entomopathogenic fungi – Page 2

Effect of Rare, Locally Isolated Entomopathogenic Fungi on the Survival of Bactrocera oleae Pupae in Laboratory Soil Conditions

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Researchers tested seventeen types of fungi found in Greek olive groves to see if they could kill olive fruit flies, which damage about 30% of olive crops. They applied the fungi to fly pupae in soil and without soil, then tracked how many flies died and how much fungal growth appeared. Several fungi types, especially Aspergillus flavus and A. keveii, were very effective at killing the flies and could potentially replace harmful chemical pesticides used in olive farming.

Overview of hirsutella-like anamorphs in Ophiocordyceps (Sordariomycetes, Ophiocordycipitaceae): introducing two new species and one new record from China

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Scientists discovered and described two new species of parasitic fungi that infect insect larvae in China. These fungi, belonging to the Ophiocordyceps genus, have special asexual reproductive structures called hirsutella-like anamorphs. The research provides a comprehensive catalog of all known Ophiocordyceps species with these structures and how they differ from each other based on their shape and size.

A mycovirus enhances fitness of an insect pathogenic fungus and potentially modulates virulence through interactions between viral and host proteins

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Scientists discovered a virus that infects a beneficial fungus used to control insect pests. Instead of harming the fungus, this virus makes it much better at its job by doubling spore production, helping it survive harsh conditions like UV radiation and heat, and making it more deadly to target insects. The improvement comes from specific interactions between viral and fungal proteins that work together to enhance the fungus’s natural pest-killing abilities.

The Impact of Insecticides on Mycelial Growth of Metarhizium spp. and Their Efficacy in Controlling Larvae and Pupae of the House Fly (Musca domestica L.)

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Researchers tested special fungi (Metarhizium spp.) as a natural way to control house flies, which spread diseases and are becoming resistant to common pesticides. They found that two fungal strains were very effective at killing fly larvae and pupae, and these fungi could still grow well when combined with certain insecticides. This means farmers and pest control professionals could use these fungi together with specific pesticides as part of a more sustainable approach to controlling house flies without relying solely on chemicals.

Fatal Pneumonia Caused by Beauveria bassiana in a Kemp’s Ridley Sea Turtle (Lepidochelys kempii, Garman, 1880) on the Portuguese Coast: Case Report and Review of Beauveria spp. Infections in Reptiles

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A young Kemp’s ridley sea turtle, one of the world’s most endangered turtle species, was found off the coast of Portugal and brought to a rehabilitation center. Despite intensive care, the turtle died after 11 days due to a severe fungal lung infection caused by Beauveria bassiana, a fungus that normally infects insects. This case highlights how endangered animals in poor health are vulnerable to opportunistic infections and emphasizes the importance of including fungal disease screening in wildlife rehabilitation programs.

Effect of Rare, Locally Isolated Entomopathogenic Fungi on the Survival of Bactrocera oleae Pupae in Laboratory Soil Conditions

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This study tested different types of beneficial fungi to control olive fruit flies, which are major pests in Mediterranean olive groves. Researchers found that several fungi species, particularly those from the Aspergillus genus, can effectively kill olive fly pupae when applied to soil. The results suggest these fungi could be developed into biological pesticides to protect olive crops without harmful chemical insecticides.

Fungi from Anopheles darlingi Root, 1926, larval breeding sites in the Brazilian Amazon

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Researchers discovered and identified 206 fungal strains from 30 different types living in mosquito breeding waters in the Amazon. These fungi come from three main groups, with the most common fungi being Paraconiothyrium, Fusarium, and Microsphaeropsis. The findings show that natural water habitats with vegetation and fish support more diverse fungi than human-altered environments. Some of these fungi could potentially be used to control malaria-carrying mosquitoes naturally.

Introducing a global database of entomopathogenic fungi and their host associations

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Scientists have created a global database called EntomoFun 1.0 that brings together information about fungi that naturally infect insects and other arthropods. The database contains nearly 1,800 records of different fungal species and the insects they infect, collected from scientific literature and museum specimens. This resource helps researchers understand where these fungi are found, which insects they target, and how they might be used for pest control or studied for their ecological importance.

Bioprospecting of four Beauveria bassiana strains and their potential as biological control agents for Anastrepha ludens Loew 1873 (Diptera: Tephritidae)

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Researchers tested four strains of a beneficial fungus called Beauveria bassiana from Mexico to see if they could control the Mexican fruit fly, a major pest that damages mango and orange crops. The fungus naturally infects insects and kills them. Tests showed that all four strains were very effective at killing adult fruit flies, with the best performance at higher spore concentrations. These locally adapted fungal strains may work better than imported alternatives for farmers in the Veracruz region.

Beauveria bassiana associated with a novel biomimetic hydrogel to control Aedes albopictus through lure and kill ovitraps

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Researchers developed a new gel-based trap that combines a natural fungus (Beauveria bassiana) with specially designed hydrogels to control Asian tiger mosquitoes (Aedes albopictus), which spread dangerous diseases like Zika and dengue. The gel traps work by both mechanically trapping mosquito eggs and infecting them with the fungus, achieving over 90% effectiveness. This approach offers a chemical-free alternative to traditional insecticides and could be more cost-effective than current methods.

Research Keyword: entomopathogenic fungi