Journal of Water and Climate Change (Sep 2021)

Identifying most promising agronomic adaptation strategies to close rainfed rice yield gap in future: a model-based assessment

  • Subhankar Debnath,
  • Ashok Mishra,
  • D. R. Mailapalli,
  • N. S. Raghuwanshi

DOI
https://doi.org/10.2166/wcc.2021.094
Journal volume & issue
Vol. 12, no. 6
pp. 2854 – 2874

Abstract

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There is an increasing consensus that climate change may have a high negative impact on crop yield, and that it will affect farmers in developing and least developed counties the most. ‘Closing the yield gap’ could be one of the promising options to address the issue of yield improvement. Better understanding of adaptation strategies and implications of the adaptations in crop yield are required to close the yield gap. In this study, the effectiveness of agronomic adaptation options on the rainfed rice yield gap was evaluated for the baseline period (1981–2005) and two future periods (2016–2040 and 2026–2050) for India by using bias-corrected RegCM4 output and the Decision Support System for Agrotechnology Transfer (DSSAT) model. Results suggested that a combined adjustment of transplanting time (advancing by fortnight), crop spacing ((10 × 10) cm) and N-fertilizer application (140 kg/ha) was the best strategy as compared to the single adaptation option to close the yield gap under the climate change scenario. The strategy improved rice yield by 37.5–168.0% and reduced the average attainable yield gap among the cultivars from 0.74 to 0.16 t/ha under future climate projection. This study provides agronomic indications to rice growers and lays the basis for an economic analysis to support policy-makers in charge of promoting the sustainability of the rainfed rice-growing systems. HIGHLIGHTS The study assessed the rice yield gap in India by using the DSSAT model.; Equidistant quantile mapping technique is used for bias correction of RCM outputs.; The reduction of yield due to climate change is found to be the lowest for long duration cultivar (∼0.25 t/ha).; Combination of adaptation options improves rice yield by 37.5–168.0%.; It reduces the average attainable yield gap from 0.74 to 0.16 t/ha among cultivars in future.;

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