非生物抗逆性木霉在气候变化条件下对作物病害管理的适应策略

Meenakshi Taduri
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摘要

气候变化和气候变化是印度农业最主要的问题,影响着农业的最终盈利能力和可持续性。生物和非生物胁迫都受到这些现象的影响。在目前的研究中,在2018-2019年期间,对CRIDA - Hyderabad的13株木霉分离株进行了体外筛选,以了解其生物和非生物胁迫耐受水平。对植物病原菌Macrophominaphaseolina (Mp)、Fusariumoxysporumf.sp的体外拮抗活性。结果表明,菌株T6、T7、T9、T12和T13对Mp、FoR和Rs的抑菌效果最好,抑菌效果为97 ~ 100%;菌株T4、T12和T13对Rs的抑菌效果最好,抑菌效果为69 ~ 75%。在植物生长促进性状中,T5产生的IAA最多(37.9g/mL), T6和T8产生的HCN最多(39.2ppm)。在干旱条件下,T3、T12、T11和T13菌株的耐受性可达-1.8MPa,在盐度条件下,t6、T12和T13菌株的耐受性可达220 dSm-1。发现T6、T12和T13分离株可维持高达43°C的高温。大多数木霉分离株被发现是有效的拮抗剂和非生物胁迫耐受性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Abiotic stress tolerant, antagonistic Trichoderma spp. as an adaptation strategy for crop disease management under climate change conditions
Climate change and climatic variability are major over-riding concerns for Indian agriculture impacting ultimate farm profitability and sustainability.Both biotic and abiotic stresses are influenced by these phenomena. In the current study 13Trichoderma isolates were screened in-vitroat CRIDA - Hyderabad during 2018-2019, for their biotic and abiotic stress tolerance levels.In-vitro antagonistic activity with phytopathogens Macrophominaphaseolina (Mp), Fusariumoxysporumf.sp. ricini (FoR), Rhizoctoniasolani (Rs) and Sclerotiumrolfsii (Sr) revealed that T6,T7,T9,T12 and T13 isolates were most effective against Mp, FoR and Rs with 97-100% inhibition, in Rs T4, T12 and T13 with 69-75% inhibition were found to be best.In plant growth promotion traits, T5 was found to be the highest producer of IAA with 37.9g/mL, T6 and T8 produced the highest amounts of HCN (39.2ppm). Similarly ammonia was produced highest in T5 and T13 while in siderophore production was highest in T10 isolate with 80 SU. Under drought conditions, T3, T12, T11 and T13 isolates were tolerant up to -1.8MPa and in salinity conditionsT6, T12 and T13 isolates were resistant up to 220 dSm-1. T6, T12 and T13 isolates were found to sustain elevated temperatures up to 43°C. Most of the Trichoderma isolates were found to be effective antagonists and abiotic stress tolerant.
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