×

Serwis używa ciasteczek ("cookies") i podobnych technologii m.in. do utrzymania sesji i w celach statystycznych. • Ustawienia przeglądarki dotyczące obsługi ciasteczek można swobodnie zmieniać. • Całkowite zablokowanie zapisu ciasteczek na dysku komputera uniemożliwi logowanie się do serwisu. • Więcej informacji: Polityka cookies OPI PIB

×

Regulamin korzystania z serwisu PBN znajduję się pod adresem: Regulamin serwisu

Szukaj wśród:
Dane publikacji

Anopheles Vectors in Mainland China While Approaching Malaria Elimination.

Artykuł
Czasopismo : TRENDS IN PARASITOLOGY   Tom: S1471-4922, Zeszyt: 17, Strony: 30161-7
Shaosen Zhang [1] , [2] , [3] , [4] , Shaohua Guo [1] , [5] , Xinyu Feng [1] , Aneta Afelt [6] , Roger Frutos [2] , [3] , Shuisen Zhou [1] , Sylvie Manguin [4]
  • [1]
    Université de Montpellier, IES-Institut d’Electronique et des Systèmes, UMR5214, CNRS-UM, 860 rue de Saint-Priest, Bât 5, 34095 Montpellier, France
  • [2]
    National InstituteofParasitic Diseases, ChineseCentreforDisease Control andPrevention;Key Laboratory ofParasiteandVector Biology, MOH;WHOCollaborating Centre forTropicalDiseases,National Centre forInternationalResearchon Tropical Diseases,Shanghai,China
  • [3]
    Cirad, UMR 17, Intertryp, Campus international de Baillarguet, 34398 Montpellier, Cedex 5, France
  • [4]
    Institut de Recherche pour le Développement (IRD France), LIPMC, UMR-MD 3, Faculté de Pharmacie, 34093 Montpellier, France
  • [5]
    Jiading District Center for Disease Control and Prevention, Shanghai, China
  • [6]
2017-07-19 angielski
Identyfikatory
-
Cechy publikacji
-
  • Oryginalny artykuł naukowy
  • Zrecenzowana naukowo
Dyscypliny naukowe
-
Biologia medyczna , Geografia , Mikrobiologia , Nauki o zdrowiu
Słowa kluczowe
-
Abstrakty ( angielski )
-
China isapproachingmalariaelimination;however,well-documentedinforma- tion onmalariavectorsisstillmissing,whichcouldhinderthedevelopmentof appropriate surveillancestrategiesandWHOcertification. Thisreviewsumma- rizes thenationwidedistributionofmalariavectors,theirbionomiccharacter- istics, controlmeasures,andrelatedstudies.Afterseveralyearsofeffort,the area ofdistributionoftheprincipalmalariavectorswasreduced,inparticular for Anopheles lesteri (synonym: An. anthropophagus) and Anopheles dirus s.l., which nearlydisappearedfromtheirformerendemicregions. Anopheles sinen- sis is becomingthepredominantspeciesinsouthwesternChina.Thebionomic characteristics ofthesespecieshavechanged,andresistancetoinsecticides was reported.Thereisaneedtoupdatesurveillancetoolsandinvestigatethe role ofsecondaryvectorsinmalariatransmission.
Bibliografia
-
  1. 1. Marsh, K.(2010)Researchprioritiesformalariaelimination.
  2. Lancet 376, 1626–1627
  3. 2. The malERAConsultativeGrouponVectorControl(2011)A
  4. research agendaformalariaeradication:vectorcontrol. PLoS
  5. Med. 8, e1000401
  6. 3. Mnzava, A.P. et al. (2014) Malariavectorcontrolatacrossroads:
  7. public healthentomologyandthedrivetoelimination. Trans. R.
  8. Soc. Trop.Med.Hyg. 108, 550–554
  9. 4. Yin, J.H. et al. (2014) Historicalpatternsofmalariatransmission
  10. in China. Adv. Parasitol. 86, 1–19
  11. 5. Tang, L.(2000)ProgressinmalariacontrolinChina. Chin. Med.
  12. J. (Engl.) 113, 89–92
  13. 6. Kramer, R. et al. (2014) Preface.Malariacontrolandelimination
  14. programme inthePeople’s RepublicofChina. Adv. Parasitol.
  15. 86, xvii–xxi
  16. 7. Zhang, H.W. et al. (2014) Preparationofmalariaresurgencein
  17. China: casestudyofvivaxmalariare-emergenceandoutbreak
  18. in Huang-HuaiPlainin2006. Adv. Parasitol. 86, 205–230
  19. 8. Lu, G. et al. (2016) Challengesinandlessonslearnedduringthe
  20. implementation ofthe1-3-7malariasurveillanceandresponse
  21. strategy inChina:aqualitativestudy. Infect. Dis.Poverty 5, 94
  22. 9. Newby, G. et al. (2016) Thepathtoeradication:aprogress
  23. report onthemalaria-eliminatingcountries. Lancet 387, 1775–
  24. 1784
  25. 10. Pan, B.(2003)ThepredominantmalariavectorsinChina,their
  26. morphological andecologicalcharacters,rolestomalariatrans-
  27. mission. J. Trop.Med. 3, 3(inChinese)
  28. 11. Zhou, Z.J.(1991) Study ofMalariaControlandPreventionin
  29. China, People’s HygienePublishingHouse(inChinese)
  30. 12. Lu, B.L.(1997) Fauna Sinaca,Insecta,Diptera:CulicidaeII,
  31. Science Press(inChinese)
  32. 13. Dong, X.S.(2010) Fauna SinacaofYunnanprovince,P.R.China,
  33. Yunnan ScienceandTechnologyPress(inChinese)
  34. 14. Qu, F.Y.andZhu,H.M.(2008)Onanewchecklistofthe
  35. anopheline mosquitoesinChinawithrectification forsome
  36. specific names. Zhongguo JiShengChongXueYuJiSheng
  37. Chong BingZaZhi 26, 210–216 (inChinese)
  38. 15. Feng, X.Y. et al. (2014) Analysisofnationalmalariasurveillancein
  39. China in2013. J. Pathog.Biol. 9, 1117–1120 (inChinese)
  40. 16. Wu, S. et al. (2009) Anopheles pseudowillmori is thepredomi-
  41. nant malariavectorinMotuoCounty,TibetAutonomousRegion.
  42. Malar. J. 8, 46
  43. 17. Disease PreventionandControlBureauinMinistryofHealth
  44. (2007) Handbook forMalariaControlandPrevention, People’s
  45. Hygiene PublishingHouse(inChinese)
  46. 18. Zeng, L.H. et al. (2015) Analysisofthesurveillancedataabout
  47. malaria vectorinHainanfrom2005–2014. China Trop.Med. 15,
  48. 1436–1440 (inChinese)
  49. 19. Li, K.J. et al. (2015) Impactofmalariavectorcontrolinterven-
  50. tions atthebeginningofamalariaeliminationstageinadomi-
  51. nant areaof Anopheles anthropophagus, HubeiProvince,
  52. China. J. Parasitol. 101, 598–602
  53. 20. Li, S.G. et al. (2014) Surveyof Anopheles anthropophagus in
  54. Nanbeigou areaofWenchangcity,HainanProvince. China
  55. Trop. Med. 14, 362–364 (inChinese)
  56. 21. Xu, B.H. et al. (2009) Evaluationandsurveillanceontheeffectof
  57. control forthe Anopheles anthropophagus in Fujianprovince.
  58. Chin. J.Zoonoses 25, 5(inChinese)
  59. 22. Li, H.X.andChen,G.W.(2009)Studyonmalariacontrolstrate-
  60. gies inthemalariaepidemicareastransmittedby Anopheles
  61. anthropophagus in Yunnanprovince. Chin. J.VectorBiol.Con-
  62. trol 20, 569–572 (inChinese)
  63. 23. Zou, C.Y. et al. (2012) Studyonthegeographicaldistributionof
  64. population densityof Anopheles minimus and molecularidenti-
  65. fication ofthespeciesinGuangxi,China. Chin. J.VectorBiol.
  66. Control 23, 101–104 (inChinese)
  67. 24. Zhou, X.J. et al. (2010) Distributionof Anopheles minimus and its
  68. role inmalariatransmissionintheKachinRegionofMyanmar. J.
  69. Pathogen Biol. 5, 578–581 (inChinese)
  70. 25. Lin, M.H. et al. (2009) Areviewandanalysisoffocusoutbreakof
  71. malaria inareaswith Anopheles minimus as vectorinHainan
  72. Island. China Trop.Med. 9, 805–807 (inChinese)
  73. 26. Yu, G. et al. (2013) TheAnophelescommunityandtheroleof
  74. Anopheles minimus on malariatransmissionontheChina–
  75. Myanmar border. Parasites Vectors 6, 264
  76. 27. Hu, T. et al. (2016) ShrinkingthemalariamapinChina:measur-
  77. ing theprogressoftheNationalMalariaEliminationProgramme.
  78. Infect. Dis.Poverty 5, 52
  79. 28. Qu, F.Y.(2008)Historicalreviewontheclassification andrectification
  80. of Anopheles anthropophagus to An. lesteri inChina.
  81. Zhongguo JiShengChongXueYuJiShengChongBingZaZhi
  82. 26, 234–235 (inChinese)
  83. 29. Tang, L.H.andGao,Q.(2013) Malaria ControlandEliminationin
  84. China, Shanghai Scientific &TechnicalPublishers(inChinese)
  85. 30. Ma, A.M. et al. (2014) Predictionofpotentialdistributionof
  86. Anopheles sinensis in ChinabasedonMaxEnt. Chin. J.Vector
  87. Biol. Control 25, 6(inChinese)
  88. 31. Ren, Z. et al. (2015) Spatial-temporalvariationandprimary
  89. ecological driversof Anopheles sinensis human bitingratesin
  90. malaria epidemic-proneregionsofChina. PLoS One 10,
  91. e0116932
  92. 32. Ren, Z. et al. (2016) Predictingmalariavectordistributionunder
  93. climate changescenariosinChina:Challengesformalariaelimi-
  94. nation. Sci. Rep. 6, 20604
  95. 33. Tang, L.H.(2008) Biology andVectorControlofAnopheles
  96. anthropophagus inChina, Shanghai ScienceandTechnology
  97. Publisher (inChinese)
  98. 34. Xu, L.S. et al. (2004) Surveillanceonmalariainresidualregionof
  99. Anopheles anthropophagus in Fujianprovince,China. Zhongguo
  100. JiShengChongXueYuJiShengChongBingZaZhi 17, 28–
  101. 30 (inChina)
  102. 35. Jiang, S.G. et al. (2002) Long-termandshort-termeffectevalu-
  103. ation ofmalariacontrolinpilotareaswith Anopheles anthro-
  104. pophagus distribution inChongqing,China. J. Pract.Parasit.
  105. Dis. 10, 3(inChinese)
  106. 36. Chen, G.W. et al. (2004) Updatedinformationaboutthedistri-
  107. bution of Anopheles anthropophagus in Yunnanprovinceafter
  108. several years’ implementation ofvectorcontrolinterventions.
  109. Zhongguo JiShengChongXueYuJiShengChongBingZaZhi
  110. 17, 2(inChinese)
  111. 37. Sallum, M.A. et al. (2005) Sixnewspeciesofthe Anopheles
  112. leucosphyrus group, reinterpretationof An. elegans and vector
  113. implications. Med. Vet.Entomol. 19, 158–199
  114. 38. Xu, J.N.andQu,F.Y.(1997)RibosomalDNAdifferencebetween
  115. species AandDofthe Anopheles dims complex ofmosquitoes
  116. from China. Med. Vet.Entomol. 11, 134–138
  117. 39. Obsomer, V. et al. (2007) The Anopheles dirus complex: spatial
  118. distribution andenvironmentaldrivers. Malar. J. 6, 26
  119. 40. Sinka, M.E. et al. (2011) Thedominant Anopheles vectors of
  120. human malariaintheAsia-Pacific region:occurrencedata,
  121. distribution mapsandbionomicprecis. Parasites Vectors 4, 89
  122. 41. Chen, B. et al. (2011) MitochondrialDNAvariationinthemalaria
  123. vector Anopheles minimus across China,ThailandandVietnam:
  124. evolutionary hypothesis,populationstructureandpopulation
  125. history. Heredity 106, 241–252 (Edinb.)
  126. 42. Chen, B. et al. (2002) Molecularandmorphologicalstudieson
  127. the Anopheles minimus group ofmosquitoesinsouthernChina:
  128. taxonomic review,distributionandmalariavectorstatus. Med.
  129. Vet. Entomol. 16, 253–265
  130. 43. Zheng, B. et al. (2005) Comparativestudyontherestinghabitof
  131. Anopheles minimus A and Anopheles minimus C inYunnan
  132. Province. Zhongguo JiShengChongXueYuJiShengChong
  133. Bing ZaZhi 23, 146–149 (inChinese)
  134. 44. Zheng, B. et al. (2005) ComparisonofPCRandisoenzyme
  135. analysis inidentification of Anopheles minimus A andC. Zhongguo
  136. JiShengChongXueYuJiShengChongBingZaZhi 23,
  137. 78–81 (inChinese)
  138. 45. Zheng, B. et al. (2006) Studyontheseasonalabundanceand
  139. blood preferenceof An. minimus A and An. minimus C inYunnan
  140. Province. Int. J.Med.Parasit.Dis. 33, 171–173
  141. 46. Wang, X.Z. et al. (2007) Studyontherelationshipbetweenthe
  142. environment changingwiththehouseinvadingof Anopheles
  143. minimus. Acta Parasitol.Med.Entomol.Sinica 14, 158–161
  144. (in Chinese)
  145. 47. Dev, V.andManguin,S.(2016)Biology,distributionandcontrol
  146. of Anopheles (Cellia) minimus in thecontextofmalariatrans-
  147. mission innortheasternIndia. Parasites Vectors 9, 585
  148. 48. Manguin, S. et al. (2008) Bionomics,taxonomy,anddistribution
  149. of themajormalariavectortaxaof Anopheles subgenus Cellia in
  150. Southeast Asia:anupdatedreview. Infect. Genet.Evol. 8, 489–
  151. 503
  152. 49. Trung, H.D. et al. (2004) Malariatransmissionandmajormalaria
  153. vectors indifferentgeographicalareasofSoutheastAsia. Trop.
  154. Med. Int.Health 9, 230–237
  155. 50. Dong, X.S.(2000)Themalariavectorsandtheirecologyin
  156. Yunnan Province. Chin. J.Parasit.Dis.Control 13, 4(inChinese)
  157. 51. Pan, J.Y. et al. (2008) Investigationonmalariatransmission
  158. vectors inMotuoCounty,TibetAutonomousRegion. Zhongguo
  159. Ji ShengChongXueYuJiShengChongBingZaZhi 26, 281–
  160. 285 (inChinese)
  161. 52. Zhao, L.L. et al. (2010) Preliminaryobservationsonmosquito
  162. species compositioninKachinRegionofNorthernBurma. Chin.
  163. J. VectorBiol.Control 21, 4(inChinese)
  164. 53. Shi, W.Q. et al. (2011) Aninvestigationonmalariavectorsin
  165. western partofChina–Myanmar border. Zhongguo JiSheng
  166. Chong XueYuJiShengChongBingZaZhi 29, 134–137
  167. (in Chinese)
  168. 54. Yang, W. et al. (2003) Surveyonrestingandsuckinghabitusof
  169. Anopheles anthropophagus and Anopheles sinensis in Sichuan.
  170. Chin. J.Parasit.Dis.Control 16, 278–280 (inChinese)
  171. 55. Zhang, C.X. et al. (2014) Bloodmealpreferenceandpre-and
  172. post-meal activityof Anopheles sinensis. J. PathogenBiol. 9,
  173. 216–219 (inChinese)
  174. 56. Wang, H.F. et al. (2014) Experimentalobservationonhost
  175. preference of Anopheles sinensis. Zhongguo JiShengChong
  176. Xue YuJiShengChongBingZaZhi 32, 459–461 (inChinese)
  177. 57. Pan, J.Y. et al. (2012) Vectorcapacityof Anopheles sinensis in
  178. malaria outbreakareasofcentralChina. Parasites Vectors 5,
  179. 136
  180. 58. Garros, C. et al. (2005) Firstrecordof Anopheles minimus C and
  181. significant decreaseof An. minimus A incentralVietnam. J. Am.
  182. Mosq. ControlAssoc. 21, 139–143
  183. 59. WHO (2016) World MalariaReport2016, WHO
  184. 60. Li, J.L. et al. (2014) Experimentalobservationoftoxiceffectof
  185. Bacillus thuringiensis var. israelensis against Aedes, Culex and
  186. Anopheles larvae. Zhongguo XueXiChongBingFangZhiZaZhi
  187. 26, 67––68 (inChinese)
  188. 61. Zhu, S. et al. (2013) Experimentalstudyonlarvicidalactivityof
  189. the transgeniccyanobacteriawithCryIVDgeneof Bacillus thur-
  190. ingiensis sub israelensis. China Trop.Med. 13, 935––937
  191. (in Chinese)
  192. 62. Yu, J.F. et al. (2012) Resistancestatusofthefourmajormalaria
  193. vector inChina. Int. J.Med.Parasit.Dis. 39, 314––317
  194. (in Chinese)
  195. 63. Liu, S.L. et al. (2011) Investigationoforganophosphateand
  196. pyrethroid resistanceinvectormosquitoesinChina. Chin. J.
  197. Vector Biol.Control 22, 184––189 (inChinese)
  198. 64. Liu, S.L. et al. (2011) Investigationontheresistanceofvector
  199. mosquitoes toorganochlorinesandcarbamatesinChina. Chin.
  200. J. VectorBiol.Control 22, 82––85 (inChinese)
  201. 65. Wang, D.Q. et al. (2013) Apotentialthreattomalariaelimination:
  202. extensive deltamethrinandDDTresistanceto Anopheles sinen-
  203. sis from themalaria-endemicareasinChina. Malar. J. 12, 164
  204. 66. Cui, F. et al. (2006) Insecticideresistanceinvectormosquitoesin
  205. China. Pest Manag.Sci. 62, 1013–1022
  206. 67. WHO (2016) Test ProceduresforInsecticideResistanceMoni-
  207. toring inMalariaVectorMosquitoes. (2nd edn),pp.15–16,
  208. World HealthOrganization
  209. 68. Wu, X.L. et al. (2014) Surveillanceofsusceptibilityof Anopheles
  210. sinensis to insecticideinsomecountiesofHubeiprovince. China
  211. Trop. Med. 14, 806–808 (inChinese)
  212. 69. Li, J.L. et al. (2011) Sensitivityof Anopheles sinensis to insecti-
  213. cides inJiangsuProvince. Zhongguo XueXiChongBingFang
  214. Zhi ZaZhi 23, 296–300 (inChinese)
  215. 70. Liu, Q. et al. (2011) Noknockdownresistancewasfoundin
  216. Anopheles maculatus complex inMotuoCountyofTibet. Chin.
  217. J. Zoonoses 27, 801–803 (inChinese)
  218. 71. Kelly-Hope, L. et al. (2008) Lessonsfromthepast:managing
  219. insecticide resistanceinmalariacontrolanderadicationpro-
  220. grammes. Lancet Infect.Dis. 8, 387–389
  221. 72. Coleman, M. et al. (2017) Developingglobalmapsofinsecticide
  222. resistance risktoimprovevectorcontrol. Malar. J. 16, 86
  223. 73. Pates, H.andCurtis,C.(2005)Mosquitobehaviorandvector
  224. control. Annu. Rev.Entomol. 50, 53–70
  225. 74. Govella, N.J. et al. (2010) Insecticide-treatednetscanreduce
  226. malaria transmissionbymosquitoeswhichfeedoutdoors. Am.
  227. J. Trop.Med.Hyg. 82, 415–419
  228. 75. Durnez, L.andCoosemans,M.(2013)Residualtransmissionof
  229. malaria anoldissuefornewapproaches.In Anopheles Mosqui-
  230. toes – New InsightsintoMalariaVectors (Manguin, S.,ed.),
  231. InTech OpenAccess
  232. 76. Lyimo, I.N.andFerguson,H.M.(2009)Ecologicalandevolu-
  233. tionary determinantsofhostspecieschoiceinmosquitovectors.
  234. Trends Parasitol. 25, 189–196
  235. 77. Pothikasikorn, J. et al. (2005) BehavioralresponsestoDDTand
  236. pyrethroids between Anopheles minimus species AandC,
  237. malaria vectorsinThailand. Am. J.Trop.Med.Hyg. 73, 343–349
  238. 78. Russell, T.L. et al. (2011) Increasedproportionsofoutdoor
  239. feeding amongresidualmalariavectorpopulationsfollowing
  240. increased useofinsecticide-treatednetsinruralTanzania.
  241. Malar. J. 10, 80
  242. 79. Meyers, J.I. et al. (2016) Increasingoutdoorhost-seekingin
  243. Anopheles gambiae over 6yearsofvectorcontrolonBioko
  244. Island. Malar. J. 15, 239
  245. 80. Garrett-Jones, C. et al. (1980) Feedinghabitsofanophelines
  246. (Diptera: Culicidae)in1971–1978, withreferencetothehuman
  247. blood index:areview. Bull. Entomol.Res. 70, 20
  248. 81. Garros, C. et al. (2006) ReviewoftheMinimusComplexof
  249. Anopheles, mainmalariavectorinSoutheastAsia:fromtaxo-
  250. nomic issuestovectorcontrolstrategies. Trop. Med.Int.Health
  251. 11, 102–114
  252. 82. Ferguson, H.M. et al. (2010) Ecology:aprerequisiteformalaria
  253. elimination anderadication. PLoS Med. 7, e1000303
  254. 83. Waite, J.L. et al. (2017) Increasingthepotentialformalaria
  255. elimination bytargetingzoophilicvectors. Sci. Rep. 7, 40551
  256. 84. Stefani, A. et al. (2013) Landcover,landuseandmalariainthe
  257. Amazon: asystematicliteraturereviewofstudiesusingremotely
  258. sensed data. Malar. J. 12, 192
  259. 85. Vittor, A.Y. et al. (2006) Theeffectofdeforestationonthe
  260. human-biting rateof Anopheles darlingi, theprimaryvectorof
  261. Falciparum malariainthePeruvianAmazon. Am. J.Trop.Med.
  262. Hyg. 74, 3–11
  263. 86. Cox-Singh, J.andSingh,B.(2008)Knowlesimalaria:newly
  264. emergent andofpublichealthimportance? Trends Parasitol.
  265. 24, 406–410
  266. 87. Patz, J.A.andOlson,S.H.(2006)Malariariskandtemperature:
  267. influences fromglobalclimatechangeandlocallanduseprac-
  268. tices. Proc. Natl.Acad.Sci.U.S.A. 103, 5635–5636
  269. 88. Zhou, S.S. et al. (2010) Geographical,meteorologicalandvec-
  270. torial factorsrelatedtomalariare-emergenceinHuang-Huai
  271. River ofcentralChina. Malar. J. 9, 337
  272. 89. Giglioli, G.(1963)Ecologicalchangeasafactorinrenewed
  273. malaria transmissioninaneradicatedarea. Bull. WorldHealth
  274. Organ. 29, 15
  275. 90. Keiser, J. et al. (2005) Effectofirrigationandlargedamsonthe
  276. burden ofmalariaonaglobalandregionalscale. Am. J.Trop.
  277. Med. Hyg. 72, 392–406
  278. 91. Wang, D.Q. et al. (2013) Malariatransmissionpotentialinthe
  279. Three GorgesReservoiroftheYangtzeRiver,China. Biomed.
  280. Environ. Sci. 26, 54–62
  281. 92. Killeen, G.F. et al. (2003) Takingmalariatransmissionoutofthe
  282. bottle: implicationsofmosquitodispersalforvector-control
  283. interventions. Lancet Infect.Dis. 3, 297–303
  284. 93. Sinka, M.E. et al. (2012) Aglobalmapofdominantmalaria
  285. vectors. Parasites Vectors 5, 69
  286. 94. Tainchum, K. et al. (2015) Anopheles species diversityand
  287. distribution ofthemalariavectorsofThailand. Trends Parasitol.
  288. 31, 109–119
  289. 95. Manguin, S.(2013) Anopheles Mosquitoes – New Insightsinto
  290. Malaria Vectors, InTech OpenAccess
  291. 96. Massey, N.C. et al. (2016) Aglobalbionomicdatabaseforthe
  292. dominant vectorsofhumanmalaria. Sci. Data 3, 160014
  293. 97. Liu, M.D. et al. (2008) Geographicinformationsystemanalysison
  294. the relationshipofpopulationsof Anopheles sinensis and An.
  295. jeyporiensis with theenvironmentfactorsinYunnanprovince.
  296. Chin. J.VectorBiol.Control 19, 275–279 (inChinese)
  297. 98. Li, Z. et al. (2016) Mappingaknowledge-basedmalariahazard
  298. index relatedtolandscapeusingremotesensing:applicationto
  299. the cross-borderareabetweenFrenchGuianaandBrazil.
  300. Remote Sensing 8, 319
  301. 99. Thibault, C.E.(2016) Fusion ofSarandOpticalImageryfor
  302. Studying theEcoepidemiologyofVector-BorneDiseasesin
  303. Tropical Countries, European SpaceAgencyLivingPlanet
  304. Symposium
  305. 100. Achee, N.L. et al. (2006) Useofremotesensingandgeographic
  306. information systemstopredictlocationsof Anopheles darlingipositive
  307. breedingsiteswithintheSibunRiverinBelize,Central
  308. America. J. Med.Entomol. 43, 382–392
  309. 101. Roberts, D.R.andRodriguez,M.H.(1994)Theenvironment,
  310. remote sensing,andmalariacontrol. Ann. N.Y.Acad.Sci. 740,
  311. 396–402
  312. 102. Sheng, H.F. et al. (2003) MalariasituationinthePeople’s Repub-
  313. lic ofChinain2002. Zhongguo JiShengChongXueYuJiSheng
  314. Chong BingZaZhi 21, 193–196 (inChinese)
  315. 103. Zhou, S.S. et al. (2006) MalariasituationinthePeople’s Republic
  316. of Chinain2005. Zhongguo JiShengChongXueYuJiSheng
  317. Chong BingZaZhi 24, 401–403 (inChinese)
  318. 104. Zhou, S.S. et al. (2011) MalariasituationinthePeople’s Republic
  319. of Chinain2010. Zhongguo JiShengChongXueYuJiSheng
  320. Chong BingZaZhi 29, 401–403 (inChinese)
  321. 105. Zhang, L. et al. (2016) MalariaSituationinthePeople’s Republic
  322. of Chinain2015. Zhongguo JiShengChongXueYuJiSheng
  323. Chong BingZaZhi 34, 477–481 (inChinese)
  324. 106. Wang, X.D.(2013)Observationontheparousrateof Anopheles
  325. sinensis in differenttimeperiodatnightinZhangjiagangcity.
  326. China Trop.Med. 13, 367–368
  327. 107. Wang, W.M. et al. (2013) Comparisonofseasonal fluctuation
  328. and nocturnalactivitypatternsof Anopheles sinensis in different
  329. regions ofJiangsupronince. China Trop.Med. 13, 292–295
  330. 108. Zhang, P. et al. (2012) Monitorresultof Anopheles sinensis in
  331. malaria areainDandongcity. Chin. J.Hyg.Insectic.Equip. 18,
  332. 229–231 (inChinese)
  333. 109. Gao, J.F. et al. (2004) Investigationreportonbionomicsof
  334. Anopheles sinensis in WujinCity,Jiangsuprovince,China. J.
  335. Med. PestControl 20, 73–74
  336. 110. Zheng, X. et al. (2007) Morphologyandhabitsof An. anthro-
  337. pophagus and itsroleinmalariatransmissioninHengqinIsland
  338. of ZhuhaiCity. Zhongguo JiShengChongXueYuJiSheng
  339. Chong BingZaZhi 25, 488–491 (inChinese)
  340. 111. Shang, L.Y. et al. (2007) Studyondistribution,ecologicalfeature
  341. and malariatransmissioneffectof Anopheles anthropophagus in
  342. Henan Province,China. J. PathogenBiol. 2, 304–306
  343. (in Chinese)
  344. 112. Xiao, D. et al. (2010) Surveyofnumber,densityandcomposition
  345. of Anopheles in HainanProvincefrom2006to2008. China Trop.
  346. Med. 10, 265–277 (inChinese)
  347. 113. Yu, G.(2014) The AnophelesCommunityandtheRoleof
  348. Anopheles minimusonMalariaTransmissionontheChina–
  349. Myanmar Border, Chongqing NormalUniversity,pp.52
  350. (in Chinese)
  351. 114. Wu, S. et al. (2013) Ecologicalbehaviorcomparisonbetween
  352. Anopheles pseudowillmori and A. willmori in villageswithmalaria
  353. outbreaks inMotuoCounty,TibetAutonomousRegion. Zhongguo
  354. XueXiChongBingFangZhiZaZhi 25, 362–366 (inChinese)
  355. 115. Wu, S. et al. (2011) Investigationon Anopheles species andtheir
  356. composition invillagesatdifferentaltitudesofMotuoCounty,
  357. Tibet AutonomousRegion. Zhongguo JiShengChongXueYuJi
  358. Sheng ChongBingZaZhi 29, 285–288 (inChinese)
Zacytuj dokument
-