Global effects of land use on biodiversity differ among functional groups

Human land use has caused substantial declines in global species richness. Evidence from different taxonomic groups and geographic regions suggests that land use does not equally impact all organisms within terrestrial ecological communities, and that different functional groups of species may respo...

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Published inFunctional ecology Vol. 34; no. 3; pp. 684 - 693
Main Authors Newbold, Tim, Bentley, Laura F., Hill, Samantha L. L., Edgar, Melanie J., Horton, Matthew, Su, Geoffrey, Şekercioğlu, Çağan H., Collen, Ben, Purvis, Andy, Seymour, Colleen
Format Journal Article
LanguageEnglish
Published London Wiley Subscription Services, Inc 01.03.2020
Subjects
Abundance
Animal species
Biodiversity
Body mass
Carnivores
Community ecology
Detritivores
disturbed land
ecological communities
Ecology
ecosystem function
ecosystem structure
ecosystems
ectothermy
Elephants
endothermy
Functional groups
fungivores
global
Herbivores
humans
Land use
mites
Omnivores
Population decline
Sarcoptiformes
Species richness
Terrestrial environments
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Abstract Human land use has caused substantial declines in global species richness. Evidence from different taxonomic groups and geographic regions suggests that land use does not equally impact all organisms within terrestrial ecological communities, and that different functional groups of species may respond differently. In particular, we expect large carnivores to decline more in disturbed land uses than other animal groups. We present the first global synthesis of responses to land use across functional groups using data from a wide set of animal species, including herbivores, omnivores, carnivores, fungivores and detritivores; and ranging in body mass from 2 × 10−6 g (an oribatid mite) to 3,825 kg (the African elephant). We show that the abundance of large endotherms, small ectotherms, carnivores and fungivores (although in the last case, not significantly) are reduced disproportionately in human land uses compared with the abundance of other functional groups. The results, suggesting that certain functional groups are consistently favoured over others in land used by humans, imply a substantial restructuring of ecological communities. Given that different functional groups make unique contributions to ecological processes, it is likely that there will be substantial impacts on the functioning of ecosystems. A free Plain Language Summary can be found within the Supporting Information of this article. A free Plain Language Summary can be found within the Supporting Information of this article.
AbstractList Human land use has caused substantial declines in global species richness. Evidence from different taxonomic groups and geographic regions suggests that land use does not equally impact all organisms within terrestrial ecological communities, and that different functional groups of species may respond differently. In particular, we expect large carnivores to decline more in disturbed land uses than other animal groups. We present the first global synthesis of responses to land use across functional groups using data from a wide set of animal species, including herbivores, omnivores, carnivores, fungivores and detritivores; and ranging in body mass from 2 × 10⁻⁶ g (an oribatid mite) to 3,825 kg (the African elephant). We show that the abundance of large endotherms, small ectotherms, carnivores and fungivores (although in the last case, not significantly) are reduced disproportionately in human land uses compared with the abundance of other functional groups. The results, suggesting that certain functional groups are consistently favoured over others in land used by humans, imply a substantial restructuring of ecological communities. Given that different functional groups make unique contributions to ecological processes, it is likely that there will be substantial impacts on the functioning of ecosystems. A free Plain Language Summary can be found within the Supporting Information of this article.
Human land use has caused substantial declines in global species richness. Evidence from different taxonomic groups and geographic regions suggests that land use does not equally impact all organisms within terrestrial ecological communities, and that different functional groups of species may respond differently. In particular, we expect large carnivores to decline more in disturbed land uses than other animal groups. We present the first global synthesis of responses to land use across functional groups using data from a wide set of animal species, including herbivores, omnivores, carnivores, fungivores and detritivores; and ranging in body mass from 2 × 10 −6  g (an oribatid mite) to 3,825 kg (the African elephant). We show that the abundance of large endotherms, small ectotherms, carnivores and fungivores (although in the last case, not significantly) are reduced disproportionately in human land uses compared with the abundance of other functional groups. The results, suggesting that certain functional groups are consistently favoured over others in land used by humans, imply a substantial restructuring of ecological communities. Given that different functional groups make unique contributions to ecological processes, it is likely that there will be substantial impacts on the functioning of ecosystems. A free Plain Language Summary can be found within the Supporting Information of this article.
Human land use has caused substantial declines in global species richness. Evidence from different taxonomic groups and geographic regions suggests that land use does not equally impact all organisms within terrestrial ecological communities, and that different functional groups of species may respond differently. In particular, we expect large carnivores to decline more in disturbed land uses than other animal groups. We present the first global synthesis of responses to land use across functional groups using data from a wide set of animal species, including herbivores, omnivores, carnivores, fungivores and detritivores; and ranging in body mass from 2 × 10−6 g (an oribatid mite) to 3,825 kg (the African elephant). We show that the abundance of large endotherms, small ectotherms, carnivores and fungivores (although in the last case, not significantly) are reduced disproportionately in human land uses compared with the abundance of other functional groups. The results, suggesting that certain functional groups are consistently favoured over others in land used by humans, imply a substantial restructuring of ecological communities. Given that different functional groups make unique contributions to ecological processes, it is likely that there will be substantial impacts on the functioning of ecosystems. A free Plain Language Summary can be found within the Supporting Information of this article. A free Plain Language Summary can be found within the Supporting Information of this article.
Human land use has caused substantial declines in global species richness. Evidence from different taxonomic groups and geographic regions suggests that land use does not equally impact all organisms within terrestrial ecological communities, and that different functional groups of species may respond differently. In particular, we expect large carnivores to decline more in disturbed land uses than other animal groups.We present the first global synthesis of responses to land use across functional groups using data from a wide set of animal species, including herbivores, omnivores, carnivores, fungivores and detritivores; and ranging in body mass from 2 × 10−6 g (an oribatid mite) to 3,825 kg (the African elephant).We show that the abundance of large endotherms, small ectotherms, carnivores and fungivores (although in the last case, not significantly) are reduced disproportionately in human land uses compared with the abundance of other functional groups.The results, suggesting that certain functional groups are consistently favoured over others in land used by humans, imply a substantial restructuring of ecological communities. Given that different functional groups make unique contributions to ecological processes, it is likely that there will be substantial impacts on the functioning of ecosystems.A free Plain Language Summary can be found within the Supporting Information of this article.
Author Su, Geoffrey
Purvis, Andy
Şekercioğlu, Çağan H.
Collen, Ben
Bentley, Laura F.
Newbold, Tim
Seymour, Colleen
Hill, Samantha L. L.
Edgar, Melanie J.
Horton, Matthew
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  organization: University College London
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  organization: UN Environment World Conservation Monitoring Centre
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  surname: Hill
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  organization: Natural History Museum
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  surname: Seymour
  fullname: Seymour, Colleen
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Snippet Human land use has caused substantial declines in global species richness. Evidence from different taxonomic groups and geographic regions suggests that land...
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SubjectTerms Abundance
Animal species
Biodiversity
Body mass
Carnivores
Community ecology
Detritivores
disturbed land
ecological communities
Ecology
ecosystem function
ecosystem structure
ecosystems
ectothermy
Elephants
endothermy
Functional groups
fungivores
global
Herbivores
humans
Land use
mites
Omnivores
Population decline
Sarcoptiformes
Species richness
Terrestrial environments
Title Global effects of land use on biodiversity differ among functional groups
URI https://onlinelibrary.wiley.com/doi/abs/10.1111%2F1365-2435.13500
https://www.proquest.com/docview/2371529151
https://www.proquest.com/docview/2400487224
Volume 34
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