2022
Land use, season, and parasitism predict metal concentrations in Australian flying fox fur
Sánchez C, Penrose M, Kessler M, Becker D, McKeown A, Hannappel M, Boyd V, Camus M, Padgett-Stewart T, Hunt B, Graves A, Peel A, Westcott D, Rainwater T, Chumchal M, Cobb G, Altizer S, Plowright R, Boardman W. Land use, season, and parasitism predict metal concentrations in Australian flying fox fur. The Science Of The Total Environment 2022, 841: 156699. PMID: 35710009, DOI: 10.1016/j.scitotenv.2022.156699.Peer-Reviewed Original ResearchConceptsMetal concentrationsMetal exposureMetal loadingHigh metal concentrationsConcentrations of cadmiumHuman-modified habitatsExposed to contaminantsSpectacled flying foxQuantify metal concentrationsFlying fox speciesHigher metal loadingMercury concentrationsMetal contaminationHeavy metalsSublethal consequencesEnvironmental predictorsP. conspicillatusHuman impactEastern AustraliaSeason samplesFox speciesLand useBat speciesFood availabilityHuman health
2013
HUMAN IMPACTS HAVE SHAPED HISTORICAL AND RECENT EVOLUTION IN AEDES AEGYPTI, THE DENGUE AND YELLOW FEVER MOSQUITO
Brown JE, Evans BR, Zheng W, Obas V, Barrera‐Martinez L, Egizi A, Zhao H, Caccone A, Powell JR. HUMAN IMPACTS HAVE SHAPED HISTORICAL AND RECENT EVOLUTION IN AEDES AEGYPTI, THE DENGUE AND YELLOW FEVER MOSQUITO. Evolution 2013, 68: 514-525. PMID: 24111703, PMCID: PMC3946797, DOI: 10.1111/evo.12281.Peer-Reviewed Original ResearchConceptsYellow fever mosquitoSingle nucleotide polymorphism (SNP) markersHuman trade routesPatterns of domesticationArthropod disease vectorsDomestic formsNuclear genesEcological overlapEvolutionary historyDomestic AePolymorphism markersNovel nichesDNA sequencesGenetic dataEvolutionary processesDisease vectorsGenetic studiesSuch speciesLater invasionDNA sequencingNew WorldSpeciesAnthropogenic impactsHuman impactAnthropogenic forces
2010
Analysis of membrane proteins in metagenomics: Networks of correlated environmental features and protein families
Patel PV, Gianoulis TA, Bjornson RD, Yip KY, Engelman DM, Gerstein MB. Analysis of membrane proteins in metagenomics: Networks of correlated environmental features and protein families. Genome Research 2010, 20: 960-971. PMID: 20430783, PMCID: PMC2892097, DOI: 10.1101/gr.102814.109.Peer-Reviewed Original ResearchConceptsProtein familyMembrane proteinsMembrane protein familyRecent metagenomic studiesMembrane protein contentAdditional environmental featuresProtein diversityDisparate habitatsGenomic diversityPhosphate transporterProtein variationMetagenomic sequencesMetagenomic studiesEnvironmental featuresIron transporterHuman impactProteinOceanographic variablesMarine sitesEcological analysisTransportersDiversityProtein contentFamilyClimate change
2006
Patterns of association between Symbiodinium and members of the Montastraea annularis species complex on spatial scales ranging from within colonies to between geographic regions
Garren M, Walsh S, Caccone A, Knowlton N. Patterns of association between Symbiodinium and members of the Montastraea annularis species complex on spatial scales ranging from within colonies to between geographic regions. Coral Reefs 2006, 25: 503-512. DOI: 10.1007/s00338-006-0146-1.Peer-Reviewed Original ResearchSymbiodinium CMontastraea annularisSmall subunit ribosomal DNABocas del Toro archipelagoNon-metric multidimensional scaling ordinationMultidimensional scaling ordinationMajor cladesRibosomal DNAClade DPanamanian reefsCoral coloniesHabitat combinationsRestriction fragment length polymorphism analysisMesoamerican ReefFragment length polymorphism analysisIndividual coloniesLength polymorphism analysisGreat diversityHuman impactZooxanthellaeGeographic regionsSpatial scalesPolymorphism analysisReefsAnnularis
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