Identifying, Evaluating, and Demonstrating Sensor-Based Automation Irrigation Technologies in Corn and Soybean

Investigators: Drew Gholson, Mark Henry, Himmy Lo, Trent Irby, Erick Larson, Nicolas Quintana Ashwell, and Alex Deason

Funding Agency: Sponsored partially by Mississippi Soybean Promotion Board under project 13-2021, by Mississippi Corn Promotion Board under project 03-2021, and by the Conservation Innovation Grants program at USDA's Natural Resources Conservation Service under award number NR203A750008G007

Date: 2022

Project Summary

Introduction

The RISER (Row-crop Irrigation Science Extension and Research) Program serves as the primary means to facilitate the widespread adoption of the latest irrigation management research findings across the Mississippi Delta. This program focuses on identifying and evaluating innovative sensor and automation technologies that can assist producers with improving their on-farm irrigation management strategies and scheduling.

Materials and Methods

An on-farm experiment was conducted from 2020 to 2022 on multiple production farm locations throughout the Mississippi Delta corn and soybean. Each demonstration farm consisted of two nearby irrigation wells and associated fields (irrigation sets) with similar soils and planting dates. One well served as a control (no change in technologies), and the other was equipped with pump controls, actuated valves (Figure 1), and soil moisture sensors enabled with telemetry capabilities (Figure 2). Predetermined templates set an irrigation time for each set and each field. These templates were programmed to the software, and the decision to irrigate was determined through field observations, soil moisture sensor readings, and weather outlook. The irrigation "spin" was initiated through the user interface. Sites were monitored throughout the growing season.

Results and Discussion

Information on irrigation application, pumping energy requirement, crop growth, and yield was collected at each field to document and display the impact of implementing irrigation automation technologies on conserving water and maintaining/improving crop yield (Figure 3; Table 1). The functionality of actuated valves was also evaluated. If a low battery caused issues with valve opening and closing, the battery was replaced. At each site for all irrigations, the automated system made a successful run.

Conclusion

This technology is early on in development, and certain changes have been made within the 3 years of evaluation. NCAAR has worked with companies to help increase user-friendly applications and dashboards to assist with the ease of operating the automation. As labor continues to become one of the most significant concerns across the farming community, investigating tools that can decrease labor, assist in decision-making, and save water is increasingly important. This study suggests that irrigation automation may be a beneficial tool for soybean and corn irrigation, saving water and time and ultimately conserving groundwater in the Mid-South. The next step will be to continue investigating the effectiveness of automation with the addition of more sites for statistical and economic analysis.

Project Photos

• Crop Type:
• Corn
• Soybean

• Topic:
• Irrigation scheduling
• Irrigation