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Andrea Schnepf
Andrea Schnepf
Verifierad e-postadress på fz-juelich.de
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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
6342016
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
2872013
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
2022010
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
1532011
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
1352018
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
1272015
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
1242005
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
1232010
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
1192014
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
1192014
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
992008
Mathematical models of plant–soil interaction
T Roose, A Schnepf
Philosophical Transactions of the Royal Society A: Mathematical, Physical …, 2008
902008
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
872014
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
842012
Modelling the contribution of arbuscular mycorrhizal fungi to plant phosphate uptake
A Schnepf, T Roose
New Phytologist 171 (3), 669-682, 2006
782006
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
772020
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
752016
Growth model for arbuscular mycorrhizal fungi
A Schnepf, T Roose, P Schweiger
Journal of the Royal Society Interface 5 (24), 773-784, 2008
742008
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
742006
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
652020
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Artiklar 1–20