Transport networks are vital components of multi-cellular organisms, distributing nutrients and removing waste products. Animal cardiovascular and respiratory systems, and plant vasculature, are branching trees whose architecture is thought to determine universal scaling laws in these organisms. In contrast, the transport systems of many multi-cellular fungi do not fit into this conceptual framework, as they have evolved to explore a patchy environment in search of new resources, rather than ramify through a three-dimensional organism. These fungi grow as a foraging mycelium, formed by the branching and fusion of threadlike hyphae, that gives rise to a complex network. To function efficiently, the mycelial network must both transport nutrie...
The characteristic growth pattern of fungal mycelia as an interconnected network has a major impact ...
Saprotrophic woodland fungi forage for mineral nutrients and woody resources by extension of a mycel...
The characteristic growth pattern of fungal mycelia as an interconnected network has a major impact ...
Transport networks are vital components of multi-cellular organisms, distributing nutrients and remo...
Transport networks are vital components of multi-cellular organisms, distributing nutrients and remo...
Cord-forming fungi form extensive networks that continuously adapt to maintain an efficient transpor...
Fungi play a central role in the nutrient cycle of boreal and temperate forests. In these biomes, th...
Nitrogen translocation by woodland fungi is ecologically important, however, techniques to study lon...
Fungi play a key role in ecosystem nutrient cycles by scavenging, concentrating, translocating and r...
• Cord-forming woodland basidiomycete fungi form extensive, interconnected mycelial networks that sc...
Mycelial fungi and acellular slime molds grow as self-organized networks that explore new territory ...
Mycelial fungi grow as indeterminate adaptive networks that have to forage for scarce resources in a...
Introduction The mycelium of woodland fungi can act both as a reservoir and as a distribution system...
The characteristic growth pattern of fungal mycelia as an interconnected network has a major impact ...
Saprotrophic woodland fungi forage for mineral nutrients and woody resources by extension of a mycel...
The characteristic growth pattern of fungal mycelia as an interconnected network has a major impact ...
Transport networks are vital components of multi-cellular organisms, distributing nutrients and remo...
Transport networks are vital components of multi-cellular organisms, distributing nutrients and remo...
Cord-forming fungi form extensive networks that continuously adapt to maintain an efficient transpor...
Fungi play a central role in the nutrient cycle of boreal and temperate forests. In these biomes, th...
Nitrogen translocation by woodland fungi is ecologically important, however, techniques to study lon...
Fungi play a key role in ecosystem nutrient cycles by scavenging, concentrating, translocating and r...
• Cord-forming woodland basidiomycete fungi form extensive, interconnected mycelial networks that sc...
Mycelial fungi and acellular slime molds grow as self-organized networks that explore new territory ...
Mycelial fungi grow as indeterminate adaptive networks that have to forage for scarce resources in a...
Introduction The mycelium of woodland fungi can act both as a reservoir and as a distribution system...
The characteristic growth pattern of fungal mycelia as an interconnected network has a major impact ...
Saprotrophic woodland fungi forage for mineral nutrients and woody resources by extension of a mycel...
The characteristic growth pattern of fungal mycelia as an interconnected network has a major impact ...