Corn Response Across Plant Densities and Row Configurations for Different Moisture Environments

الملخص EN

Corn (Zea mays L.) production in the Southeast can be negatively impacted by erratic summer rainfall and drought-prone, coarse-textured soils, but irrigation combined with conservation tillage and cover crops may support greater plant densities arranged in different row configurations to improve yield.

We examined five site-years of data across two soil types in Alabama to compare corn yields in a conservation system across three plant densities for single- and twin-row configurations in dryland and irrigated moisture regimes.

Treatments were arranged with a split plot treatment restriction in a RCB design with three replications.

Main plots were irrigation level (no irrigation and irrigation), and subplots were a factorial arrangement of three plant densities (5.9, 7.4, and 8.9 plants m−2) and row configurations (single and twin).

A moisture environment (low and moderate) variable, defined by growing season rainfall, was used to average over site-years.

In general, irrigation in the moderate-moisture environment improved each measured variable (plant height, stover yield, corn yield, and test weight) and decreased grain N concentration and aflatoxin levels compared to the low-moisture environment with no irrigation.

Benefits of increased rainfall and irrigation to reduce soil moisture stress across drought-prone soils were evident.

Pooled results across all site-years indicated no yield response as plant density increased, but greater yields were observed with the greatest plant densities in the moderate-moisture environments.

No advantage for twin-row corn production was observed across five site-years in Alabama, which indicates either row configuration can be successfully adopted.