优化真菌生物防治制剂以长期有效治理果园和葡萄园害虫的机会:综述。

IF 2.1 Q3 MYCOLOGY Frontiers in fungal biology Pub Date : 2024-08-01 eCollection Date: 2024-01-01 DOI:10.3389/ffunb.2024.1443343
Christopher M Wallis, Mark S Sisterson
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引用次数: 0

摘要

由于过度依赖少数活性成分和监管问题,目标害虫往往对化学防治的敏感性降低,因此需要采用新的策略来控制多年生水果和坚果作物中的害虫。作为化学防治的替代品,昆虫病原真菌可用作生物防治剂来控制害虫数量。然而,由于缺乏基础知识,田间现成产品的开发受到阻碍。开发可在田间使用的产品需要收集、筛选和鉴定更多潜在的昆虫病原真菌种类和菌株。建立研究昆虫病原真菌的标准化研究框架将有助于确定真菌可能具有的生物防治活性机制,包括抗生素代谢物的产生;最适合在不同气候和农业生态系统中生存的菌株和物种;以及昆虫病原真菌和新型制剂的优化组合。因此,这篇小型综述讨论了收集和鉴定新的昆虫病原菌菌株、测试生物防治活动的不同潜在机制、研究不同物种和菌株耐受不同气候的能力,以及如何利用这些信息将菌株开发成产品供种植者使用的策略。
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Opportunities for optimizing fungal biological control agents for long-term and effective management of insect pests of orchards and vineyards: a review.

Novel tactics for controlling insect pests in perennial fruit and nut crops are needed because target pests often display decreased susceptibility to chemical controls due to overreliance on a handful of active ingredients and regulatory issues. As an alternative to chemical controls, entomopathogenic fungi could be utilized as biological control agents to manage insect pest populations. However, development of field ready products is hampered by a lack of basic knowledge. Development of field ready products requires collecting, screening, and characterizing a greater variety of potential entomopathogenic fungal species and strains. Creation of a standardized research framework to study entomopathogenic fungi will aid in identifying the potential mechanisms of biological control activity that fungi could possess, including antibiotic metabolite production; strains and species best suited to survive in different climates and agroecosystems; and optimized combinations of entomopathogenic fungi and novel formulations. This mini review therefore discusses strategies to collect and characterize new entomopathogenic strains, test different potential mechanisms of biocontrol activity, examine ability of different species and strains to tolerate different climates, and lastly how to utilize this information to develop strains into products for growers.

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来源期刊
CiteScore
2.70
自引率
0.00%
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审稿时长
13 weeks
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