Intraspecific diversity regulates fungal productivity and respiration

Individuals and not just species are key components of biodiversity, yet the relationship between intraspecific diversity and ecosystem functioning in microbial systems remains largely untested. This limits our ability to understand and predict the effects of altered genetic diversity in regulating...

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Veröffentlicht in:PloS one 2010-09, Vol.5 (9), p.e12604-e12604
Hauptverfasser: Wilkinson, Anna, Solan, Martin, Taylor, Andrew F S, Alexander, Ian J, Johnson, David
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Solan, Martin
Taylor, Andrew F S
Alexander, Ian J
Johnson, David
description Individuals and not just species are key components of biodiversity, yet the relationship between intraspecific diversity and ecosystem functioning in microbial systems remains largely untested. This limits our ability to understand and predict the effects of altered genetic diversity in regulating key ecosystem processes and functions. Here, we use a model fungal system to test the hypothesis that intraspecific genotypic richness of Paxillus obscurosporus stimulates biomass and CO(2) efflux, but that this is dependent on nitrogen supply. Using controlled experimental microcosms, we show that populations containing several genotypes (maximum 8) of the fungus had greater productivity and produced significantly more CO(2) than those with fewer genotypes. Moreover, intraspecific diversity had a much stronger effect than a four-fold manipulation of the carbon:nitrogen ratio of the growth medium. The effects of intraspecific diversity were underpinned by strong roles of individuals, but overall intraspecific diversity increased the propensity of populations to over-yield, indicating that both complementarity and selection effects can operate within species. Our data demonstrate the importance of intraspecific diversity over a range of nitrogen concentrations, and the need to consider fine scale phylogenetic information of microbial communities in understanding their contribution to ecosystem processes.
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subjects Analysis
Basidiomycota - classification
Basidiomycota - genetics
Basidiomycota - metabolism
Biodiversity
Biomass
Carbon dioxide
Carbon Dioxide - metabolism
Cloning
Complementarity
Decomposition
Ecology/Physiological Ecology
Ecology/Population Ecology
Ecosystems
Efflux
Environmental science
Experiments
Fungi
Genetic diversity
Genetic Variation
Genotype
Genotypes
Laboratories
Microbial activity
Microbiology/Environmental Microbiology
Microcosms
Microorganisms
Nitrogen
Nitrogen - metabolism
Phylogeny
Picea abies
Populations
Productivity
Species diversity
title Intraspecific diversity regulates fungal productivity and respiration
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