王家勇,张俊尧,唐江华,娄善伟,李文珊,徐文修,孟令贻,何洪涛,桑军民.种植密度与缩节胺用量对76 cm等行距棉花株型结构及产量的影响[J].干旱地区农业研究,2024,(2):97~109
种植密度与缩节胺用量对76 cm等行距棉花株型结构及产量的影响
Effects of planting density and DPC dosage on plant structure and yield of cotton under 76 cm equidistant cultivation
  
DOI:10.7606/j.issn.1000-7601.2024.02.12
中文关键词:  棉花  76 cm等行距栽培  种植密度  缩节胺  株型结构  产量
英文关键词:cotton  76 cm equidistant cultivation  planting density  DPC  plant structure  yield
基金项目:新疆维吾尔自治区重大科技专项(2023A02003);国家重点研发计划项目(2020YFD1001001);新疆农业大学研究生科研创新项目(XJAUGRI2022035);新疆农业大学作物学重点学科项目(XNCDKY2021013)
作者单位
王家勇 新疆农业大学农学院新疆 乌鲁木齐 830052 
张俊尧 新疆农业大学农学院新疆 乌鲁木齐 830052 
唐江华 新疆农业大学农学院新疆 乌鲁木齐 830052 
娄善伟 新疆农业科学院/国家棉花工程技术研究中心新疆 乌鲁木齐 830091 
李文珊 新疆农业大学农学院新疆 乌鲁木齐 830052 
徐文修 新疆农业大学农学院新疆 乌鲁木齐 830052 
孟令贻 新疆农业大学农学院新疆 乌鲁木齐 830052 
何洪涛 沙湾市双泉农业合作社新疆 沙湾 832101 
桑军民 沙湾市双泉农业合作社新疆 沙湾 832101 
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中文摘要:
      于2021—2022年在76 cm等行距种植方式下,采用裂区设计,设种植密度为主因素,分别为15.00(M1)、[JP]20.25(M2)、25.50万株·hm-2(M3);缩节胺用量为副因素,分别为195 (D1)、390 (D2)、585 g·hm-2(D3),研究不同种植密度与缩节胺用量对棉花株型结构、籽棉产量及其构成因素的影响,以筛选适宜76 cm等行距种植模式棉花产量提高的种植密度与缩节胺用量组合。结果表明:缩节胺用量相同时,降低种植密度会提高棉花株高7.09%~21.66%、茎粗4.36%~13.02%、株宽5.76%~18.69%,增加果枝始节高度、主茎节间长度、果枝数和果枝长度;种植密度对果枝始节位与果枝夹角影响不显著。种植密度相同时,降低缩节胺用量会增加棉花株高7.01%~21.83%、株宽4.61%~9.01%、果枝数1~2台,并有效增加果枝始节高度、果枝始节位、主茎节间长度、果枝长度与果枝夹角,但会降低棉花茎粗3.39%~8.30%。籽棉产量随密度与缩节胺用量的增加呈先增后减的变化趋势,M2D2处理籽棉产量最高,两年分别为6 614.09 kg·hm-2和7 339.48 kg·hm-2,较同年产量最低处理M1D1分别增加19.63%和22.67%。综上,在76 cm等行距种植方式下,棉花种植密度20.25万株·hm-2配合喷施缩节胺390 g·hm-2的组合效果最佳,有利于棉花的生长发育与产量提高。
英文摘要:
      During 2021 to 2022, under 76 cm equidistant cultivation, a split\|zone design was used to set planting density as the main factor, which was 150 000 (M1), 202 500 (M2), and 255 000 plants·hm-2(M3) respectively, and the dosage of DPC (Mepiquat chloride) as the sub\|factor, which was 195 (D1), 390 (D2), and 585 g·hm-2 (D3).The effects of different planting densities and DPC dosage on cotton plant structure, seed cotton yield and its components were investigated, in order to screen suitable combinations of planting density and DPC dosage for improving cotton yield under 76 cm spacing planting pattern. The results showed that, when the same amount of DPC was used, reducing planting density increased the height of cotton plants by 7.09%~21.66%, stems thickness by 4.36%~13.02%, plants width by 5.76%~18.69%, increased the height of the first node of the fruit branches, the length between the main stem internodes, the number of fruit branches, and the length of fruit branches. The planting density has no significant effect on the length of the first node of the fruit branches and the angle between the fruit branches. When planting density was the same, reducing the dosage of DPC increased cotton plant height by 7.01%~21.83%, plant width by 4.61%~9.01%, the number of fruiting branches by 1~2, and effectively increased the height of fruiting branch initiation, fruiting branch initiation node, the length of the main stem internode, the length of fruiting branches and the angle of the fruiting branches, but it reduced the cotton stem thickness by 3.39%~8.30%. Seed cotton yield with the increase in density and the amount of DPC showed a trend of increasing and then decreasing. M2D2 treatment seed cotton yield was the highest, two years were 6 614.09 kg·hm-2 and 7 339.48 kg·hm-2, compared with the lowest yield in the same year the treatment M1D1, increased by 19.63% and 22.67%, respectively. In conclusion, the combination of cotton planting density of 202 500 plants·hm-2 with spraying of 390 g·hm-2 of DPC was the best in 76 cm equidistant cultivation, which was favorable to growth and development of cotton and yield improvement.
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