Eckart Priesack
Eckart Priesack
Helmholtz Zentrum München, Germany
E-mail confirmado em - Página inicial
Citado por
Citado por
Rising temperatures reduce global wheat production
S Asseng, F Ewert, P Martre, RP Rötter, DB Lobell, D Cammarano, ...
Nature climate change 5 (2), 143-147, 2015
Uncertainty in simulating wheat yields under climate change
Nature Climate Change 3 (9), 827-832, 2013
How do various maize crop models vary in their responses to climate change factors?
S Bassu, N Brisson, JL Durand, K Boote, J Lizaso, JW Jones, ...
Global change biology 20 (7), 2301-2320, 2014
A network of terrestrial environmental observatories in Germany
S Zacharias, H Bogena, L Samaniego, M Mauder, R Fuß, T Pütz, ...
Vadose zone journal 10 (3), 955-973, 2011
Multimodel ensembles of wheat growth: many models are better than one
P Martre, D Wallach, S Asseng, F Ewert, JW Jones, RP Rötter, KJ Boote, ...
Global change biology 21 (2), 911-925, 2015
Comparison of N 2 O emissions from soils at three temperate agricultural sites: simulations of year-round measurements by four models
SE Frolking, AR Mosier, DS Ojima, C Li, WJ Parton, CS Potter, E Priesack, ...
Nutrient Cycling in Agroecosystems 52 (2), 77-105, 1998
Similar estimates of temperature impacts on global wheat yield by three independent methods
B Liu, S Asseng, C Müller, F Ewert, J Elliott, DB Lobell, P Martre, ...
Nature Climate Change 6 (12), 1130-1136, 2016
Climate change impact and adaptation for wheat protein
S Asseng, P Martre, A Maiorano, RP Rötter, GJ O’Leary, GJ Fitzgerald, ...
Global change biology 25 (1), 155-173, 2019
The uncertainty of crop yield projections is reduced by improved temperature response functions
E Wang, P Martre, Z Zhao, F Ewert, A Maiorano, RP Rötter, BA Kimball, ...
Nature plants 3 (8), 1-13, 2017
Closed-form expression for the multi-modal unsaturated conductivity function
E Priesack, W Durner
Vadose Zone Journal 5 (1), 121-124, 2006
The plant's capacity in regulating resource demand
R Matyssek, R Agerer, D Ernst, JC Munch, W Osswald, H Pretzsch, ...
Plant biology 7 (06), 560-580, 2005
Spatial variation of nitrate–N and related soil properties at the plot-scale
R Stenger, E Priesack, F Beese
Geoderma 105 (3-4), 259-275, 2002
Modeling biomass growth, N-uptake and phenological development of potato crop
S Gayler, E Wang, E Priesack, T Schaaf, FX Maidl
Geoderma 105 (3-4), 367-383, 2002
Evaluating the ability of four crop models to predict different environmental impacts on spring wheat grown in open-top chambers
C Biernath, S Gayler, S Bittner, C Klein, P Högy, A Fangmeier, E Priesack
European Journal of Agronomy 35 (2), 71-82, 2011
Crop model improvement reduces the uncertainty of the response to temperature of multi-model ensembles
A Maiorano, P Martre, S Asseng, F Ewert, C Müller, RP Rötter, AC Ruane, ...
Field Crops Research 202, 5-20, 2017
Solute transport modeled with Green's functions with application to persistent solute sources
FJ Leij, E Priesack, MG Schaap
Journal of Contaminant Hydrology 41 (1-2), 155-173, 2000
Expert-N-A Building Block System of Nitrogen Models as Resource for Advice, Research, Water Management and Policy
T Engel, E Priesack
Integrated soil and sediment research: A basis for proper protection, 503-507, 1993
Impact of spatial soil and climate input data aggregation on regional yield simulations
H Hoffmann, G Zhao, S Asseng, M Bindi, C Biernath, J Constantin, ...
PLoS One 11 (4), e0151782, 2016
A one-dimensional model of water flow in soil-plant systems based on plant architecture
M Janott, S Gayler, A Gessler, M Javaux, C Klier, E Priesack
Plant and soil 341 (1), 233-256, 2011
Rates of net nitrogen mineralization in disturbed and undisturbed soils
R Stenger, E Priesack, F Beese
Plant and Soil 171 (2), 323-332, 1995
O sistema não pode executar a operação agora. Tente novamente mais tarde.
Artigos 1–20