Search results for "INTERFERENCE COMPETITION"

showing 2 items of 2 documents

Effect of resource availability on evolution of virulence and competition in an environmentally transmitted pathogen

2018

Understanding ecological and epidemiological factors driving pathogen evolution in contemporary time scales is a major challenge in modern health management. Pathogens that replicate outside the hosts are subject to selection imposed by ambient environmental conditions. Increased nutrient levels could increase pathogen virulence by pre-adapting for efficient use of resources upon contact to a nutrient rich host or by favouring transmission of fast-growing virulent strains. We measured changes in virulence and competition in Flavobacterium columnare, a bacterial pathogen of freshwater fish, under high and low nutrient levels. To test competition between strains in genotype mixtures, we devel…

0301 basic medicineAC LYASE ACTIVITYfish diseaseFLEXIBACTER-COLUMNARISDIVERSITYAquacultureApplied Microbiology and BiotechnologybakteeritFish DiseasesAquacultureRAPID EVOLUTIONPathogen1183 Plant biology microbiology virologymedia_commonresource competitionEcologybiologyVirulenceFishesvirulenssibacteriumBiological EvolutionADAPTIVE EVOLUTIONqPCRtaudinaiheuttajatESCHERICHIA-COLIFISH FARMSTRADE-OFFGenotypeympäristötekijätmedia_common.quotation_subject030106 microbiologyZoologyVirulenceMicrobiologyFlavobacteriumCompetition (biology)Nutrient density03 medical and health sciencesFlavobacterium columnareAnimalsravinnepitoisuusHost (biology)business.industryta1183FLAVOBACTERIUM-COLUMNAREIN-VITRO PASSAGESbiology.organism_classificationkalatauditinterference competitionFlavobacterium columnareta1181businessBacteria
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Effects of density, species interactions, and environmental stochasticity on the dynamics of British bird communities

2022

Our knowledge of the factors affecting species abundances is mainly based on time-series analyses of a few well-studied species at single or few localities, but we know little about whether results from such analyses can be extrapolated to the community level. We apply a joint species distribution model to long-term time-series data on British bird communities to examine the relative contribution of intra- and interspecific density dependence at different spatial scales, as well as the influence of environmental stochasticity, to spatiotemporal interspecific variation in abundance. Intraspecific density dependence has the major structuring effect on these bird communities. In addition, envi…

aikasarjatPopulation DynamicsNEST SITESBirdsCOEXISTENCEDEPENDENCEmulti-speciesINTERFERENCE COMPETITIONAnimalsEcosystemEcology Evolution Behavior and SystematicsPOPULATIONspatiotemporalstokastiset prosessitspecies interactionsCLIMATE-CHANGEtime-serieseliöyhteisötEXPLOITATION COMPETITIONEXTINCTION RISKpopulaatiodynamiikkajoint species distribution modelcommunity dynamicsdensity dependence1181 Ecology evolutionary biologylinnutkannanvaihtelutABUNDANCEenvironmental stochasticityympäristönmuutokset
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