评估水稻水播系统中氟啶脲苄酯受施用时间的影响

IF 2.5 2区农林科学 Q1 AGRONOMY

Crop Protection Pub Date : 2024-08-10 DOI:10.1016/j.cropro.2024.106886

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引用次数: 0

摘要

氟吡禾草灵-苄（FPB）是一种新型的辅助素模拟水稻除草剂，用于控制选定的禾本科杂草、莎草和阔叶植物。田间试验于 2020-2022 年进行，目的是：1）描述 FPB 单独施用或混合施用时对水稻作物安全和杂草控制的影响；2）确定 FPB 的施用时机，以优化小花伞形莎草（SMF）的控制；3）评估晚季施用对水稻花不育的影响。在第一项研究中，单独施用 15、30 和 60 g ai ha-1 的 FPB，以及与双草醚、五氟磺草胺和丙森锌混合施用。在水稻 4-5 叶（LF）期单独施用 30 g ha-1 的 FPB，在处理后 28 天（DAT）可防除 80% 以上的水草、稻田牛筋草和 SMF，以及 99% 以上的所有阔叶杂草。以最大使用量施用 FPB 和双草醚的混合处理对禾本科杂草的防除效果最好，而以最大使用量施用 FPB 和丙草胺的混合处理对莎草的防除效果最好。在第二项研究中，在 1-LF、10-、15-、20-和 25 厘米高的 SMF 上施用 40 g ha-1 的 FPB，在 42 DAT 时分别控制了 95%、86%、89%、87% 和 85% 的 SMF。在第三项研究中，在水稻圆锥花序（PI）和 50%开花（FL）生长阶段施用 40 和 80 g ha-1 的 FPB。虽然所有施药在 42 DAT 时的杂草控制率都超过 90%，但在 FL 阶段施药，40 和 80 g ha-1 的剂量分别造成 26% 和 35% 的水稻圆锥花序空白。这项研究表明，FPB 的施用窗口期应从水稻 2-LF 期到水稻 PI 期，以确保作物安全和最高的除草效果。

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Assessment of florpyrauxifen-benzyl in water-seeded rice systems as affected by application timing

Florpyrauxifen-benzyl (FPB) is a novel auxin mimic rice herbicide used to control selected grasses, sedges, and broadleaves. Field experiments were conducted in 2020–2022 to 1) characterize the effects of FPB on rice crop safety and weed control when applied alone or in a mixture, 2) determine the FPB application timing to optimize smallflower umbrella sedge (SMF) control, and 3) evaluate the effect of late season application on rice flower sterility. In the first study, FPB was applied alone at 15, 30, and 60 g ai ha⁻¹ and in mixture with bispyribac-sodium, penoxsulam, and propanil. FPB applied alone at 30 g ha⁻¹ at 4–5-leaf (LF) rice stage controlled more than 80% of watergrasses, ricefield bulrush, and SMF and more than 99% of all broadleaf weeds at 28 days after treatment (DAT). The mixture treatments of FPB plus bispyribac-sodium applied at maximum use rate had the greatest grass weed control whereas, FPB plus propanil at the maximum use rate provided the greatest sedge control. In the second study, FPB at 40 g ha⁻¹ was applied at 1-LF, 10-, 15-, 20-, and 25-cm tall SMF, where treatments controlled 95%, 86%, 89%, 87%, and 85% of SMF at 42 DAT, respectively. In the third study, FPB at 40 and 80 g ha⁻¹ rate was applied at rice panicle initiation (PI) and 50% flowering (FL) growth stages. While the weed control was more than 90% at 42 DAT for all applications, the FL stage application caused 26% and 35% rice panicle blanking at 40 and 80 g ha⁻¹ rate, respectively. This research suggests, the window of FPB application should be from 2-LF rice to rice PI stage to ensure crop safety and highest weed control.

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来源期刊

Crop Protection 农林科学-农艺学

CiteScore

6.10

自引率

3.60%

发文量

200

审稿时长

29 days

期刊介绍： The Editors of Crop Protection especially welcome papers describing an interdisciplinary approach showing how different control strategies can be integrated into practical pest management programs, covering high and low input agricultural systems worldwide. Crop Protection particularly emphasizes the practical aspects of control in the field and for protected crops, and includes work which may lead in the near future to more effective control. The journal does not duplicate the many existing excellent biological science journals, which deal mainly with the more fundamental aspects of plant pathology, applied zoology and weed science. Crop Protection covers all practical aspects of pest, disease and weed control, including the following topics: -Abiotic damage- Agronomic control methods- Assessment of pest and disease damage- Molecular methods for the detection and assessment of pests and diseases- Biological control- Biorational pesticides- Control of animal pests of world crops- Control of diseases of crop plants caused by microorganisms- Control of weeds and integrated management- Economic considerations- Effects of plant growth regulators- Environmental benefits of reduced pesticide use- Environmental effects of pesticides- Epidemiology of pests and diseases in relation to control- GM Crops, and genetic engineering applications- Importance and control of postharvest crop losses- Integrated control- Interrelationships and compatibility among different control strategies- Invasive species as they relate to implications for crop protection- Pesticide application methods- Pest management- Phytobiomes for pest and disease control- Resistance management- Sampling and monitoring schemes for diseases, nematodes, pests and weeds.