National Center for Appropriate Technology grows pilot effort with $2 million investment; Colorado one of the expansion states
Building on a successful peer-to-peer network of Texas ranchers who are implementing innovative grazing techniques to improve soil health and increase profitability, the National Center for Appropriate Technology (NCAT) is scaling up its Soil for Water project to support livestock producers and farmers across seven southern states. By late summer, the project will be available to ranchers and farmers in Texas, New Mexico, California, Colorado, Arkansas, Mississippi, and Virginia.
The Soil for Water project grew out of recent droughts, which put a strain on agricultural producers across the country. The effort is combining the use of appropriate technology, peer-to-peer learning, and on-farm monitoring to encourage regenerative agricultural practices across the seven-state project region.
For example, through managed grazing systems, livestock have the ability to improve soil health, and healthy soil holds more water.
“Increasing the adoption of regenerative methods could have significant economic, environmental, and social benefits,” said NCAT southwest regional director and project lead Mike Morris. “Economically, regenerative agriculture has the potential to increase forage production, drought resilience, animal health, access to lucrative new markets, and therefore profitability. Environmentally, it has the potential to improve soil health and biodiversity. Socially, it has the potential to facilitate decentralized local and regional food systems by enabling more producers to offer healthy, sustainably produced products to local consumers.”
Project investors include grants from the National Resource Conservation Service (NRCS), $980,000; The Jacob and Terese Hershey Foundation, $50,000; and the Southern Sustainable Agriculture Research and Education (SARE) program, $1 million. The Soil for Water project launched in 2015 with support from the Dixon Water Foundation and the Meadows Foundation.
NCAT will lead the expanded Soil for Water project with eight cooperating organizations, including the University of Arkansas, Virginia Tech University, and Mississippi State University.
The effort aims to reach hundreds of small to mid-sized family-owned farms and ranches encouraging them to try land management practices that improve soil health, catch more rainwater in soil, reduce erosion, sustain diverse plant and animal life, and filter out pollutants.
First-generation farmers Jeremiah and Maggie Eubank manage 2,000 acres in Texas Hill Country. They’re raising cattle, sheep, pigs, chickens, and ducks on land between San Antonio and Austin. It’s beautiful, tough land that Maggie Eubank says has been overgrazed for a century. They’re working to change that.
“The Soil for Water Project is connecting us with a network of other ranchers who are doing what they can to use animals to grow more grass and keep more water in the ground,” Eubank explains. “Regenerating this ranch is the focus of our job, but we can also show other ranchers and farmers it can be a viable business.”
The high interest in grass-fed, sustainably produced meat and locally grown products is not only an economic benefit to these producers like the Eubanks, but also a quality-of-life benefit to their communities when healthy, locally produced food is available in neighborhood markets.
Colorado’s agricultural drought-prone regions should be under first consideration. The program is open to all commercial livestock producers in Colorado. If folks are interested in joining, this is the direct URL to enroll: https://soilforwater.org/network-enrollment/
To learn more about the Soil for Water project, visit SOILFORWATER.ORG.
NCAT came into being in 1976 as a national nonprofit whose mission is to help people build resilient communities through local and sustainable solutions that reduce poverty, strengthen self-reliance and protect natural resources. Its headquarters are in Butte, Montana, and it has six regional offices (none in Colorado.)
Instead of putting chemicals in the soil that eventually turn topsoil into sand that blows away, plant earth worms.