Planting date and dicamba-based herbicide programs influence soybean production in the Southern Great Plains

IF 1.3 Q3 AGRONOMY Agrosystems, Geosciences & Environment Pub Date : 2024-04-14 DOI:10.1002/agg2.20500
Sarah Kezar, Vanaja Kankarla, Josh Lofton
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Abstract

The interplay of management decisions involving soybean (Glycine max L.) planting date, herbicide programs, and herbicide application timings is critical to optimize soybean performance and weed control in Southern Great Plains soybean production systems. This research sought to evaluate soybean yield potential and the level of weed control as influenced by early-, delayed-, and late- planting dates and various combinations of preemergence (PRE), early-postemergence (EPOST), and mid-postemergence (MPOST) weed management programs. A field study was established in Bixby, OK in 2017 and 2018 under irrigated conditions and in Perkins, OK in 2017 under dryland conditions, consisting of three planting windows (early, delayed, and late) of XtendFlex soybean, with or without a PRE (chlorimuron + flumioxazin + pyroxasulfone + glyphosate + dicamba) combined with EPOST or EPOST + MPOST (glyphosate + dicamba) versus no in-season applications. The gap in late-planted soybean yield potential, compared to early-planted soybean, was exacerbated in the dryland systems (1346 kg ha−1) versus an irrigated system (2311 kg ha−1). Use of PRE provided 60% weed control until MPOST and increased yields by 657 kg ha−1 and 457 kg ha−1 for delayed and late-planted soybean, respectively. Late-planted soybean with EPOST + MPOST provided up to 50% weed control, but lack of biomass production for cultural control reduced weed control by 29% compared to early- and delayed-planted soybean. From an agronomic management standpoint, the time of soybean planting is influential on the success of weed control measures and soybean yields in double-cropping system in the Southern Great Plains, particularly with late-planted soybean.

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种植日期和麦草畏除草剂方案对南部大平原大豆产量的影响
涉及大豆(Glycine max L.)播种日期、除草剂方案和除草剂施用时间的管理决策之间的相互作用对于优化南部大平原大豆生产系统中的大豆性能和杂草控制至关重要。这项研究旨在评估大豆的产量潜力和杂草控制水平受早播、延迟播种和晚播播种日期以及各种芽前 (PRE)、芽后早期 (EPOST) 和芽后中期 (MPOST) 杂草管理方案组合的影响。2017 年和 2018 年,在灌溉条件下,在俄克拉荷马州比克斯比开展了一项田间研究;2017 年,在旱地条件下,在俄克拉荷马州珀金斯开展了一项田间研究,包括 XtendFlex 大豆的三个播种窗口(早播、延迟播种和晚播),是否施用 PRE(氯嘧磺隆 + 氟嘧磺隆 + 吡唑嘧磺隆 + 草甘膦 + 麦草畏)结合 EPOST 或 EPOST + MPOST(草甘膦 + 麦草畏)与不进行季节内施用的对比。与早播大豆相比,旱地系统(1346 千克/公顷-1)与灌溉系统(2311 千克/公顷-1)的晚播大豆产量潜力差距更大。在 MPOST 之前,使用 PRE 可控制 60% 的杂草,延迟种植和晚播大豆的产量分别提高了 657 千克/公顷和 457 千克/公顷。使用 EPOST + MPOST 的晚播大豆杂草防除率高达 50%,但与早播和晚播大豆相比,由于缺乏生物量生产进行文化控制,杂草防除率降低了 29%。从农艺管理的角度来看,大豆的播种时间对杂草控制措施的成功与否以及南部大平原双茬种植系统中的大豆产量都有影响,尤其是晚播大豆。
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来源期刊
Agrosystems, Geosciences & Environment
Agrosystems, Geosciences & Environment Agricultural and Biological Sciences-Agricultural and Biological Sciences (miscellaneous)
CiteScore
2.60
自引率
0.00%
发文量
80
审稿时长
24 weeks
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