|An overview of APSIM, a model designed for farming systems simulation|
BA Keating, PS Carberry, GL Hammer, ME Probert, MJ Robertson, ...
European journal of agronomy 18 (3-4), 267-288, 2003
|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
|APSIM–evolution towards a new generation of agricultural systems simulation|
DP Holzworth, NI Huth, PG deVoil, EJ Zurcher, NI Herrmann, G McLean, ...
Environmental Modelling & Software 62, 327-350, 2014
|Can no-tillage stimulate carbon sequestration in agricultural soils? A meta-analysis of paired experiments|
Z Luo, E Wang, OJ Sun
Agriculture, ecosystems & environment 139 (1-2), 224-231, 2010
|Soil carbon change and its responses to agricultural practices in Australian agro-ecosystems: a review and synthesis|
Z Luo, E Wang, OJ Sun
Geoderma 155 (3-4), 211-223, 2010
|Simulation of phenological development of wheat crops|
E Wang, T Engel
Agricultural systems 58 (1), 1-24, 1998
|Contributions of climatic and crop varietal changes to crop production in the North China Plain, since 1980s|
Y Liu, E Wang, X Yang, J Wang
Global Change Biology 16 (8), 2287-2299, 2010
|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
|Development of a generic crop model template in the cropping system model APSIM|
E Wang, MJ Robertson, GL Hammer, PS Carberry, D Holzworth, ...
European journal of Agronomy 18 (1-2), 121-140, 2002
|Soil nitrate accumulation, leaching and crop nitrogen use as influenced by fertilization and irrigation in an intensive wheat–maize double cropping system in the North China Plain|
Q Fang, Q Yu, E Wang, Y Chen, G Zhang, J Wang, L Li
Plant and Soil 284 (1), 335-350, 2006
|Increased yield potential of wheat-maize cropping system in the North China Plain by climate change adaptation|
J Wang, E Wang, X Yang, F Zhang, H Yin
Climatic Change 113 (3), 825-840, 2012
|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
|Modelling the effects of climate variability and water management on crop water productivity and water balance in the North China Plain|
C Chen, E Wang, Q Yu
Agricultural Water Management 97 (8), 1175-1184, 2010
|Soil organic carbon dynamics jointly controlled by climate, carbon inputs, soil properties and soil carbon fractions|
Z Luo, W Feng, Y Luo, J Baldock, E Wang
Global Change Biology 23 (10), 4430-4439, 2017
|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
|Modelling the growth and water uptake function of plant root systems: a review|
E Wang, CJ Smith
Australian journal of agricultural research 55 (5), 501-523, 2004
|Evaluation of the APSIM model in cropping systems of Asia|
DS Gaydon, E Wang, PL Poulton, B Ahmad, F Ahmed, S Akhter, I Ali, ...
Field Crops Research 204, 52-75, 2017
|Adaptation to climate change of wheat growing in South Australia: analysis of management and breeding strategies|
Q Luo, W Bellotti, M Williams, E Wang
Agriculture, ecosystems & environment 129 (1-3), 261-267, 2009
|Quantifying the effects of climate trends in the past 43 years (1961–2003) on crop growth and water demand in the North China Plain|
C Chen, E Wang, Q Yu, Y Zhang
Climatic Change 100 (3), 559-578, 2010
|Climate, agricultural production and hydrological balance in the North China Plain|
E Wang, Q Yu, D Wu, J Xia
International Journal of Climatology: A Journal of the Royal Meteorological …, 2008