Keanekaragaman Anopheles dalam Ekosistem Hutan dan Resiko Terjadinya Penularan Malaria di Beberapa Provinsi di Indonesia
Anopheles Diversity in Forest Ecosystem and Risk of Malaria Transmission in Several Provinces in Indonesia
Abstract
Abstract
Forests are ecosystems that can support the existence of malaria vectors. The discovery of vector species in the forest environment will increase malaria transmission in the forest and its surroundings. The provinces of South Sumatra, Central Java, Central Sulawesi, and Papua are some of the provinces in Indonesia that still have forest ecosystems. The aim of the study was to know the diversity of Anopheles species and risk of malaria transmission in forest ecosystems in the provinces of South Sumatra, Central Java, Central Sulawesi, and Papua The sampling of mosquitoes was carried out by using the method of human landing collection, animal bited trap, around cattle collection, resting morning and light trap. Larva surveys are carried out in mosquito breeding place. Detection of plasmodium was done by Polymerase Chain Reaction (PCR) while blood feed analysis was carried out with a blood feed test using the Enzyme-linked immunosorbent assay (ELISA) method. Malaria vector species found in forest ecosystems in Central Java are Anopheles maculatus, Anopheles aconitus, Anopheles vagus, Anopheles balabacensis, and Anopheles subpictus. Malaria vector species in the forest ecosystem in South Sumatra are Anopheles nigerimus and Anopheles maculatus. Anopheles malaria vectors in forest environments in Central Sulawesi are Anopheles flavirostris, Anopheles barbirostris, Anopheles ludlowae, and Anopheles vagus. Anopheles malaria vectors in forest ecosystems in Papua are Anopheles farauti, Anopheles koliensis, Anopheles punctulatus, and Anopheles brancofti. Forest presence is at risk of malaria transmission in the provinces of Central Java, South Sumatra, South Sulawesi and Papua
Abstrak
Hutan merupakan ekosistem yang dapat mendukung keberadaan vektor malaria. Ditemukannya spesies vektor di lingkungan hutan akan meningkatkan penularan malaria di hutan dan sekitarnya. Provinsi Sumatera Selatan, Jawa Tengah, Sulawesi Tengah, dan Papua merupakan beberapa Provinsi di Indonesia yang masih memiliki ekosistem hutan. Tujuan penelitian adalah mengetahui keanekaragaman spesies Anopheles dan risiko penularan malaria pada ekosistem hutan di Provinsi Sumatera Selatan, Jawa Tengah, Sulawesi Tengah, dan Papua. Pengambilan sampel nyamuk dilakukan dengan menggunakan metode human landing collection, animal bited trap, around cattle collection, resting morning dan light trap. Deteksi plasmodium dilakukan dengan Polymerase Chain Reaction (PCR) sedangan analisa pakan darah dilakukan dengan uji pakan darah metode Enzyme- linked immunosorbent assay (ELISA). Survei jentik dilakukan di tempat-tempat perkembangbiakan nyamuk. Spesies vektor malaria yang ditemukan di ekosistem hutan di Jawa Tengah adalah Anopheles maculatus, Anopheles aconitus, Anopheles vagus, Anopheles balabacensis, dan Anopheles subpictus. Spesies vektor malaria di ekosistem hutan di Sumatera Selatan adalah Anopheles nigerimus dan An. maculatus. Anopheles vektor malaria di lingkungan hutan di Sulawesi Tengah adalah Anopheles flavirostris, Anopheles barbirostris, Anopheles ludlowae dan An. vagus. Anopheles vektor malaria pada ekosistem hutan di Papua adalah Anopheles farauti, Anopheles koliensis, Anopheles punctulatus, dan Anopheles brancofti. Keberadaan hutan berisiko terjadinya penularan malaria di Provinsi Jawa Tengah, Sumatera Selatan, Sulawesi Selatan, dan Papua.
References
P2PTVZ. Situasi Terkini Perkembangan Program Pengendalian Malaria di Indonesia tahun 2017. Jakarta: P2PTVZ; 2017. 1-16 p.
Ariati J, Nurisa I, Perwitasari D. Sebaran Habitat Perkembangbiakan Larva Anopheles Spp di Kecamatan Bula, Kabupaten Seram Bagian Timur, Provinsi Maluku. Ekol Kesehat. 2014;13(1):10–22.
Ikawati B, Ustiawan A, Yusuf MU. Survei Entomologi dalam Rangka Kewaspadaan Dini Penularan Malaria di Desa Kendaga, Kecamatan Banjarmangu, Kabupaten Banjarnegara Tahun 2012. Balaba. 2013;9(2):33–8.
Kar NP, Kumar A, Singh OP, Carlton JM, Nanda N. A review of malaria transmission dynamics in forest ecosystems. Parasit Vectors [Internet]. 2014;7(1):265. Available from: http://www.ncbi.nlm. nih.gov/pubmed/24912923nhttp://www. pubmedcentral.nih.gov/articlerender. fcgi?artid=PMC4057614
B2P2VRP. Pokok-Pokok Hasil Uji Coba Tahun 2014. Salatiga: B2P2VRP Salatiga; 2014. 1-75 p.
Setiyaningsih R, Mujiyono, Siswoko SP, Risti, Maksud M, Sutoto TBT. Kepadatan Populasi dan Referensi Habitat Anopheles ludlowae di berbagai Ekosistem di Sulawesi Tengah. Vektora. 2016;8(2):53–60.
Don MR. Mosquitoes and Mosquitoes Deseses in Indonesia and their Control. Mosquitoes News. 1959;19(52):48–52.
B2P2VRP. Pedoman Pengumpulan Data Vektor (Nyamuk) di Lapangan. Salatiga: B2P2VRP; 2017.
Munif A, Rusmianto S, Aryati Y, Andris H. Konfirmasi Status Anopheles vagus sebagai Vektor Pendamping Saat Kejadian Luar Biasa Malaria di Kabupaten Sukabumi Indonesia. 2008. p. 689–96.
Lestari EW, Sukowati S, Soekidjo, Wigati R. Vektor malaria didaerah bukit menoreh, purworejo, jawa tengah. Media Litbang Kesehatan. 2007;1:30–5.
Kirnowardoyo S. Penelitian Vektor Malaria yang dilakukan oleh Institusi Kesehatan Tahun 1975-1990. BulPenelitKesehat. 1991;19:24–32.
Jastal, Wijaya Y, Wibawa T, Patonda M. Beberapa aspek Bionomik Vektor Malaria di Sulawesi Tengah. J Ekol Kesehat. 2003;vol 2(2):217–22.
Lasbudi P. Ambarita, Yulian Taviv, Dian Purnama, Betriyon.R, Irpan Pahlepi dan AS. Beberapa aspek bionomik (Lasbudi P, Yulian T, Dian P, Betriyon, R. Irpan P & Akhmad S). J Ekol Kesehat. 2009;10(4):229–38.
Kawulur H, Soesilohadi RCH, Hadisusanto S, Trisyono A. Perilaku Vektor Malaria Anopheles farauti Laveran (Diptera : Culicidae) di Ekosistem Pantai (Kabupaten Biak Numfor) Dan Ekosistem Rawa (Kabupaten Asmat) Provinsi Papua. Bioma. 2015;17(1):34–40.
Sandy S. Bionomi vektor malaria kelompok. 2014;10(01):47–52.
B2P2VRP. Laporan Rikhus Vektora Provinsi Jawa Tengah. Salatiga: B2P2VRP; 2015.
B2P2VRP. Laporan Rikhus Vektora Provinsi Sulawesi Tengah. Salatiga: B2P2VRP; 2015.
B2P2VRP. Laporan Rikhus Vektora Provinsi Papua. Salatiga: B2P2VRP; 2015.
World Health Organization. Malaria Entomology and Vector Control. World Health Organ. 2013;(July):192. 20. WHO. Manual on Pactical Entomology in Malaria. Geneva: WHO; 1975. 1-186 p.
Panthusiri, Rattanarithikul R, Prachong. Illustrated Keys to the Medically Important Mosquitoes of Thailand. Thailand; 1994. 1-66 p. 22. Reid JA. Anopheline Mosquitoes of Malaya and Borneo. Malaysia; 1968. 1-520 p.
Oconnor AS. Kunci Bergambar Nyamuk Anopheles Dewasa di Indonesia. Jakarta; 1999. 1-40 p.
Keven JB, Reimer L, Katusele M, Koimbu G, Vinit R, Vincent N, et al. Plasticity of Host Selection by Malaria Vectors of Papua New Guinea. Parasit Vectors [Internet]. 2017;10(1):95. Available from: http:// parasitesandvectors.biomedcentral.com/ articles/10.1186/s13071-017-2038-3
Burkot TR, Russell TL, Reimer LJ, Bugoro H, Beebe NW, Cooper RD, et al. Barrier Screens: A Method to Sample Blood-fed and Host-Seeking Exophilic Mosquitoes. Malar J. 2013;12(1):1–9.
Rohani A, Najdah WW, Zamree I, Azahari A, Noor IM, Rahimi H, et al. Habitat Characterization and Mapping of Anopheles maculatus (Theobald) Mosquito Larvae in Malaria Endemic Areas in Kuala Lipis, Pahang, Malaysia. Southeast Asian J Trop Med Public Heal. 2010;41(4):821–30.
Elyazar IRF, Sinka ME, Gething PW, Tarmidzi SN, Surya A, Kusriastuti R, et al. The Distribution and Bionomics of Anopheles malaria Vector Mosquitoes in Indonesia. 1st ed. Vol. 83, Advances in Parasitology. Elsevier Ltd.; 2013. 173-266 p.
Mading M, Kazwaini M. Ekologi Anopheles spp. di Kabupaten Lombok Tengah. ASPIRATOR - J Vector-borne Dis Stud. 2014;6(1):13–20.
Setiyaningsih R, Trapsilowati W, Mujiyono, Lasmiati. Pengendalian Vektor Malaria Daerah Endemis Kabupaten Purworejo Indonesia. Balaba. 2018;14(1):1–12.
Suwito, Hadi UK, Sigit SH, Sukowati S. Hubungan Iklim, Kepadatan Nyamuk Anopheles dan Kejadian Penyakit Malaria. J Entomol Indon. 2010;7(1):42–53.
Upatham ES, Prasittisuk C, Ratanatham S, Green CA, Rojanasunan W, Setakana P, et al. Bionomics of Anopheles maculatus Complex and Their Role In Malaria Transmission in Thailand. Southeast Asian J Trop Med Public Heal. 1988;19(2):259–69.
Subdirektorat Malaria KR. Data Endemisitas Malaria Per Kabupaten/Kota di Indonesia Tahun 2017 (Penyesuaian Kab/Kota Eliminasi Sampai Juni 2018). Jakarta: P2PTVZ; 2018.
Dinkes Kabupaten Purworejo. Laporan Kasus Malaria Kabupaten Purworejo Tahun 2014-2015. Purworejo: Dinkes Kabupaten Purworejo; 2015.
Istiqomah M, Syahrul F. Faktor Resiko Aktivitas, Mobilitas, dan Menggantung Pakaian Terhadap Kejadian Demam Berdarah pada Anak. J Keperawatan Muhammadiyah. 2016;1(2).
Kemenkes RI . Panduan Pemeliharaan Eliminasi Malaria. Jakarta: P2PTVZ; 2017. 1-28 p.
Adnyana NWD. Kejadian Malaria Terkait Lingkungan Pemukiman di Kabupaten Sumba Barat Provinsi Nusa Tenggara Timur. Ekol Kesehat. 2015;14(2):89–95.
Idrus M, Gestrudis G. Hubungan Faktor Individu dan Lingkungan Rumah dengan Kejadian Malaria di Puskesmas Koeloda Kecamatan Golewa Kabupaten Ngada Provinsi NTT. J Kesehat [Internet]. 2014;VII(2):386–95. Available from: http:// journal.uin-alauddin.ac.id/index.php/ kesehatan/article/view/58
Edalat H, Hassan Moosa-Kazemi S, Abolghasemi E, Khairandish S, Hassan Moosa-Kazemi S. Vectorial capacity and Age determination of Anopheles Stephens Liston (Diptera: Culicidae), during the malaria transmission in Southern Iran. J Entomol Zool Stud JEZS [Internet]. 2015;3(1):256– 63. Available from: www.entomoljournal. com
Sinka ME, Bangs MJ, Manguin S, Chareon- virlyaphap T, Pati AP, Temperley WH, et al. The Dominant Anopheles Vectors of Human Malaria in Africa, Europe and the Middle East: Occurrence Data, Distribution Maps and Bionomic Precis. Parasites and Vec- tors [Internet]. 2011;4(1). Available from: http://ovidsp.ovid.com/ovidweb.cgi?T=- JS&PAGE=reference&D=emed12&NEWS= N&AN=51180685
Ndoen E, Wild C, Dale P, Sipe N, Dale M. Relationships between Anopheline Mosqui- toes and Topography in West Timor and Java, Indonesia. Malar J. 2010;9(1):1–9.
Limrat D, Rojruthai B, Apiwathnasorn C, Sa- mung Y, Prommongkol S. Anopheles Barbi- rostris / Campestris as a Probable Vector of Malaria in Aranyaprathet Sa Kaeo Province. Southeast Asian J Trop Med Public Heal. 2001;32(4):739744.
Apiwathnasorn C, Prommongkol S, Sa- mung Y, Limrat D, Rojruthai B. Potential for Anopheles campestris (Diptera: Culici- dae) to Transmit Malaria Parasites in Pa Rai Subdistrict (Aranyaprathet, Sa Kaeo Prov- ince), Thailand. J Med Entomol [Internet]. 2002;39(4):583–6. Available from: https:// academic.oup.com/jme/article-lookup/ doi/10.1603/0022-2585-39.4.583
Atmosoedjono S, Partono F, Dennis DT, Pur- wanto. Anopheles barbirostris (Diptera; Cl- icidae) As a Vector of The Timor Filaria on Flores Island: Preliminary Observations. J Med Entomol. 1977;13(4):611–3.
Kementerian Kesehatan. Peraturan Menteri Kesehatan RI No 50 Tahun 2017 Tentang Standar Baku Mutu Kesehatan Lingkungan dan Persyaratan Kesehatan untuk Vektor dan Binatang Pembawa Penyakit Serta Pengen- daliannya. Jakarta: Kementerian Kesehatan; 2017.
Thongsahuan S, Baimai V, Junkum A, Sae- ung A, Min GS, Joshi D, et al. Susceptibility of Anopheles campestris-like and Anophe- les barbirostris Species Complexes to Plas- modium falciparum and Plasmodium vi- vax in Thailand. Mem Inst Oswaldo Cruz. 2011;106(1):105–12.
Alam MS, Khan MGM, Chaudhury N, Dolo- er S, Nazb F, Bangali AM, et al. Prevalence of Anopheline Species and Their Plasmodium Infection Status in Epidemic - prone border Areas of Bangladesh. Malar J. 2010;9(15):1– 8.
Widyastuti U, Boewono DT, Widiarti S, Satoto T. Kompetensi Vektorial Anopheles maculatus Theobald di Kecamatan Kokap, Kabupaten Kulon Progo. Media Litbangkes. 2013;23(2):47–57.
Shinta, Sukowati S, Pradana A, Marjianto, Marjana P. Beberapa Aspek Perilaku Anoph- eles maculatus Theobad di Pituruh, Kabupat- en Purworejo, Jawa Tengah. Bul Penelit Kes- ehat. 2013;41(3):131–41.
Sriwichai P, Samung Y, Sumruayphol S, Ki- attibutr K, Kumpitak C, Payakkapol A, et al. Natural Human Plasmodium Infections in Major Anopheles Mosquitoes in Western Thailand. Parasites and Vectors [Internet]. 2016;9(1):1–9. Available from: http://dx.doi. org/10.1186/s13071-016-1295-x
Dhimal M, Ahrens B, Kuch U. Species Com- position, Seasonal Occurrence, Habitat Pref- erence and Altitudinal Distribution of Malaria and Other Disease Vectors in Eastern Nepal. Parasit Vectors [Internet]. 2014;7(1):2–11. Available from: http://parasitesandvectors. biomedcentral.com/articles/10.1186/s13071- 014-0540-4
Taviv Y, Budiyanto A, Sitorus H, Ambar- ita LP, Mayasari R, Pahlepi RI. Sebaran Nyamuk Anopheles Pada Topografi Wilayah yang Berbeda di Provinsi Jambi. Media Lit- bangkes. 2015;25(2):1–8.
Qin Q, Li Y, Zhong D, Zhou N, Chang X, Li C, et al. Insecticide Resistance of Anopheles sinensis and An. vagus in Hainan Island, a malaria-endemic area of China. Parasites and Vectors. 2014;7(1):1–9.
Al-Amin HM, Elahi R, Mohon AN, Kafi MAH, Chakma S, Lord JS, et al. Role of Un- derappreciated Vectors in Malaria Transmis- sion in an Endemic Region of Bangladesh-In- dia border. Parasit Vectors. 2015;8:1–9.
Foley DH, Torres EP, Muller I, Bryan JH, Bell D. Host Dependent Anopheles flavi- rostris Larval Distribution Rainforces the Risk of Malaria Near Water. Trop Med. 2003;97:283–7.
Chang MC, Teng HJ, Chen CF, Chen YC, Jeng CR. The Resting Sites and Blood-meal Sources of Anopheles minimus in Taiwan. Malar J. 2008;7:1–8.
St. Laurent B, Supratman S, Asih PBS, Bretz D, Mueller J, Miller HC, et al. Behaviour and Molecular Identification of Anopheles Malaria Vectors in Jayapura District, Pap- ua Province, Indonesia. Malar J [Internet]. 2016;15(1):1–8. Available from: “http://dx. doi.org/10.1186/s12936-016-1234-5
Bugoro H, Hii JL, Butafa C, Iro’Ofa C, Apa- iramo A, Cooper RD, et al. The Bionomics of The Malaria Vector Anopheles farauti in Northern Guadalcanal, Solomon Islands: Is- sues for successful vector control. Malar J. 2014;13(1):1–7.
Shinta, Marjana P. Distribusi dan Perilaku Vektor Malaria di Kabupaten Merauke , Pap- ua. Bul Penelit Kesehat. 2015;43(4):219–30.
Bangs MJ, Rusmiarto S, Anthony RL, Wirtz RA, Subianto DB, Rusmiarto S, et al. Malar- ia Transmission by Anopheles punctulatus in the Hihlands of Irian Jaya, Indonesia. Ann Trop Med Parasitol. 2017;90(1):29–38.
Kweka EJ, Kimaro EE, Munga S, Veleepa- rambil MM. Effect of Deforestation and Land Use Changes on Mosquito Productivity and Development in Western Kenya Highlands: Implication for Malaria Risk. Front Public Heal. 2016;4(October):1–9.
