2022
Seasonal Dynamics of Mosquito-Borne Viruses in the Southwestern Florida Everglades, 2016, 2017.
Anderson J, Fish D, Armstrong P, Misencik M, Bransfield A, Ferrandino F, Andreadis T, Stenglein M, Kapuscinski M. Seasonal Dynamics of Mosquito-Borne Viruses in the Southwestern Florida Everglades, 2016, 2017. American Journal Of Tropical Medicine And Hygiene 2022, 106: 610-622. PMID: 35008051, PMCID: PMC8832897, DOI: 10.4269/ajtmh.20-1547.Peer-Reviewed Original ResearchConceptsSpecies of virusesSpecies of mosquitoesGumbo LimboShotgun metagenomic sequencingShark RiverSpecies complexWest Nile virusHardwood hammocksEverglades virusNotable speciesMosquito-Borne VirusesMetagenomic sequencingAnopheles speciesNile virusSeasonal dynamicsSpeciesFlorida EvergladesTensaw virusCulex nigripalpusEvergladesPools of CxCypress swampsNigripalpusMosquitoesAnopheles crucians
2019
West Nile Virus Mosquito Vectors in North America
Rochlin I, Faraji A, Healy K, Andreadis T. West Nile Virus Mosquito Vectors in North America. Journal Of Medical Entomology 2019, 56: 1475-1490. PMID: 31549725, DOI: 10.1093/jme/tjz146.Peer-Reviewed Original Research
2018
Seasonal Distribution, Blood-Feeding Habits, and Viruses of Mosquitoes in an Open-Faced Quarry in Connecticut, 2010 and 2011
Anderson J, Armstrong P, Misencik M, Bransfield A, Andreadis T, Molaei G. Seasonal Distribution, Blood-Feeding Habits, and Viruses of Mosquitoes in an Open-Faced Quarry in Connecticut, 2010 and 2011. Journal Of The American Mosquito Control Association 2018, 34: 1-10. PMID: 31442119, DOI: 10.2987/17-6707.1.Peer-Reviewed Original ResearchConceptsSpecies of mosquitoesBlood-feeding habitMammalian hostsCommon mammalian hostSpecies of birdsDifferent mammalian hostsBlood-fed mosquitoesSource of bloodUnique habitatAbundant speciesSeasonal abundanceMosquito speciesSpeciesMosquito-borne virusJamestown Canyon virusCache Valley virusWest Nile virusMosquitoesBirdsMid-JuneHostNile virusSeasonal distributionVirusPasseriformes
2001
Characterization of West Nile Virus from Five Species of Mosquitoes, Nine Species of Birds, and One Mammal
ANDERSON J, VOSSBRINCK C, ANDREADIS T, ITON A, BECKWITH W, MAYO D. Characterization of West Nile Virus from Five Species of Mosquitoes, Nine Species of Birds, and One Mammal. Annals Of The New York Academy Of Sciences 2001, 951: 328-331. PMID: 11797790, DOI: 10.1111/j.1749-6632.2001.tb02709.x.Peer-Reviewed Original ResearchDiscovery, Distribution, and Abundance of the Newly Introduced Mosquito Ochlerotatus japonicus (Diptera: Culicidae) in Connecticut, USA
Andreadis T, Anderson J, Munstermann L, Wolfe R, Florin D. Discovery, Distribution, and Abundance of the Newly Introduced Mosquito Ochlerotatus japonicus (Diptera: Culicidae) in Connecticut, USA. Journal Of Medical Entomology 2001, 38: 774-779. PMID: 11761373, DOI: 10.1603/0022-2585-38.6.774.Peer-Reviewed Original ResearchConceptsRock pool habitatsArtificial container habitatsField-collected specimensTree holesHuman bait methodContainer habitatsRain poolsBait methodRock holesJaponicusSod grassBird bathsOchlerotatus japonicusHabitatsAdult femalesWest Nile virusLight trapsTire casingsAbundanceNile virusStream bedWide surveyAlgaeWestern HemisphereLarvaeA phylogenetic approach to following West Nile virus in Connecticut
Anderson J, Vossbrinck C, Andreadis T, Iton A, Beckwith W, Mayo D. A phylogenetic approach to following West Nile virus in Connecticut. Proceedings Of The National Academy Of Sciences Of The United States Of America 2001, 98: 12885-12889. PMID: 11606791, PMCID: PMC60794, DOI: 10.1073/pnas.241472398.Peer-Reviewed Original ResearchConceptsSpecies of birdsAmino acid changesSpecies of mosquitoesWest Nile virusPhylogenetic approachMembrane proteinsNucleotide sequenceAvian hostsPosition 205Coding regionsGenetic changesAcid changesEntire coding regionsIndividual birdsViral genomeNile virusPosition 858Envelope proteinMutationsStriped skunksBirdsSpeciesWN virusProteinVirus isolatesWest Nile Virus Surveillance in Connecticut in 2000: An Intense Epizootic without High Risk for Severe Human Disease - Volume 7, Number 4—August 2001 - Emerging Infectious Diseases journal - CDC
Hadler J, Nelson R, McCarthy T, Andreadis T, Lis M, French R, Beckwith W, Mayo D, Archambault G, Cartter M. West Nile Virus Surveillance in Connecticut in 2000: An Intense Epizootic without High Risk for Severe Human Disease - Volume 7, Number 4—August 2001 - Emerging Infectious Diseases journal - CDC. Emerging Infectious Diseases 2001, 7: 636-642. PMID: 11585525, PMCID: PMC2631747, DOI: 10.3201/eid0704.017406.Peer-Reviewed Original ResearchConceptsNeurologic illnessSeroprevalence surveyInfectious Diseases journal - CDCWN virusDead crowsWN virus infectionWest Nile virus surveillanceWest Nile virusProspective surveillanceSymptomatic personsVirus infectionHigh riskSurveillance findingsSevere human diseasesMosquito poolsNile virusVirus surveillanceIllnessVirusHospitalized humansAdult mosquito managementHuman diseasesSurveillanceFairfield CountyPersonsMosquito surveillance for West Nile virus in Connecticut, 2000: isolation from Culex pipiens, Cx. restuans, Cx. salinarius, and Culiseta melanura.
Andreadis T, Anderson J, Vossbrinck C. Mosquito surveillance for West Nile virus in Connecticut, 2000: isolation from Culex pipiens, Cx. restuans, Cx. salinarius, and Culiseta melanura. Emerging Infectious Diseases 2001, 7: 670-674. DOI: 10.3201/eid0704.010413.Peer-Reviewed Original ResearchWest Nile virus surveillance in Connecticut in 2000: an intense epizootic without high risk for severe human disease.
Hadler J, Nelson R, McCarthy T, Andreadis T, Lis M, French R, Beckwith W, Mayo D, Archambault G, Cartter M. West Nile virus surveillance in Connecticut in 2000: an intense epizootic without high risk for severe human disease. Emerging Infectious Diseases 2001, 7: 636-642. DOI: 10.3201/eid0704.010406.Peer-Reviewed Original ResearchNeurologic illnessSeroprevalence surveySevere human diseasesWN virusDead crowsWN virus infectionWest Nile virus surveillanceWest Nile virusProspective surveillanceSymptomatic personsVirus infectionHigh riskHuman diseasesSurveillance findingsMosquito poolsNile virusVirus surveillanceIllnessVirusDiseaseHospitalized humansAdult mosquito managementSurveillanceFairfield CountyPersons
2000
Recovery and Identification of West Nile Virus from a Hawk in Winter
Garmendia A, Van Kruiningen H, French R, Anderson J, Andreadis T, Kumar A, West A. Recovery and Identification of West Nile Virus from a Hawk in Winter. Journal Of Clinical Microbiology 2000, 38: 3110-3111. PMID: 10921991, PMCID: PMC87202, DOI: 10.1128/jcm.38.8.3110-3111.2000.Peer-Reviewed Original ResearchConceptsWest Nile virusNile virusWest Nile virus antigenVero cellsRoutes of transmissionDemonstration of infectionEnzyme-linked immunosorbentFluorescent antibody testingAntibody testingInfected Vero cellsGlial cellsVirus antigenBrain homogenatesCytopathic changesPyknotic nucleiMultiple fociVirusViral particlesNS3 geneBrainMosquito seasonCellsRed-tailed hawksWestchester CountyCell lysates
1999
Isolation of West Nile Virus from Mosquitoes, Crows, and a Cooper's Hawk in Connecticut
Anderson J, Andreadis T, Vossbrinck C, Tirrell S, Wakem E, French R, Garmendia A, Van Kruiningen H. Isolation of West Nile Virus from Mosquitoes, Crows, and a Cooper's Hawk in Connecticut. Science 1999, 286: 2331-2333. PMID: 10600741, DOI: 10.1126/science.286.5448.2331.Peer-Reviewed Original Research