Divergent national-scale trends of microbial and animal biodiversity revealed across diverse temperate soil ecosystems
Soil biota accounts for ~25% of global biodiversity and is vital to nutrient cycling and primary production. There is growing momentum to study total belowground biodiversity across large ecological scales to understand how habitat and soil properties shape belowground communities. Microbial and ani...
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| Published in | Nature communications Vol. 10; no. 1; pp. 1107 - 11 |
|---|---|
| Main Authors | , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
London
Nature Publishing Group UK
07.03.2019
Nature Publishing Group Nature Portfolio |
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| Online Access | Get full text |
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| Abstract | Soil biota accounts for ~25% of global biodiversity and is vital to nutrient cycling and primary production. There is growing momentum to study total belowground biodiversity across large ecological scales to understand how habitat and soil properties shape belowground communities. Microbial and animal components of belowground communities follow divergent responses to soil properties and land use intensification; however, it is unclear whether this extends across heterogeneous ecosystems. Here, a national-scale metabarcoding analysis of 436 locations across 7 different temperate ecosystems shows that belowground animal and microbial (bacteria, archaea, fungi, and protists) richness follow divergent trends, whereas β-diversity does not. Animal richness is governed by intensive land use and unaffected by soil properties, while microbial richness was driven by environmental properties across land uses. Our findings demonstrate that established divergent patterns of belowground microbial and animal diversity are consistent across heterogeneous land uses and are detectable using a standardised metabarcoding approach.
It is unclear whether microbes and animals residing in soils follow similar distribution patterns. Here, the authors report richness and diversity of soil microbes and invertebrates across soil, vegetation, and land use gradients in Wales, showing that land use affects animals while soil traits affect microbes. |
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| AbstractList | Soil biota accounts for ~25% of global biodiversity and is vital to nutrient cycling and primary production. There is growing momentum to study total belowground biodiversity across large ecological scales to understand how habitat and soil properties shape belowground communities. Microbial and animal components of belowground communities follow divergent responses to soil properties and land use intensification; however, it is unclear whether this extends across heterogeneous ecosystems. Here, a national-scale metabarcoding analysis of 436 locations across 7 different temperate ecosystems shows that belowground animal and microbial (bacteria, archaea, fungi, and protists) richness follow divergent trends, whereas β-diversity does not. Animal richness is governed by intensive land use and unaffected by soil properties, while microbial richness was driven by environmental properties across land uses. Our findings demonstrate that established divergent patterns of belowground microbial and animal diversity are consistent across heterogeneous land uses and are detectable using a standardised metabarcoding approach.
It is unclear whether microbes and animals residing in soils follow similar distribution patterns. Here, the authors report richness and diversity of soil microbes and invertebrates across soil, vegetation, and land use gradients in Wales, showing that land use affects animals while soil traits affect microbes. Soil biota accounts for ~25% of global biodiversity and is vital to nutrient cycling and primary production. There is growing momentum to study total belowground biodiversity across large ecological scales to understand how habitat and soil properties shape belowground communities. Microbial and animal components of belowground communities follow divergent responses to soil properties and land use intensification; however, it is unclear whether this extends across heterogeneous ecosystems. Here, a national-scale metabarcoding analysis of 436 locations across 7 different temperate ecosystems shows that belowground animal and microbial (bacteria, archaea, fungi, and protists) richness follow divergent trends, whereas β-diversity does not. Animal richness is governed by intensive land use and unaffected by soil properties, while microbial richness was driven by environmental properties across land uses. Our findings demonstrate that established divergent patterns of belowground microbial and animal diversity are consistent across heterogeneous land uses and are detectable using a standardised metabarcoding approach. Soil biota accounts for ~25% of global biodiversity and is vital to nutrient cycling and primary production. There is growing momentum to study total belowground biodiversity across large ecological scales to understand how habitat and soil properties shape belowground communities. Microbial and animal components of belowground communities follow divergent responses to soil properties and land use intensification; however, it is unclear whether this extends across heterogeneous ecosystems. Here, a national-scale metabarcoding analysis of 436 locations across 7 different temperate ecosystems shows that belowground animal and microbial (bacteria, archaea, fungi, and protists) richness follow divergent trends, whereas β-diversity does not. Animal richness is governed by intensive land use and unaffected by soil properties, while microbial richness was driven by environmental properties across land uses. Our findings demonstrate that established divergent patterns of belowground microbial and animal diversity are consistent across heterogeneous land uses and are detectable using a standardised metabarcoding approach.It is unclear whether microbes and animals residing in soils follow similar distribution patterns. Here, the authors report richness and diversity of soil microbes and invertebrates across soil, vegetation, and land use gradients in Wales, showing that land use affects animals while soil traits affect microbes. Soil biota accounts for ~25% of global biodiversity and is vital to nutrient cycling and primary production. There is growing momentum to study total belowground biodiversity across large ecological scales to understand how habitat and soil properties shape belowground communities. Microbial and animal components of belowground communities follow divergent responses to soil properties and land use intensification; however, it is unclear whether this extends across heterogeneous ecosystems. Here, a national-scale metabarcoding analysis of 436 locations across 7 different temperate ecosystems shows that belowground animal and microbial (bacteria, archaea, fungi, and protists) richness follow divergent trends, whereas β-diversity does not. Animal richness is governed by intensive land use and unaffected by soil properties, while microbial richness was driven by environmental properties across land uses. Our findings demonstrate that established divergent patterns of belowground microbial and animal diversity are consistent across heterogeneous land uses and are detectable using a standardised metabarcoding approach.Soil biota accounts for ~25% of global biodiversity and is vital to nutrient cycling and primary production. There is growing momentum to study total belowground biodiversity across large ecological scales to understand how habitat and soil properties shape belowground communities. Microbial and animal components of belowground communities follow divergent responses to soil properties and land use intensification; however, it is unclear whether this extends across heterogeneous ecosystems. Here, a national-scale metabarcoding analysis of 436 locations across 7 different temperate ecosystems shows that belowground animal and microbial (bacteria, archaea, fungi, and protists) richness follow divergent trends, whereas β-diversity does not. Animal richness is governed by intensive land use and unaffected by soil properties, while microbial richness was driven by environmental properties across land uses. Our findings demonstrate that established divergent patterns of belowground microbial and animal diversity are consistent across heterogeneous land uses and are detectable using a standardised metabarcoding approach. Soil biota accounts for similar to 25% of global biodiversity and is vital to nutrient cycling and primary production. There is growing momentum to study total belowground biodiversity across large ecological scales to understand how habitat and soil properties shape belowground communities. Microbial and animal components of belowground communities follow divergent responses to soil properties and land use intensification; however, it is unclear whether this extends across heterogeneous ecosystems. Here, a national-scale metabarcoding analysis of 436 locations across 7 different temperate ecosystems shows that belowground animal and microbial (bacteria, archaea, fungi, and protists) richness follow divergent trends, whereas beta-diversity does not. Animal richness is governed by intensive land use and unaffected by soil properties, while microbial richness was driven by environmental properties across land uses. Our findings demonstrate that established divergent patterns of belowground microbial and animal diversity are consistent across heterogeneous land uses and are detectable using a standardised metabarcoding approach. It is unclear whether microbes and animals residing in soils follow similar distribution patterns. Here, the authors report richness and diversity of soil microbes and invertebrates across soil, vegetation, and land use gradients in Wales, showing that land use affects animals while soil traits affect microbes. |
| ArticleNumber | 1107 |
| Author | Lallias, Delphine Jones, Davey L. Robinson, David A. Eccles, Richard M. Griffiths, Robert I. George, Paul B. L. Seaton, Fiona M. Creer, Simon Lebron, Inma Kenny, John G. Emmett, Bridget A. |
| Author_xml | – sequence: 1 givenname: Paul B. L. surname: George fullname: George, Paul B. L. email: afp67e@bangor.ac.uk organization: School of Natural Sciences, Bangor University, Centre for Ecology & Hydrology, Environment Centre Wales – sequence: 2 givenname: Delphine surname: Lallias fullname: Lallias, Delphine organization: GABI, INRA, AgroParisTech, Université Paris-Saclay – sequence: 3 givenname: Simon orcidid: 0000-0003-3124-3550 surname: Creer fullname: Creer, Simon organization: School of Natural Sciences, Bangor University – sequence: 4 givenname: Fiona M. orcidid: 0000-0002-2022-7451 surname: Seaton fullname: Seaton, Fiona M. organization: School of Natural Sciences, Bangor University, Centre for Ecology & Hydrology, Environment Centre Wales – sequence: 5 givenname: John G. surname: Kenny fullname: Kenny, John G. organization: Centre for Genomic Research, University of Liverpool – sequence: 6 givenname: Richard M. surname: Eccles fullname: Eccles, Richard M. organization: Centre for Genomic Research, University of Liverpool – sequence: 7 givenname: Robert I. orcidid: 0000-0002-3341-4547 surname: Griffiths fullname: Griffiths, Robert I. organization: Centre for Ecology & Hydrology, Environment Centre Wales – sequence: 8 givenname: Inma surname: Lebron fullname: Lebron, Inma organization: Centre for Ecology & Hydrology, Environment Centre Wales – sequence: 9 givenname: Bridget A. surname: Emmett fullname: Emmett, Bridget A. organization: Centre for Ecology & Hydrology, Environment Centre Wales – sequence: 10 givenname: David A. orcidid: 0000-0001-7290-4867 surname: Robinson fullname: Robinson, David A. organization: Centre for Ecology & Hydrology, Environment Centre Wales – sequence: 11 givenname: Davey L. surname: Jones fullname: Jones, Davey L. organization: School of Natural Sciences, Bangor University, School of Agriculture and Environment, University of Western Australia |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/30846683$$D View this record in MEDLINE/PubMed https://hal.inrae.fr/hal-02622552$$DView record in HAL |
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| Keywords | land-use size fungi biogeography patterns ph sequences bacterial communities drivers archaea |
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| Snippet | Soil biota accounts for ~25% of global biodiversity and is vital to nutrient cycling and primary production. There is growing momentum to study total... Soil biota accounts for similar to 25% of global biodiversity and is vital to nutrient cycling and primary production. There is growing momentum to study total... It is unclear whether microbes and animals residing in soils follow similar distribution patterns. Here, the authors report richness and diversity of soil... |
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| Title | Divergent national-scale trends of microbial and animal biodiversity revealed across diverse temperate soil ecosystems |
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