Search results for "Ecological epidemiology"

showing 4 items of 4 documents

Increasing temperatures accentuate negative fitness consequences of a marine parasite

2020

AbstractInfectious diseases are key drivers of wildlife populations and agriculture production, but whether and how climate change will influence disease impacts remains controversial. One of the critical knowledge gaps that prevents resolution of this controversy is a lack of high-quality experimental data, especially in marine systems of significant ecological and economic consequence. Here, we performed a manipulative experiment in which we tested the temperature-dependent effects on Atlantic salmon (Salmo salar) of sea lice (Lepeophtheirus salmonis)—a parasite that can depress the productivity of wild-salmon populations and the profits of the salmon-farming industry. We explored sea-lou…

0106 biological sciencesRange (biology)Salmo salarFisheriesWildlifeClimate changelcsh:MedicinekalatäitBiologymedicine.disease_cause010603 evolutionary biology01 natural sciencesArticleCopepodaFish DiseasesloisetInfestationparasitic diseasesmedicineAnimals14. Life underwaterSalmolcsh:ScienceWildlife conservationEcological epidemiologyMultidisciplinaryEcologyEcology010604 marine biology & hydrobiologyClimate-change ecologylcsh:RTemperatureilmastonmuutoksetbiology.organism_classificationkalatauditProductivity (ecology)13. Climate actionLepeophtheirusecological epidemiologylämpötilalcsh:Qecologyclimate-change ecologyScientific Reports
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Predicting the spatial abundance of Ixodes ricinus ticks in southern Scandinavia using environmental and climatic data

2019

AbstractRecently, focus on tick-borne diseases has increased as ticks and their pathogens have become widespread and represent a health problem in Europe. Understanding the epidemiology of tick-borne infections requires the ability to predict and map tick abundance. We measured Ixodes ricinus abundance at 159 sites in southern Scandinavia from August-September, 2016. We used field data and environmental variables to develop predictive abundance models using machine learning algorithms, and also tested these models on 2017 data. Larva and nymph abundance models had relatively high predictive power (normalized RMSE from 0.65–0.69, R2 from 0.52–0.58) whereas adult tick models performed poorly …

0301 basic medicineMaleIxodes ricinus030231 tropical medicinelcsh:MedicineTickForestsScandinavian and Nordic CountriesPopulation densityModels BiologicalArticle03 medical and health sciences0302 clinical medicineSDG 3 - Good Health and Well-beingAbundance (ecology)Machine learningparasitic diseasesVDP::Matematikk og Naturvitenskap: 400::Basale biofag: 470AnimalsEcosystemNymphlcsh:ScienceWeatherEcosystemEcological epidemiologyPopulation DensityMultidisciplinarybiologyIxodesEcologylcsh:RVegetationbiology.organism_classification030104 developmental biologyLarva/dk/atira/pure/sustainabledevelopmentgoals/good_health_and_well_beingInfectious diseasesIxodeslcsh:QFemaleEnvironmental Monitoring
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Spatial data of Ixodes ricinus instar abundance and nymph pathogen prevalence, Scandinavia, 2016-2017.

2020

ticks carry pathogens that can cause disease in both animals and humans, and there is a need to monitor the distribution and abundance of ticks and the pathogens they carry to pinpoint potential high risk areas for tick-borne disease transmission. In a joint Scandinavian study, we measured Ixodes ricinus instar abundance at 159 sites in southern Scandinavia in August-September, 2016, and collected 29,440 tick nymphs at 50 of these sites. We additionally measured abundance at 30 sites in August-September, 2017. We tested the 29,440 tick nymphs in pools of 10 in a Fluidigm real-time PCR chip to screen for 17 different tick-associated pathogens, 2 pathogen groups and 3 tick species. We present…

Statistics and ProbabilityNymphIxodes ricinus030231 tropical medicineZoologyLibrary and Information SciencesTickScandinavian and Nordic CountriesEducation03 medical and health sciences0302 clinical medicineAbundance (ecology)parasitic diseasesAnimalsNymphlcsh:ScienceAuthor CorrectionPathogenEcosystemEcological epidemiology0303 health sciencesEcologybiologyIxodes030306 microbiologybiology.organism_classificationComputer Science ApplicationsHabitatInstarlcsh:QStatistics Probability and UncertaintyBacterial infectionDisease transmissionEntomologyAnimal DistributionInformation SystemsVDP::Matematikk og Naturvitenskap: 400::Zoologiske og botaniske fag: 480Scientific data
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Commentary: Dogs and the classic route of Guinea Worm transmission: an evaluation of copepod ingestion

2020

Dracunculus medinensis, the causative agent of Guinea worm disease in humans, is being reported with increasing frequency in dogs. However, the route(s) of transmission to dogs is still poorly understood. Classical transmission to humans occurs via drinking water that contains cyclopoid copepods infected with third stage larvae of D. medinensis, but due to the method of dog drinking (lapping) compared to humans (suction and/or retrieval of water into containers), it seems unlikely that dogs would ingest copepods readily through drinking. We exposed lab raised beagles to varying densities of uninfected copepods in 2 liters of water to evaluate the number of copepods ingested during a drinkin…

ParàsitsBehavioural ecologyZoologyBiologyArticlelaw.inventionwater-borne transmissionlawIngestionfood-borne transmissionHelmintsEcological epidemiologylcsh:Veterinary medicineGeneral VeterinaryGeneral Commentaryfungibiology.organism_classificationAnimals domèstics ParàsitsTransmission (mechanics)lcsh:SF600-1100Veterinary Sciencehuman activitiesDracunculus medinensisCopepodGuinea worm eradicationdog dracunculiasisDracunculus medinensis
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