A study of the distribution of medically important mosquitoes at Thammasat University, Rangsit Campus
Keywords:
survey, distribution, medical importance, mosquitoReferences
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2. Gopalakrishnan R, Baruah I, Veer V. Monitoring of malaria, Japanese encephalitis and filariasis vectors. Med J Armed Forces India 2014;70:129-33.
3. Lee HL, Inder SK. Sequential analysis of adult Aedes aegypti and Aedes albopictus in Kuala Lumpur city– its potential use in dengue epidemics prediction. Trop Biomed 1993;10:117-23.
4. Rattanarithikul R, Harrison BA, Panthusiri P, et al. Illustrated keys to the mosquitoes of Thailand I. Background; geographic distribution; lists of genera, Subgenera, and Species; and a Key to the Genera. Southeast Asian J Trop Med Public Health 2005;36:1-80.
5. Rattanarithikul R, Panthusiri P. Illustrated keys to the mosquitoes of Thailand II. Genera Culex. Southeast Asian J Trop Med Public Health1994;25(suppl 1):1-66.
6. Thangamathi P, Ananth S, Kala N, et al. Seasonal variations and physicochemical characteristics of the habitats in relation to the density of dengue vector Aedes
aegypti in Thanjavur, Tamil Nadu, India. Int J Sci Nat 2014;5:271-76.
7. Chumsri A, Tina F, Jaroensutasinee M, et al. Aedes, Culex and Mansonia Spp. mosquito larval prevalences in Nakhon Si Thammarat, Thailand. Proceeding of the 41th congress on Science and Technology of Thailand. 6-8 November; Nakhon Si Thammarat:2015.447-9.
8. Department of Disease Control (Internet). Prediction of Dengue hemorrhagic fever (DHF) Year 2020 (cited 2021 June 2). Ministry of Public Health; (about 2 screens).
Available from: https://ddc.moph.go.th/ brc/news.php?news=13713&deptcode.
9. Nikookar SH, Fazeli-Dinan M, AzariHamidian S, et al. Correlation between mosquito larval density and their habitat physicochemical characteristics in Mazandaran Province, northern Iran. PLoS Negl Trop Dis 2017;11:1-19.
10. Mwangangi, JM, Shililu J, Muturi EJ, et al. Anopheles larval abundance and diversity in three rice agro-village.
11. Washington HG. Review of Diversity, Biotic and Similarity Indices. Water Res 1984;18: 653-94.
12. Prummongkol S, Panasoponkul C, Apiwathnasorn C, et al. Biology of Culex sitiens, a predominant mosquito in Phang Nga, Thailand after a tsunami. Journal of Insect Science 2012;12:11.
13. Prummongkol S, Panasoponkul C, Apiwathnasorn C, et al. Refractoriness of Culex sitiens to experimental infection with nocturnal Subperiodic Brugia malayi.
J Trop Med Parasit 2009;32:82-6.
14. Das BP, Lal S, Saxena V K. Outdoor resting preference of Culex tritaeniorhynchus the vector of Japanese encephalitis in Warangal and Karim Nagar districts Andhra Pradesh. J Vector Borne Dis 2004;41:32-6.
15. Preechaporn W, Jaroensutasinee M, Jaroensutasinee K. Seasonal prevalence of Aedes aegypti and Ae. albopictus in three topographical areas of southern Thailand. World Academy of Science Engineering and Technology 2007;36:23-27.
16. Wongkoon S, Jaroensutasinee M, Jaroensutasinee K, et al. Development sites of Aedes aegypti and Aedes albopictus in Nakhon Si Thammarat Thailand. Dengue Bulletin 2007a;31:141-152.
17. Dom NC, Ahmad AH, Ismail R. Habitat characterization of Aedes sp. breeding in urban hotspot area. Procedia-Social and Behavioral Sciences 2013;85:100-9.
18. Philbert A, Ijumba JN. Preferred breeding habitats of Aedes aegypti (DipteraCulicidae) mosquito and its public health implications in Dares Salaam Tanzani. J Environ Res Management 2013;4:344-51.
19. Guagliardo SA, Barboza JL, Morrison AC. et al. Patterns of geographic expansion of Aedes aegypti in the Peruvian Amazon. PLoS Negl Trop Dis 2014;8:e3033.
20. Chen CD, Lee HL, Stella-Wong SP, et al. Container survey of mosquito breeding sites in a university campus in Kuala
Lumpur. Malaysia. Dengue Bulletin 2009;33:187-93.
21. Khan AM, Khan AQ, Dobrzynasky L, et al. Japanese encephalitis focus in Bangladesh. J Trop Med Hyg.
22. Chaves LF, Keogh CL, Vazquez-Prokopec GM, et al. Combined sewage overflow enhances oviposition of Culex quinquefasciatus (Diptera:Culicidae) in urban areas. J Med Entomol 2009;46: 220-6.
23. Hidayati H, Sofian-Azirun M, Nazni WA, et al. Insecticide resistance development in Culex quinquefasciatus Say Aedes aegypti (L.) and Aedes albopictus Skuse larvae against malathion permethrin and temephos. Tropical Biomedicine 2005;22:45-52.
24. Gould DJ, Barnett HC, Suyemoto W. Transmission of Japanese encephalitis virus by Culex gelidus Thobald. Trans R Soc Trop Med Hyg 1962;56:429-35.
25. Somboon P, Choochote W, Khamboonruang C, et al. Studies on the Japanese encephalitis vectors in Amphoe Muang, Chiang Mai, Northem Thailand. Southeast Asian J Trop Med Public Health 1989;20:9-26.
26. Kitvatanachai S, Janyapoon K., Apiwathnasorn C, et al. Distribution of medically important mosquitoes in Nava Nakorn industrial estate, Pathum Thani Province, Thailand. J Trop Med Parasitol 2005;28:8-15.
27. Lambrechts L, Scott TW, Gubler DJ. Consequences of the expanding global distribution of Aedes albopictus for dengue virus transmission. PLoS Negl Trop Dis 2010;4:e646.
28. Tsuda Y, Suwonkerd W, Chawprom S, et al. Takagi M. Different spatial distribution of Aedes aegypti and Aedes albopictus along an urban-rural gradient and the relating environmental factors examined in three villages in northern Thailand. J Am Mosq Control Assoc 2006;22:222-8.
2. Gopalakrishnan R, Baruah I, Veer V. Monitoring of malaria, Japanese encephalitis and filariasis vectors. Med J Armed Forces India 2014;70:129-33.
3. Lee HL, Inder SK. Sequential analysis of adult Aedes aegypti and Aedes albopictus in Kuala Lumpur city– its potential use in dengue epidemics prediction. Trop Biomed 1993;10:117-23.
4. Rattanarithikul R, Harrison BA, Panthusiri P, et al. Illustrated keys to the mosquitoes of Thailand I. Background; geographic distribution; lists of genera, Subgenera, and Species; and a Key to the Genera. Southeast Asian J Trop Med Public Health 2005;36:1-80.
5. Rattanarithikul R, Panthusiri P. Illustrated keys to the mosquitoes of Thailand II. Genera Culex. Southeast Asian J Trop Med Public Health1994;25(suppl 1):1-66.
6. Thangamathi P, Ananth S, Kala N, et al. Seasonal variations and physicochemical characteristics of the habitats in relation to the density of dengue vector Aedes
aegypti in Thanjavur, Tamil Nadu, India. Int J Sci Nat 2014;5:271-76.
7. Chumsri A, Tina F, Jaroensutasinee M, et al. Aedes, Culex and Mansonia Spp. mosquito larval prevalences in Nakhon Si Thammarat, Thailand. Proceeding of the 41th congress on Science and Technology of Thailand. 6-8 November; Nakhon Si Thammarat:2015.447-9.
8. Department of Disease Control (Internet). Prediction of Dengue hemorrhagic fever (DHF) Year 2020 (cited 2021 June 2). Ministry of Public Health; (about 2 screens).
Available from: https://ddc.moph.go.th/ brc/news.php?news=13713&deptcode.
9. Nikookar SH, Fazeli-Dinan M, AzariHamidian S, et al. Correlation between mosquito larval density and their habitat physicochemical characteristics in Mazandaran Province, northern Iran. PLoS Negl Trop Dis 2017;11:1-19.
10. Mwangangi, JM, Shililu J, Muturi EJ, et al. Anopheles larval abundance and diversity in three rice agro-village.
11. Washington HG. Review of Diversity, Biotic and Similarity Indices. Water Res 1984;18: 653-94.
12. Prummongkol S, Panasoponkul C, Apiwathnasorn C, et al. Biology of Culex sitiens, a predominant mosquito in Phang Nga, Thailand after a tsunami. Journal of Insect Science 2012;12:11.
13. Prummongkol S, Panasoponkul C, Apiwathnasorn C, et al. Refractoriness of Culex sitiens to experimental infection with nocturnal Subperiodic Brugia malayi.
J Trop Med Parasit 2009;32:82-6.
14. Das BP, Lal S, Saxena V K. Outdoor resting preference of Culex tritaeniorhynchus the vector of Japanese encephalitis in Warangal and Karim Nagar districts Andhra Pradesh. J Vector Borne Dis 2004;41:32-6.
15. Preechaporn W, Jaroensutasinee M, Jaroensutasinee K. Seasonal prevalence of Aedes aegypti and Ae. albopictus in three topographical areas of southern Thailand. World Academy of Science Engineering and Technology 2007;36:23-27.
16. Wongkoon S, Jaroensutasinee M, Jaroensutasinee K, et al. Development sites of Aedes aegypti and Aedes albopictus in Nakhon Si Thammarat Thailand. Dengue Bulletin 2007a;31:141-152.
17. Dom NC, Ahmad AH, Ismail R. Habitat characterization of Aedes sp. breeding in urban hotspot area. Procedia-Social and Behavioral Sciences 2013;85:100-9.
18. Philbert A, Ijumba JN. Preferred breeding habitats of Aedes aegypti (DipteraCulicidae) mosquito and its public health implications in Dares Salaam Tanzani. J Environ Res Management 2013;4:344-51.
19. Guagliardo SA, Barboza JL, Morrison AC. et al. Patterns of geographic expansion of Aedes aegypti in the Peruvian Amazon. PLoS Negl Trop Dis 2014;8:e3033.
20. Chen CD, Lee HL, Stella-Wong SP, et al. Container survey of mosquito breeding sites in a university campus in Kuala
Lumpur. Malaysia. Dengue Bulletin 2009;33:187-93.
21. Khan AM, Khan AQ, Dobrzynasky L, et al. Japanese encephalitis focus in Bangladesh. J Trop Med Hyg.
22. Chaves LF, Keogh CL, Vazquez-Prokopec GM, et al. Combined sewage overflow enhances oviposition of Culex quinquefasciatus (Diptera:Culicidae) in urban areas. J Med Entomol 2009;46: 220-6.
23. Hidayati H, Sofian-Azirun M, Nazni WA, et al. Insecticide resistance development in Culex quinquefasciatus Say Aedes aegypti (L.) and Aedes albopictus Skuse larvae against malathion permethrin and temephos. Tropical Biomedicine 2005;22:45-52.
24. Gould DJ, Barnett HC, Suyemoto W. Transmission of Japanese encephalitis virus by Culex gelidus Thobald. Trans R Soc Trop Med Hyg 1962;56:429-35.
25. Somboon P, Choochote W, Khamboonruang C, et al. Studies on the Japanese encephalitis vectors in Amphoe Muang, Chiang Mai, Northem Thailand. Southeast Asian J Trop Med Public Health 1989;20:9-26.
26. Kitvatanachai S, Janyapoon K., Apiwathnasorn C, et al. Distribution of medically important mosquitoes in Nava Nakorn industrial estate, Pathum Thani Province, Thailand. J Trop Med Parasitol 2005;28:8-15.
27. Lambrechts L, Scott TW, Gubler DJ. Consequences of the expanding global distribution of Aedes albopictus for dengue virus transmission. PLoS Negl Trop Dis 2010;4:e646.
28. Tsuda Y, Suwonkerd W, Chawprom S, et al. Takagi M. Different spatial distribution of Aedes aegypti and Aedes albopictus along an urban-rural gradient and the relating environmental factors examined in three villages in northern Thailand. J Am Mosq Control Assoc 2006;22:222-8.
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2021-08-31
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Tiengtip R. A study of the distribution of medically important mosquitoes at Thammasat University, Rangsit Campus. J Med Health Sci [Internet]. 2021 Aug. 31 [cited 2024 Dec. 23];28(2):43-57. Available from: https://he01.tci-thaijo.org/index.php/jmhs/article/view/251550
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