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Global decline of bumblebees is phylogenetically structured and inversely related to species range size and pathogen incidence
by
Morales, Carolina L.
, Aizen, Marcelo A.
, Arbetman, Marina P.
, Gleiser, Gabriela
, Williams, Paul
in
Animals
/ Bees - classification
/ Bees - microbiology
/ Biological evolution
/ Bombus
/ Bumblebees
/ Conservation
/ Conservation biology
/ Crithidia - pathogenicity
/ Ecosystem
/ Endangered & extinct species
/ Extinct species
/ Extinction
/ Extinction, Biological
/ Global Change And Conservation
/ Incidence
/ Iucn Red List
/ Nature conservation
/ Nosema - pathogenicity
/ Parasites
/ Pathogens
/ Phylogenetics
/ Phylogeny
/ Pollinator Decline
/ Population decline
/ Regression analysis
/ Risk assessment
/ Species extinction
/ Spp
/ Threatened species
/ Tongue
/ Wildlife conservation
2017
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Global decline of bumblebees is phylogenetically structured and inversely related to species range size and pathogen incidence
by
Morales, Carolina L.
, Aizen, Marcelo A.
, Arbetman, Marina P.
, Gleiser, Gabriela
, Williams, Paul
in
Animals
/ Bees - classification
/ Bees - microbiology
/ Biological evolution
/ Bombus
/ Bumblebees
/ Conservation
/ Conservation biology
/ Crithidia - pathogenicity
/ Ecosystem
/ Endangered & extinct species
/ Extinct species
/ Extinction
/ Extinction, Biological
/ Global Change And Conservation
/ Incidence
/ Iucn Red List
/ Nature conservation
/ Nosema - pathogenicity
/ Parasites
/ Pathogens
/ Phylogenetics
/ Phylogeny
/ Pollinator Decline
/ Population decline
/ Regression analysis
/ Risk assessment
/ Species extinction
/ Spp
/ Threatened species
/ Tongue
/ Wildlife conservation
2017
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Global decline of bumblebees is phylogenetically structured and inversely related to species range size and pathogen incidence
by
Morales, Carolina L.
, Aizen, Marcelo A.
, Arbetman, Marina P.
, Gleiser, Gabriela
, Williams, Paul
in
Animals
/ Bees - classification
/ Bees - microbiology
/ Biological evolution
/ Bombus
/ Bumblebees
/ Conservation
/ Conservation biology
/ Crithidia - pathogenicity
/ Ecosystem
/ Endangered & extinct species
/ Extinct species
/ Extinction
/ Extinction, Biological
/ Global Change And Conservation
/ Incidence
/ Iucn Red List
/ Nature conservation
/ Nosema - pathogenicity
/ Parasites
/ Pathogens
/ Phylogenetics
/ Phylogeny
/ Pollinator Decline
/ Population decline
/ Regression analysis
/ Risk assessment
/ Species extinction
/ Spp
/ Threatened species
/ Tongue
/ Wildlife conservation
2017
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Global decline of bumblebees is phylogenetically structured and inversely related to species range size and pathogen incidence
Journal Article
Global decline of bumblebees is phylogenetically structured and inversely related to species range size and pathogen incidence
2017
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Overview
Conservation biology can profit greatly from incorporating a phylogenetic perspective into analyses of patterns and drivers of species extinction risk. We applied such an approach to analyse patterns of bumblebee (Bombus) decline. We assembled a database representing approximately 43% of the circa 260 globally known species, which included species extinction risk assessments following the International Union fo Conservation of Nature Red List categories and criteria, and information on species traits presumably associated with bumblebee decline. We quantified the strength of phylogenetic signal in decline, range size, tongue length and parasite presence. Overall, about one-third of the assessed bumblebees are declining and declining species are not randomly distributed across the Bombus phylogeny. Susceptible species were over-represented in the subgenus Thoracobombus (approx. 64%) and under-represented in the subgenus Pyrobombus (approx. 6%). Phylogenetic logistic regressions revealed that species with small geographical ranges and those in which none of three internal parasites were reported (i.e. Crithidia bombi, Nosema spp. or Locustacarus buchneri) were particularly vulnerable. Bumblebee evolutionary history will be deeply eroded if most species from threatened clades, particularly those stemming from basal nodes, become finally extinct. The habitat of species with restricted distribution should be protected and the importance of pathogen tolerance/resistance as mechanisms to deal with pathogens needs urgent research.
Publisher
The Royal Society,The Royal Society Publishing
Subject
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