Beauveria brongniartii

Effect of Selected Entomopathogenic Fungal Species on Embryonic Development of Ascaris suum (Nematoda)

mycolabadmin

Researchers tested five types of fungi that naturally attack insects to see if they could control Ascaris roundworm eggs that contaminate pig farms and pose health risks. While none of the fungi directly killed the eggs, two species (Isaria fumosorosea and Metarhizium robertsii) successfully slowed egg development and showed potential for controlling parasites. These fungi appear to work by producing toxic compounds and enzymes rather than by penetrating the egg shells directly.

Endophytic Beauveria spp. Enhance Tomato Growth and Resistance to Botrytis cinerea via Transcriptomic Regulation

mycolabadmin

Researchers tested five types of beneficial fungi from the Beauveria genus to see if they could help tomato plants grow better and resist gray mold disease. They found that all five species could live inside tomato plants and help them grow taller. Most importantly, the fungus Beauveria brongniartii completely protected plants from gray mold infection. By examining which genes were activated in the plants, scientists discovered that these fungi boost the plant’s natural defense systems while also improving photosynthesis.

Toxicity Assay and Pathogenic Process Analysis of Clonostachys rogersoniana Infecting Cephalcia chuxiongica

mycolabadmin

A destructive pine forest pest called Cephalcia chuxiongica causes significant damage to forests in China. Researchers discovered that a fungus called Clonostachys rogersoniana can effectively kill this pest by uniquely infecting it through breathing holes called spiracles. This fungus-based biological control offers an environmentally friendly alternative to chemical pesticides, potentially protecting China’s forests while reducing chemical pollution.

Evaluating Beauveria bassiana Strains for Insect Pest Control and Endophytic Colonization in Wheat

mycolabadmin

Scientists tested three strains of a beneficial fungus called Beauveria bassiana to control crop-damaging insects and promote wheat growth. The best-performing strain, CBM1, successfully killed multiple types of pest insects and colonized wheat plants when applied to the soil. Wheat plants colonized with this fungus grew taller with longer roots and showed significantly better protection against fall armyworms, suggesting this fungus could be a valuable tool for sustainable, pesticide-free crop protection.

Biological Characteristics, Artificial Domestication Conditions Optimization, and Bioactive Components of Beauveria caledonica

mycolabadmin

Scientists successfully grew Beauveria caledonica mushrooms in a laboratory for the first time using wheat and rice as growing media. They identified the best growing conditions and found that these mushrooms contain beneficial compounds like polysaccharides and adenosine, which may have health benefits similar to traditional medicinal Cordyceps. The adenosine content was significantly higher than what is required by Chinese pharmacopoeia standards, suggesting these cultivated mushrooms could have strong medicinal value.

Toxicity Assay and Pathogenic Process Analysis of Clonostachys rogersoniana Infecting Cephalcia chuxiongica

mycolabadmin

Scientists discovered a fungus called Clonostachys rogersoniana that can kill a major pine forest pest. The fungus enters the pest through small breathing holes called spiracles, which is unusual compared to most fungal infections. Testing showed the fungus kills half the pest population in about 24 hours at relatively low concentrations. This discovery could help protect Chinese pine forests without using harmful chemical pesticides.

Insecticidal Action of Local Isolates of Entomopathogenic Fungi Against Bactrocera oleae Pupae

mycolabadmin

Olive farmers in Mediterranean countries struggle with the olive fruit fly, which damages olives and reduces oil production. Researchers tested special fungi that naturally infect and kill insects to see if they could control this pest at the soil stage when fly pupae are developing underground. Several fungal species, especially Beauveria bassiana, were effective at reducing survival of emerged adult flies by about 40% compared to untreated flies. This offers a promising natural alternative to chemical pesticides that can harm olive oil quality and lose effectiveness over time.

Development of Mycoinsecticides: Advances in Formulation, Regulatory Challenges and Market Trends for Entomopathogenic Fungi

mycolabadmin

This review explores fungal-based insecticides as environmentally friendly alternatives to chemical pest control. These products use naturally occurring fungi that infect and kill insects through direct contact, making them effective against many crop pests. The review covers different formulation types, product development challenges, and regulatory approval processes in major markets worldwide.

Enzymatic, cellular breakdown and lysis in treatment of Beauveria brongniartii on Spodoptera litura (Fabricius, 1775)

mycolabadmin

Scientists tested a natural fungus called Beauveria brongniartii as a pest control solution for tobacco cutworms (Spodoptera litura), which damage crops. The fungus was highly effective at killing the pest at all life stages, with 98% success against eggs and 96% against larvae. Importantly, the fungus was safe for earthworms and other non-target organisms, making it an environmentally friendly alternative to chemical pesticides that harm beneficial species and the soil.

Cryptic Diversity and Virulence of Beauveria bassiana Recovered from Lycorma delicatula (Spotted Lanternfly) in Eastern Pennsylvania

mycolabadmin

This research investigates how naturally occurring fungi can help control the invasive spotted lanternfly, which threatens agriculture in the United States. Scientists discovered that different strains of a fungus called Beauveria bassiana can effectively kill these pests, with some strains working better than others. This natural approach could provide an environmentally friendly way to manage this destructive insect. Impacts on everyday life: – Provides a potential natural solution for controlling spotted lanternfly infestations in gardens and farms – Could help protect grape vines and other valuable crops from damage – Offers an alternative to chemical pesticides for pest control – May help reduce the spread of invasive spotted lanternflies in affected regions – Could lead to development of more effective biological control products

Fungal Species: Beauveria brongniartii