The water footprint of Milk production in 2022 in India is more than half that of total water required for irrigation in 2025. Isn’t it something alarming for all stakeholders to find ways to create paradigm shift in efficiency and sustainability of dairying in our country ?
Following my recent article on the five critical areas driving the Meta crisis in the dairy industry, I decided to delve deeper into the water footprint of the dairy sector. Water and climate are inextricably linked, with the saying “Water is Climate and Climate is Water” capturing this connection. I recently encountered a compelling research study titled “Water Requirement Estimates of Feed and Fodder Production for Indian Livestock vis-à-vis Livestock Water Productivity,” (Sultan Singh et al -IGFRI, Jhansi, UP) which sheds light on this crucial aspect.
As per the research paper, the water required for feed production constitutes the largest part of livestock water needs and significantly impacts livestock water productivity. Producing one kilogram of dry matter (DM) for feed ranges from 267 liters (sorghum) to 713.3 liters (lucerne), 1,000 liters (linseed) to 2,000 liters (soybean), and 690 liters (maize grain) to 850 liters (oat grain). The total water requirement for drinking, washing and cleaning livestock in 2003 and 2010 was 16.30 and 16.15 million cubic meters (MCM), respectively, with cattle needing the most (10.11 and 9.51 MCM).Water for drinking and washing livestock is minimal (3.6%) compared to feed production.
Projected water needs for green fodder and concentrate in 2015, 2020, and 2025 are 151.72, 156.83, and 161.81 billion cubic meters (BCM) for fodder and 142.76, 157.67, and 172.04 BCM for concentrate. Livestock water productivity for milk price in india ranges from 475 to 3,751 liters per kilogram, while meat requires 8,215 to 9,680 liters per kilogram.
Water Footprint of milk
As per multiple sources, the average water footprint of milk in India is approximately 1,560 liters per liter of milk. influenced by farming practices, feed types, and climatic conditions. While the The global average is about 1,020 liters per liter of milk, indicating that India’s water footprint is relatively high due to inefficient practices and climatic conditions.
Considering total milk production of 220 billion Litres in 2022, the total water foot print of milk produced becomes, 343.5 BCM ( Billion Cu mtr). Let us compare it with the national demand of water in the country. Water requirement of the country for irrigation in high demand scenario for the years 2025 and 2050 has been assessed by National Commission on Integrated Water Resources Development-1999 as 611 BCM (Billion Cubic Metre) and 807 BCM respectively. As per ground water resource assessment for the years 2017, 2020 and 2022, the ground water extraction utilised by the irrigation sector are 221.46 BCM, 217.61 BCM and 208.49 BCM, respectively.
Considering these numbers the milk production is consuming a significant part of this water demand. It is high time to assess the factors contributing to this huge water foot print of dairying in India.
Several factors contribute to the high water footprint of milk production in India. A significant portion of this footprint comes from the cultivation of feed crops such as maize, soy, and other grains, with irrigation practices often leading to higher water consumption. Inefficient water management and irrigation techniques in many parts of India exacerbate this issue.
Traditional dairy farming practices, characterised by lower cattle productivity and feed efficiency, further increase the water footprint. Additionally, there are significant regional variations in the water footprint of milk, influenced by differences in climate, agricultural practices, and water availability. For instance, milk production in arid and semi-arid regions tends to have a higher water footprint compared to more water-abundant regions.
The high water footprint of milk production has several environmental implications. Excessive use of groundwater and surface water for irrigation and animal consumption can deplete water resources. The grey water footprint highlights the issue of water pollution due to agricultural runoff, including fertilisers and pesticides, which can contaminate local water bodies. These factors collectively underscore the need for more efficient water use and management practices in India’s dairy industry.
To reduce the water footprint of milk production in India, several strategies can be implemented. Improved irrigation techniques, such as drip or sprinkler systems, can significantly reduce water usage. Sustainable feed production involves using rain-fed crops and optimising the feed mix to reduce dependence on water-intensive crops. Implementing water-efficient farming practices and training farmers in water conservation techniques are crucial for better water management. Additionally, utilising technology for monitoring water usage and improving the overall efficiency of dairy farms can further help in reducing the water footprint.
Conclusion
The water footprint of indian milk production in India is a significant environmental concern. Addressing this issue requires a multifaceted approach involving improvements in agricultural practices, better water management, and the adoption of sustainable farming techniques. Reducing the water footprint not only helps in conserving water resources but also ensures the long-term sustainability of dairy farming in India. Suggestions and comments are invited from everyone to reduce water foot print of milk in India at least to the global average first.
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