Furrow irrigation spacing effects on corn production in vertisols of the Mississippi Delta

IF 0.8 Q3 AGRONOMY
Trey Freeland, Drew M. Gholson, Tsz Him Lo, Gurbir Singh, Gurpreet Kaur, Erick J. Larson, Joby M. Prince Czarnecki
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Abstract

The majority of soils in the Mississippi Delta are vertisols, whose shrink–swell behavior makes them prone to waterlogging when subjected to excessive infiltration amounts from conventional management of furrow irrigation. The goal of this investigation was to examine if corn (Zea mays L.) grain yield and quality (test weight, kernel composition, and kernel weight) can be improved in vertisols of this region by widening furrow irrigation spacing while increasing furrow inflow rate proportionally to reduce waterlogging. A research station study at the National Center for Alluvial Aquifer Research and an on-farm study near Glen Allan, Mississippi, were conducted from 2021 to 2023. Furrow irrigation spacing treatments in the research station study included 3.3 ft, 6.7 ft, 13.3 ft, and 26.7 ft. The on-farm study included 10 ft, 20 ft, and “tractor track” (alternating between 10 and 30 ft furrow irrigation spacing) treatments. The three years of the research station study showed that the 26.7-ft treatment yielded 8.5% higher than the narrower treatments at the top position of the field (50–100 ft from the topographically higher end of 500 ft furrows). Higher grain protein and kernel weight were observed halfway between two irrigated furrows of the 13.3-ft and 26.7-ft treatments than adjacent to irrigated furrows of any treatment. Corn grain yield in the on-farm study was not significantly different among furrow irrigation spacing treatments. This research demonstrates that furrow irrigation spacing can be widened to at least 26.7 ft in vertisols of the Mississippi Delta without decreasing corn grain yield and quality.

Abstract Image

沟灌间距对密西西比三角洲垂直土壤中玉米产量的影响
密西西比三角洲的大部分土壤都是vertisols,其收缩膨胀特性使其在受到传统沟灌管理的过量渗透时容易积水。这项调查的目的是研究是否可以通过扩大沟灌间距,同时按比例增加沟灌入水量来减少涝害,从而提高该地区蛭石土壤中玉米(Zea mays L.)谷物的产量和质量(测试重量、籽粒成分和籽粒重量)。2021 年至 2023 年期间,在国家冲积含水层研究中心进行了一项研究站研究,并在密西西比州格伦阿伦附近进行了一项农场研究。研究站研究中的沟灌间距处理包括 3.3 英尺、6.7 英尺、13.3 英尺和 26.7 英尺。农场研究包括 10 英尺、20 英尺和 "拖拉机轨道"(10 英尺和 30 英尺沟灌间距交替)处理。研究站三年的研究表明,26.7 英尺的处理比田地顶部位置(距离 500 英尺沟渠地形较高处 50-100 英尺)较窄的处理产量高 8.5%。在 13.3 英尺和 26.7 英尺处理的两个灌溉沟渠之间观察到的谷物蛋白质和籽粒重量均高于邻近任何处理的灌溉沟渠的谷物蛋白质和籽粒重量。在农场研究中,不同沟灌间距处理的玉米籽粒产量差异不大。这项研究表明,在密西西比三角洲的垂直土壤中,沟灌间距至少可以扩大到 26.7 英尺,而不会降低玉米的产量和质量。
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来源期刊
Crop, Forage and Turfgrass Management
Crop, Forage and Turfgrass Management Agricultural and Biological Sciences-Agronomy and Crop Science
CiteScore
1.30
自引率
16.70%
发文量
49
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.
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