The suspension of irrigation permits last summer in portions of southwest Georgia came as a surprise to many in the region, but it should have served as a clear warning to farmers that it’s time to get serious about becoming more efficient irrigators.

To that end, the University of Georgia began the Flint Irrigation Scheduling Tool (FIST), a partnership between the Flint River Soil and Water Conservation District, UGA, the USDA-NRCS, USDA-ARS, IBM, and several participating farmers.

“This is a very exciting project because it’s not strictly research driven, but it’s driven by producers in a part of Georgia who are very interested in using irrigation scheduling tools and other means of conserving water, says Georgia Vellidis, UGA Department of Crop and Soil Science. “These are very forward-thinking producers who are concerned about their future and their access to water.”

All of this is taking place is the Lower Flint River Basin, which is in the very southwest corner of Georgia. “It’s remarkable that an area of the Southeast would be as heavily irrigated by center pivots as this one,” says Vellidis. “Pretty much 90 percent of the agricultural land in some of these subwatersheds is irrigated by center pivots.”

Also included in this area is the watershed of the Apalachicola/Chattahoochee/Flint River Basin, which has caught the eye of legislatures and the public in the last 15 to 20 years because of disputes between Alabama, Georgia and Florida over water use from the basin.

“The metro-Atlanta area is the cause of much of the controversy because they are at the very top of this river basin and are consuming a lot of the water that they were never destined to consume.

Farmers in southwest Georgia are caught in the crosshairs because they are big users of the supply, and they’re juxtaposed to what the needs are in the metro area and to the oyster fisherman in the Apalachicola Bay. Center Pivot irrigation is what is driving all of the problems that we’re trying to address in the area,” says Vellidis.

The FIST project began last spring and summer, he says. “Our project goal here is pretty simple – it’s to provide the Flint River Basin farmers with some irrigation scheduling tools that will allow them to optimize the use of water and produce the maximum amount of food and fiber with the water they use. We also want to help them significantly conserve the amount of water they’re using. So another goal is to reduce water consumption overall.”

Proven state-of-the-art technology is being used to achieve the project’s goals, he adds. “We’re taking those technologies that have been proven and are state-of-the-art from the last five to 10 years. These solutions must be producer friendly and reliable, so we’re not trying to conduct a research project that requires researcher intervention at all times. The producers will be the ones using this, so it has to be developed so that they can.”

The technologies selected for use in FIST include a soil moisture sensor system developed at the University of Georgia, the UGA Smart Sensor Array (UGA SSA).

‘We selected this system because it has many good advantages for our purposes. It doesn’t mean that there aren’t very many other good commercially available systems out there – this one just suited our needs better.”

Variable rate irrigation – which also was developed by the University of Georgia but is now available through all major center pivot manufacturers – also is being incorporated into the system, says Vellidis.

“In addition, we’re using a suite of irrigating scheduling models that were developed by USDA-ARS in Georgia – Irrigator Pro – and they’re available for peanuts, cotton and corn, which are all important rotation crops in this area of southwest Georgia.”