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A Meta-Analysis of Soil Biodiversity Impacts on the Carbon Cycle
M.-A. de Graaff
, J. Adkins
, P. Kardol
, H. L. Throop
Biological Sciences
College of Arts and Sciences
Swedish University of Agricultural Sciences
Boise State University
New Mexico State University
Research output
:
Contribution to journal
›
Article
›
peer-review
93
Scopus citations
8
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Keyphrases
Aboveground Plant Biomass
33%
Atmospheric CO2
16%
Biodiversity Impacts
100%
Biodiversity Loss
16%
Body Size
33%
C Cycle
16%
C Cycling
50%
Carbon C
16%
Carbon Cycle
100%
Climate Change
16%
Cycle Process
16%
Cycling Operation
33%
Decomposers
16%
Diversity Loss
16%
Ecological Function
16%
Ecosystem Function
16%
Functional Diversity
33%
Group Diversity
50%
Knowledge Gaps
16%
Litter Decomposition
16%
Meta-analysis
100%
Methodological Issues
16%
Microbial Diversity
33%
Natural Field
16%
Plant Biomass
16%
Plant Diversity
16%
Plant Tissue
33%
Plant-soil
16%
Primary Consumers
16%
Process Control
16%
Reduced Soils
50%
Regression Analysis
16%
Respiration
66%
Size Groups
16%
Soil Biodiversity
100%
Soil C Cycling
83%
Soil Communities
16%
Soil Faunal Diversity
16%
Soil Organisms
16%
Species number
16%
Taxonomic Diversity
33%
Terrestrial Ecosystems
16%
Tissue Decomposition
33%
Within-group
16%
Within-group Diversity
16%
Agricultural and Biological Sciences
Biodiversity
16%
Body Size
33%
Carbon Cycle
100%
Climate Change
16%
Ecological Function
16%
Functional Diversity
33%
Litter Decomposition
16%
Meta-Analysis
100%
Plant Tissue
33%
Regression Analysis
16%
Soil Biodiversity
100%
Species Diversity
16%
Terrestrial Ecosystem
16%
Earth and Planetary Sciences
Atmospherics
33%
Carbon Cycle
100%
Climate Change
16%
Ecosystem Function
16%
Litter Decomposition
16%
Protective Atmosphere
16%
Regression Analysis
16%
Soil Biodiversity
100%
Soil Organism
16%
Species Diversity
16%
Terrestrial Ecosystem
16%
Immunology and Microbiology
Biodiversity
100%
Body Size
28%
Carbon Cycle
100%
Decomposer
14%
Microbial Diversity
28%
Plant Tissue
28%
Soil Organism
14%
Species Diversity
14%