Baronia Richa, Kumar Puneet, Singh S P, Walia R K
Indian Reference Materials Division, CSIR - National Physical Laboratory, New Delhi, 110012, India.
All India Coordinated Research Project on Nematodes in Agriculture, ICAR - Indian Agricultural Research Institute, New Delhi, 110012, India.
J Nematol. 2020;52:1-9. doi: 10.21307/jofnem-2020-002.
Plant-parasitic nematodes cause severe damage to the various agricultural crops, leading to economic losses for farmers. Therefore, identification and development of novel and environmentally benign nematicides is critically important. In this study, a silver nanoparticle (AgNP) formulation was synthesized, characterized, and investigated as a potential nematicide against rice root-knot nematode, , on rice (). A series of lab assays (water and sand screening) and glasshouse experiments (using soilless system, autoclaved soil, and naturally infested soil) were conducted to examine the nematicidal effects of AgNP. The results from lab assays revealed 0.1 µg/ml as the minimum concentration for 100% irreversible nematode mortality after 12 hr in the water screening test. However, results from the sand screening test indicated 100% nematicidal effect of AgNP at 2 µg/ml after 24 hr of incubation. In glasshouse assays in soilless system of rice cultivation, 1 µg/ml concentration of AgNP applied directly to the trays achieved significant suppression of root gall formation. The effective dosage to kill nematodes in field soil assays was determined to be 3 µg/ml, which is lower than the value of 150 µg/ml reported in the literature. No visible adverse effect of AgNP was observed on seed germination or plant growth in all the experiments. The results indicate that AgNP has effective nematicidal activity against in rice. Plant-parasitic nematodes cause severe damage to the various agricultural crops, leading to economic losses for farmers. Therefore, identification and development of novel and environmentally benign nematicides is critically important. In this study, a silver nanoparticle (AgNP) formulation was synthesized, characterized, and investigated as a potential nematicide against rice root-knot nematode, , on rice (). A series of lab assays (water and sand screening) and glasshouse experiments (using soilless system, autoclaved soil, and naturally infested soil) were conducted to examine the nematicidal effects of AgNP. The results from lab assays revealed 0.1 µg/ml as the minimum concentration for 100% irreversible nematode mortality after 12 hr in the water screening test. However, results from the sand screening test indicated 100% nematicidal effect of AgNP at 2 µg/ml after 24 hr of incubation. In glasshouse assays in soilless system of rice cultivation, 1 µg/ml concentration of AgNP applied directly to the trays achieved significant suppression of root gall formation. The effective dosage to kill nematodes in field soil assays was determined to be 3 µg/ml, which is lower than the value of 150 µg/ml reported in the literature. No visible adverse effect of AgNP was observed on seed germination or plant growth in all the experiments. The results indicate that AgNP has effective nematicidal activity against in rice.
植物寄生线虫对各种农作物造成严重损害,给农民带来经济损失。因此,鉴定和开发新型且环境友好的杀线虫剂至关重要。在本研究中,合成并表征了一种银纳米颗粒(AgNP)制剂,并将其作为一种潜在的杀线虫剂,用于防治水稻上的水稻根结线虫(Meloidogyne graminicola)。进行了一系列实验室试验(水筛和砂筛)和温室试验(使用无土系统、灭菌土壤和自然感染土壤),以检测AgNP的杀线虫效果。实验室试验结果表明,在水筛试验中,12小时后线虫100%不可逆死亡的最低浓度为0.1μg/ml。然而,砂筛试验结果表明,孵育24小时后,2μg/ml的AgNP具有100%的杀线虫效果。在水稻无土栽培系统的温室试验中,直接施用于育苗盘的1μg/ml浓度的AgNP可显著抑制根瘤形成。田间土壤试验中杀死线虫的有效剂量确定为3μg/ml,低于文献报道的150μg/ml的值。在所有实验中均未观察到AgNP对种子萌发或植物生长有明显的不利影响。结果表明,AgNP对水稻上的水稻根结线虫具有有效的杀线虫活性。植物寄生线虫对各种农作物造成严重损害,给农民带来经济损失。因此,鉴定和开发新型且环境友好的杀线虫剂至关重要。在本研究中,合成并表征了一种银纳米颗粒(AgNP)制剂,并将其作为一种潜在的杀线虫剂,用于防治水稻上的水稻根结线虫(Meloidogyne graminicola)。进行了一系列实验室试验(水筛和砂筛)和温室试验(使用无土系统、灭菌土壤和自然感染土壤),以检测AgNP的杀线虫效果。实验室试验结果表明,在水筛试验中,12小时后线虫100%不可逆死亡的最低浓度为0.1μg/ml。然而,砂筛试验结果表明,孵育24小时后,2μg/ml的AgNP具有100%的杀线虫效果。在水稻无土栽培系统的温室试验中,直接施用于育苗盘的1μg/ml浓度的AgNP可显著抑制根瘤形成。田间土壤试验中杀死线虫的有效剂量确定为3μg/ml,低于文献报道的150μg/ml的值。在所有实验中均未观察到AgNP对种子萌发或植物生长有明显的不利影响。结果表明,AgNP对水稻上的水稻根结线虫具有有效的杀线虫活性。
