Kajian Predasi Catfish terhadap Larva Nyamuk Aedes aegypti Sebagai Upaya Pencegahan Penyebaran Demam Berdarah Dengue
DOI:
https://doi.org/10.30649/htmj.v19i1.64Kata Kunci:
Aedes aegypti, DHF, Catfish, Vector controlAbstrak
Aedes aegypti acts as a primary vector of the dengue virus which causes Indonesia to become a dengue-endemic country. Chemical and physical vector control methods to prevent the spread of DHF are considered less effective so that additional biological vector control is needed. The purpose of this paper is to examine the potential ability of catfish predation as Ae. aegypti vector controller. This paper was prepared by reviewing eight Indonesian research journals, eight international research journals, reports and regulations of the Ministry of Health of the Republic of Indonesia, the website of the World Health Organization (WHO), the Centers for Disease Control and Prevention (CDC), the University of Florida Entomology and Nematology, and one textbook. The results showed that the predation ability of African sharptooth catfish (Clarias garipenus) was 80.3% greater on average than Cyprinus carpio, Ctenopharyngodon idella, and Oreochromis niloticus as well as the predation ability of Walking catfish (Clarias batrachus) with an average of 79.6%. larger than Anabas testudineus, Oreochromis niloticus, and Poecilia reticulata. Further experimental research to deepen scientific information on the predation ability of various catfish species against Ae. aegypti mosquito larvae are still needed. Cooperation between fields and communities is also needed to prevent the spread of dengue disease properly. Mosquito larvae eating fish belonging to catfish species, namely African sharptooth catfish (Clarias garipenus) and walking catfish (Clarias batrachus) have the potential to be a new biological vector controller because they have very high predation power compared to other mosquito larvae eating fish.
Referensi
Ameen, M, Hossain, M. Ismail, Chowdhury, Manjur Ahmed. 1999. Integrated mosquito management in Dhaka city: Promising non-chemical components. Proceedings of the 3rd International Conference on Urban Pests. 1(1):447-456.
Bibi, S, Qayyum, M, Naseem, A, Khan, D, Sami-ur-rehman, M. 2017. Evaluation of Wild Tilapia and Gift Tilapia as Biological Control Against Mosquito Larvae (Culex Quinquefasciatus and Aedes Aegypti). International Journal of Mosquito Research. 4(1):23-27.
Centers for Disease and Control and Prevention. 2019. Mosquito Life Cycle. https://www.cdc.gov/dengue/resources/factSheets/MosquitoLifecycleFINAL.pdf. Diakses 4 November 2019.
Chala, B, Erko, B, Animut, A, Degarege, A, Petros, B. 2016. Assessment of Clarias gariepinus as a Biological Control Agent Against Mosquito Larvae. BMC Ecology. 16(27):1-7.
Chandra, G, Bhattacharjpsee, I, Chatterjee, S. N, Ghosh, A. 2008. Mosquito Control by Larvivorous Fish. Indian Journal of Medical Research. 127(1):13-27.
Fuadzy, H, Hendri, J. 2015. Indeks Entomoogi dan Kerentanan Jentik Aedes aegypti Terhadap Temefos di Kelurahan Karsamenak Kecamatan Kawalu Kota Tasikmalaya. Vektora : Jurnal Vektor dan Reservoar Penyakit. 7(2):57–64.
Ghosh, A, Mandal, S Bhattacharjee, I, Chandra, G, 2005. Biological Control of Vector Mosquitoes by Some Common Exotic Fish Predators. Turk J Biol. 29(1):167-171.
Hidayah, N, Iskandar, Abidin, Z. 2017. Prevention of Dengue Hemorrhagic Fever (DHF) Associated with the Aedes aegypti Larvae Presence based on the Type of Water Source. Journal of Tropical Life Science. 7(2):115-120.
Indrayani, Y Wahyudi, T. 2018. Situasi Penyakit Demam Berdarah di Indonesia Tahun 2017. InfoDATIN 22 April:1-7.
Kendie, F. 2020. Potential Biological Control Agents Against Mosquito Vector In the Case of Larvae Stage: A review. World News of Natural Sciences. 28(1):34-50.
Powell, J. 2018. Perspective Piece Mosquito-borne Human Viral Diseases: Why Aedes aegypti?. American Journal of Tropical Medicine and Hygiene. 98(6):1563-1565.
Prasetyowati, H, Hendri, J, Wahono, T. 2016. Status Resistensi Aedes aegypti (Linn.) terhadap Organofosfat di Tiga Kotamadya DKI Jakarta. Balaba: Jurnal Litbang Pengendalian Penyakit Bersumber Binatang Banjarnegara. 12(1):23-30.
Rahmawati, F, Sriatmi, A, Jati, S. 2016. Analisis Pengendalian Penyakit Dbd Sesuai Peraturan Daerah Kota Semarang Nomor 5 Tahun 2010 Tentang Pengendalian Penyakit Demam Berdarah Dengue Di Kecamatan Tembalang. Jurnal Kesehatan Masyarakat (e-Journal). 4(2):10-19.
Salim, M, Yahya, Wurisastuti, T dan Nurmaliani, R. 2017. Partisipasi Masyarakat Dalam Pengendalian Demam Berdarah Dengue (DBD) di Kelurahan Baturaja Lama Dan Sekar Jaya, Kecamatan Baturaja Timur, Kabupaten Ogan Komering Ulu (Oku), Provinsi Sumatera Selatan. Jurnal Ekologi Kesehatan. 16(2):82-92.
Samadi, B. 2016. Meraup Laba Jutaan Rupiah dari Usaha Pembesaran Ikan Lele Selama Dua Bulan Pemeliharaan. Edisi ke-1. NUANSA. Bandung.
Singh, A, Robinson, A. 2017. Vector Control Interventions to Prevent Dengue: Current Situation and Strategies for Future Improvements to Management of Aedes in India. Journal of Emerging Infectious Diseases. 02(01):1-7.
Trapsilowati, W, Mardihusodo, S Prabandari, Y, Mardikanto, T. 2015. Pengembangan Metode Pemberdayaan Masyarakat Dalam Pengendalian Vektor Demam Berdarah. Buletin Penelitian Sistem Kesehatan. 18(1):95–103.
Widyanto, A, Hernady, S, Abdullah, S. 2013. Daya Predasi Berbgai Jenis Ikan Air Tawar Terhadap Larva Aedes aegypti Sebagai Metode Pengendlian Biologi Terhadap Vektor Penyakit Demam Berdarah Dengue. Jurnal Riset Kesehatan (JRK). 2(2):293-297.
World Health Organization. 2020. Dengue and Severe Dengue. https://www.who.int/news-room/fact-sheets/detail/dengue-and-severedengue. Diakses 26 Agustus 2020.
Yudhana, A, Praja, R, Novita Y, Maya N. 2017. Deteksi Gen Resisten Insektisida Organofosfat pada Aedes aegypti di Banyuwangi, Jawa Timur Menggunakan Polymerase Chain Reaction. Jurnal Veteriner. 18(3):446-452.
Zettel, C dan Kaufman, P. 2019. University of Florida Entomology and Nematology. http://entnemdept.ufl.edu/creatures/aquatic/aedes_aegypti.htm. Diakses 16 Maret 2020.
