Fungi play a central role in the nutrient cycle of boreal and temperate forests. In these biomes, the saprotrophic wood-decay fungi are the only organisms that can completely decompose woody plant litter. In particular, cord-forming basidiomycete fungi form extensive mycelial networks that scavenge scarce mineral nutrients and translocate them over long distances to exploit new food resources. Despite the importance of resource allocation, there is limited information on nutrient dynamics in these networks, particularly for nitrogen, as there is no suitable radioisotope available. We have mapped N-translocation using photon-counting scintillation imaging of the non-metabolosed amino acid analogue, 14C-aminoisobutyrate. We describe a number ...
<div><p>Boreal forests are characterized by spatially heterogeneous soils with low N availability. T...
Our understanding of how saprotrophic and mycorrhizal fungi interact to re-circulate carbon and nutr...
Nitrogen isotope (δ 15 N) patterns in plants may provide insight into plant N dynamics. Here, two an...
Fungi play a central role in the nutrient cycle of boreal and temperate forests. In these biomes, th...
Fungi play a key role in ecosystem nutrient cycles by scavenging, concentrating, translocating and r...
Introduction The mycelium of woodland fungi can act both as a reservoir and as a distribution system...
• Cord-forming woodland basidiomycete fungi form extensive, interconnected mycelial networks that sc...
Transport networks are vital components of multi-cellular organisms, distributing nutrients and remo...
Summary: Transport networks are vital components of multi-cellular organisms, distributing nutrients...
Nitrogen translocation by woodland fungi is ecologically important, however, techniques to study lon...
The vegetative mycelium of Agaricus bisporus supplies developing white button mushrooms with water a...
Saprotrophic woodland fungi forage for mineral nutrients and woody resources by extension of a mycel...
alpha-Aminoisobutyric acid (AIB) is a nonmetabolized amino acid analogue of alanine, which at low (m...
Boreal forests are characterized by spatially heterogeneous soils with low N availability. The decom...
<div><p>Boreal forests are characterized by spatially heterogeneous soils with low N availability. T...
Our understanding of how saprotrophic and mycorrhizal fungi interact to re-circulate carbon and nutr...
Nitrogen isotope (δ 15 N) patterns in plants may provide insight into plant N dynamics. Here, two an...
Fungi play a central role in the nutrient cycle of boreal and temperate forests. In these biomes, th...
Fungi play a key role in ecosystem nutrient cycles by scavenging, concentrating, translocating and r...
Introduction The mycelium of woodland fungi can act both as a reservoir and as a distribution system...
• Cord-forming woodland basidiomycete fungi form extensive, interconnected mycelial networks that sc...
Transport networks are vital components of multi-cellular organisms, distributing nutrients and remo...
Summary: Transport networks are vital components of multi-cellular organisms, distributing nutrients...
Nitrogen translocation by woodland fungi is ecologically important, however, techniques to study lon...
The vegetative mycelium of Agaricus bisporus supplies developing white button mushrooms with water a...
Saprotrophic woodland fungi forage for mineral nutrients and woody resources by extension of a mycel...
alpha-Aminoisobutyric acid (AIB) is a nonmetabolized amino acid analogue of alanine, which at low (m...
Boreal forests are characterized by spatially heterogeneous soils with low N availability. The decom...
<div><p>Boreal forests are characterized by spatially heterogeneous soils with low N availability. T...
Our understanding of how saprotrophic and mycorrhizal fungi interact to re-circulate carbon and nutr...
Nitrogen isotope (δ 15 N) patterns in plants may provide insight into plant N dynamics. Here, two an...