Assessment of impact of climate change on potato and potential adaptation gains in the Indo-Gangetic Plains of India

Document Type : Research Paper

Authors

1 Centre for Environment Science and Climate Resilient Agriculture, Indian Agricultural Research Institute, New Delhi 110012.

2 Central Potato Research Institute, Shimla, India

3 Centre for Environment Science and Climate Resilient Agriculture, Indian Agricultural Research Institute, New Delhi 110012

4 Department of Remote Sensing, Banasthali University, Rajasthan, India.

5 Climate Change and Food Security, CGIAR Challenge Programme, International Water Management Institute, New Delhi, India.

Abstract

India is the second largest producer of potato in the world. The Indo-Gangetic
plains (IGP) is the main potato growing region accounting for almost 85% of the
1.8 Mha under the crop in India where it is grown as an irrigated crop during the
winter season. Since IGP is in sub-tropical plains, duration of the thermally suitable
window is the main determinant limiting yields. Hence the impact of climate
change on potato in the IGP was assessed using MIROC HI.3.2 A1b and B1,
PRECIS A1b, A2, B2 scenarios and estimated the potential adaptation gains. The
potato crop duration in the IGP is projected to decrease due to climate change. The
evapotranspiration (ET) is projected to increase while the water use efficiency
(WUE) for potato yield is projected to decline in future climates as a consequence
of low threshold temperatures for decline in WUE and yield than the ET. Results
indicate that the upper threshold for ET decrease is ~23 oC while that for WUE is
15 oC. The optimal temperatures for tuber yield is ~17 oC and thus the reduction in
WUE in future climates is discernable. Climate change is projected to reduce
potato yields by ~2.5, ~6 and ~11% in the IGP region in 2020 (2010-2039), 2050
(2040-2069) and 2080 (2070-2099) time periods. Change in planting time is the
single most important adaptation option which may lead to yield gains by ~6% in
2020 and its combination with improved variety or additional nitrogen may be required to adapt to climate change leading to positive gains by ~8% in 2020 and
by ~5% even in 2050. However, in 2080 adoption of all the three adaptation
strategies may be needed for positive gains. Intra-regional differences in the impact
of climate change and adaptation gains are projected; positive impact in northwestern IGP, gains in Central IGP with adaptation and yield loss in eastern IGP
even with adaptation.


Keywords