Scheduling irrigation events in corn using three soil water potential strategies

IF 0.8 Q3 AGRONOMY

Crop, Forage and Turfgrass Management Pub Date : 2024-07-02 DOI:10.1002/cft2.20288

Ronald B. Sorensen, Erika R. Bucior, Marshall C. Lamb

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引用次数: 0

Abstract

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.

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利用三种土壤水分潜力策略安排玉米灌溉时间

安排灌溉时间对玉米（Zea mays L.）的高产、用水效率、经济回报和节水都很重要。使用浅层地下滴灌（S3DI）对不规则的小块田地来说成本效益高。目前还没有针对 S3DI 系统在玉米生产中的灌溉调度建议。本研究旨在评估三种灌溉时间安排的水势值策略及其对玉米产量、测试重量、灌溉水利用效率（IWUE）和价值水利用效率（VWUE）的影响。在两个地点（佐治亚州道森和谢尔曼）种植了多年（2012-2013 年；2019-2023 年）玉米，使用土壤水势传感器来安排灌溉事件。传感器分别安装在 10 英寸和 20 英寸（25 厘米和 50 厘米）的土壤深度。当平均水势介于 40 至 60 厘巴（I1）、60 至 80 厘巴（I2）、80 至 100 厘巴（I3）之间时安排灌溉，并与旱地对照（I0）进行比较。不同灌溉处理的玉米产量、IWUE 或 VWUE 没有差异，但所有灌溉处理的产量都高于 I0，降雨量大的年份除外。在 Shellman 地点，I3 的总用水量比 I1 少 46%。在道森，I2 的用水量比 I1 或 I3 多 17%。在这两个地点，I1 和 I2 的用水量分别是 I3 的 1.5 倍和 1.3 倍。因此，安排 80-100 厘巴的灌溉是使用 S3DI 灌溉玉米的可行技术，既不会减产，又能促进节水。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Crop, Forage and Turfgrass Management Agricultural and Biological Sciences-Agronomy and Crop Science

CiteScore

1.30

自引率

16.70%

发文量

期刊介绍： Crop, Forage & Turfgrass Management is a peer-reviewed, international, electronic journal covering all aspects of applied crop, forage and grazinglands, and turfgrass management. The journal serves the professions related to the management of crops, forages and grazinglands, and turfgrass by publishing research, briefs, reviews, perspectives, and diagnostic and management guides that are beneficial to researchers, practitioners, educators, and industry representatives.