Abstract Vector control that used insecticides need to be substituted, because it has a negative impact for the environment and have been resistance for some areas, so it was necessary to find alternative insecticides. One of the natural insecticides was tobacco (Nicotiana tabacum). The chemical content of tobacco leaves included alkaloids, saponins, and flavonoids. Nicotine was an alkaloid group compound in tobacco, thatwas a nerve poison that reacts quickly and can act as a contact poison in insects, to add the effectiveness it’s necessary change to nano particle with silver. Besides, this test used two solvents with different contains of mineral to compare the effectiveness. This study aimed to test effication of nanoinsecticide from formulation tobacco (Nicotiana tabacum) and silver particle for vector control of larvae Ae.aegypti. It was held at the Center for Research and Development of Disease Vector and Reservoir (B2P2VRP) with an experimental method. The results of the study showed 1,153 ppm LC50, 1,719 ppm LC90 and 1,925 ppm LC90 on solvent distilled water. LC50 of 1,641 ppm, LC90 of 10,741 ppm and LC90 of 18,295 ppm in solvent aquademineralization. Measurements of tobacco nanoinsecticides are known to be 89,2 – 112,0 run in aquadest and 89,2 -112,0 μm in aquademineralization solvents 79,0 – 143,7μm. Abstrak Pengendalian vektor menggunakan insektisida kimiawi perlu disubstisusi karena berdampak buruk pada lingkungan dan menyebabkan resistensi di beberapa daerah, sehingga perlu untuk mendapatkan insektisida alternatif yang ramah lingkungan. Salah satu tanaman insektisida alam, adalah tembakau (Nicotiana tabacum). Kandungan kimia tembakau meliputi alkaloid, saponin, dan flavanoid. Nikotin termasuk senyawa alkaloid dalam tembakau merupakan racun syaraf dengan reaksi cepat serta dapat berfungsi sebagai racun kontak serangga. Namun, untuk menambah daya bunuhnya sebagai larvasida maka ukuran partikel alkaloid perlu dipecah contohnya dengan penambahan perak. Pemilihan perak sebagai pembentuk molekul nano, sedangkan pelarut yang digunakan yaitu akuades dan akuademineralisasi. Kedua pelarut yang digunakan merupakan pelarut standar yang mempunyai daya kelarutan tinggi dengan perbedaan kandungan mineral. Penelitian ini bertujuan untuk uji efikasi nanoinsektisida tembakau (Nicotiana tabacum) yang diformulasikan dengan perak sebagai sarana pengendalian Aedes aegypti stadium pradewasa. Penelitian dilaksanakan di Balai Besar Penelitian dan Pengembangan Vektor dan Reservoir Penyakit (B2P2VRP) dengan metode eksperimental murni. Hasil penelitian didapatkan LC50 1,153 ppm, LC90 1,719 ppm pada pelarut akuademineraliasi dan LC90 1,925 ppm pada pelarut akuades. LC50 1,641 ppm, LC90 10,741 ppm dan LC90 18,295 ppm pada pelarut akuademineralisasi. Pengukuran partikel nanoinsektisida daun tembakau diketahui berukuran 89,2 - 112,0 nm pada pelarut akuades dan 89,2 -112,0 nm pada pelarut akuademineralisasi 79,0 - 143,7nm.
Abstract. Nugroho SS, Ayuningrum FD, Setyaningsih RS, Astutu UNW. 2020. A revised checklist of mosquitoes Genus Coquillettidia Dyar, 1905 (Diptera: Culicidae) from Indonesia with key to species. Biodiversitas 21: 5772-5777. Mosquito species from Genus Coquillettidia are mostly found in Afrotropic Region, with some species distributed in the Oriental and Australasian Region including Indonesia. Some species are confirmed as the vector for human pathogens. As previous research stated that up to 1981, there were eight species of Coquillettidia that have been on the checklist of mosquitoes in Indonesia. Nowadays, eleven Coquillettidia species present in Indonesia entirely included in Subgenus Coquillettidia. Three species were added to the checklist, namely Cq. fuscopteron Theobald, Cq. novochracea Barraud, and Cq. xanthogaster Edwards. Research and publication about Genus Coquillettidia in Indonesia are still rare, besides that, the identification key of Coquillettidia female mosquito in Indonesia has never been published before. This paper intended to deliver information about the species checklist and distribution of Genus Coquillettidia in Indonesia and provide a species identification key for female mosquitoes.
Background: Anopheles maculatus is one of the mosquito species that has been confirmed as a malaria vector in Indonesia. The potential of a mosquito as a vector is influenced by its behavior. Information on the distribution and behavior of An. maculatus needs to be carried out to determine the potential for malaria transmission transmitted by the species in an area. The study aimed to obtain information on the distribution, behavior, and potential of maculatus as a malaria vector in several provinces in Indonesia. Method: Mosquito collection was carried out using human-landing collection, animal-baited trap, cattle-bait, light-trap, and resting morning. A survey of mosquitoes was carried out in 29 provinces in Indonesia. Mosquitoes were identified for the species and detected the blood-sucking behavior with an Enzyme-linked immunosorbent assay and the presence of Plasmodium using a Polymerase Chain Reaction. Results: The results showed that An. maculatus was found in the Riau Islands, Lampung, Bangka Belitung, West Java, Central Java, East Java, and Central Sulawesi. Anopheles maculatus has known to suck the blood of humans and animals with a predominance of animals. Anopheles maculatus is also known to suck blood outdoors predominantly. In general, the activity of An. maculatus sucking blood begins around 18.00 in the evening. Central Java Province was the province with the highest density of An. maculatus mosquitoes, thereby increasing the potential for transmission of malaria cases. Conclusion: Anopheles maculatus was spread in Riau Islands, Lampung, Bangka Belitung, West Java, Central Java, East Java, and Central Sulawesi. This species was known to suck the blood of people and humans, and its blood-sucking activity starts around 18.00 in the evening.
Mansonia is a genus of mosquitoes of which several species are confirmed vectors of lymphatic filariasis. Many countries including Indonesia are still struggling to eliminate lymphatic filariasis. Report of the Mansonia mosquito diversity and its distribution is essential to develop the control strategies. Six of eight Mansonia species have been confirmed as lymphatic filariasis vectors in Indonesia. This paper aims to update the distribution of the Mansonia mosquito in Indonesia. Species distribution data were summarized from various literature regarding the Mansonia mosquito. The data is complemented by the results of the National Research on Disease Vector and Reservoir (Rikhus Vektora) results conducted by the National Institute of Health Research and Development (NIHRD) in 2015-2018. There were new distribution records for four species of Mansonia mosquitoes in Indonesia. Mansonia annulata Leicester, Ma. annulifera (Theobald), and Ma. indiana Edwards are now recorded distributed throughout the archipelago. Meanwhile, Ma. bonneae Edwards has a new distribution record in the Moluccas. The illustrated identification key for female Mansonia mosquitoes in Indonesia is provided in this paper.
Culex quinquefasciatus is a mosquito known as Japanese encephalitis (JE) vector in several regions in Indonesia. The bioecological study is essential to optimize the vector control of JE. The purpose of the study was to obtain the ecological information of Cx. quinquefasciatus in 15 provinces in Indonesia: Aceh, West Sumatra, Lampung, Bangka Belitung, Banten, West and East Java, West and South Kalimantan, North and Southeast Sulawesi, East and West Nusa Tenggara, Maluku, and North Maluku. Mosquitoes were collected using the human landing catches (HLCs), light trap, and morning resting collection. The larva survey was conducted in potential habitats of Cx. quinquefasciatus. The mosquito was detected for the JE virus using the polymerase chain reaction (PCR) method. The distribution of Cx. quinquefasciatus was recorded using a GPS tool and visualized using Global Mapper. The results showed that Cx. quinquefasciatus in 15 provinces had similar behavior. The Cx. quinquefasciatus sucked blood indoors and was found throughout the night. Peak density of Cx. quinquefasciatus varies by province. Cx. quinquefasciatus breeding places are found in most ecosystems in various altitudes. Based on PCR examination, the JE virus has not been detected, thus lowering the potential for JE transmission in some provinces in Indonesia.
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