Regional and seasonal response of a West Nile virus vector to climate change
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Climate change projections of West Nile virus infections in Europe: implications for blood safety practicesAdvancing the framework for considering the effects of climate change on worker safety and healthClimate Change Influences on the Global Potential Distribution of the Mosquito Culex quinquefasciatus, Vector of West Nile Virus and Lymphatic FilariasisClimate change and the epidemiology of selected tick-borne and mosquito-borne diseases: update from the International Society of Dermatology Climate Change Task Force.Modelling Anopheles gambiae s.s. Population Dynamics with Temperature- and Age-Dependent Survival.Modeling the distribution of the West Nile and Rift Valley Fever vector Culex pipiens in arid and semi-arid regions of the Middle East and North Africa.Can weather generation capture precipitation patterns across different climates, spatial scales and under data scarcity?Regional variation of climatic influences on West Nile virus outbreaks in the United StatesIdentifying the environmental conditions favouring West Nile Virus outbreaks in EuropePerceptual influences on self-protective behavior for West Nile virus, a survey in Colorado, USA.Global mapping of highly pathogenic avian influenza H5N1 and H5Nx clade 2.3.4.4 viruses with spatial cross-validationA review of the epidemiological and clinical aspects of West Nile virus.Infection control and biosecurity in equine disease control.Factors That Influence the Transmission of West Nile Virus in Florida.Evidence of exposure of laughing doves (Spilopelia senegalensis) to West Nile and Usutu viruses in southern Tunisian oases.Aedes aegypti (Diptera: Culicidae) Abundance Model Improved With Relative Humidity and Precipitation-Driven Egg Hatching.Climatic, ecological, and socioeconomic factors associated with West Nile virus incidence in Atlanta, Georgia, U.S.A.Quantifying the Risk of Introduction of West Nile Virus into Great Britain by Migrating Passerine Birds.Potential impact of climate change on emerging vector-borne and other infections in the UK.Use of temperature to improve West Nile virus forecasts.Drought and immunity determine the intensity of West Nile virus epidemics and climate change impacts.Modeling vector-borne disease risk in migratory animals under climate change.Locomotor activity in males of Aedes aegypti can shift in response to females' presence.The Immune Responses of the Animal Hosts of West Nile Virus: A Comparison of Insects, Birds, and Mammals.
P2860
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P2860
Regional and seasonal response of a West Nile virus vector to climate change
description
2013 nî lūn-bûn
@nan
2013 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2013 թվականի սեպտեմբերին հրատարակված գիտական հոդված
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2013年の論文
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2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
name
Regional and seasonal response of a West Nile virus vector to climate change
@ast
Regional and seasonal response of a West Nile virus vector to climate change
@en
type
label
Regional and seasonal response of a West Nile virus vector to climate change
@ast
Regional and seasonal response of a West Nile virus vector to climate change
@en
prefLabel
Regional and seasonal response of a West Nile virus vector to climate change
@ast
Regional and seasonal response of a West Nile virus vector to climate change
@en
P2860
P921
P356
P1476
Regional and seasonal response of a West Nile virus vector to climate change
@en
P2093
Andrew C Comrie
Cory W Morin
P2860
P304
15620-15625
P356
10.1073/PNAS.1307135110
P407
P577
2013-09-09T00:00:00Z