Up a level |
McDermid, S P and Ruane, A C and Rosenzweig, C and Hudson, N I and Morales, M D and Agalawatte, P and Ahmad, S and Ahuja, L R and Amien, I and Anapalli, S S and Anothai, J and Asseng, S and Biggs, J and Bert, F and Bertuzzi, P and Bhatia, V S and Bindi, M and Broad, I and Cammarano, D and Carretero, R and Chattha, A A and Chung, U and Debats, S and Deligios, P and De Sanctis, G and Dhliwayo, T and Dumont, B and Estes, L and Ewert, F and Ferrise, R and Gaiser, T and Garcia, G and Gbegbelegbe, S and Geethalakshmi, V and Gerardeaux, E and Goldberg, R and Grant, B and Guevara, E and Hickman, J and Hoffmann, H and Huang, H and Hussain, J and Justino, F B and Karunaratne, A S and Koehler, A K and Kouakou, P K and Kumar, S N and Lakshmanan, A and Lieffering, M and Lin, X and Luo, Q and Magrin, G and Mancini, M and Marin, M R and Marta, A D and Masutomi, Y and Mavromatis, T and McLean, G and Meira, S and Mohanty, M and Moriondo, M and Nasim, W and Negm, L and Orlando, F and Orlandini, S and Ozturk, I and Soares Pinto, H M and Podesta, G and Qi, Z and Ramarohetra, J and ur Rahman, M H and Raynal, H and Rodriguez, G and Rötter, R and Sharda, V and Shuo, L and Smith, W and Snow, V and Soltani, A and Srinivas, K and Sultan, B and Swain, D K and Tao, F and Tesfaye, K and Travasso, M I and Trombi, G and Topaj, A and Vanuytrecht, E and Viscarra, F E and Aftab Wajid, S and Wang, E and Wang, H and Wang, J and Wijekoon, E and Byun-Woo, L and Xiaoguang, Y and Young, B H and Yun, J I and Zhao, Z and Zubair, L (2015) The AgMIP Coordinated Climate-Crop Modeling Project (C3MP): Methods and Protocols. In: Handbook of Climate Change and Agroecosystems: The Agricultural Model Intercomparison and Improvement Project (AgMIP) Integrated Crop and Economic Assessments, Part 2. ICP Series on Climate Change Impacts, Adaptation, and Mitigation: Volume 3, 1 . Imperial College Press, London, pp. 191-220. ISBN 978-1-78326-563-3
Zhuang, W and Chen, H and Yang, M and Wang, J and Pandey, M K and Zhang, C and Chang, W C and Zhang, L and Zhang, X and Tang, R and Garg, V and Wang, X and Tang, H and Chow, G N and Wang, J and Deng, Y and Wang, D and Khan, A W and Yang, Q and Cai, T and Bajaj, P and Wu, K and Guo, B and Zhang, X and Li, J and Liang, F and Hu, J and Liao, B and Liu, S and Chitikineni, A and Yan, H and Zheng, Y and Shan, S and Liu, Q and Xie, D and Wang, Z and Khan, S A and Ali, N and Zhao, C and Li, X and Luo, Z and Zhang, S and Zhuang, R and Peng, Z and Wang, S and Mamadou, G and Zhuang, Y and Zhao, Z and Yu, W and Xiong, F and Quan, W and Yuan, M and Li, Y and Zou, H and Xia, H and Zha, Li and Fan, J and Yu, J and Xie, W and Yuan, J and Chen, K and Zhao, S and Chu, W and Chen, Y and Sun, P and Meng, F and Zhuo, T and Zhao, Y and Li, C and He, G and Zhao, Y and Wang, C and Kavi Kishor, P B and Pan, R L and Paterson, A H and Wang, X and Ming, R and Varshney, R K (2019) The genome of cultivated peanut provides insight into legume karyotypes, polyploid evolution and crop domestication. Nature Genetics (TSI), 51 (5). pp. 865-876. ISSN 1061-4036