Arthropod communities in fungal fruitbodies are weakly structured by climate and biogeography across European beech forests
Version
Published
Date Issued
2019-05
Author(s)
Friess, Nicolas
Müller, Jörg C.
Aramendi, Pablo
Bässler, Claus
Brändle, Martin
Bouget, Christophe
Brin, Antoine
Bussler, Heinz
Georgiev, Kostadin B.
Gil, Radosław
Gossner, Martin M.
Heilmann‐Clausen, Jacob
Isacsson, Gunnar
Krištín, Anton
Larrieu, Laurent
Magnanou, Elodie
Maringer, Alexander
Mergner, Ulrich
Mikoláš, Martin
Opgenoorth, Lars
Schmidl, Jürgen
Svoboda, Miroslav
Thorn, Simon
Vandekerkhove, Kris
Vrezec, Al
Wagner, Thomas
Winter, Maria‐Barbara
Zapponi, Livia
Brandl, Roland
Seibold, Sebastian
Traveset, Anna
Type
Article
Language
English
Abstract
Aim
The tinder fungus Fomes fomentarius is a pivotal wood decomposer in European beech Fagus sylvatica forests. The fungus, however, has regionally declined due to centuries of logging. To unravel biogeographical drivers of arthropod communities associated with this fungus, we investigated how space, climate and habitat amount structure alpha and beta diversity of arthropod communities in fruitbodies of F. fomentarius.
Location
Temperate zone of Europe.
Taxon
Arthropods.
Methods
We reared arthropods from fruitbodies sampled from 61 sites throughout the range of European beech and identified 13 orders taxonomically or by metabarcoding. We estimated the total number of species occurring in fruitbodies of F. fomentarius in European beech forests using the Chao2 estimator and determined the relative importance of space, climate and habitat amount by hierarchical partitioning for alpha diversity and generalized dissimilarity models for beta diversity. A subset of fungi samples was sequenced for identification of the fungus’ genetic structure.
Results
The total number of arthropod species occurring in fruitbodies of F. fomentarius across European beech forests was estimated to be 600. Alpha diversity increased with increasing fruitbody biomass; it decreased with increasing longitude, temperature and latitude. Beta diversity was mainly composed by turnover. Patterns of beta diversity were only weakly linked to space and the overall explanatory power was low. We could distinguish two genotypes of F. fomentarius, which showed no spatial structuring.
Main conclusion
Fomes fomentarius hosts a large number of arthropods in European beech forests. The low biogeographical and climatic structure of the communities suggests that fruitbodies represent a habitat that offers similar conditions across large gradients of climate and space, but are characterized by high local variability in community composition and colonized by species with high dispersal ability. For European beech forests, retention of trees with F. fomentarius and promoting its recolonization where it had declined seems a promising conservation strategy.
The tinder fungus Fomes fomentarius is a pivotal wood decomposer in European beech Fagus sylvatica forests. The fungus, however, has regionally declined due to centuries of logging. To unravel biogeographical drivers of arthropod communities associated with this fungus, we investigated how space, climate and habitat amount structure alpha and beta diversity of arthropod communities in fruitbodies of F. fomentarius.
Location
Temperate zone of Europe.
Taxon
Arthropods.
Methods
We reared arthropods from fruitbodies sampled from 61 sites throughout the range of European beech and identified 13 orders taxonomically or by metabarcoding. We estimated the total number of species occurring in fruitbodies of F. fomentarius in European beech forests using the Chao2 estimator and determined the relative importance of space, climate and habitat amount by hierarchical partitioning for alpha diversity and generalized dissimilarity models for beta diversity. A subset of fungi samples was sequenced for identification of the fungus’ genetic structure.
Results
The total number of arthropod species occurring in fruitbodies of F. fomentarius across European beech forests was estimated to be 600. Alpha diversity increased with increasing fruitbody biomass; it decreased with increasing longitude, temperature and latitude. Beta diversity was mainly composed by turnover. Patterns of beta diversity were only weakly linked to space and the overall explanatory power was low. We could distinguish two genotypes of F. fomentarius, which showed no spatial structuring.
Main conclusion
Fomes fomentarius hosts a large number of arthropods in European beech forests. The low biogeographical and climatic structure of the communities suggests that fruitbodies represent a habitat that offers similar conditions across large gradients of climate and space, but are characterized by high local variability in community composition and colonized by species with high dispersal ability. For European beech forests, retention of trees with F. fomentarius and promoting its recolonization where it had declined seems a promising conservation strategy.
Subjects
GE Environmental Sciences
QK Botany
QL Zoology
SD Forestry
Publisher DOI
Journal or Serie
Diversity and Distributions
ISSN
1366-9516
Volume
25
Issue
5
Publisher
Wiley-Blackwell
Submitter
Werndli, Nadine
Citation apa
Friess, N., Müller, J. C., Aramendi, P., Bässler, C., Brändle, M., Bouget, C., Brin, A., Bussler, H., Georgiev, K. B., Gil, R., Gossner, M. M., Heilmann‐Clausen, J., Isacsson, G., Krištín, A., Lachat, T., Larrieu, L., Magnanou, E., Maringer, A., Mergner, U., … Traveset, A. (2019). Arthropod communities in fungal fruitbodies are weakly structured by climate and biogeography across European beech forests. In Diversity and Distributions (Vol. 25, Issue 5, pp. 783–796). Wiley-Blackwell. https://doi.org/10.24451/arbor.8741
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