Performance of portfolios of climate smart agriculture practices in a rice-wheat system of western Indo-Gangetic plains

•Layering of climate smart agriculture practices (CSAPs) were evaluated in an irrigated rice-wheat (RW) system in Western IGP.•Adoption of portfolio of CSAPs has more adaptive capacity than single technology approach.•CSAPs with high intensity of adaptive measures (CSA-H) recorded 8 and 23% higher s...

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Published in:Agricultural water management 2018-04, Vol.202, p.122-133
Main Authors: Kakraliya, S.K., Jat, H.S., Singh, Ishwar, Sapkota, Tek B., Singh, Love K., Sutaliya, Jhabar M., Sharma, Parbodh C., Jat, R.D., Choudhary, Meena, Lopez-Ridaura, Santiago, Jat, M.L.
Format: Article
Language:English
Subjects:
Economic profitability
Energy efficiency
Global warming potential
Portfolio of management practices
Systems productivity
Water productivity
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Summary:•Layering of climate smart agriculture practices (CSAPs) were evaluated in an irrigated rice-wheat (RW) system in Western IGP.•Adoption of portfolio of CSAPs has more adaptive capacity than single technology approach.•CSAPs with high intensity of adaptive measures (CSA-H) recorded 8 and 23% higher system productivity and profitability, respectively compared to business as usual.•CSAPs reduce the environmental footprints by 40% compared to farmer’s practice.•Performance of portfolios of climate smart agriculture practices in a rice-wheat system of western Indo-Gangetic plains. Several resource use efficient technologies and practices have been developed and deployed to address the challenges related to natural resource degradation and climatic risks management in rice-wheat (RW) rotation of Indo-Gangetic Plains (IGP). However, the practices applied in isolation may not be effective as much as in combination due to changing input responses under varied weather abnormalities. Therefore, a multi-location farmer’s participatory strategic research was conducted to evaluate the effects of layering key technologies, practices and services in varied combinations and compared with business as usual (farmer’s practice) for productivity (crop, water and energy), profitability and global warming potential (GWP) in a RW system. Altogether, six scenarios were compared that includes; Farmer’s practice (FP); Improved FP (IFP) with low intensity of adaptive measures; IFP with high intensity of adaptive measures (IFP-AM); Climate smart agriculture (CSA) with low intensity of adaptive measures (CSA-L); CSA with medium intensity of adaptive measures (CSA-M); CSA with high intensity of adaptive measures (CSA-H). Results revealed that climate smart agricultural practice with high intensity of adaptive measures (CSA-H) recorded 7–9 and 19–26% higher system productivity and profitability, respectively compared to farmers’ practice in all the three years. CSAPs (mean of CSA-L, CSA-M and CSA-H) improved the system productivity and profitability by 6 and 19% (3 yrs’ mean) whereas, IFPs (mean of IFP and IFP-AM) by 2 and 5%, respectively compared to farmer’s practice (11.79 t ha−1 and USD 1833 ha−1). CSA with high (CSA-H) and medium (CSA-M) intensity of adaptive measures saved 17–30% of irrigation water and improved irrigation and total water productivity (WPI and WPI+R) by 29–54 and 21–38%, respectively compared to FP in the study years. Across the years, CSA-H improved the energy-use
ISSN:0378-3774
1873-2283
DOI:10.1016/j.agwat.2018.02.020