2022
Population genetics of an invasive mosquito vector, Aedes albopictus in the Northeastern USA
Gloria-Soria A, Shragai T, Ciota A, Duval T, Alto B, Martins A, Westby K, Medley K, Unlu I, Campbell S, Kawalkowski M, Tsuda Y, Higa Y, Indelicato N, Leisnham P, Caccone A, Armstrong P. Population genetics of an invasive mosquito vector, Aedes albopictus in the Northeastern USA. NeoBiota 2022, 78: 99-127. PMID: 37408738, PMCID: PMC10321554, DOI: 10.3897/neobiota.78.84986.Peer-Reviewed Original ResearchPopulations of AeGenetic structureGenetic diversityPopulation geneticsGenetic cladesMicrosatellite markersAsian tiger mosquitoNortheastern USARange northwardsNorthern rangeAlbopictus populationsFounder effectPopulation turnoverVector suppressionEast coastTiger mosquitoEastern USAInvasive mosquito vectorsMosquito vectorsAedes albopictusLocal populationWarming conditionsAlbopictusCold wintersConsecutive yearsTemporal Monitoring of the Floreana Island Galapagos Giant Tortoise Captive Breeding Program
Gray R, Fusco N, Miller J, Tapia W, Mariani C, Caccone A, Jensen E. Temporal Monitoring of the Floreana Island Galapagos Giant Tortoise Captive Breeding Program. Integrative And Comparative Biology 2022, 62: 1864-1871. PMID: 35906184, DOI: 10.1093/icb/icac129.Peer-Reviewed Original ResearchConceptsCaptive breeding programsBreeding programsEffective population sizeGalapagos giant tortoisesCaptive breedingGenetic diversityGenetic trackingReproductive outputSpecies restorationGiant tortoisesConservation managersBreeding outcomesMicrosatellite markersGenetic analysisMore foundersBreeding cyclePopulation sizeBreeding facilitiesTortoisesValue of hybridsParentageOffspringGenomeHybridsBreeding
2021
Chapter 7 Evolution and phylogenetics
Caccone A. Chapter 7 Evolution and phylogenetics. 2021, 117-138. DOI: 10.1016/b978-0-12-817554-5.00019-8.Peer-Reviewed Original ResearchGalapagos giant tortoisesGiant tortoise populationChapter 7 EvolutionEvolutionary historyRepopulation programsCaptive breedingGenetic diversityGiant tortoisesTortoise populationsDifferent islandsConservation programsPhylogeneticsTortoisesPhylogeographyHuman activitiesPhylogenyBreedingData helpYears of researchSpeciesNatural eventsDiversityCurrent patternsGalapagosEvolution
2019
Identification of winter moth (Operophtera brumata) refugia in North Africa and the Italian Peninsula during the last glacial maximum
Andersen J, Havill N, Mannai Y, Ezzine O, Dhahri S, Jamâa M, Caccone A, Elkinton J. Identification of winter moth (Operophtera brumata) refugia in North Africa and the Italian Peninsula during the last glacial maximum. Ecology And Evolution 2019, 9: 13931-13941. PMID: 31938492, PMCID: PMC6953680, DOI: 10.1002/ece3.5830.Peer-Reviewed Original ResearchWinter mothGenetic diversityLast Glacial MaximumQuaternary climatic oscillationsWinter moth populationsUse of refugiaSecondary contactGlacial refugiaNonnative speciesGenetic distinctnessIberian refugiumGenetic distanceBayesian clusteringLGM refugiaPolymorphic microsatellitesRefugiaApproximate Bayesian computation methodsItalian peninsulaMoth individualsOak forestsClimatic oscillationsGenetic relationshipsMoth populationsTemperate regionsGlacial MaximumGenetically informed captive breeding of hybrids of an extinct species of Galapagos tortoise
Quinzin M, Sandoval‐Castillo J, Miller J, Beheregaray L, Russello M, Hunter E, Gibbs J, Tapia W, Villalva F, Caccone A. Genetically informed captive breeding of hybrids of an extinct species of Galapagos tortoise. Conservation Biology 2019, 33: 1404-1414. PMID: 30901116, DOI: 10.1111/cobi.13319.Peer-Reviewed Original ResearchConceptsOverall genetic diversityGenetic diversityExtinct speciesC. nigerFloreana IslandExtinct taxaCaptive breeding strategiesCaptive breeding programsSmall breeding groupsGalapagos tortoisesSpecies restoration programsHigh ancestrySpecies biologyExtant speciesGenetic integrityCaptive breedingGenomic representationAdaptive potentialSpecies conservationBreeding strategiesSpecies recoveryGenotypic dataEndemic rangeBiodiversity conservationEcosystem restoration
2018
Genetic Differentiation of Glossina pallidipes Tsetse Flies in Southern Kenya.
Okeyo WA, Saarman NP, Bateta R, Dion K, Mengual M, Mireji PO, Ouma C, Okoth S, Murilla G, Aksoy S, Caccone A. Genetic Differentiation of Glossina pallidipes Tsetse Flies in Southern Kenya. American Journal Of Tropical Medicine And Hygiene 2018, 99: 945-953. PMID: 30105964, PMCID: PMC6159567, DOI: 10.4269/ajtmh.18-0154.Peer-Reviewed Original ResearchConceptsGenetic differentiationPopulation dynamicsDispersal patternsTsetse fliesLow genetic diversityGreater genetic differentiationEvidence of admixtureWestern clusterEastern clusterRecent anthropogenic influencesAnimal African trypanosomiasisGenetic connectivityWestern relativesGenetic diversityMicrosatellite lociPopulation structureGenotypic dataWidespread signalDisease vectorsMajor vectorVector control effortsGreat Rift ValleyDemographic parametersFliesVector control programsPopulation genomics through time provides insights into the consequences of decline and rapid demographic recovery through head‐starting in a Galapagos giant tortoise
Jensen E, Edwards D, Garrick R, Miller J, Gibbs J, Cayot L, Tapia W, Caccone A, Russello M. Population genomics through time provides insights into the consequences of decline and rapid demographic recovery through head‐starting in a Galapagos giant tortoise. Evolutionary Applications 2018, 11: 1811-1821. PMID: 30459831, PMCID: PMC6231475, DOI: 10.1111/eva.12682.Peer-Reviewed Original ResearchGiant tortoisesBottleneck eventsGenetic diversityGenetic variationPopulation declineTortoise populationsPopulation sizeCurrent genetic diversityEffective population sizePopulation genetics theoryWide single nucleotide polymorphism dataCaptive breeding programsRapid demographic recoveryRecent population declineSingle nucleotide polymorphism dataGalapagos giant tortoisesNucleotide polymorphism dataRapid population declineLarge population sizesPopulation genomicsSpecies restorationLong-term persistencePopulation structureGenetic patternsGenetic theoryGenome-Wide Assessment of Diversity and Divergence Among Extant Galapagos Giant Tortoise Species
Miller J, Quinzin M, Edwards D, Eaton D, Jensen E, Russello M, Gibbs J, Tapia W, Rueda D, Caccone A. Genome-Wide Assessment of Diversity and Divergence Among Extant Galapagos Giant Tortoise Species. Journal Of Heredity 2018, 109: 611-619. PMID: 29986032, DOI: 10.1093/jhered/esy031.Peer-Reviewed Original ResearchConceptsGiant tortoise speciesMitochondrial DNA sequencesSingle nucleotide polymorphismsTortoise speciesGenetic diversityMicrosatellite lociDNA sequencesGenotypic dataMicrosatellite genotypic dataNuclear microsatellite lociGenome-wide markersEstimates of diversityGenome-wide assessmentGalapagos giant tortoisesSpecies radiationEvolutionary geneticsSignificant unitsMitochondrial DNAPopulation structureSpecies conservationGenetic lineagesGiant tortoisesPopulation delineationTortoise populationsDNA sequencingCryptic east-west divergence and molecular diagnostics for two species of silver flies (Diptera: Chamaemyiidae: Leucopis) from North America being evaluated for biological control of hemlock woolly adelgid
Havill N, Gaimari S, Caccone A. Cryptic east-west divergence and molecular diagnostics for two species of silver flies (Diptera: Chamaemyiidae: Leucopis) from North America being evaluated for biological control of hemlock woolly adelgid. Biological Control 2018, 121: 23-29. DOI: 10.1016/j.biocontrol.2018.02.004.Peer-Reviewed Original ResearchEastern North AmericaNorth AmericaPacific NorthwestBiological controlHemlock Woolly AdelgidEast-west divergenceMitochondrial COI geneBiological control agentsEastern United StatesDNA sequence dataLeucopis argenticollisPrey associationsWoolly AdelgidAdelgid speciesAdelgidWestern lineageGenetic diversityNuclear genesCOI geneHemlockDistinct lineagesControl agentsBeneficial genotypesSequence dataWestern hemlockGenetic Pedigree Analysis of the Pilot Breeding Program for the Rediscovered Galapagos Giant Tortoise from Floreana Island
Miller J, Quinzin M, Scheibe E, Ciofi C, Villalva F, Tapia W, Caccone A. Genetic Pedigree Analysis of the Pilot Breeding Program for the Rediscovered Galapagos Giant Tortoise from Floreana Island. Journal Of Heredity 2018, 109: 620-630. PMID: 29490038, DOI: 10.1093/jhered/esy010.Peer-Reviewed Original ResearchConceptsReproductive skewGalapagos giant tortoisesBreeding programsFloreana IslandGiant tortoisesAssortative matingSelf-sustaining wild populationsGenetic pedigree analysisMajority of progenyCaptive breeding programsSmall breeding groupsOrigin of individualsPedigree analysisLarge breeding programsFounding individualsWild populationsAllelic diversityGenetic diversityExtinct tortoisesGenetic variationGenetic analysisC. nigerPopulation sizeRelated individualsBreeding groups
2017
Temporal genetic differentiation in Glossina pallidipes tsetse fly populations in Kenya
Okeyo WA, Saarman NP, Mengual M, Dion K, Bateta R, Mireji PO, Okoth S, Ouma JO, Ouma C, Ochieng J, Murilla G, Aksoy S, Caccone A. Temporal genetic differentiation in Glossina pallidipes tsetse fly populations in Kenya. Parasites & Vectors 2017, 10: 471. PMID: 29017572, PMCID: PMC5635580, DOI: 10.1186/s13071-017-2415-y.Peer-Reviewed Original ResearchConceptsTemporal genetic differentiationGenetic diversityGenetic differentiationGenetic bottleneckGenetic variationNational ParkTemporal genetic variationExtensive control measuresAnimal African trypanosomiasisAllelic richnessPairwise FSTGenetic driftNe estimatesHabitat alterationPopulation geneticsTemporal differentiationMicrosatellite markersRuma National ParkClosest sampling sitesG. pallidipesMajor vectorTsetse fliesVector populationsDifferentiationDiversityMultiple evolutionary origins of Trypanosoma evansi in Kenya
Kamidi CM, Saarman NP, Dion K, Mireji PO, Ouma C, Murilla G, Aksoy S, Schnaufer A, Caccone A. Multiple evolutionary origins of Trypanosoma evansi in Kenya. PLOS Neglected Tropical Diseases 2017, 11: e0005895. PMID: 28880965, PMCID: PMC5605091, DOI: 10.1371/journal.pntd.0005895.Peer-Reviewed Original ResearchConceptsT. brucei strainsDifferent genetic backgroundsEvolutionary originGenetic diversityBrucei strainsMultiple evolutionary originsGenetic backgroundTsetse fly vectorT. evansiLethal human diseaseIndependent originsPolymorphic microsatellitesT. bruceiEvansi isolatesGenetic unitsHuman diseasesObligate linkBruceiEvansi strainsT. brucei bruceiTsetse fliesFly vectorsFliesDiversityBrucei bruceiGenetic diversity of Glossina fuscipes fuscipes along the shores of Lake Victoria in Tanzania and Kenya: implications for management
Manangwa O, Nkwengulila G, Ouma JO, Mramba F, Malele I, Dion K, Sistrom M, Khan F, Aksoy S, Caccone A. Genetic diversity of Glossina fuscipes fuscipes along the shores of Lake Victoria in Tanzania and Kenya: implications for management. Parasites & Vectors 2017, 10: 268. PMID: 28558831, PMCID: PMC5450392, DOI: 10.1186/s13071-017-2201-x.Peer-Reviewed Original ResearchGenetic diversity and population structure of the tsetse fly Glossina fuscipes fuscipes (Diptera: Glossinidae) in Northern Uganda: Implications for vector control
Opiro R, Saarman NP, Echodu R, Opiyo EA, Dion K, Halyard A, Dunn AW, Aksoy S, Caccone A. Genetic diversity and population structure of the tsetse fly Glossina fuscipes fuscipes (Diptera: Glossinidae) in Northern Uganda: Implications for vector control. PLOS Neglected Tropical Diseases 2017, 11: e0005485. PMID: 28453513, PMCID: PMC5425221, DOI: 10.1371/journal.pntd.0005485.Peer-Reviewed Original ResearchConceptsAnimal African trypanosomiasisGenetic clustersEffective population size estimatesLake KyogaRecent population bottleneckMitochondrial DNA markersDistinct genetic clustersPolymorphic microsatellite lociNile drainagePopulation size estimatesGenetic structurePopulation bottlenecksMain haplogroupsGenetic diversityMicrosatellite lociGenetic assignmentDNA markersPopulation structureMtDNA analysisGenetic admixtureSampling sitesGenetic unitsMost populationsTrypanosoma parasitesHuman African trypanosomiasisPostglacial recolonization shaped the genetic diversity of the winter moth (Operophtera brumata) in Europe
Andersen J, Havill N, Caccone A, Elkinton J. Postglacial recolonization shaped the genetic diversity of the winter moth (Operophtera brumata) in Europe. Ecology And Evolution 2017, 7: 3312-3323. PMID: 28515868, PMCID: PMC5433974, DOI: 10.1002/ece3.2860.Peer-Reviewed Original ResearchDistinct glacial refugiaWinter mothPostglacial recolonizationGene flowGlacial refugiaGenetic diversityOngoing gene flowObserved genetic patternsQuaternary climatic oscillationsLong-distance dispersalResult of dispersalPolymorphic microsatellite lociMajor genetic clustersNorthern puritySouthern richnessSecondary contactHybrid zoneSpecies diversityNorthern populationsSouthern populationsGenetic clustersMicrosatellite lociWestern PalearcticGenetic lineagesGenetic patterns
2015
Mitochondrial DNA sequence divergence and diversity of Glossina fuscipes fuscipes in the Lake Victoria basin of Uganda: implications for control
Kato AB, Hyseni C, Okedi LM, Ouma JO, Aksoy S, Caccone A, Masembe C. Mitochondrial DNA sequence divergence and diversity of Glossina fuscipes fuscipes in the Lake Victoria basin of Uganda: implications for control. Parasites & Vectors 2015, 8: 385. PMID: 26197892, PMCID: PMC4511262, DOI: 10.1186/s13071-015-0984-1.Peer-Reviewed Original ResearchConceptsMicrosatellite loci dataDemographic historyGenetic differentiationMicrosatellite dataLoci dataMitochondrial DNA (mtDNA) cytochrome oxidase II geneGenetic variationMitochondrial DNA sequence divergenceCytochrome oxidase II geneWeak genetic differentiationDNA sequence divergenceLake Victoria basinGenetic structuringGene flowDemographic testsGenetic divergenceMtDNA dataSequence divergenceGenetic diversityGeographic distanceVictoria basinGenetic analysisSampling sitesMutation ratePopulation clusters
2013
Habitat fragmentation and the genetic structure of the Amazonian palm Mauritia flexuosa L.f. (Arecaceae) on the island of Trinidad
Federman S, Hyseni C, Clement W, Oatham M, Caccone A. Habitat fragmentation and the genetic structure of the Amazonian palm Mauritia flexuosa L.f. (Arecaceae) on the island of Trinidad. Conservation Genetics 2013, 15: 355-362. DOI: 10.1007/s10592-013-0543-2.Peer-Reviewed Original ResearchIsland of TrinidadGenetic structureAnimal-mediated seed dispersalSmall-scale spatial genetic structureLand use changeNearest-neighbor matingSpatial genetic structureTemporal genetic patternsMauritia flexuosa L.fHabitat fragmentationSuccessful conservationSeed dispersalAnthropogenic changesScientific ReserveMauritia flexuosaGenetic differentiationManagement planGene flowGenetic patternsStudy sitesGenetic diversitySmall collection areaGenetic exchangeWild populationsPopulation's abilityUrban population genetics of slum‐dwelling rats (Rattus norvegicus) in Salvador, Brazil
Kajdacsi B, Costa F, Hyseni C, Porter F, Brown J, Rodrigues G, Farias H, Reis MG, Childs JE, Ko AI, Caccone A. Urban population genetics of slum‐dwelling rats (Rattus norvegicus) in Salvador, Brazil. Molecular Ecology 2013, 22: 5056-5070. PMID: 24118116, PMCID: PMC3864905, DOI: 10.1111/mec.12455.Peer-Reviewed Original ResearchConceptsGenetic structurePopulation genetic structureComplex genetic structureSmall geographical distancesGene flowGenetic clustersGenetic diversityMicrosatellite lociPopulation geneticsUrban landscapeGenetic variationPopulation ecologyGenetic dataHeterogeneous urban landscapesDistinct sampling sitesGeographical distanceRodent control measuresRodent control strategiesZoonotic pathogensR. norvegicusSampling sitesSpatial connectivityRat populationsOvergrown vegetationBayesian analysisWolbachia association with the tsetse fly, Glossina fuscipes fuscipes, reveals high levels of genetic diversity and complex evolutionary dynamics
Symula RE, Alam U, Brelsfoard C, Wu Y, Echodu R, Okedi LM, Aksoy S, Caccone A. Wolbachia association with the tsetse fly, Glossina fuscipes fuscipes, reveals high levels of genetic diversity and complex evolutionary dynamics. BMC Ecology And Evolution 2013, 13: 31. PMID: 23384159, PMCID: PMC3574847, DOI: 10.1186/1471-2148-13-31.Peer-Reviewed Original ResearchConceptsMtDNA haplotypesDifferent WolbachiaGenetic diversityHost haplotypesSequence diversityMultiple WolbachiaArthropod host reproductionPopulation genetic differentiationComplex evolutionary dynamicsMitochondrial DNA haplotypesAssociation of WolbachiaLow reproductive outputHost population geneticsHost genetic diversityTsetse fliesMulti-locus sequence typingMost WolbachiaHost genetic compositionGenetic differentiationWolbachia evolutionWolbachia associationsHost reproductionDNA haplotypesMtDNA groupsΑ-proteobacteria
2011
Genetic diversity and population structure of Glossina pallidipes in Uganda and western Kenya
Ouma JO, Beadell JS, Hyseni C, Okedi LM, Krafsur ES, Aksoy S, Caccone A. Genetic diversity and population structure of Glossina pallidipes in Uganda and western Kenya. Parasites & Vectors 2011, 4: 122. PMID: 21711519, PMCID: PMC3146932, DOI: 10.1186/1756-3305-4-122.Peer-Reviewed Original ResearchConceptsSex-biased dispersalGenetic diversityPopulation structureSource populationModern gene flowHigh genetic diversityMean genetic distanceAnalysis of mtDNAGene flowNuclear markersBayesian assignmentRelict populationsMtDNA haplotypesGenetic distanceMicrosatellite genotypesG. pallidipesGenetic variationPairwise relatednessMicrosatellite allelesMicrosatellite analysisDispersalSoutheastern UgandaFall populationPopulation comparisonsEffective control efforts