Increased use of irrigation and nitrogen (N) in rice and wheat would increase productivity. It would also enhance the emission of greenhouse gases from soil causing global warming and climate change. This study quantified the trade-offs between increased production with N fertilizer and irrigatio...
Bhatia, Arti
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Pathak, Himanshu
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Aggarwal, Pramod K.
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Jain, Niveta
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[Trade-off between productivity enhancement and global warming potential of rice and wheat in India]
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Trade-off between productivity enhancement and global warming potential of rice and wheat in India
The Rice-wheat (RW) cropping system is one of the major agricultural production systems in four Indo-Gangetic Plains (IGP) countries: India, Pakistan, Bangladesh and Nepal of South Asia covering about 32% of the total rice area and 42% of the total wheat area. The excessive utilization of natural...
Saharawat, Yashpal S.
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Ladha, Jagdish Kumar
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Pathak, Himanshu
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Gathala M
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Chaudhary, N.
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Jat, Mangi Lal
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[Simulation of resource-conserving technologies on productivity, income and greenhouse gas GHG emission in rice-wheat system]
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Simulation of resource-conserving technologies on productivity, income and greenhouse gas GHG emission in rice-wheat system
Increased temperature due to global warming may reduce pollen germination and induce spikelet sterility in rice crops. Anthesis is the most sensitive stage in rice and exposure to high temperature during this period may cause reduction in floral reproduction. Increased temperature will have diffe...
Chakrabarti, B.
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Aggarwal, Pramod K.
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Singh, S.D.
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Nagarajan S
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Pathak, Himanshu
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[Impact of high temperature on pollen germination and spikelet sterility in rice: comparison between basmati and non-basmati varieties]
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Impact of high temperature on pollen germination and spikelet sterility in rice: comparison between basmati and non-basmati varieties