Rajan Shukla, Amit Bhatnagar, Anjali Rawat, Satyam Rawat, Sandeep Kumar, Govind Ballabh, M. Scholar
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Weedy (T1 ); Weed free (T2 ); Pre-emergence (PE) application of Atrazine -1 kg a.i./ha fb hand weeding (T3 ); PE application of Atrazine - 0.75 kg a.i./ha fb Post Emergence (Post E) application of Topramezone - 25.2 g a.i./ha (T4 ); PE application of Atrazine - 0.75 kg a.i./ha fb Post E application of Tembotrione - 120 g a.i./ha (T5 ); PE application of Atrazine - 1.0 kg a.i./ha fb Post E application of Topramezone - 25.2 g a.i./ha (T6 ); PE application of Atrazine - 1.0 kg a.i./ha fb Post E application of Tembotrione - 120 g a.i./ha (T7 ); Early Post E application of Topramezone - 25.2 g a.i./ha + Atrazine - 0.75 kg a.i./ha (T8 ) and Early Post E application of Tembotrione - 120 g a.i./ha + Atrazine - 0.75 kg a.i./ha (T9 ). Eleusine indica, Echinochloa colona, Digitaria sanguinalis and Eragrostis japonica were dominant among grassy weeds whereas broad leaf weeds included Cucumis melo, Phyllanthus niruri, Cleome viscosa and Commelina benghalensis. Cyperus rotundus was dominant among sedges. Topramezone - 25.2 g a.i./ha + Atrazine - 0.75 kg a.i./ha Early Post E resulted significantly lower total weed density and was similar to other herbicidal treatments. The highest grain yield (7.2 t/ha) was recorded in a weed-free crop that was similar to all herbicidetreated crops and significantly higher than the weedy crop. Tank mix application of atrazine - 0.75 kg a.i./ha with tembotrione 120 g a.i./ha or topramezone 25.2 g a.i./ha at 15 DAS can be suggested owing to higher grain yield and profits for farmers while lowering the dose and expenses involved in manual weeding and spraying atrazine separately.","PeriodicalId":35528,"journal":{"name":"Indian Journal of Agronomy","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2024-05-05","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Growth and productivity of maize (Zea mays) as influenced by sequential and combined application of tank mix herbicides\",\"authors\":\"Rajan Shukla, Amit Bhatnagar, Anjali Rawat, Satyam Rawat, Sandeep Kumar, Govind Ballabh, M. 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引用次数: 0
摘要
该实验于 2021-22 年期间在北阿坎德邦潘特纳加尔的戈文德-巴拉巴-潘特农业与技术大学进行,旨在评估芽前和芽后除草剂的顺序施用和混合施用对杂草动态和玉米产量的影响。该研究包括 9 个处理,即杂草丛生(T1);无杂草(T2);芽前(PE)施用阿特拉津-1 千克活性成分/公顷,人工除草(T3);芽前(PE)施用阿特拉津-0./ha (T5 ); PE 施用阿特拉津 - 1.0 kg a.i./ha fb E 后施用托吡甲禾灵 - 25.2 g a.i./ha (T6 ); PE 施用阿特拉津 - 1.0 kg a.i./ha fb E 后施用腾博硫磷 - 120 g a. i. /ha (T7 ); PE 施用阿特拉津 - 0.75 kg a.i./ha fb E 后施用腾博硫磷 - 120 g a. i. /ha (T8 ); PE 施用阿特拉津 - 0.75 kg a.i./ha fb E 后施用腾博硫磷 - 120 g a. i.唑-0.75千克活性成分/公顷(T8)和戊唑醇-120克活性成分/公顷+阿特拉津-0.75千克活性成分/公顷(T9)。在禾本科杂草中,以荸荠属(Eleusine indica)、苣荬菜属(Echinochloa colona)、苣荬菜属(Digitaria sanguinalis)和粳米属(Eragrostis japonica)为主,而阔叶杂草包括甜瓜属(Cucumis melo)、苋属(Phyllanthus niruri)、粘茎苋属(Cleome viscosa)和贲门属(Commelina benghalensis)。莎草中主要是香附子。Topramezone - 25.2 g a.i./ha + Atrazine - 0.75 kg a.i./ha的E早期除草处理显著降低了杂草总密度,与其他除草处理效果相似。无杂草作物的谷物产量最高(7.2 吨/公顷),与所有除草剂处理的作物产量相近,且明显高于杂草作物。建议在 15 DAS 时将阿特拉津(0.75 千克活性成分/公顷)与 tembotrione(120 克活性成分/公顷)或 topramezone(25.2 克活性成分/公顷)混合施用,以提高谷物产量和农民收益,同时降低人工除草和单独喷洒阿特拉津的剂量和费用。
Growth and productivity of maize (Zea mays) as influenced by sequential and combined application of tank mix herbicides
The experiment was conducted during 2021–22 at Govind Ballabh Pant University of Agriculture and Technology, Pantnagar, Uttarakhand to evaluate the impact of sequential and tank mix application of pre- and post-emergence herbicide on weed dynamics and maize productivity. The study was comprised of 9 treatments viz. Weedy (T1 ); Weed free (T2 ); Pre-emergence (PE) application of Atrazine -1 kg a.i./ha fb hand weeding (T3 ); PE application of Atrazine - 0.75 kg a.i./ha fb Post Emergence (Post E) application of Topramezone - 25.2 g a.i./ha (T4 ); PE application of Atrazine - 0.75 kg a.i./ha fb Post E application of Tembotrione - 120 g a.i./ha (T5 ); PE application of Atrazine - 1.0 kg a.i./ha fb Post E application of Topramezone - 25.2 g a.i./ha (T6 ); PE application of Atrazine - 1.0 kg a.i./ha fb Post E application of Tembotrione - 120 g a.i./ha (T7 ); Early Post E application of Topramezone - 25.2 g a.i./ha + Atrazine - 0.75 kg a.i./ha (T8 ) and Early Post E application of Tembotrione - 120 g a.i./ha + Atrazine - 0.75 kg a.i./ha (T9 ). Eleusine indica, Echinochloa colona, Digitaria sanguinalis and Eragrostis japonica were dominant among grassy weeds whereas broad leaf weeds included Cucumis melo, Phyllanthus niruri, Cleome viscosa and Commelina benghalensis. Cyperus rotundus was dominant among sedges. Topramezone - 25.2 g a.i./ha + Atrazine - 0.75 kg a.i./ha Early Post E resulted significantly lower total weed density and was similar to other herbicidal treatments. The highest grain yield (7.2 t/ha) was recorded in a weed-free crop that was similar to all herbicidetreated crops and significantly higher than the weedy crop. Tank mix application of atrazine - 0.75 kg a.i./ha with tembotrione 120 g a.i./ha or topramezone 25.2 g a.i./ha at 15 DAS can be suggested owing to higher grain yield and profits for farmers while lowering the dose and expenses involved in manual weeding and spraying atrazine separately.
期刊介绍:
Indian Journal of Agronomy welcomes concise articles presenting original research data based on field experiments on all aspects of agronomy in different crops and related cropping systems. • The journal publishes only full length comprehensive articles based on new approaches/findings in English only. • Review articles are also considered but these are normally solicited by Editorial Board. However, the authors who wish to contribute a review on their own based on their standing in the relevant field may contact the Secretary or Chief Editor with a broad outline before submitting the manuscript.
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