Mycelial networks operate on scales from microscopic to many m² and naturally persist for extended periods. As fungi exhibit highly adaptive development, it is important to test behavioural responses on natural substrata with realistic nutrient levels across a range of spatial scales and extended time periods. Here we quantified network responses over 7.5 months in large (57 x 57 cm) microcosms to test whether grazing shifts the network to a more resilient architecture. Resource limitation constrained any ability to respond at all, with both grazed and ungrazed networks gradually thinning out over time. Added resources sustained further exploratory growth, but only transiently increased cross-connectivity and network resilience, when tested...
There is a need to find generalizable mechanisms supporting ecological resilience, resistance, and r...
Transport networks are vital components of multicellular organisms, distributing nutrients and remov...
A major proportion of the flux of carbon (C) from plants to soil moves rapidly through networks of s...
Mycelial networks operate on scales from microscopic to many m2 and naturally persist for extended p...
Mycelial networks operate on scales from microscopic to many m(2) and naturally persist for extended...
Mycelial fungi grow as indeterminate adaptive networks that have to forage for scarce resources in a...
The changes that occur in mycelial architecture of Phanerochaete velutina interacting with Hypholoma...
The characteristic growth pattern of fungal mycelia as an interconnected network has a major impact ...
The characteristic growth pattern of fungal mycelia as an interconnected network has a major impact ...
Colonization of terrestrial environments by filamentous fungi relies on their ability to form networ...
Mycelial fungi and acellular slime molds grow as self-organized networks that explore new territory ...
© Cambridge University Press 2007 and Cambridge University Press, 2009. Basidiomycetes are the major...
There is a need to find generalizable mechanisms supporting ecological resilience, resistance, and r...
Transport networks are vital components of multicellular organisms, distributing nutrients and remov...
A major proportion of the flux of carbon (C) from plants to soil moves rapidly through networks of s...
Mycelial networks operate on scales from microscopic to many m2 and naturally persist for extended p...
Mycelial networks operate on scales from microscopic to many m(2) and naturally persist for extended...
Mycelial fungi grow as indeterminate adaptive networks that have to forage for scarce resources in a...
The changes that occur in mycelial architecture of Phanerochaete velutina interacting with Hypholoma...
The characteristic growth pattern of fungal mycelia as an interconnected network has a major impact ...
The characteristic growth pattern of fungal mycelia as an interconnected network has a major impact ...
Colonization of terrestrial environments by filamentous fungi relies on their ability to form networ...
Mycelial fungi and acellular slime molds grow as self-organized networks that explore new territory ...
© Cambridge University Press 2007 and Cambridge University Press, 2009. Basidiomycetes are the major...
There is a need to find generalizable mechanisms supporting ecological resilience, resistance, and r...
Transport networks are vital components of multicellular organisms, distributing nutrients and remov...
A major proportion of the flux of carbon (C) from plants to soil moves rapidly through networks of s...