Plant pathogens as introduced weed biological control agents: Could antagonistic fungi be important factors determining agent success or failure?

IF 2.1 Q3 MYCOLOGY Frontiers in fungal biology Pub Date : 2022-07-26 eCollection Date: 2022-01-01 DOI:10.3389/ffunb.2022.959753
Alana Den Breeyen, Claudia Lange, Simon V Fowler
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引用次数: 4

Abstract

Mycoparasitic interactions are common in nature, form part of the microbiota of plants, and are considered significant contributors to fungus-fungus antagonism. Mycoparasites kill plant pathogens, protect the plant from abiotic and biotic stressors, and reduce disease incidence and severity at the plant population level. Their exploitation as biocontrol agents in agriculture is well documented. However, mycoparasites may potentially affect classical fungal biocontrol agents of invasive weed species. Classical biological control, or biocontrol, of invasive weeds involves the intentional introduction of exotic, usually co-evolved plant pathogens and insects, for permanent establishment and long-term control of the target plant. Agent establishment, effectiveness, and safety are the critical elements for a successful weed biocontrol programme. Establishment and effectiveness of agents on the invasive plant often vary throughout the invaded range with about two-thirds of weed biocontrol agents failing to suppress their target weed. There are many documented reasons why weed biocontrol agents do not establish or are ineffective when they do, and the presence and accumulation of natural enemies in the invaded range is one of them. Endophyte-enriched, invasive weeds and those forming mutualistic associations with indigenous, native endophytes could explain the lack of consistency of some classical biological control introductions. However, another variable could be factored into the mix: mycoparasitism, where one fungus parasitises another, the natural enemies of the plant's natural enemies. In this review article, we introduce the concept of invasive weed biocontrol and the history of using plant pathogens as biocontrol agents. We discuss the success and failure of fungal agent programmes and delve into the patterns of success or failure, with a focus on the potential antagonistic role of endophytes and mycoparasites.

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植物病原体作为杂草生物防治剂的引入:拮抗真菌是否是决定药剂成败的重要因素?
真菌与寄生虫的相互作用在自然界中很常见,是植物微生物群的一部分,被认为是真菌与真菌拮抗作用的重要因素。真菌寄生虫杀死植物病原体,保护植物免受非生物和生物胁迫,并在植物种群水平上降低疾病的发生率和严重程度。它们在农业中作为生物控制剂的开发有充分的记录。然而,真菌寄生虫可能会影响入侵杂草物种的经典真菌生物防治剂。入侵杂草的传统生物控制或生物控制涉及有意引入外来的、通常是共同进化的植物病原体和昆虫,以永久建立和长期控制目标植物。药剂的建立、有效性和安全性是杂草生物防治计划成功的关键因素。在整个入侵范围内,药剂对入侵植物的建立和有效性通常各不相同,约三分之二的杂草生物控制药剂无法抑制其目标杂草。杂草生物防治剂不能建立或建立时无效的原因有很多,天敌在入侵范围内的存在和积累就是其中之一。富含内生植物的入侵杂草以及与本地内生植物形成互惠共生关系的杂草可以解释一些经典生物防治引入缺乏一致性的原因。然而,另一个变量也可以考虑在内:真菌寄生,一种真菌寄生在另一种真菌上,即植物天敌的天敌。在这篇综述文章中,我们介绍了入侵杂草生物防治的概念和使用植物病原体作为生物防治剂的历史。我们讨论了真菌制剂计划的成功和失败,并深入研究了成功或失败的模式,重点是内生菌和真菌寄生虫的潜在拮抗作用。
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审稿时长
13 weeks
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