DNA metabarcoding – mycolab.ai

Progression of saproxylic fungal communities in fine woody debris in boreal forests of Oulanka, Finland, assessed by DNA metabarcoding

mycolabadmin

Researchers used a novel method called MycoPins to study how fungi colonize and break down small pieces of dead wood in Finnish boreal forests. By placing sterilized wooden pins in the soil and analyzing the fungal DNA that colonized them over a year, they identified over 200 fungal species that play important roles in wood decomposition and nutrient cycling. The study compared how fungal communities differed in forests exposed to reindeer grazing versus protected areas, revealing how land management practices influence these hidden fungal ecosystems.

An improved method for extraction of soil fungal mycelium

mycolabadmin

Scientists developed an improved method to extract fungal threads (mycelium) from soil samples, which is important because fungi play key roles in nutrient cycling and carbon storage in forests. The new method is faster, cheaper, and simpler than previous approaches, reducing processing time significantly while avoiding chemicals that could interfere with DNA analysis. This allows researchers to better study which fungi live in soil and what roles they play in forest ecosystems.

Research Keyword: DNA metabarcoding

Progression of saproxylic fungal communities in fine woody debris in boreal forests of Oulanka, Finland, assessed by DNA metabarcoding

An improved method for extraction of soil fungal mycelium