Crop safety and control of acetolactate synthase inhibitor-resistant Palmer amaranth (Amaranthus palmeri) with very long-chain fatty acid-inhibiting herbicides in dry edible bean

IF 3.5 Q1 AGRONOMY
Joshua W. A. Miranda, Amit J. Jhala, Jeffrey Bradshaw, Nevin C. Lawrence
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引用次数: 0

Abstract

Palmer amaranth is a relatively recent arrival in Western Nebraska, where acetolactate synthase (ALS)-inhibitor-resistant biotypes are common in the region. With limited effective postemergence (POST) herbicides for controlling ALS-inhibitor-resistant Palmer amaranth in dry edible bean, a sequential preemergence (PRE) followed by (fb) POST program of very long-chain fatty acid (VLCFA)-inhibiting herbicides shows promise. Currently, dimethenamid-P is the only VLCFA-inhibiting herbicide registered for POST use in dry edible bean in Nebraska. The objective of this study was to assess the crop safety and effectiveness in weed control of sequential PRE fb POST programs, including pendimethalin + dimethenamid-P applied PRE fb dimethenamid-P POST, pendimethalin + S-metolachlor PRE fb S-metolachlor POST, and pendimethalin + pyroxasulfone PRE fb POST, in comparison with pendimethalin + dimethenamid-P applied PRE fb imazamox + bentazon + fomesafen applied POST in dry edible bean. Results showed that sequential PRE fb POST programs were more effective in reducing both the density and biomass of Palmer amaranth compared to PRE-alone programs. Pendimethalin + dimethenamid-P applied PRE fb dimethenamid-P POST, along with pendimethalin + S-metolachlor PRE fb S-metolachlor POST, resulted in over 85% control of Palmer amaranth, similar to the effectiveness of pendimethalin + dimethenamid-P PRE fb fomesafen + imazamox + bentazon applied POST. Pendimethalin + pyroxasulfone applied PRE-alone and the application of pendimethalin + pyroxasulfone PRE fb pyroxasulfone POST showed inconsistent control of Palmer amaranth, causing high crop injury, stand loss, and delayed maturity, ultimately leading to yield loss. Dimethenamid-P and S-metolachlor demonstrated excellent crop safety when applied either PRE-only or sequentially. Pendimethalin + S-metolachlor PRE fb S-metolachlor POST provided control of Palmer amaranth comparable to that achieved with POST applications of dimethenamid-P and imazamox + bentazon + fomesafen.
干食用豆中使用超长链脂肪酸抑制性除草剂对作物的安全性以及对抗乙酰乳酸合成酶抑制剂的帕尔默苋(Amaranthus palmeri)的控制作用
帕尔默苋(Palmer amaranth)是最近才进入内布拉斯加州西部地区的,该地区常见的是抗乙酰乳酸合成酶(ALS)的生物型。由于控制干食用豆中抗 ALS 抑制剂的帕尔默苋的有效萌后(POST)除草剂有限,因此使用长链脂肪酸(VLCFA)抑制性除草剂进行连续的萌前(PRE)和萌后(FB)除草计划大有可为。目前,dimethenamid-P 是内布拉斯加州唯一一种登记用于旱生食用豆芽前处理的 VLCFA 抑制性除草剂。本研究的目的是评估在干食用豆中,与戊唑醇+二甲吩草胺-P预处理+二甲吩草胺-P后处理、戊唑醇+S-甲草胺预处理+S-甲草胺后处理、戊唑醇+吡嘧磺隆预处理+吡嘧磺隆后处理相比,戊唑醇+二甲吩草胺-P预处理+咪鲜胺+苯达隆+福美双预处理+吡嘧磺隆后处理的作物安全性和除草效果。结果表明,与单独施用预除草剂的方案相比,预除草剂与后除草剂的连续施用方案能更有效地降低帕尔默苋的密度和生物量。嘧霉胺+二甲吩草胺-P预处理+二甲吩草胺-P后处理,以及嘧霉胺+S-甲草胺-P预处理+S-甲草胺-P后处理,对帕尔默苋的控制率超过85%,与嘧霉胺+二甲吩草胺-P预处理+福美双+咪鲜胺+苯达松-P后处理的效果相似。单独使用嘧霉胺+吡唑醚菌酯预处理和使用嘧霉胺+吡唑醚菌酯预处理+吡唑醚菌酯后处理,对帕尔默苋的防治效果不一致,会造成严重的作物伤害、植株损失和成熟延迟,最终导致减产。二甲吩草胺-P 和 S-甲草胺在施用前或连续施用时对作物具有极佳的安全性。Pendimethalin + S-metolachlor PRE fb S-metolachlor POST 对帕尔默苋的防治效果与 POST 施用二甲吩草胺-P 和咪鲜胺 +苯达松 +福美双的效果相当。
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来源期刊
Frontiers in Agronomy
Frontiers in Agronomy Agricultural and Biological Sciences-Agricultural and Biological Sciences (miscellaneous)
CiteScore
4.80
自引率
0.00%
发文量
123
审稿时长
13 weeks
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