Transport networks are vital components of multicellular organisms, distributing nutrients and removing waste products. Animal and plant transport systems are branching trees whose architecture is linked to universal scaling laws in these organisms. In contrast, many fungi from reticulated mycelia via the branching and fusion of thread-like hyphae that continuously adapt to the environment. Fungal networks have evolved to explore and exploit a patchy environment, rather than ramify through a three-dimensional organism. However, there has been no explicit analysis of the network structures formed, their dynamic behaviour nor how either impact on their ecological function. Using the woodland saprotroph Pharnerochaete velutina, we show that fu...
Summary: Transport networks are vital components of multi-cellular organisms, distributing nutrients...
査読付原著論文インパクトファクター(32.45)被引用回数(54)Transport networks are ubiquitous in both social and biological sys...
In natural terrestrial environments, nutrients are often patchily and sparsely distributed, and the ...
Transport networks are vital components of multicellular organisms, distributing nutrients and remov...
Transport networks are vital components of multicellular organisms, distributing nutrients and remov...
Mycelial fungi and acellular slime molds grow as self-organized networks that explore new territory ...
Cord-forming fungi form extensive networks that continuously adapt to maintain an efficient transpor...
Mycelial fungi grow as indeterminate adaptive networks that have to forage for scarce resources in a...
Colonization of terrestrial environments by filamentous fungi relies on their ability to form networ...
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 ...
Transport networks are ubiquitous in both social and biological systems. Robust network performance ...
Many biological systems require extensive networks to transport resources and information. Biologica...
Transport networks are ubiquitous in both social and biological systems. Robust network performance ...
Summary: Transport networks are vital components of multi-cellular organisms, distributing nutrients...
査読付原著論文インパクトファクター(32.45)被引用回数(54)Transport networks are ubiquitous in both social and biological sys...
In natural terrestrial environments, nutrients are often patchily and sparsely distributed, and the ...
Transport networks are vital components of multicellular organisms, distributing nutrients and remov...
Transport networks are vital components of multicellular organisms, distributing nutrients and remov...
Mycelial fungi and acellular slime molds grow as self-organized networks that explore new territory ...
Cord-forming fungi form extensive networks that continuously adapt to maintain an efficient transpor...
Mycelial fungi grow as indeterminate adaptive networks that have to forage for scarce resources in a...
Colonization of terrestrial environments by filamentous fungi relies on their ability to form networ...
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 ...
Transport networks are ubiquitous in both social and biological systems. Robust network performance ...
Many biological systems require extensive networks to transport resources and information. Biologica...
Transport networks are ubiquitous in both social and biological systems. Robust network performance ...
Summary: Transport networks are vital components of multi-cellular organisms, distributing nutrients...
査読付原著論文インパクトファクター(32.45)被引用回数(54)Transport networks are ubiquitous in both social and biological sys...
In natural terrestrial environments, nutrients are often patchily and sparsely distributed, and the ...