PENGARUH WARNA OVITRAP TERHADAP JUMLAH TELUR NYAMUK Aedes aegypti
DOI:
https://doi.org/10.12928/jkpl.v2i2.6350Keywords:
Dengue Hemorrhogic Fever, Aedes aegypti, OvitrapAbstract
Aedes aegypti mosquito is a vector of the dengue virus which causes dengue hemorrhagic fever (DHF). Efforts that can be made to overcome the spread of dengue fever by controlling vectors, one of which is by breaking the vector life cycle using an egg trap (ovitrap). This study aims to determine the ability of Aedes aegypti mosquitoes to lay eggs on ovitrap color differences, determine the ovitrap color with the highest number of Aedes aegypti mosquito eggs, determine the difference in ovitrap color to the number of trapped Aedes aegypti mosquito eggs and determine the average difference between various ovitrap colors in Ahmad Dahlan University Rearing Laboratory from July to August 2020. This research method is One Group Design. Three repetitions were carried out with a plastic bottle that was painted black, transparent, green, blue, purple and yellow. The 90 blood-saturated mosquitoes were put into three cages containing various colors of the ovitrap which had been given water and filter paper to place the eggs. The results showed that the Aedes aegypti mosquito would lay eggs on each ovitrap color and the number of mosquito eggs was mostly found on black ovitrap as many as 2978 eggs. Anova analysis showed that there was a significant difference in each ovitrap color to the number of trapped mosquito eggs and Benferroni's Post Hoc analysis showed that there was a significant difference between black means ovitrap with purple ovitrap and black and yellow color ovitrap
References
World Health Organization, “Dengue and Severe Dengue,” 2018.
Kementrian Kesehatan Republik Indonesia, “Situasi Penyakit Demam Berdarah Di Indonesia Tahun 2017.” Kementrian Kesehatan RI, Jakarta, 2018.
Kementerian Kesehatan Republik Indonesia, “Hasil Utama Riskesdas 2018,” Jakarta, 2018.
A. B. Purnamasari and S. Kadir, “Distribusi Keruangan Spesies Larva Aedes Sp. Dan Karakteristik Tempat Perkembangbiakan Di Kelurahan Karunrung Kota Makassar,” J. Bionature, vol. 17, no. 1, pp. 7–13, 2016.
S. A. Nadiroh, “Perbandingan Modifikasi Ovitrap Tempurung Kelapa dan Ovitrap Standar Dalam Memerangkap Telur Aedes sp.,” Higea J. Public Heal. Res. Dev., vol. 2, no. 1, pp. 137–148, 2018.
A. Wahidah, Marini, and H. Retno, “Efektivitas Jenis Atraktan Yang Digunakan Dalam Ovitrap Sebagai Alternatif Pengendalian Vektor Dbd Di Kelurahan Bulusan,” J. Kesehat. Masy., vol. 4, no. 1, pp. 106–115, 2016.
M. A. Nurjana and A. Kurniawan, “Preferensi Aedes aegypti Meletakkan Telur pada Berbagai Warna Ovitrap di Laboratorium,” BALABA, vol. 13, no. 1, pp. 37–42, 2017.
K. Latifa, W. Arusyid, T. Iswidaty, and D. Sutiningsih, “Pengaruh Ovitrap Sebagai Monitoring Keberadaan Vektor Aedes SP Di Kelurahan Bulusan Kecamatan Tembalang Kota Semarang,” J. Ilm. Mhs. Fak. Kesehat. Masy. Univ. Diponegoro, vol. 3, no. 1, p. 97651, 2013.
A. T. Susilani and T. A. Wibowo, Dasar-Dasar Metodologi Penelitian Untuk Mahasiswa Kesehatan. Yogyakarta: Penerbit Graha Cendikia, 2015.
R. Kumawat, K. V Singh, S. K. Bansal, and H. Singh, “Use of different coloured ovitraps in the surveillance of Aedes mosquitoes in an arid-urban area of western Rajasthan , India,” J. Vector Dis., pp. 320–326, 2014.
M. M. Mya et al., “Attraction and Oviposition Stimulation of Gravid Aedes Female Mosquitoes Using Different Colored Earthen Ovitraps in Field Areas,” J. Biol. Eng. Res. an Riview, vol. 4, no. 2, pp. 31–37, 2017.
G. Marin, S. Tennyson, G. Marin, B. Mahiba, S. Arivoli, and S. Tennyson, “Does colour of ovitrap influence the ovipositional preference of Aedes aegypti Linnaeus 1762 (Diptera: Culicidae),” Int. J. Mosq. Res., vol. 7, no. 2, pp. 11–15, 2020.
C. C. Oo, M. M. Mya, T. M. Y. Tun, M. T. Swe, and N. N. Win, “Colour Preference For Oviposition Behavior of Gravid Female Aedes Aegypti in Laboratory Condition,” World J. Pharm. Life Sci., vol. 4, no. 9, pp. 32–35, 2018.
A. Mehmood, M. Naeem, M. Tariq, and N. Nargis, “Laboratory and field evaluation of oviposition color preference in mosquitoes,” Int. J. Biosci., vol. 12, no. 4, pp. 337–341, 2018, doi: 10.12692/ijb/12.4.337-341.
Rokhamiyah, “Alat praktikum fisika untuk menentukan panjang gelombang dan frekuensi spektrum matahari,” ORBITH, vol. 15, no. 2, pp. 47–55, 2019.
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