Dengue Hemorrhagic Fever (DHF) is one of the environmental health problems that several case increasing the number of patients and the wider area of distribution. The spread of dengue is influenced by several factors such as the vector disease, the behavior of people and the environment. In some sub-tropical countries is like  in the winter season , a number of   Aedes albopictus is found the eggs can still hatch at temperatures 0,5◦C. Eggs that will be tested for each treatment amounted to 100 eggs and had been through the process selected.  The research carried in Parasitology and Entomology Labolatories, South Sumatra. The research was conducted from March to December 2014. In a multivariate test showed that the interaction of temperature and storage time affect the hatchability of eggs of Aedes aegypti strain Japan. Humidity and temperature can influence one of the insects are mosquitoes. At a certain temperature and humidity mosquitoes can not do the lifecycle and inhibite the morfology. The conclusion of this research is the cold storage and extreme temperature influence to eggs hacthingof Strain Japan the Aedes aegypti. Suggestions in this research is the public should continue to implement programs 3M plus, due to the Aedes eggs can survive in cold weather.

Aedes aegypt Strain Japan, Egg, Hatching, Estreme Temperature, Storage Time

Arslan, A., Muchtar, M., Mushtag, S., Zakky, A., Hammad, M., & Bhatti, A. (2015). Arslan A, Muchtar MU, Mushtag S, Zakky AB, Hammad M dan Bhatti A. Comparison of Suscepbility Status of Labolatory and Field Populations of Aedes aegypti Against Temephos in Rawalpindi. Journal of Entomology and Zoology Studies, Vol 3(4): p 374-378.

Chakraborty, A., & Chatterjee, S. (2015). Studies on the Fitness Component and Comparative Ovipotition Preferences of Aedes albopictus in West Bengal. International Journal of Mosquitoes Research, Vol 2(3):156–160. .

Eisen, L., Monaghan, A., Fuentes, S., Steinhoff, D., Hayden, M., & Bieriner, P. (2014). The Impact of Temperature on The Bionomic of Aedes aegypti .Journal of Medical Entomology. 2014;51(3):496-516. Journal of Medical Entomology, Vol 51(3): p 496-516.

Garzon, M., Jensen, O., & Sweighmaan. (2013 ). Resistance to Freezing Temperatur in Aedes Eggs from Two Different Climate in Several Areas Argentine. Journal of Vector Ecology, Vol 38(2): p 339-344.

Lahturohmi, H., Wahyuningsih, N., & Murwani, R. (2016). Lahturohmi HPH, Wahyuningsih NE dan Murwani R. Hubungan Perilaku Penggunaan Insektisida, Perilaku 3M dan Keberadaan Breeding Place dengan Kejadian DBD di Kota Semarang. Jurnal Kesehatan Masyarakat, Vol 4(4): p 933-942.

Lifdall, T., & Edgerly, J. (2014). Lifdall TP dan Edgerly JS. Egg Hatching Inhibition: Field Evidence for Population Regulation in a Treehole Mosquito. Ecological Entomology Journal. 2014;12:395-399. Ecological Entomology Journal, Vol 12: p 395-399.

Lucia, Y., Erniwati, I., & Bintara, A. (2010 ). Hubungan Karakteristik Lingkungan Kimia dan Biologi dengan Keberadaan Larva Aedes aegypti di Wilayah Endemis DBD diKota Makasar tahun 2013. Majalah Parasitologi Indonesia, Vol 6(1): p 31-45.

Makara, M., Ngumbi, P., & Lee, D. (2015). Effects of Temperature on the Growth and Development Mosquitoes. Journal of Pharmacy and Biological Sciences, Vol 10(6): p 1-10.

Ramasamy, R., Jude, P., Vellupilai, L., Eswaromohan, E., & Surendran, S. (2014). Biological Differences between Brackish and Fresh Water Derived Aedes aegepty. Jurnal Plosone, Vol 9(8):p 1-10.

Wang, C., Teng, H., Lee, S., Lin, C., Wu, J., & Wu, H. (2013). Efficasy of Various Larvacides AgainstAedes aegypti Immatures in Labolatory. Japan Journal Infectious Disease, Vol 66(4): p 341-344.

Widyastuti, D., & Marbawati, D. (2016). Efek Larvasida Bakteri Kitininolitik Dari Limbah Kulit Uang Terhadap Larva Aedes aegypti. Jurnal Aspirator, Vol 8(1): p 47-54.