Analysis Of Aedes Aegypti Larvae Population Density, Kasturian Village, South Ternate, Ternate City, Indonesia
Abstract
Introduction. This study aims to determine the level of population density of Aedes aegypti mosquito larvae as an effort to control dengue fever in Kasturian Village. Ternate City. Method. The sample of this study was larvae taken from 100 houses in Kasturian Village, North Ternate District, Ternate City that have containers both inside and outside the house. The data obtained were analyzed for larval index using the House Index (HI), Container Index (CI), and Breteau Index (BI) formulas. The relationship between habitat characteristics and population density of Aedes sp mosquito larvae was analyzed using the SPSS program.Results And Discussion . The survey results found that the characteristics of the Ae. aegypti mosquito larvae habitat consisted (TPA )container types including bathtubs, toilet tubs, drums, jugs, ablution water, cergen and buckets, and non containers including used cans (non0TPA), used tires, used glasses or bottles, flower vases, aquariums, dispenser containers, washbasins, gutters, and used drums. The type of container that is predominantly positive for larvae is the TPA container type, dark in color, found in the house and does not use a cover. The results of the analysis of the density index of Ae. aegypti mosquito larvae are in the moderate category for CI and BI, while HI is in the high category. Conclusion. This can be explained that Kasturian Village has the potential for dengue virus infection (DBD) which needs to be watched out for
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References
Ministry of Health of the Republic of Indonesia Beware , increase DBD cases not yet reach peak. 2024. [ Citation January 2025] https://sehatnegeriku.kemkes.go.id/baca/umum/ 20240402/0045224/ waspada-kenaikan-kasus-dbd-belum-mencapai-puncak /
Tomia S, Hadi UK, Soviana S, Retnani EB, Density Of Eggs and Larvae of Aedes Spp and the Characteristics of their Larvae Habitat in Endemic Dengue Area of Ternate City. 2022. Mal J Med Health Sci 19(1): 40-45. doi:10.47836/mjmhs18.5.19
Nasifah , SL & Sukendra , DMm, Condition Environment and Behavior with DHF incidents in the region Work health center Kedungmundu . Indonesian Journal of Public Health and Nutrition. 2021. 1 , 62-72. http://journal.unnes.ac.id/sju/index.php/IJPHN
Putri , DF, Triwahyuni , T., Husna , I. & Sandrawati , S. Relationship factor temperature And humidity with case Fever Dengue Hemorrhagic Fever (DHF) in Bandar Lampung City. Journal Analyst Health , 2020. 9 , 17-23. DOI : 10.26630/jak.v9i1.2112.
Rozilawati H, Tanaselvi K, Nazni WA, Mohd MS, Zairi J, Adanan CR, Lee HL.. Surveillance of Aedes albopictus Skuse breeding preference in selected dengue outbreak localities, Peninsular Malaysia. Trop Biomed. 2015 32: 49-64. https://pubmed.ncbi.nlm.nih.gov/25801254/
Tomia A, Relationship Habitat Characteristics of The presence of Aedes larvae Sp as Vector Potential Fever Dengue Hemorrhagic Fever in Kelurahan Gambesi , South Ternate District . Journal of Science and Technology. 2022. 2(2), 2022. 112-122.
Yuliani DM, Hadi UK, Soviana S, Retnani EB., Habitat characteristic and density of larva Aedes aEB, lbopictus in Curug, Tangerang District, Banten Province, Indonesia 2018. Biodiversitas. 2021. 22, (12): 5350-5357. DOI: 10.13057/biodiv/d221216
Washliyah S, Tarore D, Salaki Ch ,. Relationship of the Breeding Place with the Density of Aedes aegypti Larvae as a Dengue Haemorhagic Fever Disease Vector in the Working Area of Kalumata Ternate City Health Center . Bioslogos Journal. 2019.9 (2). https://ejournal.unsrat.ac.id/v2/index.php/bioslogos/ article/view/24174
Sutriyawan , A., Darmawan , W., Akbar, H., Habibi , J. & Fibrianti , FFactor affecting Eradication Nest Mosquitoes (PSN) Through 3M Plus in Effort Prevention Fever Dengue Hemorrhagic Fever (DF). Journal Knowledge Health Society. . 2022. 11 , 23-32. D OI: https://doi.org/10.33221/jikm.v11i01.936
Rau MJ, Nurhayati S , Faktor yang Berhubungan dengan Keberadaan Jentik Nyamuk Aedes Aegepty di Wilayah Kerja Puskesmas Sangurara (Cross Sectional Study di Sulawesi Tengah, Kota Palu). DOI: Media Publikasi Promosi Kesehatan Indonesia (MPPKI), 2021. 4(2), 215-225. https://doi.org/10.56338/mppki.v4i2.1498
Ternate City Health Office , Beware of Dengue Fever. 2024. [ Citation January 10 , 2025] https://haliyora.id/2024/10/09/dbd-di-kota-ternate-mencapai-210-kasus/
Tomia A, Tuharea R, Djafar MA, Density of Mosquito Larvae Aedes aegypti based on House Index as Indicator Surveillance Vector Fever Dengue Hemorrhagic Fever in Kelurahan Tabona , South Ternate District . Biosainstek Journal . 2022. 4 (2), 42–45.
Ministry of Health of the Republic of Indonesia. Guidelines Prevention And Control Fever Dengue Hemorrhagic Fever In Indonesia .2017.
World Health Organization. A review of entomological sampling methods and indicators for dengue vector s. 2013. Available from: http://www.who.intl/tdr/publicatiobs/ documents/dengue
Tomia S, Hadi UK, Soviana S, Retnani EB., Effectiveness of Ovitrap as a Population Control Tool for Aedes Spp. In Areas Endemic to Dengue Fever Ternate City . IJSRM ). 2023. 11(12):307-313, DOI : 10.18535/ ijsrm /v11i12.fe03
Saleh , M., Aeni , S., Gafur , A. Basri , S. Relationship Eradication Nest Mosquitoes (PSN) with Existence Flick Mosquito Aedes aegypti in the Work Area Health Center Five District . Barru . HYGIENE: Journal Health Environment , 2018. 4 , 93-98.
Tomia A, Hadi UK, Soviana S, Retnani EB. Maya Index and Density of Aedes aegypti Larvae in Ternate City, North Maluku . BALABA. 2019. 15(2), 133-142. https://doi.org/10.22435/blb.v15i2.1936
Kinansi RRV, Prihatin MT, Garjito TA, Hidajat MCh,. The presence of Aedes sp. larvae at Controllable Sites and Disposable Sites in Indonesia (Case Study in 15 Provinces). Aspirator. 2019. 11(1), 2019, pp. 1–12. DOI: 10.22435/asp.v11i1.540
Pahlepi RI, Soviana S, Elok Budi Retnani EB.. Density and characteristics of Aedes spp. larvae habitat in elementary schools in dengue fever endemic areas of Palembang City. Spirakel. 2017 9(2): 68-78. DOI: 10.22435/spirakel.v8i2.8085: 68-78
Go´mez-Vargas W, Rı´os-tapias PA, Marin-Vela´squez K, Giraldo-Gallo E, Segura-Cardona A, ArboledaM. Density of Aedes aegypti and dengue virus transmission risk in two municipalities of Northwestern Antioquia ,Colombia. PLoS ONE. 2024. 19(1): e0295317. https://doi.org/10.1371/journal.pone.0295317
Badriah S, Hidayah N. Relationship between place brood mosquito Aedes aegypti with case fever bloody dengue in Kelurahan Sharpener Subdistrict Sharpener Regency Sharpener North Paser . J. Trop Pharm Chem . (Indonesia). 2011. 1(2):153-60. DOI : 10.25026/jtpc.v1i2.23
Nurjanah S, Atmowidi T, Hadi UK, Solihin DD, Priawandiputra W. Habitat Preference of Aedes aegypti and Aedes albopictus : a Case Study on Dengue Endemic Areas of Sumatra, Indonesia. Philippine Journal of Science. 2021.152 (3): 1007–1014, D oi:10.1088/1755-1315/886/1/012065
Wanti , Yudhastuti R, Yotopranoto S, Notobroto HB, Subekti S, Umniati SR,. Container Positivity and Larva Distribution Based on the Container Characteristics. International . Journal of Public Health Science (IJPHS). 2017.6, (3) , pp . 237~242. DOI: http://doi.org/10.11591/ijphs.v6i3.9290
Daswito R, Samosir K. Physical environments of water containers and Aedes sp larvae in dengue-endemic areas of Tanjungpinang Riau. News Medical Society. 2021. 37 (1 ): 13-19.
Astuti EP, Prasetyowati H, Ginanjar A. Transmission Risk of Dengue Hemorrhagic Fever based on Maya and Entomological Indexes in South Tangerang , Banten . Media Litbangkes.2016 .l26 (4):211-8. https://lib.fkm.ui.ac.id/detail?id=127071.
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