Effects of plant functional group removal on structure and function of soil communities across contrasting ecosystems

Loss of plant diversity has an impact on ecosystems worldwide, but we lack a mechanistic understanding of how this loss may influence below‐ground biota and ecosystem functions across contrasting ecosystems in the long term. We used the longest running biodiversity manipulation experiment across con...

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Veröffentlicht in:	Ecology letters 2019-07, Vol.22 (7), p.1095-1103
Hauptverfasser:	Fanin, Nicolas, Kardol, Paul, Farrell, Mark, Kempel, Anne, Ciobanu, Marcel, Nilsson, Marie‐Charlotte, Gundale, Michael J., Wardle, David A., Levine, Jonathan
Format:	Artikel
Sprache:	eng
Schlagworte:	Biodiversity Biodiversity loss Biological activity Biota decomposition Ecology ecosystem functioning Ecosystems Ekologi Environmental impact Environmental Sciences Functional groups Fungi Herbivores Islands Life Sciences metabarcoding Microbial activity microbial ecology Microorganisms Nematodes Organic matter organic matter accumulation Organic soils Plant diversity plant–soil interactions Productivity Soil bacteria Soil fertility Soil microorganisms Soil structure Structure-function relationships
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container_end_page	1103
container_issue	7
container_start_page	1095
container_title	Ecology letters
container_volume	22
creator	Fanin, Nicolas Kardol, Paul Farrell, Mark Kempel, Anne Ciobanu, Marcel Nilsson, Marie‐Charlotte Gundale, Michael J. Wardle, David A. Levine, Jonathan
description	Loss of plant diversity has an impact on ecosystems worldwide, but we lack a mechanistic understanding of how this loss may influence below‐ground biota and ecosystem functions across contrasting ecosystems in the long term. We used the longest running biodiversity manipulation experiment across contrasting ecosystems in existence to explore the below‐ground consequences of 19 years of plant functional group removals for each of 30 contrasting forested lake islands in northern Sweden. We found that, against expectations, the effects of plant removals on the communities of key groups of soil organisms (bacteria, fungi and nematodes), and organic matter quality and soil ecosystem functioning (decomposition and microbial activity) were relatively similar among islands that varied greatly in productivity and soil fertility. This highlights that, in contrast to what has been shown for plant productivity, plant biodiversity loss effects on below‐ground functions can be relatively insensitive to environmental context or variation among widely contrasting ecosystems.
doi_str_mv	10.1111/ele.13266
format	Article
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We used the longest running biodiversity manipulation experiment across contrasting ecosystems in existence to explore the below‐ground consequences of 19 years of plant functional group removals for each of 30 contrasting forested lake islands in northern Sweden. We found that, against expectations, the effects of plant removals on the communities of key groups of soil organisms (bacteria, fungi and nematodes), and organic matter quality and soil ecosystem functioning (decomposition and microbial activity) were relatively similar among islands that varied greatly in productivity and soil fertility. 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subjects	Biodiversity Biodiversity loss Biological activity Biota decomposition Ecology ecosystem functioning Ecosystems Ekologi Environmental impact Environmental Sciences Functional groups Fungi Herbivores Islands Life Sciences metabarcoding Microbial activity microbial ecology Microorganisms Nematodes Organic matter organic matter accumulation Organic soils Plant diversity plant–soil interactions Productivity Soil bacteria Soil fertility Soil microorganisms Soil structure Structure-function relationships
title	Effects of plant functional group removal on structure and function of soil communities across contrasting ecosystems
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