Purpose: This study aimed to determine the relationship of the container environment's type and condition to the existence of Aedes sp larvae in Tanjungpinang Timur District.

Methods: An observational study with a cross-sectional approach involved 401 houses with containers in Tanjungpinang Timur District, Tanjungpinang City. Data on the existence of larvae was performed using the single larvae method. Data on container type and container environmental conditions (water pH, water temperature, air temperature, air humidity) and larvae's presence were collected by observing and measuring.

Results: 863 containers were observed, 138 of them (15.99%) were found larvae of Aedes sp, containers inside the house (65.57%), and not closed (88.53%). The types of containers were controllable sites (95.13%), disposable sites (3.36%), and under controllable sites (1.51%). The measurement of water pH (76.13%) and water temperature (82.73%) of the containers were categorized as good. Container temperature 98.38% showed results with a range of unfavorable conditions (<200C &> 300C) and air humidity of 99.07% with a range (<81.5% &> 89.5%). Type, location, condition of container closure, water pH, water temperature, and air temperature of containers were related to larvae in Tanjungpinang Timur District (p-value <0.05), while the variable humidity was not related to the existence of larvae. 

Conclusion: Physical environmental factors strongly support the reproduction of DHF vectors in the East Tanjungpinang District. It is necessary to increase public knowledge and routine home eradication of mosquito nests (PSN), especially controllable site containers widely used as water reservoirs.

1. Dengue Bulletin. 2009.
2. Opena ELL, Baguio ML, Guillena J. Prevalence of Dengue Fever (DF) and Dengue Hemorrhagic Fever (DHF): A Description and Forecasting in Iligan City, Philippines. 2013.
3. Talle M. B and M. The Effect of Climate on Dengue Virus Infections in Nigeria. 2011.
4. Kemenkes RI. Profil kesehatan Indonesia. Jakarta: Kemenkes RI. 2019.
5. Profil Kesehatan Provinsi Kepulauan Riau. 2019.
6. Dinas Kesehatan Kota Tanjungpinang. Situasi DBD di Kota Tanjungpinang. 2019.
7. Kementerian Kesehatan RI. Modul Pengendalian Demam Berdarah Dengue. 2011.
8. Focks DA, Others. A review of entomological sampling methods and indicators for dengue vectors. World Health Organization; 2004.
9. Danis-Lozano R, Rodríguez MH, Hernández-Avila M. Gender-related family head schooling and Aedes aegypti larval breeding risk in southern Mexico. Salud Publica Mex. 2002;44: 237–242.
10. Ridha MR, Rahayu N, Rosvita NA, Setyaningtyas DE. The relation of environmental condition and container to the existance of the Aedes aegypti larvae in dengue haemorrhagic fever endemic areas in Banjarbaru. Epidemiol dan penyakit bersumber binatang. 2013;4: 133–137.
11. Pratiwi TY, Anwar MC, Utomo B. Hubungan karakteristik tempat penampungan air dan perilaku masyarakat dengan keberadaan jentik Aedes aegypti di Kelurahan Karangklesem, Kecamatan …. Buletin Keslingmas. 2018.
12. Azizah FN, Hermawati E, Susanna D. Menguras dan menutup sebagai prediktor keberadaan jentik pada kontainer air di rumah. Berita Kedokteran Masyarakat. 2018;34: 242–247.
13. Putri MD, Adrial A, Irawati L. Hubungan Tindakan Pemberantasan Sarang Nyamuk (PSN) dengan Keberadaan Jentik Vektor Chikungunya di Kampung Taratak Paneh Kota Padang. Jurnal Kesehatan Andalas. 2016;5.
14. Barrera R, Amador M, Clark GG. Ecological factors influencing Aedes aegypti (Diptera: Culicidae) productivity in artificial containers in Salinas, Puerto Rico. J Med Entomol. 2006;43: 484–492.
15. Putra YC, Suharyo S. Hubungan Antara Kondisi Lingkungan Dengan Keberadaan Jentik Aedes aegypti Di Home Industry Meubel Kayu Desa Ngasem Kecamatan Batealit Kabupaten Jepara Tahun 2017UL Yogi Catur Putra*), Suharyo*)*). VISIKES: Jurnal Kesehatan Masyarakat. 2019;18.
16. Farhana M, , Mitoriana Porusia, S.K.M, M. Sc. Gambaran pH Air, Temperatur Air, Salinitas Air, dan Tempat Perindukan Nyamuk Aedes sp di Kelurahan Kadipiro Kota Surakarta. s1, Universitas Muhammadiyah Surakarta. 2020.
17. Fauziah NF. Karakteristik Sumur Gali dan Keberadaan Jentik Nyamuk Aedes Aegypti. KEMAS: Jurnal Kesehatan Masyarakat. 2012;8: 81–87.
18. McMichael AJ, Woodruff RE, Hales S. Climate change and human health: present and future risks. Lancet. 2006;367: 859–869.
19. Sallata MHE, Ibrahim E, Selomo M. Hubungan karakteristik lingkungan fisik dan kimia dengan keberadaan larva Aedes aegypti di wilayah endemis DBD Kota Makassar. Makassar, Universitas Hasanuddin. 2014.
20. Sugito R. Aspek entomologi demam berdarah dengue. Direktorat Jenderal PPM dan PLP Departemen Kesehatan. 1989.
21. Setyaningrum VE, Evita Setyaningrum V, Purwandari A, Sudio, Hasanbasri M. Village based geographic spatial display of puskesmas data and villagers awareness campaign in dengue hemorrhagic fever (DHF): Lesson from Sleman. Journal of the Medical Sciences (Berkala Ilmu Kedokteran). 2018.