Wood decaying fungi are an essential part of all forest ecosystems. On their functioning depends a number of other organisms which use substances produced during decay of wood. Enzymes that degrade wood represent indispensable tool for fungi in converting structural compounds of wood to water and carbon dioxide. That makes them an essential part of the carbon cycle in nature. The dynamic of fungal communities on decaying wood is determined by a range of abiotic and biotic factors. The variability of microclimatic conditions, differences in the wood humidity and a gaseous mode are identifying stress factors which define the presence of species adapted to those conditions. An important factor, with which we can partially predict community com...
This thesis is focused on environmental preferences of wood-decaying fungi and their relationships w...
Despite the important role of wood-inhabiting fungi (WIF) in deadwood decomposition, our knowledge o...
We investigated the interaction between fungal communities of soil and dead wood substrates. For thi...
Wood decaying fungi are an essential part of all forest ecosystems. On their functioning depends a n...
The decomposition of organic substrates represents an important part of the global carbon cycle and ...
Wood decomposing fungi differ in their substrate affinities, but to what extent factors like wood pr...
The interactions among saprotrophic fungal species, as well as their interactions with environmental...
Decomposition of wood is an important component of global carbon cycling. Most wood decomposition mo...
Deadwood is an important structural component in forest ecosystems and plays a significant role in g...
Deadwood is an important structural component in forest ecosystems and plays a significant role in g...
The abundance and diversity of wood decomposing fungi were investigated by isolating and cultivating...
Abstract Conservation of wood-inhabiting fungi requires sufficient knowledge of their occurrences o...
Dead wood is a source of life as it provides habitat and substrate for a wide range of fungal specie...
Deadwood decomposition is relevant in nature and wood inhabiting fungi (WIF) are its main decomposer...
This thesis is focused on environmental preferences of wood-decaying fungi and their relationships w...
Despite the important role of wood-inhabiting fungi (WIF) in deadwood decomposition, our knowledge o...
We investigated the interaction between fungal communities of soil and dead wood substrates. For thi...
Wood decaying fungi are an essential part of all forest ecosystems. On their functioning depends a n...
The decomposition of organic substrates represents an important part of the global carbon cycle and ...
Wood decomposing fungi differ in their substrate affinities, but to what extent factors like wood pr...
The interactions among saprotrophic fungal species, as well as their interactions with environmental...
Decomposition of wood is an important component of global carbon cycling. Most wood decomposition mo...
Deadwood is an important structural component in forest ecosystems and plays a significant role in g...
Deadwood is an important structural component in forest ecosystems and plays a significant role in g...
The abundance and diversity of wood decomposing fungi were investigated by isolating and cultivating...
Abstract Conservation of wood-inhabiting fungi requires sufficient knowledge of their occurrences o...
Dead wood is a source of life as it provides habitat and substrate for a wide range of fungal specie...
Deadwood decomposition is relevant in nature and wood inhabiting fungi (WIF) are its main decomposer...
This thesis is focused on environmental preferences of wood-decaying fungi and their relationships w...
Despite the important role of wood-inhabiting fungi (WIF) in deadwood decomposition, our knowledge o...
We investigated the interaction between fungal communities of soil and dead wood substrates. For thi...