Synergistic strategies for sustainable crop protection: harnessing soil solarization and biofumigants to combat damping-off pathogens in Solanaceous vegetable crops

IF 2.1 4区 农林科学 Q2 AGRICULTURE, MULTIDISCIPLINARY
Shavnam, Harender Raj
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Abstract

Field experiments were conducted in the summers of 2019 and 2020 to study the effects of soil solarization, biofumigants derived from cauliflower leaves and combinations of those treatments on population densities of soil pathogens Pythium ultimum, Fusarium oxysporum, Rhizoctonia solani, and Sclerotium rolfsii causing damping-off disease in major solanaceous crops. Nylon mesh bags containing mass culture of P. ultimum, F. oxysporum, R. solani, and S. rolfsii were buried underneath the soil at 5 and 10 cm depth. Soil solarization was performed over a 40-day period using thin transparent polythene sheet of 25 µm (100 gauge) thickness. Maximum soil temperatures recorded at depth of 5 cm were 41.8 °C in solarized soil, respectively; this temperature was 5.4 °C higher than in corresponding non-solarized plot. These nylon sieve bags containing culture of the different pathogens were retrieved after 15, 30 and 40 days of solarization and brought to the laboratory to find out the viability of the pathogens. Integration of soil solarization with cauliflower leaves as soil amendment for the period of 40 days at 5 cm soil depth was found most effective in reducing the viability of P. ultimum, F. oxysporum, R. solani, and S. rolfsii to 5.3, 2.6, 4.6, and 3.6% in comparison with 92.6, 77.3, 83.3, and 80.3 in control, respectively. With the increase in the duration of soil solarization from 15 to 40 days, the potential of the pathogens to cause the disease reduced significantly at 5 cm soil depth and incidence of the damping-off reduced from 63.3 to 16.6% in tomato; 66.6 to 20.0% in chilli and 70.0 to 23.3% in capsicum. Through this integrated approach, the viability of soil-borne pathogens can be minimized, thereby improving the overall plant health.

Abstract Image

可持续作物保护的协同战略:利用土壤日晒和生物熏蒸剂防治茄科蔬菜作物的潮湿病原体
在2019年和2020年夏季进行了田间试验,研究土壤日晒、从花椰菜叶中提取的生物熏蒸剂以及这些处理的组合对引起主要茄科作物潮湿病的土壤病原体超微粉疫霉菌(Pythium ultimum)、氧孢镰刀菌(Fusarium oxysporum)、根瘤酵母菌(Rhizoctonia solani)和轮枝菌(Sclerotium rolfsii)种群密度的影响。将装有大量培养物的尼龙网袋分别埋在土壤下 5 厘米和 10 厘米深处,袋中分别装有赤霉病菌、氧孢镰刀菌、茄根直霉菌和茄球菌。使用厚度为 25 微米(100 刻度)的透明聚乙烯薄片对土壤进行为期 40 天的日晒。日晒土壤 5 厘米深处记录到的最高土壤温度分别为 41.8 °C,比相应的非日晒地块高出 5.4 °C。日晒 15 天、30 天和 40 天后,取回这些装有不同病原体培养物的尼龙筛袋,并将其带入实验室,以确定病原体的存活率。结果发现,在 5 厘米深的土壤中用菜花叶片作为土壤改良剂进行为期 40 天的土壤日晒,能最有效地将 P. ultimum、F. oxysporum、R. solani 和 S. rolfsii 的存活率分别降低到 5.3%、2.6%、4.6% 和 3.6%,而对照组的存活率分别为 92.6%、77.3%、83.3% 和 80.3%。随着土壤日晒时间从 15 天增加到 40 天,病原体在 5 厘米土壤深度的致病潜力显著降低,番茄的受潮率从 63.3% 降至 16.6%;辣椒的受潮率从 66.6% 降至 20.0%;辣椒的受潮率从 70.0% 降至 23.3%。通过这种综合方法,可以最大限度地降低土传病原体的生存能力,从而改善植物的整体健康状况。
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来源期刊
Journal of Plant Diseases and Protection
Journal of Plant Diseases and Protection 农林科学-农业综合
CiteScore
4.30
自引率
5.00%
发文量
124
审稿时长
3 months
期刊介绍: The Journal of Plant Diseases and Protection (JPDP) is an international scientific journal that publishes original research articles, reviews, short communications, position and opinion papers dealing with applied scientific aspects of plant pathology, plant health, plant protection and findings on newly occurring diseases and pests. "Special Issues" on coherent themes often arising from International Conferences are offered.
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