Warning: The NCBI web site requires JavaScript to function. more...
Habitat suitability mapping of Anopheles darlingi in the surroundings of the Manso hydropower plant reservoir, Mato Grosso, Central Brazil.
Zeilhofer P, dos Santos ES, Ribeiro AL, Miyazaki RD, dos Santos MA.
Int J Health Geogr. 2007 Mar 7;6:7.
Related citations
Use of remote sensing and geographic information systems to predict locations of Anopheles darlingi-positive breeding sites within the Sibun River in Belize, Central America.
Achee NL, Grieco JP, Masuoka P, Andre RG, Roberts DR, Thomas J, Briceno I, King R, Rejmankova E.
J Med Entomol. 2006 Mar;43(2):382-92.
A study of the environmental determinants of malaria and schistosomiasis in the Philippines using Remote Sensing and Geographic Information Systems.
Leonardo LR, Rivera PT, Crisostomo BA, Sarol JN, Bantayan NC, Tiu WU, Bergquist NR.
Parassitologia. 2005 Mar;47(1):105-14.
Spatial and temporal distribution of the malaria mosquito Anopheles arabiensis in northern Sudan: influence of environmental factors and implications for vector control.
Ageep TB, Cox J, Hassan MM, Knols BG, Benedict MQ, Malcolm CA, Babiker A, El Sayed BB.
Malar J. 2009 Jun 7;8:123.
Spatial modelling of Lutzomyia (Nyssomyia) whitmani s.l. (Antunes & Coutinho, 1939) (Diptera: Psychodidae: Phlebotominae) habitat suitability in the state of Mato Grosso, Brazil.
Zeilhofer P, Kummer OP, Santos ES, Ribeiro AL, Missawa NA.
Mem Inst Oswaldo Cruz. 2008 Nov;103(7):653-60.
A supervised land cover classification of a western Kenya lowland endemic for human malaria: associations of land cover with larval Anopheles habitats.
Mutuku FM, Bayoh MN, Hightower AW, Vulule JM, Gimnig JE, Mueke JM, Amimo FA, Walker ED.
Int J Health Geogr. 2009 Apr 16;8:19.
Recent reduction in the water level of Lake Victoria has created more habitats for Anopheles funestus.
Minakawa N, Sonye G, Dida GO, Futami K, Kaneko S.
Malar J. 2008 Jul 3;7:119.
Using remote sensing to map larval and adult populations of Anopheles hyrcanus (Diptera: Culicidae) a potential malaria vector in Southern France.
Tran A, Ponçon N, Toty C, Linard C, Guis H, Ferré JB, Lo Seen D, Roger F, de la Rocque S, Fontenille D, Baldet T.
Int J Health Geogr. 2008 Feb 26;7:9.
Linking deforestation to malaria in the Amazon: characterization of the breeding habitat of the principal malaria vector, Anopheles darlingi.
Vittor AY, Pan W, Gilman RH, Tielsch J, Glass G, Shields T, Sánchez-Lozano W, Pinedo VV, Salas-Cobos E, Flores S, Patz JA.
Am J Trop Med Hyg. 2009 Jul;81(1):5-12.
Habitat characterization and mapping of Anopheles maculatus (Theobald) mosquito larvae in malaria endemic areas in Kuala Lipis, Pahang, Malaysia.
Rohani A, Wan Najdah WM, Zamree I, Azahari AH, Mohd Noor I, Rahimi H, Lee HL.
Southeast Asian J Trop Med Public Health. 2010 Jul;41(4):821-30.
Population structure of the malaria vector Anopheles darlingi in a malaria-endemic region of eastern Amazonian Brazil.
Conn JE, Vineis JH, Bollback JP, Onyabe DY, Wilkerson RC, Póvoa MM.
Am J Trop Med Hyg. 2006 May;74(5):798-806.
Remote sensing of tropical wetlands for malaria control in Chiapas, Mexico.
Pope KO, Rejmankova E, Savage HM, Arredondo-Jimenez JI, Rodriguez MH, Roberts DR.
Ecol Appl. 1994 Feb;4(1):81-90.
Ecology of Anopheline (Diptera, Culicidae), malaria vectors around the Serra da Mesa Reservoir, State of Goiás, Brazil. 1--Frequency and climatic factors.
Guimarães AE, Gentile C, Alencar J, Lopes CM, de Mello RP.
Cad Saude Publica. 2004 Jan-Feb;20(1):291-302. Epub 2004 Mar 8.
Observations on the distribution of anophelines in Suriname with particular reference to the malaria vector Anopheles darlingi.
Rozendaal JA.
Mem Inst Oswaldo Cruz. 1990 Apr-Jun;85(2):221-34.
Use of a remote sensing-based geographic information system in the characterizing spatial patterns for Anopheles minimus A and C breeding habitats in western Thailand.
Rongnoparut P, Ugsang DM, Baimai V, Honda K, Sithiprasasna R.
Southeast Asian J Trop Med Public Health. 2005 Sep;36(5):1145-52.
Spatial clustering and longitudinal variation of Anopheles darlingi (Diptera: Culicidae) larvae in a river of the Amazon: the importance of the forest fringe and of obstructions to flow in frontier malaria.
Barros FS, Arruda ME, Gurgel HC, Honório NA.
Bull Entomol Res. 2011 Dec;101(6):643-58. doi: 10.1017/S0007485311000265. Epub 2011 Jul 1.
Temporal and spatial distribution of malaria within an agricultural settlement of the Brazilian Amazon.
de Barros FS, Honório NA, Arruda ME.
J Vector Ecol. 2011 Jun;36(1):159-69. doi: 10.1111/j.1948-7134.2011.00153.x.
Hydrological modeling of geophysical parameters of arboviral and protozoan disease vectors in Internally Displaced People camps in Gulu, Uganda.
Jacob BG, Muturi EJ, Caamano EX, Gunter JT, Mpanga E, Ayine R, Okelloonen J, Nyeko JP, Shililu JI, Githure JI, Regens JL, Novak RJ, Kakoma I.
Int J Health Geogr. 2008 Mar 14;7:11.
Landscape determinants and remote sensing of anopheline mosquito larval habitats in the western Kenya highlands.
Mushinzimana E, Munga S, Minakawa N, Li L, Feng CC, Bian L, Kitron U, Schmidt C, Beck L, Zhou G, Githeko AK, Yan G.
Malar J. 2006 Feb 16;5:13.
[Current malaria situation in the Republic of Kazakhstan].
Bismil'din FB, Shapieva ZhZh, Anpilova EN.
Med Parazitol (Mosk). 2001 Jan-Mar;(1):24-33. Russian.
Filter your results:
Your browsing activity is empty.
Activity recording is turned off.
Turn recording back on