Scheduling irrigation events in corn using three soil water potential strategies

Scheduling irrigation events is important for high corn (Zea mays L.) yield, water use efficiency, economic returns, and water conservation. The use of shallow subsurface drip irrigation (S3DI) is cost effective for small irregular shaped field areas. Currently there are no irrigation scheduling recommendations for S3DI systems for corn production. The objective was to evaluate three water potential value strategies for scheduling irrigation events and the effect on corn yield, test weight, irrigation water use efficiency (IWUE), and value water use efficiency (VWUE). Corn was grown multiple years (2012-2013; 2019-2023) at two locations (Dawson and Shellman, GA) using soil water potential sensors to schedule irrigation events. Sensors were installed at 10 and 20 inches (25 and 50 cm) soil depth. Irrigation events were scheduled when the average water potential was between 40 to 60 cbar (I1), 60 to 80 cbar (I2), 80 to 100 cbar (I3), and compared to a dryland control (I0). There was no difference in corn yield, IWUE, or VWUE between irrigation treatments, but all irrigation treatments had greater yield than I0, except in high rainfall years. At the Shellman location, total water applied for I3 was 46% less than for I1. At Dawson, I2 applied 17% more water than either I1 or I3. Across both sites, I1 and I2 applied 1.5 and 1.3 times more water than I3, respectively. Therefore, irrigation events scheduled at 80 to 100 cbar can be a viable technique for irrigating corn using S3DI without yield reductions while promoting water conservation. Scheduling irrigation events for corn is important for high yield, water use efficiency, economics, and water conservation. Burying drip tubing 2 inches below the soil surface is an economical way to irrigate corn. Currently there are no irrigation scheduling recommendations for these drip systems for corn. Our goal was to evaluate three soil water sensor values (wet, medium, dry) to scheduling irrigation event in drip systems and the effect on corn yield and economic efficiencies. Corn was grown multiple years at two locations using soil water potential sensors to schedule irrigation events. There was no difference in corn yield with any of the three irrigation strategies tested. However, the irrigation strategy that conserved the most water was also the most economical. Irrigation events scheduled using the dryer sensor measurements can be a viable technique for irrigating corn using drip system without yield reductions and promote water conservation. Scheduling irrigation events for corn is important for high yield, water use efficiency, economics, and water conservation. Burying drip tubing 2 inches below the soil surface is an economical way to irrigate corn. Currently there are no irrigation scheduling recommendations for these drip systems for corn. Our goal was to evaluate three soil water sensor values (wet, medium, dry) to scheduling irrigation event in drip systems and the effect on corn yield and economic efficiencies. Corn was grown multiple years at two locations using soil water potential sensors to schedule irrigation events. There was no difference in corn yield with any of the three irrigation strategies tested. However, the irrigation strategy that conserved the most water was also the most economical. Irrigation events scheduled using the dryer sensor measurements can be a viable technique for irrigating corn using drip system without yield reductions and promote water conservation.