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2. Adoption of conservation agriculture-based tillage practices in the rice-maize systems in Bangladesh. (2021). Akter, Shaheen ; Hassan, Mustafa Kamrul ; Gathala, Mahesh K ; Rahman, Mahbubur ; Timsina, Jagadish ; Ghosh, Anup Kumar ; Islam, Saiful.
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3. Alternate furrow irrigation can maintain grain yield and nutrient content, and increase crop water productivity in dry season maize in sub-tropical climate of South Asia. (2020). Alam, Md Khairul ; Bazzaz, Mahfuz ; Sarker, Khokan Kumer ; Timsina, Jagadish ; Loescher, Henry W ; Hossain, Akbar ; Biswas, Sujit Kumar ; Malone, Sparkle L.
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4. Can Bangladesh produce enough cereals to meet future demand?. (2018). van Ittersum, M K ; Wolf, J ; van Wart, J ; Timsina, J ; Rashid, H ; Hossain, A ; van Bussel, L. G. J., ; Islam, S ; Grassini, P ; Guilpart, N.
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5. Actual evapotranspiration and dual crop coefficients for dry-seeded rice and hybrid maize grown with overhead sprinkler irrigation. (2014). Haidar, Sam ; Buresh, Roland J. ; Wassmann, Reiner ; Sandro, Joseph M. ; Quilty, James R. ; Alberto, Ma. Carmelita R., ; Correa, Teodoro Q..
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6. Adoption of conservation agriculture technology in diversified systems and impact on productivity: evidence from three districts in Bangladesh. (2014). Akter, Shaheen ; Gathala, Mahesh Kumar.
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2. Modeling nitrogen dynamics and biomass production in rice paddy fields of cold regions with the ORYZA-N model. (2023). Huo, Zailin ; Gao, YA ; Xu, XU ; Ramos, Tiago B ; Huang, Guanhua ; Sun, Chen.
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3. Multi-objective decision-making for efficient utilization of water and fertilizer in paddy fields: A case study in Southern China. (2023). He, Tianzhong ; Yang, Peng ; Zhang, Lei ; Hua, Keji ; Liao, Bin.
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4. Revisiting yield gaps and the scope for sustainable intensification for irrigated lowland rice in Southeast Asia. (2022). Pustika, Arlyna Budi ; Julia, Arelene ; Ruth, Anny ; Kodama, Wataru ; de Guia, Annalyn H ; Pede, Valerien O ; Radanielson, Ando M ; Minh, Pham Thi ; Stuart, Alexander M ; Argosubekti, Nuning ; Silva, Joo Vasco ; Singleton, Grant R ; Vithoonjit, Duangporn ; Duarte, Ary.
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5. Topdressing Nitrogen Demand Prediction in Rice Crop Using Machine Learning Systems. (2021). Aschonitis, Vassilis ; Mpetas, Stelios ; Mourelatos, Spiros ; Iatrou, Miltiadis ; Kravvas, Kostas ; Pitsiorlas, Ioannis ; Raptis, Iason ; Karydas, Christos.
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6. A spatio-temporal analysis of rice production in Tonle Sap floodplains in response to changing hydrology and climate. (2021). Marcaida, Manuel ; Hok, Lyda ; Holtgrieve, Gordon ; Hossain, Faisal ; Muth, E-Nieng ; Cheythyrith, Chou ; Farhat, Yasmine ; Kim, Soo-Hyung ; Neumann, Rebecca.
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7. Assessing the effects of management and hydro-edaphic conditions on rice in contrasting East African wetlands using experimental and modelling approaches. (2021). Becker, Mathias ; Groteluschen, Kristina ; Senthilkumar, Kalimuthu ; Kwesiga, Julius ; Gaydon, Donald S ; Whitbread, Anthony M ; Ziegler, Susanne ; Langensiepen, Matthias.
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8. Parameterization and modeling of paddy rice (Oryza sativa L. ssp. japonica) growth and water use in cold regions: Yield and water-saving analysis. (2021). Huo, Zailin ; Gao, YA ; Xu, XU ; Ding, Shibo ; Huang, Guanhua ; Sun, Chen.
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9. Improved nutrient management in cereals using Nutrient Expert and machine learning tools: Productivity, profitability and nutrient use efficiency. (2021). Islam, Saiful ; Neupane, Ram Krishna ; Amgain, Lal Prasad ; Devkota, Krishna Prasad ; Majumdar, Kaushik ; Timsina, Jagadish ; Singh, Vinod K ; Dutta, Sudarshan ; Bishta, Sudarshan ; Chakraborty, Somsubhra.
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10. Adaptation of paddy rice in China to climate change: The effects of shifting sowing date on yield and irrigation water requirement. (2020). Luo, Yufeng ; Ding, Yimin ; Wang, Weiguang ; Zhuang, Qianlai.
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11. A remote sensing-based scheme to improve regional crop model calibration at sub-model component level. (2020). Zhang, Zhao ; Chen, YI.
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12. Effect of soil and water management practices on crop productivity in tropical inland valley swamps. (2019). , Richard ; Blango, Mohamed M ; Moiwo, Juana P.
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13. Modelling percolation and lateral seepage in a paddy field-bund landscape with a shallow groundwater table. (2019). Yang, Xia ; Gu, Wenquan ; Chen, Shu ; Fang, Longzhang ; Shao, Dongguo ; Xu, Baoli.
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14. Can Bangladesh produce enough cereals to meet future demand?. (2018). van Ittersum, M K ; Wolf, J ; van Wart, J ; Timsina, J ; Rashid, H ; Hossain, A ; van Bussel, L. G. J., ; Islam, S ; Grassini, P ; Guilpart, N.
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15. Reducing vulnerability of rainfed agriculture through seasonal climate predictions: A case study on the rainfed rice production in Southeast Asia. (2018). Zaini, Zulkifli ; Rustini, Sri ; Setyanto, Prihasto ; Llorca, Lizzida ; Hayashi, Keiichi.
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16. Evaluation of soil water percolation under different irrigation practices, antecedent moisture and groundwater depths in paddy fields. (2017). Tan, Xuezhi ; Yang, Xia ; Gu, Wenquan ; Li, Haoxin ; Shao, Dongguo ; Xu, Baoli.
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17. Soil water and salt affect cotton (Gossypium hirsutum L.) photosynthesis, yield and fiber quality in coastal saline soil. (2017). Zhou, Zhiguo ; Meng, Yali ; Zahoor, Rizwan ; Zhang, HE ; Li, Duansheng ; Chen, Binglin.
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18. Spatial modelling of rice yield losses in Tanzania due to bacterial leaf blight and leaf blast in a changing climate. (2016). Zwart, Sander J ; Duku, Confidence ; Sparks, Adam H.
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19. A model to simulate the dynamics of carbohydrate remobilization during rice grain filling. (2016). Stella, Tommaso ; Bregaglio, Simone ; Confalonieri, Roberto.
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20. Drought stress impacts of climate change on rainfed rice in South Asia. (2015). Li, Tao ; Angeles, Olivyn ; Marcaida, Manuel ; Manalo, Emmali ; Radanielson, Ando .
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21. Improved Climate Risk Simulations for Rice in Arid Environments. (2015). Saito, Kazuki ; Yoshida, Hiroe ; de Vries, Michiel E.
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22. Analysing yield trends in the South African sugar industry. (2015). Jones, M R ; Singels, A.
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23. Assimilating remote sensing information into a coupled hydrology-crop growth model to estimate regional maize yield in arid regions. (2014). Li, Yan ; Zhou, Qingguo ; Wang, Jing ; Zhang, Gaofeng ; Chen, Chong.
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24. Responses of rice yield, irrigation water requirement and water use efficiency to climate change in China: Historical simulation and future projections. (2014). Zhang, Yiwei ; Jiao, Xiyun ; Wang, Weiguang ; Shao, Quanxi ; Xu, Junzeng ; Yu, Zhongbo ; Luo, Yufeng.
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25. Simulating soil water regime in lowland paddy fields under different water managements using HYDRUS-1D. (2014). Tan, Xuezhi ; Liu, Huanhuan ; Shao, Dongguo.
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26. Sustainable rice production in African inland valleys: Seizing regional potentials through local approaches. (2014). Wopereis, Marco C. S., ; Dogbe, Wilson ; Zwart, Sander J. ; Kiepe, Paul ; Narteh, Lawrence T. ; Rodenburg, Jonne.
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27. Analysis of the spatial variation in the net ecosystem production of rice paddy fields using the diagnostic biosphere model, BEAMS. (2012). Saigusa, Nobuko ; Mano, Masayoshi ; Nasahara, Kenlo N ; Ono, Keisuke ; Murakami, Kazutaka ; Miyata, Akira ; Setoyama, Yuko ; Sasai, Takahiro ; Kato, Soushi ; Nakai, Saori ; Nemani, Ramakrishna R.
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28. Rice-maize systems in Asia: current situation and potential. (2011). Buresh, R. J. ; Dixon, J. ; Dobermann, A..
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30. Modeling biomass, nitrogen and water dynamics in rice-wheat rotations. (2010). Jing, QI ; Hengsdijk, Huib ; van Keulen, Herman .
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31. Yield gap of rainfed rice in farmers fields in Central Java, Indonesia. (2010). Tuong, T. P. ; Spiertz, J. H. J., ; Van Keulen, H. ; Suganda, H. ; Bouman, B. A. M., ; Boling, A. A..
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37. A physiological production model for cocoa (Theobroma cacao): model presentation, validation and application. (2005). Gerritsma, Wouter ; Zuidema, Pieter A. ; Leffelaar, Peter A. ; Mommer, Liesje ; Anten, Niels P. R., .
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