Climate Smart Irrigation Practices for Improving Water Productivity in India: A Comprehensive Review

Kumar, Sandeep and Yadav, Arvind and Kumar, Avaneesh and Hasanain, Mohammad and Shankar, Kripa and Karan, Shyam and Rawat, Satyam and Sinha, Alok and Kumar, Vipin and Gairola, Ananaya and Prajapati, Sunil Kumar and Dayal, Parmeswar (2023) Climate Smart Irrigation Practices for Improving Water Productivity in India: A Comprehensive Review. International Journal of Environment and Climate Change, 13 (12). pp. 333-348. ISSN 2581-8627

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Abstract

India, supporting 17% of the global population, from limited land (2.4% of the world's total) and freshwater resources (4%), faces severe water scarcity issues. The country experiences heightened challenges due to a monsoon climate leading to floods and droughts. Irrigation efficiency in India is 35-40% and irrigated area ~48.9%. To meet the demands of a large or growing population in limited land and water resources, climate-smart irrigation practices (CSIPs) are imperative. These practices not only increase yield but also precisely supply water, reduce water application volume, and enhance soil health under changing climate conditions. Precision water management technologies includes; advanced agro-techniques, micro-irrigation, conservation agriculture, crop diversification, integrated farming systems, and water harvesting. Micro-irrigation, encompassing drip and sprinkler systems, emerges as a critical solution for efficient water use. Techniques like Surface Drip Irrigation and Sub-surface Drip Irrigation (SSDI) not only save water but also enhance nutrient transport and reduce labor costs. The automation of micro-irrigation through sensors and wireless communication revolutionizes traditional practices, ensuring precise water management and boosting agricultural productivity. In addition, advanced agro-techniques, including laser land leveling, furrow-irrigated raised beds, aerobic rice cultivation, system of rice intensification, ground cover cum rice production system and Saguna rice technique have good potential to save water and improve water productivity. Implementing these advanced agro-techniques not only conserves water but also contributes to sustainable agriculture by improving overall water productivity, reducing environmental impact, and enhancing crop productivity. The integration of conservation agriculture (minimum soil disturbance, crop residue cover and crop diversification), integrated farming systems (combine diverse agricultural activities synergistically), and water harvesting is imperative for sustainable water management. This review paper systematically compiles climate-smart irrigation practices, including precision water management, combined with conservation agriculture, crop diversification, integrated farming systems, and water harvesting. This review paper offers researchers a comprehensive understanding of different CSIPs, assessing their impact on water conservation, increased crop and water productivity, and sustainability amid climate change. Farmers can gain practical understandings of CSIPs, while policymakers obtain essential information for addressing national water mission goals.

Item Type: Article
Subjects: GO for STM > Geological Science
Depositing User: Unnamed user with email support@goforstm.com
Date Deposited: 21 Dec 2023 07:48
Last Modified: 21 Dec 2023 07:48
URI: http://archive.article4submit.com/id/eprint/2543

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