Efficiency of herbicides for weed control in chickpea and effect of their residues on wheat growth

Q4 Agricultural and Biological Sciences Agronomia Colombiana Pub Date : 2022-08-31 DOI:10.15446/agron.colomb.v40n2.101580

S. Babaei, Sahar Lahooni, Sayed Karim Mousavi, I. Tahmasebi, Payman Sabeti, A. Abdulahi

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引用次数: 2

Abstract

In order to determine the best time to use and the adequate dose of four herbicides to control weeds in dryland chickpea (Cicer arietinum L.) fields, we performed the present experiment in 4 x 5 m plots. Fourteen treatments were carried out that from 1 to 9 included trifluralin. Treatments 1, 2, and 3 were with increasing doses of trifluralin (480, 720, and 960 g ai ha-1) applied 30 days before planting. Treatments 4, 5, and 6 included increasing doses of trifluralin (480, 720, and 960 g ai ha-1) applied 15 days before planting. Treatments 7, 8 and 9 consisted of increasing doses of trifluralin (480, 720, and 960 g ai ha-1) applied at the time of planting. Treatments 10, 11, and 12 included pyroxasulfone (85 g ai ha-1), flumioxazin (51 g ai ha-1) and imazethapyr (100 g ai ha-1), respectively. These last three treatments were carried out at the time of planting; treatments 13 and 14 were: weed-infested (without weed control) and weed-free (manual weeding during the entire season). Flumioxazin 66% and pyroxasulfone 57% (mean of two samples) reduced weed dry weight compared to uncontrolled treatment. The results showed that the treatments were significantly different for 100-seed weight, biological yield, and seed yield of chickpea. Weed-infested and weed-free plants had the lowest and highest grain yield. Herbicide treatments of flumioxazin, trifluralin 960 g ai ha-1, and pyroxasulfone at planting produced 55%, 44%, and 40% higher grain yield than the weed-infested plots. Also, none of the herbicide treatments reduced chickpea yield and biomass. The herbicide residues had no adverse effect on wheat growth in the next crop season.

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除草剂防治鹰嘴豆杂草的效果及其残留对小麦生长的影响

为了确定4种除草剂在旱地鹰嘴豆(Cicer arietinum L.)田的最佳使用时间和适当剂量，在4 × 5 m的地块上进行了本试验。进行了14次治疗，从1到9使用了曲氟拉林。处理1、2和3分别在播种前30天增加施氟乐灵的剂量(480、720和960 g / ha-1)。处理4、5和6包括在种植前15天施用增加剂量的氟乐灵(480、720和960 g每公顷)。处理7、8和9是在播种时增加施用氟乐灵的剂量(480、720和960 g每公顷)。处理10、11和12分别为吡沙砜(85 g ai ha-1)、氟恶嗪(51 g ai ha-1)和咪唑吡喃(100 g ai ha-1)。后三种处理在播种时进行;处理13和14:杂草丛生(无杂草控制)和无杂草(整个季节人工除草)。氟咪唑嗪66%和pyroxasulfone 57%(两个样本的平均值)与未控制的处理相比，减少了杂草干重。结果表明，不同处理对鹰嘴豆百粒重、生物产量和种子产量均有显著影响。无杂草和有杂草的植株籽粒产量最高和最低。播种时使用氟恶嗪、三氟灵960 g / ha-1和吡咯磺酮比杂草丛生地增产55%、44%和40%。此外，除草剂处理没有降低鹰嘴豆的产量和生物量。除草剂残留对下一季小麦生长无不良影响。

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来源期刊

Agronomia Colombiana Agricultural and Biological Sciences-Agronomy and Crop Science

CiteScore

1.00

自引率

0.00%

发文量

审稿时长

25 weeks

期刊介绍： Agronomia Colombiana journal it is intended to transfer research results in different areas of tropical agronomy. Original unpublished papers are therefore accepted in the following areas: physiology, crop nutrition and fertilization, genetics and plant breeding, entomology, phytopathology, integrated crop protection, agro ecology, weed science, environmental management, geomatics, biometry, soils, water and irrigation, agroclimatology and climate change, post-harvest and agricultural industrialization, food technology, rural and agricultural entrepreneurial development, agrarian economy, and agricultural marketing (Published: Quarterly).