Land and Water Solutions for Sustainable Agriculture

Agriculture is the largest user of land and water resources in the world, yet millions of farmers live in poverty. Improving their food security and livelihoods would be easier if there were more land to put under the till and endless clean water supply, but these resources are limited, now more than ever.

Land and Water Solutions (LWS) is committed to developing productive agricultural approaches that lead to better farming practices that increase yields with limited resources. In addition to ensuring that farmers know about and use more sustainable and productive farming practices, LWS will work to improve institutions and policies that affect the social, economic and ecosystem outcomes of these practices in order to foster more resilient, equitable and food-secure farming landscapes.

Tapping into groundwater’s hidden benefits

In many developing countries, groundwater for irrigation and drinking water has played a critical role in development. But unsustainable use and uninformed land use changes are depleting the quantity and deteriorating the quality of groundwater and associated ecosystems, upon which livelihoods are dependent.

Use of groundwater for irrigation in Kandal Province, Cambodia.

Neil Palmer/IWMI

According to a new framework by the CGIAR Research Program on Water, Land and Ecosystems, a change in perspectives is needed to view groundwater as part of a larger hydrological system associated with numerous ecosystem services, indispensable for sustainable development and livelihoods, especially irrigated agriculture for smallholder farmers. [Read more]

Solar pumps – a smarter way to irrigate

In western India and other parts of the country, heavily subsidized electricity to power water pumps have driven groundwater depletion. An unreliable electric grid, bankrupted utilities and power theft have contributed to the problem. Solar irrigation pumps have been promoted as a green energy solution, but subsidizing the cost of solar pumps can result in the same overexploitation of water resources.

Mohan Das works on a sprinkling system energized through a submerged solar pump at a private farm in Klashar.

Prashanth Vishwanathan/IWMI

In Karnataka state in arid southwest India, the local electric company is required to buy back surplus solar power from farmers. The buyback policy, signed by Karnataka’s governor last September, is consistent with recommendations by scientists at the International Water Management Institute (IWMI) to treat solar power as a ‘cash crop.’ The rationale is that if farmers can make money by selling excess power, they then will have an economic incentive to irrigate their crops efficiently, thus helping to conserve groundwater and energy use. [read more]

“Solar pumps can unlock India’s energy-irrigation logjam – and other parts of South Asia as well – if the right incentives are made to farmers to manage groundwater resources sustainably.” - Tushaar Shah, an IWMI senior fellow based in India

Partner News

Partner News
March 11, 2020
Under pressure – Sustainable groundwater in Myanmarread original article on external website
Restoring artesian groundwater pressure in Myanmar’s Central Dry Zone (CDZ) and developing strategies for its sustainable use is the focus of this new ACIAR-funded project.
Partner News
July 09, 2019
Solar irrigation in Mali: Potential to increase food security amid climate vulnerabilityread original article on external website
Mali on the front-line of climate change, and expected to experience worsened food insecurity and even food shortages. Researchers have mapped areas in the country where there is a high potential for solar powered irrigation in increase climate resilience, showing that up to 69% of agricultural lands could be suitable.
Partner News
April 16, 2019
Integrated solar irrigation solutions for resilient and equitable smallholder farmingread original article on external website
Written by Petra Schmitter for the Daugherty Water for Food Global Institute at the University of Nebraska. Africa’s groundwater reserves are about 100 times greater than its annual supply of renewable surface freshwater. Yet, this resource remains underused. Under the pioneering Agwater Solutions Project, researchers estimated that investments in motorized pumps could significantly boost agricultural production and reduce climate change risks for smallholder farms.
Partner News
March 22, 2019
Groundwater featured at World Water Day 2019: Video on protecting our last lifelineread original article on external website
The Early Carrier Hydrogeologists’ Network has developed a video on the global issues of water scarcity, specifically calling for protecting groundwater and promoting proper exploitation in order to provide a safe living space for our children and the most vulnerable people.
Partner News
February 20, 2019
IWMI/WLE bring solar, reuse & remote sensing solutions to Dryland Dev't Conferenceread original article on external website
IWMI/WLE contributed to and ran sessions at the 13th International Conference on Dryland Development, brought together national and international stakeholders to discuss sustainable dryland development under the theme “Converting Dryland Areas from Grey into Green.”

IWMI director general Claudia Sadoff was a guest of honor, addressing the inaugural session and also making a plenary presentation titled ”Water security and sustainable growth in the drylands.”

IWMI and ICAR organized a mini symposium during the conference to foster knowledge exchange among researchers on the present status and future prospects of water productivity in the drylands. The symposium aimed at framing a strategy to boost water productivity and mainstream it in drylands at scale through appropriate institutional frameworks and policies

Alok Sikka co-chaired a technical session on “Soil Health Management, Carbon Sequestration and Conservation Agriculture.”

Tushaar Shah presented on groundwater governance challenges in arid areas. Alok and Tushaar also presented at sessions related to water harvesting and water productivity.