0000000000293668

AUTHOR

Willem F. De Boer

showing 2 related works from this author

Mammal assemblage composition predicts global patterns in emerging infectious disease risk

2021

Abstract As a source of emerging infectious diseases, wildlife assemblages (and related spatial patterns) must be quantitatively assessed to help identify high‐risk locations. Previous assessments have largely focussed on the distributions of individual species; however, transmission dynamics are expected to depend on assemblage composition. Moreover, disease–diversity relationships have mainly been studied in the context of species loss, but assemblage composition and disease risk (e.g. infection prevalence in wildlife assemblages) can change without extinction. Based on the predicted distributions and abundances of 4466 mammal species, we estimated global patterns of disease risk through …

BiodiversityDIVERSITYAnimal Sciences DeskzoonoositCommunicable Diseases EmergingeläinmaantiedetartuntatauditBureau DierwetenschappenPrimary Research ArticleGeneral Environmental ScienceBODY-SIZEMammals2. Zero hungerGlobal and Planetary ChangeEcologyEcologyassemblage composition; climate change; emerging infectious diseases; habitat loss; infectious disease hotspots; species distributionsassemblage compositionPOPULATION-DENSITYeliöyhteisötriskinarviointiPE&RCEXTINCTION RISKclimate changespecies distributions1181 Ecology evolutionary biologyEmerging infectious diseaseWILDLIFEhabitat lossWildlifeContext (language use)Biologyemerging infectious diseasesEVENNESSnisäkkäätAnimalsEnvironmental ChemistryeläimistöEcosystemPATHOGENSSPECIES DISTRIBUTION MODELS15. Life on landilmastonmuutoksetPrimary Research ArticlesbiodiversiteettiHabitat destruction13. Climate actionInfectious disease (medical specialty)villieläimetWildlife Ecology and ConservationSpatial ecologyBIODIVERSITYSpecies richnessLIVING FASTEnvironmental Sciencesinfectious disease hotspots
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Risk factors for Lyme disease : A scale-dependent effect of host species diversity and a consistent negative effect of host phylogenetic diversity

2021

Biodiversity can influence disease risk. One example of a diversity-disease relationship is the dilution effect, which suggests higher host species diversity (often indexed by species richness) reduces disease risk. While numerous studies support the dilution effect, its generality remains controversial. Most studies of diversity-disease relationships have overlooked the potential importance of phylogenetic diversity. Furthermore, most studies have tested diversity-disease relationships at one spatial scale, even though such relationships are likely scale dependent. Using Lyme disease as a model system, we investigated the effects of host species richness and phylogenetic relatedness on the…

Dilution effecthabitaattizoonoositisäntälajitMicrobiologyRisk Factorsdilution effectLymen borrelioosiClimatic variablesHumansLyme diseaseHost species richnesshost species richnessPhylogeny1172 Environmental sciencesHost phylogenetic diversityhost phylogenetic diversityfylogenetiikkailmastonmuutoksetluonnon monimuotoisuusbiodiversiteettiInfectious Diseasesclimatic variablesborrelioosiInsect Science1181 Ecology evolutionary biologyParasitologyHabitat fragmentationhabitat fragmentationpirstoutuminen
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