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Modeling a wheat-maize double cropping system in China using two plant growth modules in RZWQM

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  • Yu, Q.
  • Saseendran, S.A.
  • Ma, L.
  • Flerchinger, G.N.
  • Green, T.R.
  • Ahuja, L.R.

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  • Yu, Q. & Saseendran, S.A. & Ma, L. & Flerchinger, G.N. & Green, T.R. & Ahuja, L.R., 2006. "Modeling a wheat-maize double cropping system in China using two plant growth modules in RZWQM," Agricultural Systems, Elsevier, vol. 89(2-3), pages 457-477, September.
    • Handle: RePEc:eee:agisys:v:89:y:2006:i:2-3:p:457-477
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    1. Ma, L. & Hoogenboom, G. & Ahuja, L.R. & Ascough II, J.C. & Saseendran, S.A., 2006. "Evaluation of the RZWQM-CERES-Maize hybrid model for maize production," Agricultural Systems, Elsevier, vol. 87(3), pages 274-295, March.
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    Cited by:

    1. Xu, Jiatun & Cai, Huanjie & Wang, Xiaoyun & Ma, Chenguang & Lu, Yajun & Ding, Yibo & Wang, Xiaowen & Chen, Hui & Wang, Yunfei & Saddique, Qaisar, 2020. "Exploring optimal irrigation and nitrogen fertilization in a winter wheat-summer maize rotation system for improving crop yield and reducing water and nitrogen leaching," Agricultural Water Management, Elsevier, vol. 228(C).
    2. Iqbal, M. Anjum & Shen, Yanjun & Stricevic, Ruzica & Pei, Hongwei & Sun, Hongyoung & Amiri, Ebrahim & Penas, Angel & del Rio, Sara, 2014. "Evaluation of the FAO AquaCrop model for winter wheat on the North China Plain under deficit irrigation from field experiment to regional yield simulation," Agricultural Water Management, Elsevier, vol. 135(C), pages 61-72.
    3. Sun, Qinping & Kröbel, Roland & Müller, Torsten & Römheld, Volker & Cui, Zhenling & Zhang, Fusuo & Chen, Xinping, 2011. "Optimization of yield and water-use of different cropping systems for sustainable groundwater use in North China Plain," Agricultural Water Management, Elsevier, vol. 98(5), pages 808-814, March.
    4. Wu, Renye & Lawes, Roger & Oliver, Yvette & Fletcher, Andrew & Chen, Chao, 2019. "How well do we need to estimate plant-available water capacity to simulate water-limited yield potential?," Agricultural Water Management, Elsevier, vol. 212(C), pages 441-447.
    5. Fang, Q.X. & Ma, L. & Green, T.R. & Yu, Q. & Wang, T.D. & Ahuja, L.R., 2010. "Water resources and water use efficiency in the North China Plain: Current status and agronomic management options," Agricultural Water Management, Elsevier, vol. 97(8), pages 1102-1116, August.
    6. Li, Zhoujing & Hu, Kelin & Li, Baoguo & He, Mingrong & Zhang, Jiwang, 2015. "Evaluation of water and nitrogen use efficiencies in a double cropping system under different integrated management practices based on a model approach," Agricultural Water Management, Elsevier, vol. 159(C), pages 19-34.
    7. Movedi, Ermes & Valiante, Daniele & Colosio, Alessandro & Corengia, Luca & Cossa, Stefano & Confalonieri, Roberto, 2022. "A new approach for modeling crop-weed interaction targeting management support in operational contexts: A case study on the rice weeds barnyardgrass and red rice," Ecological Modelling, Elsevier, vol. 463(C).
    8. Fang, Q. & Ma, L. & Yu, Q. & Ahuja, L.R. & Malone, R.W. & Hoogenboom, G., 2010. "Irrigation strategies to improve the water use efficiency of wheat-maize double cropping systems in North China Plain," Agricultural Water Management, Elsevier, vol. 97(8), pages 1165-1174, August.
    9. Stricevic, Ruzica & Cosic, Marija & Djurovic, Nevenka & Pejic, Borivoj & Maksimovic, Livija, 2011. "Assessment of the FAO AquaCrop model in the simulation of rainfed and supplementally irrigated maize, sugar beet and sunflower," Agricultural Water Management, Elsevier, vol. 98(10), pages 1615-1621, August.
    10. Wang, Xiangping & Huang, Guanhua & Yang, Jingsong & Huang, Quanzhong & Liu, Haijun & Yu, Lipeng, 2015. "An assessment of irrigation practices: Sprinkler irrigation of winter wheat in the North China Plain," Agricultural Water Management, Elsevier, vol. 159(C), pages 197-208.
    11. Zhang, Chao & Liu, Jiangui & Shang, Jiali & Dong, Taifeng & Tang, Min & Feng, Shaoyuan & Cai, Huanjie, 2021. "Improving winter wheat biomass and evapotranspiration simulation by assimilating leaf area index from spectral information into a crop growth model," Agricultural Water Management, Elsevier, vol. 255(C).
    12. Ramos, T.B. & Simionesei, L. & Jauch, E. & Almeida, C. & Neves, R., 2017. "Modelling soil water and maize growth dynamics influenced by shallow groundwater conditions in the Sorraia Valley region, Portugal," Agricultural Water Management, Elsevier, vol. 185(C), pages 27-42.
    13. Zhong, Honglin & Sun, Laixiang & Fischer, Günther & Tian, Zhan & van Velthuizen, Harrij & Liang, Zhuoran, 2017. "Mission Impossible? Maintaining regional grain production level and recovering local groundwater table by cropping system adaptation across the North China Plain," Agricultural Water Management, Elsevier, vol. 193(C), pages 1-12.
    14. Kuang, Naikun & Ma, Yuzhao & Hong, Shengzhe & Jiao, Fengli & Liu, Changyuan & Li, Quanqi & Han, Huifang, 2021. "Simulation of soil moisture dynamics, evapotranspiration, and water drainage of summer maize in response to different depths of subsoiling with RZWQM2," Agricultural Water Management, Elsevier, vol. 249(C).
    15. Wang, Xiangping & Huang, Guanhua, 2008. "Evaluation on the irrigation and fertilization management practices under the application of treated sewage water in Beijing, China," Agricultural Water Management, Elsevier, vol. 95(9), pages 1011-1027, September.

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