有机土壤上甜玉米出苗前和出苗后杂草的控制

IF 1.3 3区农林科学 Q3 AGRONOMY

Weed Technology Pub Date : 2023-06-01 DOI:10.1017/wet.2023.35

Alex G. Rodriguez, H. Sandhu, A. Wright, D. Odero

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引用次数: 0

摘要

摘要阿特拉津和S-甲草胺是佛罗里达州南部大沼泽地农业区种植的甜玉米作物中种植者最依赖的除草剂。需要替代杂草管理方案。2021年和2022年进行了实地实验，以评估1）单独或作为预混物的焦恶砜（183和237 g ha–1）与卡芬曲宗-乙基（13和17 g ha–2）或氟噻塞-甲基（6和7 g ha–3）、单独或与阿特拉津（3360 g ha–4）联合应用的催芽效果（PRE）；2）单独或与阿特拉津（560和2240 g ha–1）或苯达松（1120 g ha–2）联合使用羽化后施用的甲基三酮（105 g ha–3）、托吡酮（25 g ha–4）和替莫替隆（92 g ha–5）；和3）在甜玉米的第四和第四叶期单独进行机械栽培，随后进行第六叶期。PRE应用的除草剂不能提供可接受的秋葵、普通羔羊或普通马齿苋的控制，这可能是因为降雨量有限，没有融入土壤。POST单独或与阿特拉津或本达松联合施用托吡酮可有效控制秋穗（>91%）。单独使用托吡酮可分别对普通羔羊和普通马齿苋进行83%和88%的控制，而在托吡酮中添加阿特拉津可对这两种杂草进行>94%的控制。Mesotrione和tembotrione加上阿特拉津对这两种阔叶杂草都有很好的控制作用（>93%），但对秋葵的控制作用较差（<72%）。单靠机械栽培并不能有效地控制杂草。总的来说，含有topramezone的处理能提高甜玉米产量。这些结果表明，将topramezone、mesometrione和tembotrione与阿特拉津联合使用可以改善对阔叶杂草的控制。只有托吡酮和阿特拉津的组合才能改善秋穗的控制，这表明阿特拉津是这些除草剂的重要混合成分，可以在EAA的有机土壤上对甜玉米进行有效的后期杂草控制。命名法：阿特拉津；苯达松；中三酮；焦恶砜；S-甲草胺；tembotrione；顶框带；普通产羔器；藜属专辑L.CHEAL；普通马齿苋；马齿苋；秋季恐慌；二花圆锥花序。潘迪；甜玉米玉米

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Preemergence and postemergence weed control in sweet corn on organic soils

Abstract Atrazine and S-metolachlor are the herbicides most relied on by growers to control weeds in sweet corn crops grown in the Everglades Agricultural Area (EAA) in southern Florida. Alternative weed management programs are needed. Field experiments were conducted in 2021 and 2022 to evaluate the efficacy of 1) pyroxasulfone (183 and 237 g ha–1) alone or as a premix with carfentrazone-ethyl (13 and 17 g ha–1) or fluthiacet-methyl (6 and 7 g ha–1), S-metolachlor (1,790 g ha–1) alone or in combination with atrazine (3,360 g ha–1) applied preemergence(PRE); 2) mesotrione (105 g ha–1), topramezone (25 g ha–1), and tembotrione (92 g ha–1) applied postemergence alone or in combination with atrazine (560 and 2,240 g ha–1) or bentazon (1,120 g ha–1); and 3) mechanical cultivation alone at the fourth and the fourth followed by the sixth leaf stages of sweet corn. PRE-applied herbicides did not provide acceptable control of fall panicum, common lambsquarters, or common purslane probably due to a lack of incorporation into the soil because of limited rainfall. POST-applied topramezone alone or in combination with atrazine or bentazon resulted in effective fall panicum control (>91%). Topramezone alone provided 83% and 88% control of common lambsquarters and common purslane, respectively, whereas atrazine added to topramezone resulted in >94% control of both weed species. Mesotrione and tembotrione plus atrazine provided excellent control (>93%) of both broadleaf weed species but poor fall panicum control (<72%). Mechanical cultivation alone did not effectively control any weeds. Overall, treatments that contained topramezone resulted in greater sweet corn yield. These results show that a combination of topramezone, mesotrione, and tembotrione with atrazine resulted in improved broadleaf weed control. Fall panicum control was improved only with the combination of topramezone with atrazine, showing that atrazine is an important mixture component of these herbicides to provide effective POST weed control in sweet corn on organic soils of the EAA. Nomenclature: Atrazine; bentazon; mesotrione; pyroxasulfone; S-metolachlor; tembotrione; topramezone; common lambsquarters; Chenopodium album L. CHEAL; common purslane; Portulaca oleracea L. POROL; fall panicum; Panicum dichotomiflorum Michx. PANDI; sweet corn; Zea mays spp. saccharata

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来源期刊

Weed Technology 农林科学-农艺学

CiteScore

2.90

自引率

21.40%

发文量

审稿时长

12-24 weeks

期刊介绍： Weed Technology publishes original research and scholarship in the form of peer-reviewed articles focused on understanding how weeds are managed. The journal focuses on: - Applied aspects concerning the management of weeds in agricultural systems - Herbicides used to manage undesired vegetation, weed biology and control - Weed/crop management systems - Reports of new weed problems -New technologies for weed management and special articles emphasizing technology transfer to improve weed control -Articles dealing with plant growth regulators and management of undesired plant growth may also be accepted, provided there is clear relevance to weed science technology, e.g., turfgrass or woody plant management along rights-of-way, vegetation management in forest, aquatic, or other non-crop situations. -Surveys, education, and extension topics related to weeds will also be considered