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Sustainable Water Harvesting for Improving Food Security and Livelihoods of Smallholders under Different Climatic Conditions of India

Authors :
Singh, Pankaj Panwar
Deepesh Machiwal
Vandita Kumari
Sanjay Kumar
Pradeep Dogra
S. Manivannan
P. R. Bhatnagar
J. M. S. Tomar
Rajesh Kaushal
Dinesh Jinger
Pradip Kumar Sarkar
L. K. Baishya
Ningthoujam Peetambari Devi
Vijaysinha Kakade
Gaurav Singh
Nongmaithem Raju Singh
S. Gojendro Singh
Abhishek Patel
P. S. Renjith
Sharmistha Pal
V. K. Bhatt
N. K. Sharma
O. P. S. Khola
Sheetal K. Radhakrishnan
V. Kasthuri Thilagam
P. L. Bhutia
Kouberi Nath
Rekha Das
Dhiman Daschaudhuri
Arun Kumar
G. S. Panwar
S. V. Dwivedi
Sanjeev Kumar
B. K.
Source :
Sustainability; Volume 15; Issue 12; Pages: 9230
Publication Year :
2023
Publisher :
Multidisciplinary Digital Publishing Institute, 2023.

Abstract

In India, the per capita availability of water is projected to be 1465 m3 and 1235 m3 by the years 2025 and 2050, respectively, and hence, India would be a water-stressed country as per the United Nations’ standard of less than 1700 m3 per capita water availability. India is predominantly an agricultural-dominant country. Rainfed agriculture in the country contributes 40% of food grain production and supports half of the human population and two-thirds of the livestock population. The country has 15 different agro-climatic zones, and each agro-climatic region has its own constraints of water availability and management along with the potential for their optimum utilization. Such situations warrant the formulation of regional-level strategies. Efforts were made to integrate and evaluate the feasibility of water harvesting and its utilization at twelve different sites representing six different agro-climatic conditions spanning pan India. It was found that water harvesting through tanks/ponds is a feasible approach and can increase the crop production as well as diversification. The results reveal that the range of crop diversification index increased from 0.49–0.85 to 0.65–0.98; the crop productivity index increased from 0.28–0.66 to 0.66–0.90; the cultivated land utilization index increased from 0.05–0.69 to 0.34–0.84; and the crop water productivity index increased from 0.20–0.51 to 0.56–0.96, among other production and diversification indices, due to additional water availability through rainwater harvesting intervention. Moreover, the gross return increased from INR 43,768–704,356 to INR 220,840–1,469,108 ha−1, representing a 108 to 400% increase in the returns due to the availability of water. The findings of this study suggest that the water harvesting in small ponds/tanks is economical and feasible, requires less technological intervention, and increases crop diversification in all the studied agro-climatic conditions, and hence, the same needs to be encouraged in the rainfed areas of the country.

Details

Language :
English
ISSN :
20711050
Database :
OpenAIRE
Journal :
Sustainability; Volume 15; Issue 12; Pages: 9230
Accession number :
edsair.multidiscipl..7e070de0035196c8a559b9d65b8049eb
Full Text :
https://doi.org/10.3390/su15129230