Iwan Supit
Iwan Supit
Wageningen University, The Netherlands
Verifisert e-postadresse på wur.nl
Sitert av
Sitert av
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
S Asseng, F Ewert, C Rosenzweig, JW Jones, JL Hatfield, AC Ruane, ...
Nature climate change 3 (9), 827-832, 2013
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
A simple method for generating daily rainfall data
S Geng, FWTP de Vries, I Supit
Agricultural and Forest meteorology 36 (4), 363-376, 1986
A simple method to estimate global radiation
I Supit, RR Van Kappel
Solar Energy 63 (3), 147-160, 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
System description of the WOFOST 6.0 crop simulation model implemente in CGMS
I Supit, AA Hooijer, CA Van Diepen
Luxembourg (Luxembourg) Office for Official Publications of the European …, 1994
Assessing climate change effects on European crop yields using the Crop Growth Monitoring System and a weather generator
I Supit, CA Van Diepen, AJW De Wit, J Wolf, P Kabat, B Baruth, F Ludwig
Agricultural and Forest Meteorology 164, 96-111, 2012
Recent changes in the climatic yield potential of various crops in Europe
I Supit, CA Van Diepen, AJW De Wit, P Kabat, B Baruth, F Ludwig
Agricultural Systems 103 (9), 683-694, 2010
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
A regional implementation of WOFOST for calculating yield gaps of autumn-sown wheat across the European Union
H Boogaard, J Wolf, I Supit, S Niemeyer, M van Ittersum
Field Crops Research 143, 130-142, 2013
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
Mekong River flow and hydrological extremes under climate change
LP Hoang, H Lauri, M Kummu, J Koponen, MTH Van Vliet, I Supit, ...
Hydrology and Earth System Sciences 20 (7), 3027-3041, 2016
25 years of the WOFOST cropping systems model
A de Wit, H Boogaard, D Fumagalli, S Janssen, R Knapen, ...
Agricultural Systems 168, 154-167, 2019
System description of the WOFOST 6.0 crop simulation model implemented in CGMS, vol. 1: Theory and Algorithms
I Supit, AA Hooijer, CA Van Diepen
Joint Research Centre, Commission of the European Communities, EUR 15956, 146, 1994
Temperature and precipitation effects on wheat yield across a European transect: a crop model ensemble analysis using impact response surfaces
N Pirttioja, TR Carter, S Fronzek, M Bindi, H Hoffmann, T Palosuo, ...
Climate Research 65, 87-105, 2015
Predicting national wheat yields using a crop simulation and trend models
I Supit
Agricultural and Forest Meteorology 88 (1-4), 199-214, 1997
A potato model intercomparison across varying climates and productivity levels
DH Fleisher, B Condori, R Quiroz, A Alva, S Asseng, C Barreda, M Bindi, ...
Global change biology 23 (3), 1258-1281, 2017
Variability in carbon exchange of European croplands
EJ Moors, C Jacobs, W Jans, I Supit, WL Kutsch, C Bernhofer, P Béziat, ...
Agriculture, ecosystems & environment 139 (3), 325-335, 2010
Climate change and maize yield in southern Africa: what can farm management do?
J Rurinda, MT van Wijk, P Mapfumo, K Descheemaeker, I Supit, KE Giller
Global change biology 21 (12), 4588-4601, 2015
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Artikler 1–20