IGSNRR OpenIR

Browse/Search Results:  1-8 of 8 Help

Selected(0)Clear Items/Page:    Sort:
Climate change impact and adaptation for wheat protein 期刊论文
GLOBAL CHANGE BIOLOGY, 2019, 卷号: 25, 期号: 1, 页码: 155-173
Authors:  Asseng, Senthold;  Martre, Pierre;  Maiorano, Andrea;  Roetter, Reimund P.;  O'Leary, Garry J.;  Fitzgerald, Glenn J.;  Girousse, Christine;  Motzo, Rosella;  Giunta, Francesco;  Babar, M. Ali;  Reynolds, Matthew P.;  Kheir, Ahmed M. S.;  Thorburn, Peter J.;  Waha, Katharina;  Ruane, Alex C.;  Aggarwal, Pramod K.;  Ahmed, Mukhtar;  Balkovic, Juraj;  Basso, Bruno;  Biernath, Christian;  Bindi, Marco;  Cammarano, Davide;  Challinor, Andrew J.;  De Sanctis, Giacomo;  Dumont, Benjamin;  Rezaei, Ehsan Eyshi;  Fereres, Elias;  Ferrise, Roberto;  Garcia-Vila, Margarita;  Gayler, Sebastian;  Gao, Yujing;  Horan, Heidi;  Hoogenboom, Gerrit;  Izaurralde, R. Cesar;  Jabloun, Mohamed;  Jones, Curtis D.;  Kassie, Belay T.;  Kersebaum, Kurt-Christian;  Klein, Christian;  Koehler, Ann-Kristin;  Liu, Bing;  Minoli, Sara;  San Martin, Manuel Montesino;  Mueller, Christoph;  Kumar, Soora Naresh;  Nendel, Claas;  Olesen, Jorgen Eivind;  Palosuo, Taru;  Porter, John R.;  Priesack, Eckart;  Ripoche, Dominique;  Semenov, Mikhail A.;  Stockle, Claudio;  Stratonovitch, Pierre;  Streck, Thilo;  Supit, Iwan;  Tao, Fulu;  Van der Velde, Marijn;  Wallach, Daniel;  Wang, Enli;  Webber, Heidi;  Wolf, Joost;  Xiao, Liujun;  Zhang, Zhao;  Zhao, Zhigan;  Zhu, Yan;  Ewert, Frank
Favorite  |  View/Download:31/0  |  Submit date:2019/05/23
climate change adaptation  climate change impact  food security  grain protein  wheat  
How does inter-annual variability of attainable yield affect the magnitude of yield gaps for wheat and maize? An analysis at ten sites 期刊论文
AGRICULTURAL SYSTEMS, 2018, 卷号: 159, 页码: 199-208
Authors:  Hoffmann, M. P.;  Haakana, M.;  Asseng, S.;  Hohn, J. G.;  Palosuo, T.;  Ruiz-Ramos, M.;  Fronzek, S.;  Ewert, F.;  Gaiser, T.;  Kassie, B. T.;  Paff, K.;  Rezaei, E. E.;  Rodriguez, A.;  Semenov, M.;  Srivastava, A. K.;  Stratonovitch, P.;  Tao, F.;  Chen, Y.;  Roetter, R. P.
Favorite  |  View/Download:10/0  |  Submit date:2019/05/30
Inter-annual yield variability  Yield gap analysis  Wheat  Maize  Climate-induced risk  
Multi-wheat-model ensemble responses to interannual climate variability SCI/SSCI论文
2016
Authors:  Ruane A. C.;  Hudson, N. I.;  Asseng, S.;  Camarrano, D.;  Ewert, F.;  Martre, P.;  Boote, K. J.;  Thorburn, P. J.;  Aggarwal, P. K.;  Angulo, C.;  Basso, B.;  Bertuzzi, P.;  Biernath, C.;  Brisson, N.;  Challinor, A. J.;  Doltra, J.;  Gayler, S.;  Goldberg, R.;  Grant, R. F.;  Heng, L.;  Hooker, J.;  Hunt, L. A.;  Ingwersen, J.;  Izaurralde, R. C.;  Kersebaum, K. C.;  Kumar, S. N.;  Muller, C.;  Nendel, C.;  O'leary, G.;  Olesen, J. E.;  Osborne, T. M.;  Palosuo, T.;  Priesack, E.;  Ripoche, D.;  Rotter, R. P.;  Semenov, M. A.;  Shcherbak, I.;  Steduto, P.;  Stockle, C. O.;  Stratonovitch, P.;  Streck, T.;  Supit, I.;  Tao, F. L.;  Travasso, M.;  Waha, K.;  Wallach, D.;  White, J. W.;  Wolf, J.
View  |  Adobe PDF(2859Kb)  |  Favorite  |  View/Download:58/14  |  Submit date:2017/11/09
Crop modeling  Uncertainty  Multi-model ensemble  Wheat  AgMIP  Climate  impacts  Temperature  Precipitation  lnterannual variability  simulation-model  crop model  nitrogen dynamics  winter-wheat  large-area  systems simulation  farming systems  yield response  growth  water  
Uncertainty of wheat water use: Simulated patterns and sensitivity to temperature and CO2 SCI/SSCI论文
2016
Authors:  Cammarano D.;  Rotter, R. P.;  Asseng, S.;  Ewert, F.;  Wallach, D.;  Martre, P.;  Hatfield, J. L.;  Jones, J. W.;  Rosenzweig, C.;  Ruane, A. C.;  Boote, K. J.;  Thorburn, P. J.;  Kersebaum, K. C.;  Aggarwal, P. K.;  Angulo, C.;  Basso, B.;  Bertuzzi, P.;  Biernath, C.;  Brisson, N.;  Challinor, A. J.;  Doltra, J.;  Gayler, S.;  Goldberg, R.;  Heng, L.;  Hooker, J.;  Hunt, L. A.;  Ingwersen, J.;  Izaurralde, R. C.;  Muller, C.;  Kumar, S. N.;  Nendel, C.;  O'leary, G. J.;  Olesen, J. E.;  Osborne, T. M.;  Palosuo, T.;  Priesack, E.;  Ripoche, D.;  Semenov, M. A.;  Shcherbak, I.;  Steduto, P.;  Stockle, C. O.;  Stratonovitch, P.;  Streck, T.;  Supit, I.;  Tao, F.;  Travasso, M.;  Waha, K.;  White, J. W.;  Wolf, J.
View  |  Adobe PDF(4506Kb)  |  Favorite  |  View/Download:32/9  |  Submit date:2017/11/09
Multi-model simulation  Transpiration efficiency  Water use  Uncertainty  Sensitivity  climate-change  use efficiency  crop yield  potential  evapotranspiration  atmospheric co2  food security  elevated co2  impacts  productivity  models  
Multimodel ensembles of wheat growth: many models are better than one SCI/SSCI论文
2015
Authors:  Martre P.;  Wallach, D.;  Asseng, S.;  Ewert, F.;  Jones, J. W.;  Rotter, R. P.;  Boote, K. J.;  Ruane, A. C.;  Thorburn, P. J.;  Cammarano, D.;  Hatfield, J. L.;  Rosenzweig, C.;  Aggarwal, P. K.;  Angulo, C.;  Basso, B.;  Bertuzzi, P.;  Biernath, C.;  Brisson, N.;  Challinor, A. J.;  Doltra, J.;  Gayler, S.;  Goldberg, R.;  Grant, R. F.;  Heng, L.;  Hooker, J.;  Hunt, L. A.;  Ingwersen, J.;  Izaurralde, R. C.;  Kersebaum, K. C.;  Muller, C.;  Kumar, S. N.;  Nendel, C.;  O'leary, G.;  Olesen, J. E.;  Osborne, T. M.;  Palosuo, T.;  Priesack, E.;  Ripoche, D.;  Semenov, M. A.;  Shcherbak, I.;  Steduto, P.;  Stockle, C. O.;  Stratonovitch, P.;  Streck, T.;  Supit, I.;  Tao, F. L.;  Travasso, M.;  Waha, K.;  White, J. W.;  Wolf, J.
Adobe PDF(468Kb)  |  Favorite  |  View/Download:143/7  |  Submit date:2015/12/09
Ecophysiological Model  Ensemble Modeling  Model Intercomparison  Process-based Model  Uncertainty  Wheat (Triticum Aestivum L.)  Climate-change  Crop Production  Impacts  Yield  Simulations  Calibration  Australia  Billion  Europe  Grain  
Rising temperatures reduce global wheat production SCI/SSCI论文
2015
Authors:  Asseng S.;  Ewert, F.;  Martre, P.;  Rotter, R. P.;  Lobell, D. B.;  Cammarano, D.;  Kimball, B. A.;  Ottman, M. J.;  Wall, G. W.;  White, J. W.;  Reynolds, M. P.;  Alderman, P. D.;  Prasad, P. V. V.;  Aggarwal, P. K.;  Anothai, J.;  Basso, B.;  Biernath, C.;  Challinor, A. J.;  De Sanctis, G.;  Doltra, J.;  Fereres, E.;  Garcia-Vile, M.;  Gayler, S.;  Hoogenboom, G.;  Hunt, L. A.;  Izaurralde, R. C.;  Jabloun, M.;  Jones, C. D.;  Kersebaum, K. C.;  Koehler, A. K.;  Muller, C.;  Kumar, S. N.;  Nendel, C.;  O'leary, G.;  Olesen, J. E.;  Palosuo, T.;  Priesack, E.;  Rezaei, E. E.;  Ruane, A. C.;  Semenov, M. A.;  Shcherbak, I.;  Stockle, C.;  Stratonovitch, P.;  Streck, T.;  Supit, I.;  Tao, F.;  Thorburn, P. J.;  Waha, K.;  Wang, E.;  Wallach, D.;  Wolf, I.;  Zhao, Z.;  Zhu, Y.
Adobe PDF(3364Kb)  |  Favorite  |  View/Download:226/65  |  Submit date:2015/12/09
Climate-change  Spring Wheat  Dryland Wheat  Yield  Growth  Drought  Heat  Co2  Agriculture  Adaptation  
Quantifying the interactive impacts of global dimming and warming on wheat yield and water use in China SCI/SSCI论文
2013
Authors:  Yang X. Y.;  Asseng S.;  Wong M. T. F.;  Yu Q.;  Li J.;  Liu E. M.
Adobe PDF(1858Kb)  |  Favorite  |  View/Download:78/26  |  Submit date:2014/12/24
Solar Radiation  Wheat Yield  Evapotranspiration  Water Use Efficiency  Apsim-nwheat  Solar-radiation  Use Efficiency  Pan Evaporation  Rice Production  Winter-wheat  Model  Simulation  Nitrogen  Climate  Systems  
Uncertainty in simulating wheat yields under climate change SCI/SSCI论文
2013
Authors:  Asseng S.;  Ewert F.;  Rosenzweig C.;  Jones J. W.;  Hatfield J. L.;  Ruane A. C.;  Boote K. J.;  Thorburn P. J.;  Rotter R. P.;  Cammarano D.;  Brisson N.;  Basso B.;  Martre P.;  Aggarwal P. K.;  Angulo C.;  Bertuzzi P.;  Biernath C.;  Challinor A. J.;  Doltra J.;  Gayler S.;  Goldberg R.;  Grant R.;  Heng L.;  Hooker J.;  Hunt L. A.;  Ingwersen J.;  Izaurralde R. C.;  Kersebaum K. C.;  Muller C.;  Kumar S. N.;  Nendel C.;  O'leary G.;  Olesen J. E.;  Osborne T. M.;  Palosuo T.;  Priesack E.;  Ripoche D.;  Semenov M. A.;  Shcherbak I.;  Steduto P.;  Stockle C.;  Stratonovitch P.;  Streck T.;  Supit I.;  Tao F.;  Travasso M.;  Waha K.;  Wallach D.;  White J. W.;  Williams J. R.;  Wolf J.
Adobe PDF(610Kb)  |  Favorite  |  View/Download:97/24  |  Submit date:2014/12/24
Crop Production  Models  Food  Co2  Temperature  Projections  Adaptation  Scenarios  Ensemble  Impacts