mycobiota – mycolab.ai

Damp Buildings: Associated Fungi and How to Find Them

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This review identifies which fungi commonly grow in damp buildings and explains how to find them. It shows that certain fungi like Penicillium chrysogenum and Aspergillus versicolor grow on different building materials when moisture is present. The guide provides information on proper sampling techniques and identification methods that building inspectors and health professionals need to effectively address moldy building problems.

Pomegranate Woody Mycobiota Associated with Wood Decay

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Pomegranate trees in Italy are suffering from a wood disease that causes cankers and browning of the wood, leading to plant death and crop loss. Researchers identified multiple fungal species responsible for this disease, with Neofusicoccum parvum and Diaporthe species being the main culprits. Cold winter temperatures appear to weaken trees, making them susceptible to these fungal infections. Using advanced DNA analysis along with traditional methods, scientists confirmed which fungi cause the most damage and how the disease develops.

Frequency and Distribution of Broncho-Alveolar Fungi in Lung Diseases in Martinique

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This study examined fungal samples from the lungs of over 1500 patients in Martinique using a special procedure called broncho-alveolar lavage. Researchers found that fungi were very common in respiratory samples, with specific types of fungi appearing more frequently in different lung diseases. For example, certain mold-like fungi were more common in patients with bronchiectasis (damaged airways), while yeast-like fungi were more common in patients with pneumonia. The findings suggest that tropical climate and environmental conditions significantly influence which fungi colonize the lungs.

Airborne Fungal Spore Diversity Assessment Using Culture-Dependent and Metabarcoding Approaches in Bat-Inhabited Natural and Anthropogenic Roosts in Portugal

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Researchers studied fungal diversity in bat caves across Portugal using two methods: growing fungi in labs and analyzing DNA from air samples. They found over 280 different types of fungi, with some being common decomposers and others potentially harmful to human health. The study revealed that bat activity and human visits significantly influence which fungi live in caves, highlighting the importance of protecting these unique underground ecosystems.

Insights into Persian Gulf Beach Sand Mycobiomes: Promises and Challenges in Fungal Diversity

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Researchers studied fungi living in sand and water along Persian Gulf beaches to understand potential health risks for swimmers. They found that fungal species, particularly Aspergillus terreus, were abundant in beach sand, with some fungi showing resistance to common antifungal medicines. The study suggests beaches need better monitoring and sanitation practices to protect public health, especially during busy bathing seasons when many visitors enjoy the coast.

Diverse, Cryptic, and Undescribed: Club and Coral Fungi in a Temperate Australian Forest

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Researchers surveyed fungi in a small forest area near Sydney and found that nearly 90% of the club and coral fungi they discovered were previously unknown to science. By using DNA analysis, they were able to identify cryptic species that look identical but are genetically distinct. This study demonstrates just how much fungal diversity remains undocumented even in well-studied parts of the world, highlighting the need for more comprehensive fungal surveys and database development.

Insight into the Skin Mycobiota of Myotis myotis: How Age, Sex, and Biometric Traits Correlate with Fungal Diversity

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Researchers studied fungal colonies living on the skin of Greater mouse-eared bats in autumn, discovering 39 different fungal species. Wing membranes had more fungal diversity than tail membranes, with males carrying more fungi than females. Interestingly, older male bats accumulated more fungal species, while older female bats showed less fungal diversity. The study found no trace of the fungus that causes white-nose syndrome, suggesting caves rather than bats may be the main source of this disease.

Fungal Pathogens Associated with Tomicus Species in European Forests: Regional Variations and Impacts on Forest Health

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This study examined the fungi carried by small pine bark beetles across three European countries with different climates. Researchers found that environmental conditions in each region heavily influenced which fungi the beetles carried, rather than the beetle species itself. Some of the fungi found are known to damage pine trees and reduce forest health. The findings suggest that warming climates may worsen the problem by increasing beetle populations and spreading harmful fungi through forests.

Diverse, Cryptic, and Undescribed: Club and Coral Fungi in a Temperate Australian Forest

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Researchers surveyed mushroom-like fungi called club and coral fungi in a small Australian forest and used DNA testing to identify the species. They found that about 89% of the fungi they discovered were either new species or not yet recorded in scientific databases. This shows that even in a small area, there are many fungal species we have not yet discovered or properly studied.

Seasonal discrepancy of airborne fungal diversity and community structure in Lentinula edodes factory

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This study examined how fungal spores in the air of shiitake mushroom factories change with the seasons and relate to a disease called shiitake artificial log rot disease (SLRD). Researchers found that when temperatures drop and humidity rises in autumn and winter, a harmful fungus called Trichoderma thrives in the air and causes more disease. By keeping the growing areas warmer, growers can significantly reduce disease occurrence and protect both their crops and workers’ health.

Research Keyword: mycobiota