Abstract
The Fusarium species has diverse ecological functions ranging from saprophytes, endophytes, and animal and plant pathogens. Occasionally, they are isolated from dead and alive insects. However, research on fusaria-insect associations is very limited as fusaria are generalized as opportunistic insect-pathogens. Additionally, their phytopathogenicity raises concerns in their use as commercial biopesticides. Insect biocontrol potential of Fusarium is favored by their excellent soil survivability as saprophytes, and sometimes, insect-pathogenic strains do not exhibit phytopathogenicity. In addition, a small group of fusaria, those belonging to the Fusarium solani species complex, act as insect mutualists assisting in host growth and fecundity. In this review, we summarize mutualism and pathogenicity among fusaria and insects. Furthermore, we assert on Fusarium entomopathogenicity by analyzing previous studies clearly demonstrating their natural insect-pathogenicity in fields, and their presence in soils. We also review the presence and/or production of a well-known insecticidal metabolite beauvericin by different Fusarium species. Lastly, some proof-of-concept studies are also summarized, which demonstrate the histological as well as immunological changes that a larva undergoes during Fusarium oxysporum pathogenesis. These reports highlight the insecticidal properties of some Fusarium spp., and emphasize the need of robust techniques, which can distinguish phytopathogenic, mutualistic and entomopathogenic fusaria.
Highlights
Fusarium (Link ex Grey) species are hyaline filamentous fungi, which are ubiquitous with cosmopolitan distribution
It was noted that fusaria could exhibit mutualism with insects, this property was generally restricted to strains belonging to the F. solani species complex
More proof-of-concept studies on insects from different orders will further strengthen the claims of the entomopathogenicity of different Fusarium species
Summary
Fusarium (Link ex Grey) species are hyaline filamentous fungi, which are ubiquitous with cosmopolitan distribution. Fusarium spp. causing superficial localized infections in humans as well as those which are phytopathogenic, were found pathogenic to insects, such as Galleria mellonella Linnaeus (Pyralidae: Lepidoptera) Both clinical and environmental strains of Fusarium spp. such as F. oxysporum and F. solani caused 100% of the mortalities of the insect larvae [7,8]. The administration of anti-fungal agents like amphotericin B, which are effective against clinical Fusarium strains, increased the survivability of the Fusarium infected larvae [8] Such reports highlight the trans-kingdom pathogenicity of the Fusarium species. Feng-Yan and Quing-Tao reported 180 Fusarium isolates from approximately 150 dead or diseased insects including spiders [12] Insect orders such as Lepidoptera, Coleoptera, Homoptera, Hymenoptera and Araneida were found infected by fusaria [12]. We briefly discuss studies, which focus on insect-Fusarium mutualism, and argue the entomopathogenicity of Fusarium, in detail
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