Fungal alteration of the elemental composition of leaf litter affects shredder feeding activity

Leaf litter from riparian vegetation provides the main source of matter and energy for food webs of small forest streams. Shredding macroinvertebrates mostly feed on this litter when it has been colonised and conditioned by microorganisms, especially by aquatic hyphomycetes. Since shredders feed sel...

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Bibliographic Details
Published in:Freshwater biology 2015-09, Vol.60 (9), p.1755-1771
Main Authors: Cornut, Julien, Ferreira, Verónica, Gonçalves, Ana Lúcia, Chauvet, Eric, Canhoto, Cristina
Format: Article
Language:English
Subjects:
biomass
Continental interfaces, environment
ecosystem functioning
elemental composition
energy
Environmental Sciences
food webs
foraging
forests
fungal community composition
fungi
Hyphomycetes
larvae
leaf litter stoichiometry
leaves
Life Sciences
macroinvertebrates
mycelium
nitrogen content
physicochemical properties
plant litter
Quercus robur
Schizopelex festiva
Sciences of the Universe
Sericostomatidae
shredding
species identity
streams
Trichoptera
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Summary:Leaf litter from riparian vegetation provides the main source of matter and energy for food webs of small forest streams. Shredding macroinvertebrates mostly feed on this litter when it has been colonised and conditioned by microorganisms, especially by aquatic hyphomycetes. Since shredders feed selectively, they must make foraging decisions based on the physical and chemical characteristics of the food resource, which can change depending on the identity of fungal species. Here, we addressed the effect of changes in fungal assemblage structure on the elemental composition of oak (Quercus robur) leaf litter and how variation in litter quality affects the feeding of a stream shredder. Leaf discs were incubated in microcosms for 2 weeks, inoculated with various fungal assemblages comprised of three species each, and offered to a shredder (Schizopelex festiva, Trichoptera: Sericostomatidae) as food. This shredder ate more leaves with a high mycelial biomass, which depended on fungal assemblage composition. Leaf litter conditioned by different fungal assemblages resulted in different litter N and P concentrations. Mycelial biomass was positively related to litter P concentration, with the lowest and highest P concentrations differing by 40% at most, but not to litter N concentration, even though the lowest and highest N concentrations differed by as much as 35%. The caddisfly larvae ate more leaves with a low C/P ratio. These findings suggest a key role of litter P concentration in eliciting fungal conditioning effects on shredder‐mediated litter decomposition.
ISSN:0046-5070
1365-2427
DOI:10.1111/fwb.12606