Evaluation of Preplant Seed Protectants for the Management of Root-Knot Nematode of Okra in Ghana

Prince Baah, S. T. Nyaku, Benjamin Agamah, P. Tongoona
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Abstract

Root-knot nematode (Meloidogyne incognita) poses a significant threat to okra production, resulting in substantial yield losses. The objectives of this study were to assess the impact of biological seed protectants on the growth and establishment of okra plants and nematode population reduction in soil. Okra seeds were coated with 40% sesame oil, 50% neem oil, 100% citrus oil, velum at 3.8 ml/7l of water, and a control (sterilized distilled water) at different time intervals of 30 min, 60 min, 90 min, and 120 min to determine the germination percentages and vigor. The experimental setup was laid out in a completely randomized design (CRD), with three replications, utilizing a Jacobson table for the germination test. The laboratory results demonstrated significant differences (P<0.05) in germination percentage and vigor index across the different time intervals. Neem oil, citrus oil, and velum exhibited higher germination percentages and vigor indices at all time intervals. Notably, 30-minute time interval proved to be efficient with 100% citrus oil producing 80.33% germination and 965 vigor index and 50% neem oil producing 75% germination and 994 vigor index. Field evaluations revealed citrus at 100% concentrations as seed coating (T5) and neem at 50% concentrations as seed coating (T3), with the highest nematode reductions (90.1% and 90.4%) and least reproductive factors (RFs) of 0.05 and 0.04, respectively, at the Atomic farms. The study has revealed that treating okra seeds with 100% citrus oil and 50% neem oil has the efficacy of reducing nematode reproduction in soil, while enhancing germination and seedling vigor, together with an improvement in growth and yield. Sesame oil has a negative influence on seed germination and vigor and is therefore not recommended as a preplant protectant.
评估加纳管理秋葵根结线虫的播种前种子保护剂
根结线虫(Meloidogyne incognita)对秋葵生产构成了严重威胁,导致大量减产。本研究的目的是评估生物种子保护剂对秋葵植株生长和建植以及减少土壤中线虫数量的影响。在 30 分钟、60 分钟、90 分钟和 120 分钟的不同时间间隔内,分别用 40% 的芝麻油、50% 的印楝油、100% 的柑橘油、3.8 毫升/7 升水的velum 和对照组(消毒蒸馏水)对秋葵种子进行包衣,以确定发芽率和活力。实验设置为完全随机设计(CRD),三次重复,利用雅各布森表进行发芽试验。实验室结果表明,在不同的时间间隔内,发芽率和活力指数存在显著差异(P<0.05)。印楝油、柑橘油和丝绒在所有时间间隔内都表现出较高的发芽率和活力指数。值得注意的是,30 分钟的时间间隔被证明是有效的,100% 的柑橘油产生 80.33% 的发芽率和 965 的活力指数,50% 的印楝油产生 75% 的发芽率和 994 的活力指数。田间评估显示,在原子农场,100%浓度的柑橘油作为种子包衣剂(T5)和 50%浓度的印楝油作为种子包衣剂(T3),线虫减少率最高(90.1% 和 90.4%),繁殖系数(RFs)最低,分别为 0.05 和 0.04。研究表明,用 100% 的柑橘油和 50% 的印楝油处理黄秋葵种子可有效减少线虫在土壤中的繁殖,同时提高发芽率和幼苗活力,改善生长和产量。芝麻油对种子发芽和活力有负面影响,因此不建议用作播种前保护剂。
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