NATIVE AMAZONIAN FUNGI TO CONTROL TERMITES Nasutitermes sp. (BLATTODEA: TERMITIDAE) <span class="so-article-trans-title" dir="auto"> Translated title: Hongos natives para el control de Nasutitermes sp. (Blattodea: Termitidae) </span>

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Abstract

ABSTRACT Termites of the Nasutitermes genus are considered one of the main urban and agroforestry pests in Brazil, where the main method of control is the application of pesticides. The uso of entomopathogenic fungi to reduce the population of this plague in the environment could be use as an alternative. The goal of this study was to evaluate the virulence of isolates native Amazonian fungi belonging to the Tolypocladium endophyticum, Metarhizium anisopliae and Metarhizium marquandii species for the control of Nasutitermes sp. The strains of T. endophyticum (4.439), M. anisopliae (4.443) and M. marquandii (4.472) with their respective isolation codes, were evaluated using suspensions at concentrations of 105, 106, 107 and 108 conidia/mL against the termites. The fungi were characterized to species level by molecular analysis. The greatest virulence was registered with T. endophyticum (4.439), with a mortality of 100 % on the 4th day of treatment for all analyzed concentrations. The M. anisopliae strain (4.443) proved to be efficient, causing a mortality of 100 % on the 7th and 6th days at dilutions of 107 and 108 conidia/mL, respectively. Rates lower than 100 % were registered with M. marquandii (4.472). Therefore, the three fungal strains showed virulence against the termites Nasutitermes sp. In this study, the fungi Tolypocladium endophyticum and Metarhizium marquandii are reported for the first time for the biological control of pests, indicating the potential of native Amazonian fungi for the biological control of thermites Nasutitermes sp.

Translated abstract

RESUMEN Las termitas del género Nasutitermes son consideradas una de las principales plagas urbanas y agroforestales de Brasil, donde el principal método de control es la aplicación de pesticidas. Los hongos entomopatógenos pueden ser usados como alternativa para reducir la población de esta plaga en el medio ambiente. Por tanto, el objetivo de este estudio fue evaluar la virulencia de aislados de hongos nativos de suelo amazónico pertenecientes a las especies Tolypocladium endophyticum, Metarhizium anisopliae y Metarhizium marquandii para el control de Nasutitermes sp. Las cepas de T. endophyticum (4,439), M. anisopliae (4,443) y M. marquandii (4,472) con sus respectivos códigos de aislamiento, fueron evaluadas utilizando suspensiones a concentraciones de 105, 106, 107 y 108 conidios/mL contra las termitas. Los hongos se caracterizaron mediante análisis moleculares para confirmar la especie. La mayor virulencia se registró con el hongo T. endophyticum (4,439), con una mortalidad del 100 % al cuarto día de tratamiento para todas las concentraciones analizadas. La cepa M. anisopliae (4,443) demostró ser eficiente, causando una mortalidad del 100 % al sexto y septimo días a las diluciones de 107 y 108 conidios / mL, respectivamente. Se registraron tasas inferiores al 100 % con M. marquandii (4,472). Por tanto, las tres cepas de hongos mostraron virulencia contra las termitas Nasutitermes sp. En este estudio, los hongos Tolypocladium endophyticum y Metarhizium marquandii son reportados por primera vez para el control biológico de plagas, indicando el potencial de hongos nativos de suelo amazónico para el control biológico de termitas Nasutitermes sp.

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Entomopathogenic fungi for mosquito control: A review

Ernst-Jan Scholte, Bart G.J. Knols, Robert Samson … (2004)

Fungal diseases in insects are common and widespread and can decimate their populations in spectacular epizootics. Virtually all insect orders are susceptible to fungal diseases, including Dipterans. Fungal pathogens such as Lagenidium, Coelomomyces and Culicinomyces are known to affect mosquito populations, and have been studied extensively. There are, however, many other fungi that infect and kill mosquitoes at the larval and/or adult stage. The discovery, in 1977, of the selective mosquito-pathogenic bacterium Bacillus thuringiensis Berliner israelensis (Bti) curtailed widespread interest in the search for other suitable biological control agents. In recent years interest in mosquito-killing fungi is reviving, mainly due to continuous and increasing levels of insecticide resistance and increasing global risk of mosquito-borne diseases. This review presents an update of published data on mosquito-pathogenic fungi and mosquito-pathogen interactions, covering 13 different fungal genera. Notwithstanding the potential of many fungi as mosquito control agents, only a handful have been commercialized and are marketed for use in abatement programs. We argue that entomopathogenic fungi, both new and existing ones with renewed/improved efficacies may contribute to an expansion of the limited arsenal of effective mosquito control tools, and that they may contribute in a significant and sustainable manner to the control of vector-borne diseases such as malaria, dengue and filariasis.

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Fungi with multifunctional lifestyles: endophytic insect pathogenic fungi.

Larissa Barelli, Soumya Moonjely, Scott Behie … (2016)

This review examines the symbiotic, evolutionary, proteomic and genetic basis for a group of fungi that occupy a specialized niche as insect pathogens as well as endophytes. We focus primarily on species in the genera Metarhizium and Beauveria, traditionally recognized as insect pathogenic fungi but are also found as plant symbionts. Phylogenetic evidence suggests that these fungi are more closely related to grass endophytes and diverged from that lineage ca. 100 MYA. We explore how the dual life cycles of these fungi as insect pathogens and endophytes are coupled. We discuss the evolution of insect pathogenesis while maintaining an endophytic lifestyle and provide examples of genes that may be involved in the transition toward insect pathogenicity. That is, some genes for insect pathogenesis may have been co-opted from genes involved in endophytic colonization. Other genes may be multifunctional and serve in both lifestyle capacities. We suggest that their evolution as insect pathogens allowed them to effectively barter a specialized nitrogen source (i.e. insects) with host plants for photosynthate. These ubiquitous fungi may play an important role as plant growth promoters and have a potential reservoir of secondary metabolites.