[1] Lindsay SW,Birley MH. Climate change and malaria transmission [J]. Ann Trop Med Parasitol,1996,90(6):573-588.
[2] Soverow JE,Wellenius GA,Fisman DN,et al. Infectious diseasein a warming world:how weather influenced West Nile virus in theUnited States(2001-2005) [J]. Environ Health Perspect,2009,117(7):1049-1052.
[3] Brault AC. Changing patterns of West Nile virus transmission:altered vector competence and host susceptibility [J]. Vet Res,2009,40(2):43.
[4] Githeko AK,Lindsay SW,Confalonieri UE,et al. Climate changeand vector-borne diseases:a regional analysis [J]. Bull WorldHealth Organ,2000,78(9):1136-1147.
[5] Trent DW. Genetic variation among dengue 2 viruses of differentgeographic origin [J]. Virology,1983,128:271-284.
[6] Tabachnick WJ. Challenges in predicting climate and environmentaleffects on vector-borne disease episystems in a changing world [J]. JExp Biol,2010,213(6):946-954.
[7] Shope R. Global climate change and infectious diseases [J]. EnvironHealth Perspect,1991,96:171-174.
[8] WHO. Bulletin of the World Health Organization:Mosquito wars [EB/OL]. http://www.scielosp.org/,Print version ISSN 0042-9686.
[9] O'Meara GF,Evans LF Jr,Gettman AD,et al. Spread of Aedesalbopictus and decline of Ae. aegypti(Diptera:Culicidae)in Florida [J]. J Med Entomol,1995,32(4):554-562.
[10] Gubler DJ,Reiter P,Ebi KL,et al. Climate variability and changein the United States:potential impacts on vector- and rodent-bornediseases [J]. Environ Health Perspect,2001,109 Suppl 2:S223-233.
[11] Jetten TH,Focks DA. Potential changes in the distribution ofdengue transmission under climate warming [J]. Am J Trop MedHyg,1997,57(3):285-297.
[12] Vasconcelos PFC,Rosa A,Degallier N,et al. Clinical andecoepidemiological situation of human arboviruses in BrazilianAmazonia [J]. J Braz Assoc Adv Sci,1992,44(2-3):117-124.
[13] Patz JA,Martens WJM,Focks DA,et al. Dengue fever epidemicpotential as projected by general circulation models of globalclimate change [J]. Environ Health Perspect,1998,106(3):147-153.
[14] Watts DM,Burke DS,Harrison BA,et al. Effect of temperature onthe vector efficiency of Aedes aegypti for Dengue 2 virus [J]. Am JTrop Med Hyg,1987,36(1):143-152.
[15] Reeves WC,Hardy JL,Reisen WK,et al. Potential effect of globalwarming on mosquito-borne arboviruses [J]. J Med Entomol,1994,31(3):323-332.
[16] Reisen WK,Meyer RP,Presser SB,et al. Effect of temperature onthe transmission of western equine encephalomyelitis and St. Louisencephalitis viruses by Culex tarsalis(Diptera:Culicidae) [J]. JMed Entomol,1993,30(1):151-160.
[17] Shope RE. Arbovirus-related encephalitis [J]. Yale J Biol Med,1980,53(1):93-99.
[18] Monath TP,Tsai TF. St. Louis encephalitis:lessons from the lastdecade [J]. Am J Trop Med Hyg,1987,37(3 Suppl):S40-59.
[19] Sellers RF,Maarouf AR. Trajectory analysis of winds and easternequine encephalitis in USA,1980-05 [J]. Epidemiol Infect,1990,104(2):329-343.
[20] Sutherst RW. Implications of global change and climate variabilityfor vector-borne diseases: generic approaches to impact assessments [J]. Int J Parasitol,1998,28(6):935-945.
[21] Wang GM,Minnis RB,Belant JL,et al. Dry weather inducesoutbreaks of human West Nile virus infections [J]. BMC Infect Dis,2010,10(1):38. [Epub ahead of print]
[22] Miramontes R Jr,Lafferty WE,Lind BK,et al. Is agriculturalactivity linked to the incidence of human West Nile virus? [J]. Am JPrev Med,2006,30(2):160-163.
[23] Chase JM,Knight TM. Drought-induced mosquito outbreaks inwetlands [J]. Ecology Letters,2003,6(11):1017-1024.
[24] Solomon T. Flavivirus encephalitis [J]. N Engl J Med,2004,351(4):370-378.
[25] Weaver SC,Reisen WK. Present and future arboviral threats [J].Antiviral Res,2010,85(2):328-345.
[26] Konno J,Endo K,Agatsuma H,et al. Cyclic outbreaks of Japaneseencephalitis among pigs and humans [J]. Am J Epidemiol,1966,84(2):292-300.
[27] Bi P,Zhang Y,Parton KA. Weather variables and Japaneseencephalitis in the metropolitan area of Jinan city,China [J]. JInfect,2007,55(6):551-556.
[28] Hsu SM,Yen AM,Chen TH. The impact of climate on Japaneseencephalitis [J]. Epidemiol Infect,2008,136(7):980-987.
[29] Peiris JS,Amerasinghe FP,Amerasinghe PH,et al. Japaneseencephalitis in Sri Lanka-the study of an epidemic: vectorincrimination,porcine infection and human disease [J]. Trans RSoc Trop Med Hyg,1992,86(3):307-313.
[30] WHO. 什么是基孔肯雅热? [EB/OL].(2007-09-11) [2011-01-20].http://www.who.int/features/qa/63/zh/index.html.
[31] Dujardin JC,Campino L,Ca?avate C,et al. Spread of vector-bornediseases and neglect of leishmaniasis,Europe [J]. Emerg Infect Dis,2008,14(7):1013-1018.
[32] Greer A,Ng V,Fisman D. Climate change and infectious diseasesin North America:the road ahead [J]. CMAJ,2008,178(6):715-722.
[33] Rezza G. Re-emergence of Chikungunya and other scourges:therole of globalization and climate change [J]. Ann Ist Super Sanita,2008,44(4):315-318.
[34] Martin V,Chevalier V,Ceccato P,et al. The impact of climatechange on the epidemiology and control of Rift Valley fever [J]. RevSci Tech,2008,27(2):413-426.
[35] Patz JA,Reisen WK. Immunology,climate change and vector-bornediseases [J]. Trends Immunol,2001,22(4):171-172.
|