2021
Community context matters for bacteria-phage ecology and evolution
Blazanin M, Turner P. Community context matters for bacteria-phage ecology and evolution. The ISME Journal: Multidisciplinary Journal Of Microbial Ecology 2021, 15: 3119-3128. PMID: 34127803, PMCID: PMC8528888, DOI: 10.1038/s41396-021-01012-x.Peer-Reviewed Original ResearchConceptsBacteria-phage systemsEvolutionary effectsBacteria-phage coevolutionValuable biological modelUnderstanding of bacteriaAdditional bacterial speciesMechanisms of adaptationEcological interactionsPleiotropic consequencesComplex communitiesCoevolutionary dynamicsBacterial speciesEcologyPhagesBacteriaBiological modelsSymbiosesCoevolutionCommunity contextSpeciesEvolutionMultispeciesCommunityAdaptationCommunity presence
2019
Bacteriophage Ecology☆
Burmeister A, Abedon S, Turner P. Bacteriophage Ecology☆. 2019, 434-440. DOI: 10.1016/b978-0-12-809633-8.90677-0.Peer-Reviewed Original ResearchBacteriophage ecologyMeasurements of phagesEcosystem levelEcological organizationTrophic levelsAntagonistic coevolutionIndirect interactionsPhage communitiesFitness consequencesPhage ecologyEcologyBiological feedbackMorphological diversityBacterial hostsHost cellsKey resourcesCommunityPhagesPhage selectionDifferent replication strategiesEcosystemsBacterial resistanceReplication strategyDiversityEnvironment
2009
Bacteriophage Ecology
Abedon S, Duffy S, Turner P. Bacteriophage Ecology. 2009, 42-57. DOI: 10.1016/b978-012373944-5.00022-5.Peer-Reviewed Original ResearchPhage ecologyEcosystem ecologyNutrient cyclingCommunity ecologyAbiotic componentsTerrestrial environmentsPopulation ecologyEcologyBacteriophage ecologyBiological populationsEnvironmental microbiologyPhage interactionsEnergy flowHost bacteriaPhagesBacteriaHabitatsEcologistsCyclingEukaryotesCommunityBacteriophagesImpactInteractionEnvironment
2008
Evolutionary ecology of multiple phage adsorption and infection
Turner P, Duffy S. Evolutionary ecology of multiple phage adsorption and infection. 2008, 195-216. DOI: 10.1017/cbo9780511541483.011.Peer-Reviewed Original ResearchEvolutionary ecologyInterface of ecologyHost cell machineryPhage adsorptionEvolutionary responsesGenetic exchangePhage genesEvolutionary biologyCell machineryPhage populationsIncredible diversityHost competitionSelective pressureEvolutionary standpointUnrelated phagesSuperinfection exclusionIndividual bacteriaEcological effectsSame hostEcologyGenetic variantsHigher phage densitiesPhagesPhage densitiesIndividual phagesPhage evolutionary biology
Duffy S, Turner P. Phage evolutionary biology. 2008, 147-176. DOI: 10.1017/cbo9780511541483.009.Peer-Reviewed Original ResearchEvolutionary biologyEvolutionary biologistsAge of genomicsEcological radiationEvolutionary geneticistsWild populationsMolecular researchersMolecular revolutionPhage biologistsMolecular biologyBiologyMicrobial experimentsEcologyBiologistsMicrobesReductionist approachBiology DepartmentBiological truthGenomicsSignificant discoveriesBiodiversityMicrobiologistsMolecular sideDiscoveryMicrobiology
2006
Viral ecology and the maintenance of novel host use.
Dennehy JJ, Friedenberg NA, Holt RD, Turner PE. Viral ecology and the maintenance of novel host use. The American Naturalist 2006, 167: 429-39. PMID: 16673350, DOI: 10.1086/499381.Peer-Reviewed Original ResearchConceptsNovel hostHost useNative hostNovel host useNew host speciesHost population growthPhage growth rateGenetic adaptationViral ecologyHost speciesSerial passage experimentsPopulation dynamicsHost bacteriaRNA phagesVirus extinctionHost transmissionViral populationsVirus populationsHostPassage experimentsSpeciesGrowth ratePopulation growthAdaptationEcology