Add to ORKGThe understanding of microbial biodiversity in peatlands has grown considerably over the past two decades. This is encouraging, given the global distribution of peatlands and their potentially increasing significance under a changing climate, particularly as it pertains to carbon cycling. The purpose of this review is to compile a comprehensive list of fungi that have been reported from peatlands and to summarize their general roles in these ecosystems. To date, 601 species of fungi have been identified globally from peatlands. Ascomycetes are the largest group with 276 species (46%), followed by basidiomycetes (243 species, 40%), zygomycetes (55 species, 9%), and chytridiomycetes (26 species, 4%). The most species-rich genera are Penicilli...
<div><p>The UK hosts 15–19% of global upland ombrotrophic (rain fed) peatlands that are estimated to...
Peatland ecosystems cover only 3% of the world’s land area; however, they store one-third of the glo...
Marine fungi are severely understudied in the polar regions. We used molecularly identified cultures...
<p>The diversity of culturable filamentous microfungi in peat and sediments of four peatlands at the...
The current study addresses the fungal diversity of the peatlands that vary geographically and geolo...
This paper provides the results of a study on fungal species diversity in the active and permafrost ...
Conservation of fungi largely depends on conservation of their habitats as many species are host- an...
Freshwater fungi play a key role in plant debris decomposition, are pivotal in transferring energy a...
Including fungi into nature conservation research allows for a more comprehensive view of habitat qu...
Peatlands store an immense pool of soil carbon vulnerable to microbial oxidation due to drought and ...
Fungi are principal decomposing microorganisms in acidic environment of peatlands. A useful tool for...
Northern peatlands have accumulated significant quantities of peat, and it has been predicted that r...
Peatlands have an important role in global climate change through sequestration of atmospheric CO2. ...
The microfungal communities of a mire in northern Sweden were studied. Three plant communities were ...
The UK hosts 15–19% of global upland ombrotrophic (rain fed) peatlands that are estimated to store 3...
<div><p>The UK hosts 15–19% of global upland ombrotrophic (rain fed) peatlands that are estimated to...
Peatland ecosystems cover only 3% of the world’s land area; however, they store one-third of the glo...
Marine fungi are severely understudied in the polar regions. We used molecularly identified cultures...
<p>The diversity of culturable filamentous microfungi in peat and sediments of four peatlands at the...
The current study addresses the fungal diversity of the peatlands that vary geographically and geolo...
This paper provides the results of a study on fungal species diversity in the active and permafrost ...
Conservation of fungi largely depends on conservation of their habitats as many species are host- an...
Freshwater fungi play a key role in plant debris decomposition, are pivotal in transferring energy a...
Including fungi into nature conservation research allows for a more comprehensive view of habitat qu...
Peatlands store an immense pool of soil carbon vulnerable to microbial oxidation due to drought and ...
Fungi are principal decomposing microorganisms in acidic environment of peatlands. A useful tool for...
Northern peatlands have accumulated significant quantities of peat, and it has been predicted that r...
Peatlands have an important role in global climate change through sequestration of atmospheric CO2. ...
The microfungal communities of a mire in northern Sweden were studied. Three plant communities were ...
The UK hosts 15–19% of global upland ombrotrophic (rain fed) peatlands that are estimated to store 3...
<div><p>The UK hosts 15–19% of global upland ombrotrophic (rain fed) peatlands that are estimated to...
Peatland ecosystems cover only 3% of the world’s land area; however, they store one-third of the glo...
Marine fungi are severely understudied in the polar regions. We used molecularly identified cultures...