R Levien, ... Soil and Tillage Research 200, 104611, 2020 | 94 | 2020 |
| Mathematical models of plant–soil interaction T Roose, A Schnepf Philosophical Transactions of the Royal Society A: Mathematical, Physical …, 2008 | 91 | 2008 |
| Impact of contrasted maize root traits at flowering on water stress tolerance–a simulation study D Leitner, F Meunier, G Bodner, M Javaux, A Schnepf Field crops research 165, 125-137, 2014 | 89 | 2014 |
| High-resolution chemical imaging of labile phosphorus in the rhizosphere of Brassica napus L. cultivars J Santner, H Zhang, D Leitner, A Schnepf, T Prohaska, M Puschenreiter, ... Environmental and Experimental Botany 77, 219-226, 2012 | 86 | 2012 |
| Combined use of empirical data and mathematical modelling to better estimate the microbial turnover of isotopically labelled carbon substrates in soil HC Glanville, PW Hill, A Schnepf, E Oburger, DL Jones Soil Biology and Biochemistry 94, 154-168, 2016 | 78 | 2016 |
| Modelling the contribution of arbuscular mycorrhizal fungi to plant phosphate uptake A Schnepf, T Roose New Phytologist 171 (3), 669-682, 2006 | 78 | 2006 |
| Verification and intercomparison of reactive transport codes to describe root-uptake B Nowack, KU Mayer, SE Oswald, W Van Beinum, CAJ Appelo, ... Plant and soil 285, 305-321, 2006 | 75 | 2006 |
| Growth model for arbuscular mycorrhizal fungi A Schnepf, T Roose, P Schweiger Journal of the Royal Society Interface 5 (24), 773-784, 2008 | 74 | 2008 |
| Rhizosphere spatiotemporal organization–a key to rhizosphere functions D Vetterlein, A Carminati, I Kögel-Knabner, GP Bienert, K Smalla, ... Frontiers in agronomy 2, 8, 2020 | 68 | 2020 |
| Modeling the impact of biopores on root growth and root water uptake M Landl, A Schnepf, D Uteau, S Peth, M Athmann, T Kautz, U Perkons, ... Vadose Zone Journal 18 (1), 1-20, 2019 | 63 | 2019 |
