Sesame (Sesamum indicum L.) Response to Soil Additives Applied in-Furrow at Planting

Journal of experimental agriculture international Pub Date : 2024-02-19 DOI:10.9734/jeai/2024/v46i32326

W. Grichar

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Abstract

Aims: Studies were conducted to study the response of sesame to soil additives applied in-furrow. Study Design: Randomized complete block with 4 replications. Place and Duration of Study: Field experiments were carried out during the 2016 through 2018 growing seasons in south-central Texas near Yoakum (29.27704o N, -97.12453o W). Methodology: Sesame seed was planted < 2.54 cm deep. Treatments were applied using a CO2-pressurized sprayer in 46.8 L ha-1 of water with one Teejet® orifice disc #45 nozzle per row immediately after seed drop but prior to furrow closure. Each plot consisted of two rows spaced 97 cm apart and 7.6 m long. Sprinkler irrigation was applied on a 2- to 3-wk schedule throughout the growing season as needed. S-metolachlor at 1.4 kg ha-1 was applied preemergence while clethodim at 0.11 kg ha-1 and diuron at 1.12 kg ha-1 were applied postemergence to control annual grasses and broadleaf weeds that were present. Results: In 2016, treatments containing 7% N + 10% chelated Fe, gibberellic acid + 3-indolebutyric acid (0.045%) + cytokinin as Kinetin (0.09%), and pop-up fertilizer (9-30-0 + Zn) resulted in the greatest sesame emergence. In 2017, 2% N, bifenthrin + Bacillus amyloliquefaciens strain D747, and humic acids + Bacillus spp. resulted in greater emergence (90-97%) while in 2018, Azospirillum brasilense and 2% N resulted in the greater emergence (90-91%). In 2016, 2% N produced the greatest yield while in 2018 2% N and the 3-way combination of cytokinin as kinetin (0.090%) + gibberellic acid + indole-3-butyric acid (0.045%) resulted in up to a 117% increase in yield over the untreated. Conclusion: The 3-way combination of gibberellic acid + 3-indolebutyric acid (0.045%) + cytokinin as kinetin (0.090%) and 2 % N proved to be the most consistent soil additives and resulted in a yield increases in the two years that the studies were harvested.

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芝麻（Sesamum indicum L.）对种植时垄内施用的土壤添加剂的反应

研究目的：研究芝麻对土壤添加剂的反应。研究设计：随机完整区组，4 次重复。研究地点和时间：田间试验于 2016 年至 2018 年生长季节在德克萨斯州中南部约库姆附近（北纬 29.27704 度，西经 -97.12453 度）进行。实验方法：芝麻种子播种深度< 2.54 厘米。在落种后、封沟前，使用二氧化碳加压喷雾器在每行 46.8 升/公顷的水中用一个 Teejet® 孔盘 #45 喷嘴喷洒处理剂。每块地由两行组成，行距 97 厘米，长 7.6 米。在整个生长季节，根据需要每 2 到 3 周进行一次喷灌。出苗前施用 1.4 千克/公顷的 S-甲草胺，出苗后施用 0.11 千克/公顷的 clethodim 和 1.12 千克/公顷的 diuron，以防除一年生禾本科杂草和阔叶杂草。结果2016年，含7%氮+10%螯合铁、赤霉素+3-吲哚丁酸（0.045%）+细胞分裂素作为Kinetin（0.09%）以及弹出式肥料（9-30-0+锌）的处理使芝麻出苗率最高。2017 年，2% N、联苯菊酯+淀粉芽孢杆菌菌株 D747 和腐殖酸+芽孢杆菌属使芝麻出苗率更高（90-97%），而 2018 年，Azospirillum brasilense 和 2% N 使芝麻出苗率更高（90-91%）。在 2016 年，2% N 的产量最高，而在 2018 年，2% N 和细胞分裂素的三方组合，即酮素（0.090%）+赤霉素+吲哚-3-丁酸（0.045%），比未处理的产量最多增加 117%。结论赤霉素+3-吲哚丁酸（0.045%）+细胞分裂素（0.090%）+2%氮的三效组合被证明是最稳定的土壤添加剂，并在研究收获的两年中实现了增产。

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Journal of experimental agriculture international

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