Research Keyword: seasonal variation

Metabarcoding Unveils Seasonal Soil Microbiota Shifts and Their Influence on Boletus edulis and Boletus reticulatus Mycelium in Quercus robur Stands

mycolabadmin

This research studied how soil bacteria and fungi change across fall months in oak forests in Spain and how these changes relate to the growth of valuable edible mushrooms (Boletus species). Scientists used DNA analysis to identify thousands of different microorganisms in the soil. They found that September had the most diverse microbial communities, October showed a decline, and November saw partial recovery. Importantly, Boletus mycelium showed different patterns of growth depending on the month and was associated with specific beneficial bacteria and fungi.

Read More »

Identification of Non-fumigatus Aspergillus Species in Clinical Samples from Southern California

mycolabadmin

Researchers in Southern California studied fungal infections caused by Aspergillus, a common mold that can infect humans. They found that species other than the traditionally dangerous A. fumigatus are now being detected more frequently in patient samples, particularly from skin and respiratory infections. These non-fumigatus species showed interesting seasonal patterns and some may be resistant to standard antifungal treatments, suggesting doctors may need to adjust their treatment strategies.

Read More »

Five-Year Retrospective Analysis of Superficial Fungal Infections: Insights from Hospital Experience

mycolabadmin

This study examined fungal skin infections in over 3,900 patients at a Serbian military hospital over five years. Researchers found that common fungi like Trichophyton mentagrophytes and T. rubrum caused most infections, with patterns varying by season, patient gender, and body location. Men were more likely to have foot infections while women showed more diverse fungal types. The findings suggest doctors should use more precise identification methods like MALDI-TOF testing to prescribe better treatments and help prevent recurring infections.

Read More »

Newly Designed Fluorescence In Situ Hybridization Probes Reveal Previously Unknown Endophytic Abilities of Tuber magnatum in Herbaceous Plants

mycolabadmin

Scientists discovered that Italian white truffles (Tuber magnatum) can live inside the roots of common herbaceous plants like sedges, not just the oak and poplar trees where they are typically found. Using special fluorescent probes and advanced microscopy, researchers confirmed the presence of active truffle threads inside these plants, particularly in spring. This discovery challenges our understanding of how truffles interact with their environment and may explain why truffle cultivation has been difficult, suggesting they employ more diverse survival strategies than previously thought.

Read More »
Scroll to Top