SERANGGA

Entomological surveillance based on larval surveys, provides vital information for dengue management. In addition, the knowledge on breeding habitat of Aedes species is crucial to provide better understanding of their population densities and distribution. The larval surveillance method was conducted in ten outbreak areas in Tangkak District, Johore, Malaysia. The larval surveillance indices; House Index (HI), Container Index (CI), and Breteau Index (BI) were evaluated to measure the density of Aedes mosquito population. Then, habitat characterization was analyzed by calculating the prevalence, productivity and efficiency of the collected container. Approximately 1163 houses were inspected in Tangkak District and 86 (7.4%) houses were classified as positive premise. The highest HI were found in Taman Sialang (HI: 25 %) meanwhile the highest CI was recorded at Taman Jalan Ong Siong (CI: 71.4%). Eight out of 10 localities were found exceed the BI threshold value of 5%. The highest BI was logged in Taman Sialang (BI: 70%). Ae. albopictus represent 58% of the collected larvae meanwhile another 42% was Ae. aegypti. Some of the most effective container that contribute to the Aedes breeding in the study area were CID2: Flower pot, CID3: Plastic scrap, and CID4: Pail, with the productivity of 30%, 27%, and 19.8%, respectively. However, only CID2 and CID3 indicate higher prevalence of Aedes larvae with container prevalence of 31.1% and 26.9% respectively. In overall, CID2 was found to be the most preferred container for Aedes breeding since this container record the highest container efficiency (CE) value of 9.6%. The findings of this study could assist the health authority in the early prevention and control of dengue outbreak in Tangkak, Johor. 

Basker, P., Kannan, P., Porkaipandian, R.T., Saravanan, S., Sridharan, S. & Kadhiresan, M. 2013. Study on entomological surveillance and its significance during a dengue outbreak in the District of Tirunelveli in Tamil Nadu, India. Osong Public Health and Research Perspectives 4(3): 152-158.

Boissière, A., Tchioffo, M.T., Bachar, D., Abate, L., Marie, A., Nsango, S.E., Shahbazkia, H.R., Awono-Ambene, P.H., Levashina, E.A., Christen, R. & Morlais, I. 2012. Midgut microbiota of the malaria mosquito vector Anopheles gambiae and interactions with Plasmodium falciparum infection. PLoS Pathogens 8(5): e1002742.

Dejenie, T., Yohannes, M. & Assmelash, T. 2011. Characterization of mosquito breeding sites in and in the vicinity of tigray microdams. Ethiopian Journal of Health Sciences 21(1): 57-66.

Dom, N.C., Madzlan, M.F., Nur, S., Hasnan, A. & Misran, N. 2016. Water quality characteristics of dengue vectors breeding containers. International Journal of Mosquito Research 3(1): 25-9.

Dunbar, M.W., Correa-Morales, F., Dzul-Manzanilla, F., Medina-Barreiro, A., Bibiano-Marín, W., Morales-Ríos, E., Vadillo-Sánchez, J., López-Monroy, B., Ritchie, S.A., Lenhart, A. & Manrique-Saide, P. 2019. Efficacy of novel indoor residual spraying methods targeting pyrethroid-resistant Aedes aegypti within experimental houses. PLoS Neglected Tropical Diseases 13(2): e0007203.

Elia-Amira, N.M.R., Chen, C.D., Lau, K.W., Low, V.L., Lee, H.L., Cyril-Tham, Y.S. & Sofian-Azirun, M. 2019. Dengue vector surveillance in West Coast and Kudat division, Sabah, Malaysia. Southeast Asian Journal of Tropical Medicine and Public Health 50(1): 55-63.

Getachew, D., Tekie, H., Gebre-Michael, T., Balkew, M. & Mesfin, A. 2015. Breeding sites of Aedes aegypti: potential dengue vectors in Dire Dawa, East Ethiopia. Interdisciplinary Perspectives on Infectious Diseases. 2015:706276. doi: 10.1155/2015/706276.

Lau, K.W., Chen, C.D., Lee, H.L., Izzul, A.A., Asri-Isa, M., Zulfadli, M. & Sofian-Azirun, M. 2013. Vertical distribution of Aedes mosquitoes in multiple storey buildings in Selangor and Kuala Lumpur, Malaysia. Tropical Biomedicine 30(1): 36-45.

iDengue. 2020. Statistik Kes Denggi Malaysia. https://idengue.mysa.gov.my/pdf/statistik.pdf#page=3 [20 December 2020].

Madzlan, F., Dom, N.C., Zakaria, N., Hasnan, S.N.A., Tiong, C.S. & Camalxaman, S.N. 2018. Profiling of dengue vectors breeding habitat at urban residential areas in Shah Alam, Malaysia. Serangga 22(2): 185-216.

MOH (Ministry of Health Malaysia). 2012. Garis panduan pencegahan dan kawalan penyakit. https://www.moh.gov.my/moh [20 December 2020].

MOH (Ministry of Health Malaysia). 2018. Laporan Denggi Tahunan Pejabat Kesihatan Daerah Tangkak, Johor.

https://jknjohor.moh.gov.my/bmv/ [20 December 2020].

Rozilawati, H., Tanaselvi, K., Nazni, W.A., Masri, S.M., Zairi, J., Adanan, C.R. & Lee, H.L. 2015. Surveillance of Aedes albopictus Skuse breeding preference in selected dengue outbreak localities, Peninsular Malaysia. Trop Biomed. 32(1): 49-64.

Rufalco, M.P., Schweigmann, N., Bergamaschi, D.P. & Sallum, M.A.M. 2016. Larval habitats of Anopheles species in a rural settlement on the malaria frontier of southwest Amazon, Brazil. Acta Tropica 164: 243-258.

Sahay, S. 2018. Climatic variability and dengue risk in urban environment of Delhi (India). Urban Climate 24: 863-874.

Saifur, R.G., Hassan, A.A., Dieng, H., Ahmad, H., Salmah, M.R.C., Satho, T., Saad, A.R. & Vargas, R.E.M. 2012. Update on temporal and spatial abundance of dengue vectors in Penang, Malaysia. Journal of the American Mosquito Control Association 28(2): 84-92.

Saleeza, S.N.R., Norma-Rashid, Y. & Sofian-Azirun, M. 2013. Mosquito species and outdoor breeding places in residential areas in Malaysia. Southeast Asian Journal of Tropical Medicine and Public Health 44(6): 963-969.

Seng, C.M. & Jute, N. 1994. Breeding of Aedes aegypti (L.) and Aedes albopictus (Skuse) in urban housing of Sibu town, Sarawak. Southeast Asian Journal of Tropical Medicine and Public Health 25: 543-543.

Sunahara, T., Ishizaka, K. & Mogi, M. 2002. Habitat size: a factor determining the opportunity for encounters between mosquito larvae and aquatic predators. Journal of Vector Ecology 27: 8-20.

WHO (World Health Organization). 2020. Dengue control; vector surveillance. https://www.who.int/denguecontrol/monitoring/vector_surveillance/en/ [20 December 2020].

WHO (World Health Organization) 2011. Operational guide for assessing the productivity of Aedes aegypti breeding site.

https://www.who.int/tdr/publications/tdr-research-publications/sop-pupal-surveys/en/ [20 December 2020].

Yusof, M.M., Dom, N.C. & Zainuddin, A. 2017. Spatial pattern distribution of dengue fever in sub-urban area using GIS tools. Serangga 21(2): 127-148.