Impact Assessment of Climate Change on Paddy Yield: A Case Study of Nepal Agriculture Research Council (NARC), Tarahara, Nepal

Authors

  • Yam K Rai Department of Mechanical Engineering, Pulchowk Campus, IOE
  • Bhakta B Ale Department of Mechanical Engineering, Pulchowk Campus, IOE
  • Jawed Alam Department of Agricultural Engineering, Purwanchal Campus, IOE

DOI:

https://doi.org/10.3126/jie.v8i3.5941

Keywords:

Climate change, DSSAT v4.0, CERES-Rice, rice yield.

Abstract

Climate change and global warming are burning issues, which significantly threat agriculture and global food security. Change in solar radiation, temperature and precipitation will influence the change in crop yields and hence economy of agriculture. It is possible to understand the phenomenon of climate change on crop production and to develop adaptation strategies for sustainability in food production, using a suitable crop simulation model. CERES-Rice model of DSSAT v4.0 was used to simulate the rice yield of the region under climate change scenarios using the historical weather data at Nepal Agriculture Research Council (NARC) Tarahara (1989-2008). The Crop Model was calibrated using the experimental crop data, climate data and soil data for two years (2000-2001) and was validated by using the data of the year 2002 at NARC Tarahara. In this study various scenarios were undertaken to analyze the rice yield. The change in values of weather parameters due to climate change and its effects on the rice yield were studied. It was observed that increase in maximum temperature up to 2°C and 1°C in minimum temperature have positive impact on rice yield but beyond that temperature it was observed negative impact in both cases of paddy production in ambient temperature. Similarly, it was observed that increased in mean temperature, have negative impacts on rice yield. The impact of solar radiation in rice yield was observed positive during the time of study period. Adjustments were made in the fertilizer rate, plant density per square meter, planting date and application of water rate to investigate suitable agronomic options for adaptation under the future climate change scenarios. Highest yield was obtained when the water application was increased up to 3 mm depth and nitrogen application rate was 140 kg/ha respectively.

DOI: http://dx.doi.org/10.3126/jie.v8i3.5941

JIE 2011; 8(3): 147-167

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How to Cite

Rai, Y. K., Ale, B. B., & Alam, J. (2012). Impact Assessment of Climate Change on Paddy Yield: A Case Study of Nepal Agriculture Research Council (NARC), Tarahara, Nepal. Journal of the Institute of Engineering, 8(3), 147–167. https://doi.org/10.3126/jie.v8i3.5941

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