Plant species richness, identity and productivity differentially influence key groups of microbes in grassland soils of contrasting fertility
TLDR
The results suggest that AMF abundance in soil is more sensitive to changes in plant species diversity per se and plant species composition than are abundances of saprophytic microbes.Abstract:
The abundance of microbes in soil is thought to be strongly influenced by plant productivity rather than by plant species richness per se. However, whether this holds true for different microbial groups and under different soil conditions is unresolved. We tested how plant species richness, identity and biomass influence the abundances of arbuscular mycorrhizal fungi (AMF), saprophytic bacteria and fungi, and actinomycetes, in model plant communities in soil of low and high fertility using phospholipid fatty acid analysis. Abundances of saprophytic fungi and bacteria were driven by larger plant biomass in high diversity treatments. In contrast, increased AMF abundance with larger plant species richness was not explained by plant biomass, but responded to plant species identity and was stimulated by Anthoxantum odoratum. Our results indicate that the abundance of saprophytic soil microbes is influenced more by resource quantity, as driven by plant production, while AMF respond more strongly to resource composition, driven by variation in plant species richness and identity. This suggests that AMF abundance in soil is more sensitive to changes in plant species diversity per se and plant species composition than are abundances of saprophytic microbes.read more
Citations
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Relative contributions of plant traits and soil microbial properties to mountain grassland ecosystem services
Karl Grigulis,Sandra Lavorel,Ute Krainer,Nicolas Legay,Catherine Baxendale,Maxime Dumont,Eva Kastl,Cindy Arnoldi,Richard D. Bardgett,Franck Poly,Thomas Pommier,Michael Schloter,Ulrike Tappeiner,Michael Bahn,Jean-Christophe Clément +14 more
TL;DR: Managing grasslands for selected, or multiple, ecosystem services will thus require a consideration of the joint effects of plant and soil communities, and understanding of the mechanisms that link plant and microbial functional traits is essential to achieve this.
Journal ArticleDOI
Towards an Enhanced Understanding of Plant–Microbiome Interactions to Improve Phytoremediation: Engineering the Metaorganism
TL;DR: A competition-driven model is discussed, based on recent evidence from the metagenomics level, and hypotheses generated by microbial community ecology, to explain the establishment of a catabolic rhizosphere microbiome in a contaminated soil, which indicates four strategies to interfere with the microbiome.
Journal ArticleDOI
Plant diversity and root traits benefit physical properties key to soil function in grasslands
TL;DR: It is shown that high plant diversity in grassland systems increases soil aggregate stability, a vital structural property of soil, and that root traits play a major role in determining diversity effects, which indicates that alongside well‐documented effects on ecosystem functioning, plant diversity and root traits also benefit essential soil physical properties.
Journal ArticleDOI
Meta-analysis shows positive effects of plant diversity on microbial biomass and respiration
TL;DR: It is found that plant diversity increases microbial biomass and respiration rates, an effect moderated by stand age, which underlines strong relationships between plant diversity and soil microorganisms across global terrestrial ecosystems and suggests the importance of plant diversity in maintaining belowground ecosystem functioning.
Journal ArticleDOI
Linkage between bacterial and fungal rhizosphere communities in hydrocarbon-contaminated soils is related to plant phylogeny.
Terrence H. Bell,Saad El-Din Hassan,Aurélien Lauron-Moreau,Fahad Alotaibi,Mohamed Hijri,Etienne Yergeau,Marc St-Arnaud +6 more
TL;DR: High-throughput sequencing of bacterial 16S rRNA genes and the fungal internal transcribed spacer (ITS) region was used to compare the community composition of 66 soil samples from the rhizosphere of planted willows and six unplanted control samples at the site of a former petrochemical plant to understand the relationships between fungi, bacteria and plants.
References
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Book
Aboveground-Belowground Linkages: Biotic Interactions, Ecosystem Processes, and Global Change
TL;DR: In this paper, Biotic interactions in Soil as drivers of Ecosystem Properties are discussed and the importance of aboveground and belowground consumers is discussed, as well as the consequences of species losses and gains.