绿豆根腐病生物防治剂的光晕耐受性研究盐渍土壤中相绿巨霉(Tassi)引起的辐射致病菌(Wilczek var. radiation

P. Sharavanan, V. Satya, M. Rajesh
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引用次数: 0

摘要

绿豆根腐病[Vigna radiata (L.)]是一种主要病害,如果在田间发生,会造成巨大的产量损失。病原菌基本上是土壤传播的,其生存能力可能因土壤条件而异。可以使用杀菌剂来控制疾病;然而,目前生物防治剂可用于根腐病的防治,而生物防治剂的微生物活性受土壤ph等现有土壤条件的影响。因此,本研究在盐害土壤中,研究了生物防治剂在离体、体内和田间条件下对根腐病的耐晕能力。从染病的根中分离到根腐病病原菜绿巨霉。研究了几种生物防治剂对菜绿支原体生长的体外防效。结果表明,在NaCl浓度分别为5% (1.4 cm)、7.5% (1.5 cm)、10% (1.6cm)和12.5% (1.6cm)以及不添加NaCl (1.2 cm)的培养基中,枯草芽孢杆菌(Bacillus subtilis)、荧光假单胞菌(Pseudomonas fluorescens)和绿色木霉(Trichoderma viride)的培养基中,TNAU菌株对菜绿芽孢杆菌(M. phaseolina)菌丝生长均有显著的抑制作用。当培养基中添加NaCl时,防菌剂的防菌效果略有下降。在添加枯草芽孢杆菌TNAU菌株的培养基中,phaeolina菌丝重量的减少量最大,在添加5%(3.15g)、7.5% (3.25g)、10% (3.32g)和12.5%(3.65g) NaCl的培养基中,TNAU菌株对phaseolina菌丝重量的减少量最大,其次是P. fluorescens、BCA 1菌株枯草芽孢杆菌和绿色木霉。在盆栽条件下,评价了滑石粉配方生物防治剂和病原菌攻毒接种防治根腐病的效果。结果表明,施用TNAU菌株的枯草芽孢杆菌在pH为7.0(2.37%)、7.5(4.50%)、8.0(5.53%)和8.7(6.57%)的土壤中对根腐病发病率的降低效果较好,各pH水平下施用BCA 1的效果次之。在不同的防菌剂中,TNAU菌株作为种子施用和土壤施用在不同pH水平下根际的种群数量最多。与种子处理相比,作为土壤施用的生物防治剂在土壤中的种群数量更多。在2019- 2020年和2020-21年pH为7.5和8.7的田间条件下,评价了生物防治剂对光晕的耐受性能。结果表明,施用2.5 kg/ha的TNAU菌株与施用2.5 kg/ha的BCA1菌株根系腐病发生率最低,产量最高。
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Halo Tolerance of Biocontrol Agents against Root Rot of Mung Bean (Vigna radiata (L.) Wilczek var. radiata) Caused by Macrophomina phaseolina (Tassi) Goid in Salt Affected Soils
Root rot of mung bean [Vigna radiata (L.) Wilczek var. radiata] is major disease and claims huge yield loss if they occur in the field. The pathogen is basically soil borne and survivability may vary depends on soil condition. The fungicide chemicals are available to manage the disease; however, the biocontrol agents are nowadays available for the disease management and the microbial activity of the biocontrol agents is influenced by existing soil condition including soil pH. Hence, a study was conducted to find out the halo tolerance capacity of the biocontrol agents against root rot disease in salt affected soils under in vitro, in vivo and field condition. The root rot pathogen Macrophomina phaseolina was isolated from infected root. Efficacy of biocontrol agents against growth of M. phaseolina was assessed in vitro. The results revealed that TNAU strain of Bacillus subtilis reduced the mycelial growth of the M. phaseolina significantly when media supplemented with NaCl at 5% (1.4 cm), 7.5% (1.5 cm), 10% (1.6cm) and 12.5% (1.6 cm) and without NaCl (1.2 cm) and similar trend of reduction also expressed by BCA1 strain of B. subtilis, Pseudomonas fluorescens and Trichoderma viride under in vitro. The performance of the biocontrol agents against the pathogen is slightly reduced when media supplemented with NaCl. The reduction of mycelia weight of M.phaeolina was more in media added with TNAU strain of B.subtilis and the performance of TNAU strain of B.subtilis on reduction of mycelial weight of M.phaseolina is reduced when the broth added with NaCl at 5% (3.15g), 7.5% (3.25g), 10% (3.32g) and 12.5%(3.65g) level and which is followed by P. fluorescens, BCA 1 strain of B. subtilis and Trichoderma viride. Under pot culture conditions, the effect of talc formulated biocontrol agents and challenge inoculation with pathogen was assessed against root rot incidence. It was found that the soil application of TNAU strain of B.subtilis performed better in reducing the root rot incidence at pH of 7.0 (2.37%), 7.5 (4.50%), 8.0 (5.53%) and 8.7 (6.57%) and followed by BCA 1 of B.subtilis in all pH level. Among the biocontrol agents, TNAU strain of B.subtilis applied as seed as well as soil application expressed more population in the rhizosphere in all pH level. The biocontrol agents applied as soil application had more populations of the agents in the soil when compared to seed treatment. The halo tolerance performance of the biocontrol agents was also assessed under field condition in pH of 7.5 and 8.7 during 2019-20 and 2020-21. It was found that the minimum root rot incidence and maximum yield was observed from soil application of TNAU strain of B subtilis at 2.5 kg/ha but the effect is on par with soil application of BCA1 strain of B.subtilis at 2.5 kg/ha.
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