Global changes threaten functional and taxonomic diversity of insular species worldwide

Aim The assessment of biodiversity patterns under global changes is currently biased towards taxonomic diversity, thus overlooking the ecological and functional aspects of species. Here, we characterized both taxonomic and functional diversity of insular biodiversity threatened by multiple threats....

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Published inDiversity & distributions Vol. 26; no. 4; pp. 402 - 414
Main Authors Leclerc, Camille, Villéger, Sébastien, Marino, Clara, Bellard, Céline
Format Journal Article
LanguageEnglish
Published Oxford Wiley 01.04.2020
John Wiley & Sons, Inc
Subjects
Anthropogenic factors
Bioclimatology
Biodiversity
Biodiversity and Ecology
BIODIVERSITY RESEARCH
Birds
Body mass
Climate change
Cultivation
diet
Diversity indices
ecological invasion
Ecology, environment
Ecosystems
Endangered & extinct species
Endemic species
Environmental Sciences
Extinction
functional diversity
functional originality
functional richness
functional specialization
habitats
indigenous species
islands
Life Sciences
Mammals
risk
small mammals
Specialization
Species diversity
Species extinction
species traits
Taxonomy
Threatened species
Threats
Urbanization
vulnerability
Wildlife
Wildlife conservation
Wildlife habitats
functional richness
mammals
islands
functional originality
species traits
functional specialization
vulnerability
birds
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Abstract Aim The assessment of biodiversity patterns under global changes is currently biased towards taxonomic diversity, thus overlooking the ecological and functional aspects of species. Here, we characterized both taxonomic and functional diversity of insular biodiversity threatened by multiple threats. Location Worldwide islands (n = 4,348). Methods We analysed the relative importance of eleven major threats, including biological invasions or climate change, on 2,756 insular endemic mammals and birds. Species were functionally described using five ecological traits related to diet, habitat and body mass. We computed complementary taxonomic and functional diversity indices (richness, specialization, originality and vulnerability) of species pools affected by each threatening process to investigate relationships between diversity dimensions and threats. We also determined whether species‐specific traits are associated with specific threats. Results On average, 8% of insular endemic species at risk of extinction are impacted by threats, while 20% of their functional richness is affected. However, a marked disparity in functional richness values associated with each threat can be highlighted. In particular, cultivation and wildlife exploitation are the greatest threats to insular endemic species. Moreover, each threat may contribute to the loss of at least 10% of functional diversity, because it affects threatened species that support unique and extreme functions. Finally, we found complex patterns of species‐specific traits associated with particular threats that is not explain by the threatening processes (directly affecting survival or modifying habitat). For instance, cultivation threatens very large mammals, while urbanization threatens very small mammals. Main conclusions These findings reinforce the importance of exploring the vulnerability of biodiversity facets in the face of multiple threats. Anthropogenic pressures may result in a loss of unique functions within insular ecosystems, which provides important insights into the understanding of threatening processes at a global scale.
AbstractList Aim The assessment of biodiversity patterns under global changes is currently biased towards taxonomic diversity, thus overlooking the ecological and functional aspects of species. Here, we characterized both taxonomic and functional diversity of insular biodiversity threatened by multiple threats. Location Worldwide islands (n = 4,348). Methods We analysed the relative importance of eleven major threats, including biological invasions or climate change, on 2,756 insular endemic mammals and birds. Species were functionally described using five ecological traits related to diet, habitat and body mass. We computed complementary taxonomic and functional diversity indices (richness, specialization, originality and vulnerability) of species pools affected by each threatening process to investigate relationships between diversity dimensions and threats. We also determined whether species‐specific traits are associated with specific threats. Results On average, 8% of insular endemic species at risk of extinction are impacted by threats, while 20% of their functional richness is affected. However, a marked disparity in functional richness values associated with each threat can be highlighted. In particular, cultivation and wildlife exploitation are the greatest threats to insular endemic species. Moreover, each threat may contribute to the loss of at least 10% of functional diversity, because it affects threatened species that support unique and extreme functions. Finally, we found complex patterns of species‐specific traits associated with particular threats that is not explain by the threatening processes (directly affecting survival or modifying habitat). For instance, cultivation threatens very large mammals, while urbanization threatens very small mammals. Main conclusions These findings reinforce the importance of exploring the vulnerability of biodiversity facets in the face of multiple threats. Anthropogenic pressures may result in a loss of unique functions within insular ecosystems, which provides important insights into the understanding of threatening processes at a global scale.
AIM: The assessment of biodiversity patterns under global changes is currently biased towards taxonomic diversity, thus overlooking the ecological and functional aspects of species. Here, we characterized both taxonomic and functional diversity of insular biodiversity threatened by multiple threats. LOCATION: Worldwide islands (n = 4,348). METHODS: We analysed the relative importance of eleven major threats, including biological invasions or climate change, on 2,756 insular endemic mammals and birds. Species were functionally described using five ecological traits related to diet, habitat and body mass. We computed complementary taxonomic and functional diversity indices (richness, specialization, originality and vulnerability) of species pools affected by each threatening process to investigate relationships between diversity dimensions and threats. We also determined whether species‐specific traits are associated with specific threats. RESULTS: On average, 8% of insular endemic species at risk of extinction are impacted by threats, while 20% of their functional richness is affected. However, a marked disparity in functional richness values associated with each threat can be highlighted. In particular, cultivation and wildlife exploitation are the greatest threats to insular endemic species. Moreover, each threat may contribute to the loss of at least 10% of functional diversity, because it affects threatened species that support unique and extreme functions. Finally, we found complex patterns of species‐specific traits associated with particular threats that is not explain by the threatening processes (directly affecting survival or modifying habitat). For instance, cultivation threatens very large mammals, while urbanization threatens very small mammals. MAIN CONCLUSIONS: These findings reinforce the importance of exploring the vulnerability of biodiversity facets in the face of multiple threats. Anthropogenic pressures may result in a loss of unique functions within insular ecosystems, which provides important insights into the understanding of threatening processes at a global scale.
AimThe assessment of biodiversity patterns under global changes is currently biased towards taxonomic diversity, thus overlooking the ecological and functional aspects of species. Here, we characterized both taxonomic and functional diversity of insular biodiversity threatened by multiple threats.LocationWorldwide islands (n = 4,348).MethodsWe analysed the relative importance of eleven major threats, including biological invasions or climate change, on 2,756 insular endemic mammals and birds. Species were functionally described using five ecological traits related to diet, habitat and body mass. We computed complementary taxonomic and functional diversity indices (richness, specialization, originality and vulnerability) of species pools affected by each threatening process to investigate relationships between diversity dimensions and threats. We also determined whether species‐specific traits are associated with specific threats.ResultsOn average, 8% of insular endemic species at risk of extinction are impacted by threats, while 20% of their functional richness is affected. However, a marked disparity in functional richness values associated with each threat can be highlighted. In particular, cultivation and wildlife exploitation are the greatest threats to insular endemic species. Moreover, each threat may contribute to the loss of at least 10% of functional diversity, because it affects threatened species that support unique and extreme functions. Finally, we found complex patterns of species‐specific traits associated with particular threats that is not explain by the threatening processes (directly affecting survival or modifying habitat). For instance, cultivation threatens very large mammals, while urbanization threatens very small mammals.Main conclusionsThese findings reinforce the importance of exploring the vulnerability of biodiversity facets in the face of multiple threats. Anthropogenic pressures may result in a loss of unique functions within insular ecosystems, which provides important insights into the understanding of threatening processes at a global scale.
Author Bellard, Céline
Leclerc, Camille
Marino, Clara
Villéger, Sébastien
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  surname: Bellard
  fullname: Bellard, Céline
BackLink https://hal.sorbonne-universite.fr/hal-02477847$$DView record in HAL
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Issue 4
Keywords functional richness
mammals
islands
functional originality
species traits
functional specialization
vulnerability
birds
Language English
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Snippet Aim The assessment of biodiversity patterns under global changes is currently biased towards taxonomic diversity, thus overlooking the ecological and...
AimThe assessment of biodiversity patterns under global changes is currently biased towards taxonomic diversity, thus overlooking the ecological and functional...
AIM: The assessment of biodiversity patterns under global changes is currently biased towards taxonomic diversity, thus overlooking the ecological and...
Aim: The assessment of biodiversity patterns under global changes is currently biased towards taxonomic diversity, thus overlooking the ecological and...
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StartPage 402
SubjectTerms Anthropogenic factors
Bioclimatology
Biodiversity
Biodiversity and Ecology
BIODIVERSITY RESEARCH
Birds
Body mass
Climate change
Cultivation
diet
Diversity indices
ecological invasion
Ecology, environment
Ecosystems
Endangered & extinct species
Endemic species
Environmental Sciences
Extinction
functional diversity
functional originality
functional richness
functional specialization
habitats
indigenous species
islands
Life Sciences
Mammals
risk
small mammals
Specialization
Species diversity
Species extinction
species traits
Taxonomy
Threatened species
Threats
Urbanization
vulnerability
Wildlife
Wildlife conservation
Wildlife habitats
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  providerName: Wiley-Blackwell
Title Global changes threaten functional and taxonomic diversity of insular species worldwide
URI https://www.jstor.org/stable/26911448
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Volume 26
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