Correlation of Container Characteristic, Water-Container Draining Practice, and the Ownership Status of Residence with the Presence of Aedes Sp Larvae in Tembalang, Semarang

Anggie Praditya Aprisa; Martini Martini; Dian Saraswati Lintang

doi:10.1051/e3sconf/20187306017

All issues

Volume 73 (2018)

E3S Web Conf., 73 (2018) 06017

References

Open Access

Issue		E3S Web Conf. Volume 73, 2018 The 3^rd International Conference on Energy, Environmental and Information System (ICENIS 2018)


Article Number		06017
Number of page(s)		4
Section		Environmental Health, Toxicology and Epidemiology
DOI		https://doi.org/10.1051/e3sconf/20187306017
Published online		21 December 2018

B. F. Eldridge, J. D. Edman, and A. C. Moncayo, “<I>Medical Entomology: A Textbook on Public Health and Veterinary Problems Caused by Arthropods</I>,” J. Med. Entomol., 2001. [Google Scholar]
WHO, “Global Strategy for Dengue Prevention and Control 2012-2020,” World Heal. Organiszation, p. 43, 2012. [Google Scholar]
M. R. Ridha, N. Rahayu, N. A. Rosvita, and D. E. Setyaningtyas, “The relation of environmental condition and container to the existance of the Aedes aegypti larvae in dengue haemorrhagic fever endemic areas in Banjarbaru,” J. Epidemiol. dan Penyakit Bersumber Binatang (Epidemiology Zoonosis Journal), 2013. [Google Scholar]
Centers for Disease Control and Prevention, “Surveillance and Control of Aedes aegypti and Aedes albopictus in the United States,” Centers Dis. Control Prev. - CDC, pp. 1–16, 2016. [Google Scholar]
Ministry of Health Republic of Indonesia, Pedoman Survei Entomologi Demam Berdarah Dengue. 2002. [Google Scholar]
F. Ferdousi, S. Yoshimatsu, E. Ma, N. Sohel, and Y. Wagatsuma, “Identification of Essential Containers for Aedes Larval Breeding to Control Dengue in Dhaka, Bangladesh,” Trop. Med. Health, vol. 43, No. 4, pp. 253–264, 2015. [CrossRef] [Google Scholar]
W. Trapsilowati, L. Susanti, and A. Pujiyanti, “Gambaran kemudahan memperoleh air dan sarana penyimpanan air terhadap kasus DBD di Kota Semarang, Kabupaten Wonosobo, dan Kabupaten Jepara,” J. Vektora, 2009. [Google Scholar]
M. S. Meilson H.E. Sallata, Erniwati Ibrahim, “Hubungan Karakteristik Lingkungan Fisik dan Kimia dengan Keberadaan Larva Aedes aegypti di Wilayah Endemis DBD Kota Makassar,” Bagian Kesehat. Lingkung. Fak. Kesehat. Masy. Univ. Hasanuddin, 2013. [Google Scholar]
M. R. Dibo, A. P. Chierotti, M. S. Ferrari, A. L. Mendonca, and F. C. Neto, “Study of the relationship between Aedes (Stegomyia) aegypti egg and adult densities, dengue fever and climate in Mirassol, state of Sao Paulo, Brazil,” Mem. Inst. Oswaldo Cruz, 2008. [Google Scholar]
J. D. Zeidler, P. O. Amezaga Acosta, P. P. Barreto, and J. D. S. Cordeiro, “Virus dengue em larvas de Aedes aegypti e sua dinamica de infestacao, Roraima, Brasil,” Rev. Saude Publica, 2008. [Google Scholar]
C. Favier, N. Degallier, P. D. T. Ribeiro Vilarinhos, M. D. S. Laurentino De Carvalho, M. A. Cavalcanti Yoshizawa, and M. B. Knox, “Effects of climate and different management strategies on Aedes aegypti breeding sites: A longitudinal survey in Brasilia (DF, Brazil),” Trop. Med. Int. Heal., 2006. [Google Scholar]
C. J. M. Koenraadt, J. W. Jones, R. Sithiprasasna, and T. W. Scott, “Standardizing container classification for immature Aedes aegypti surveillance in Kamphaeng Phet, Thailand.,” J. Med. Entomol., 2007. [Google Scholar]
R. Maciel-De-Freitas, C. T. Codeco, and R. Lourenco-De-Oliveira, “Daily survival rates and dispersal of Aedes aegypti females in Rio de Janeiro, Brazil,” Am. J. Trop. Med. Hyg., 2007. [Google Scholar]
D. Getachew, H. Tekie, T. Gebre-Michael, M. Balkew, and A. Mesfin, “Breeding sites of aedes aegypti: Potential dengue vectors in dire Dawa, east Ethiopia,” Interdiscip. Perspect. Infect. Dis., vol. 2015, 2015. [CrossRef] [Google Scholar]
F. Ningsih and I. J. Zakaria, “The microhabitat preferences of mosquito genus Aedes ( Diptera: Culicidae ) in Padang , West Sumatra , Indonesia,” vol. 3, No. 5, pp. 36–40, 2016. [Google Scholar]
S. Badrah and N. Hidayah, “Hubungan Antara Tempat Perindukan Nyamuk Aedes aegypti dengan Kasus Demam Berdarah Dengue di Kelurahan Penajam Kecamatan Penajam Kabupaten Penajam Utara,” J. Trop. Pharm., 2011. [Google Scholar]
H. J. Overgaard et al., “A cross-sectional survey of Aedes aegypti immature abundance in urban and rural household containers in central Colombia,” Parasites and Vectors, vol. 10, No. 1, pp. 1–12, 2017. [CrossRef] [Google Scholar]
A. A. Arsunan and E. Ibrahim, “Analysis Relationship and Mapping of the Environmental Factors with the Existence of Mosquito Larva Aedes aegypti in the Endemic Area of Dengue Fever, Makassar, Indonesia,” Int J Curr Res Aca Rev, vol. 2, No. 11, pp. 1–9, 2014. [Google Scholar]
J. Yasuoka and R. Levins, “Ecology of vector mosquitoes in Sri Lanka - Suggestions for future mosquito control in rice ecosystems,” Southeast Asian J. Trop. Med. Public Health, vol. 38, No. 4, pp. 646–657, 2007. [Google Scholar]
R. Yudhastuti and A. Vidiyani, “Hubungan Kondisi Lingkungan, Kontainer, Dan Perilaku Masyarakat Dengan Keberadaan Jentik Nyamuk Aedes Aegypti di Daerah Endemis Demam Berdarah Dengue Surabaya,” J. Kesehat. Lingkung. , 2005. [Google Scholar]
M. U. Riandi, U. K. Hadi, and S. Soviana, “Karakteristik Habitat dan Keberadaan Larva Aedes spp pada Wilayah Kasus Demam Berdarah Dengue Tertinggi dan Terendah di Kota Tasikmalaya,” Aspirator, vol. 9, No. 1, pp. 43–50, 2017. [Google Scholar]
J. A. MartiNez Ibarra, Y. G. Guillen, J. I. Arredondo-Jimenez, and M. H. Rodriguez-Lopez, “Indigenous fish species for the control of Aedes aegypti in water storage tanks in Southern Mexico,” BioControl, vol. 47, No. 4, pp. 481–486, 2002. [CrossRef] [Google Scholar]
D. K. Lee, “Predation efficacy of the fish muddy loach, Misgurnus mizolepis, against Aedes and Culex mosquitoes in laboratory and small rice plots,” J Am Mosq Control Assoc, 2000. [Google Scholar]

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[1] B. F. Eldridge, J. D. Edman, and A. C. Moncayo, “<I>Medical Entomology: A Textbook on Public Health and Veterinary Problems Caused by Arthropods</I>,” J. Med. Entomol., 2001. [Google Scholar]

[2] WHO, “Global Strategy for Dengue Prevention and Control 2012-2020,” World Heal. Organiszation, p. 43, 2012. [Google Scholar]

[3] M. R. Ridha, N. Rahayu, N. A. Rosvita, and D. E. Setyaningtyas, “The relation of environmental condition and container to the existance of the Aedes aegypti larvae in dengue haemorrhagic fever endemic areas in Banjarbaru,” J. Epidemiol. dan Penyakit Bersumber Binatang (Epidemiology Zoonosis Journal), 2013. [Google Scholar]

[4] Centers for Disease Control and Prevention, “Surveillance and Control of Aedes aegypti and Aedes albopictus in the United States,” Centers Dis. Control Prev. - CDC, pp. 1–16, 2016. [Google Scholar]

[5] Ministry of Health Republic of Indonesia, Pedoman Survei Entomologi Demam Berdarah Dengue. 2002. [Google Scholar]

[6] F. Ferdousi, S. Yoshimatsu, E. Ma, N. Sohel, and Y. Wagatsuma, “Identification of Essential Containers for Aedes Larval Breeding to Control Dengue in Dhaka, Bangladesh,” Trop. Med. Health, vol. 43, No. 4, pp. 253–264, 2015. [CrossRef] [Google Scholar]

[7] W. Trapsilowati, L. Susanti, and A. Pujiyanti, “Gambaran kemudahan memperoleh air dan sarana penyimpanan air terhadap kasus DBD di Kota Semarang, Kabupaten Wonosobo, dan Kabupaten Jepara,” J. Vektora, 2009. [Google Scholar]

[8] M. S. Meilson H.E. Sallata, Erniwati Ibrahim, “Hubungan Karakteristik Lingkungan Fisik dan Kimia dengan Keberadaan Larva Aedes aegypti di Wilayah Endemis DBD Kota Makassar,” Bagian Kesehat. Lingkung. Fak. Kesehat. Masy. Univ. Hasanuddin, 2013. [Google Scholar]

[9] M. R. Dibo, A. P. Chierotti, M. S. Ferrari, A. L. Mendonca, and F. C. Neto, “Study of the relationship between Aedes (Stegomyia) aegypti egg and adult densities, dengue fever and climate in Mirassol, state of Sao Paulo, Brazil,” Mem. Inst. Oswaldo Cruz, 2008. [Google Scholar]

[10] J. D. Zeidler, P. O. Amezaga Acosta, P. P. Barreto, and J. D. S. Cordeiro, “Virus dengue em larvas de Aedes aegypti e sua dinamica de infestacao, Roraima, Brasil,” Rev. Saude Publica, 2008. [Google Scholar]

[11] C. Favier, N. Degallier, P. D. T. Ribeiro Vilarinhos, M. D. S. Laurentino De Carvalho, M. A. Cavalcanti Yoshizawa, and M. B. Knox, “Effects of climate and different management strategies on Aedes aegypti breeding sites: A longitudinal survey in Brasilia (DF, Brazil),” Trop. Med. Int. Heal., 2006. [Google Scholar]

[12] C. J. M. Koenraadt, J. W. Jones, R. Sithiprasasna, and T. W. Scott, “Standardizing container classification for immature Aedes aegypti surveillance in Kamphaeng Phet, Thailand.,” J. Med. Entomol., 2007. [Google Scholar]

[13] R. Maciel-De-Freitas, C. T. Codeco, and R. Lourenco-De-Oliveira, “Daily survival rates and dispersal of Aedes aegypti females in Rio de Janeiro, Brazil,” Am. J. Trop. Med. Hyg., 2007. [Google Scholar]

[14] D. Getachew, H. Tekie, T. Gebre-Michael, M. Balkew, and A. Mesfin, “Breeding sites of aedes aegypti: Potential dengue vectors in dire Dawa, east Ethiopia,” Interdiscip. Perspect. Infect. Dis., vol. 2015, 2015. [CrossRef] [Google Scholar]

[15] F. Ningsih and I. J. Zakaria, “The microhabitat preferences of mosquito genus Aedes ( Diptera: Culicidae ) in Padang , West Sumatra , Indonesia,” vol. 3, No. 5, pp. 36–40, 2016. [Google Scholar]

[16] S. Badrah and N. Hidayah, “Hubungan Antara Tempat Perindukan Nyamuk Aedes aegypti dengan Kasus Demam Berdarah Dengue di Kelurahan Penajam Kecamatan Penajam Kabupaten Penajam Utara,” J. Trop. Pharm., 2011. [Google Scholar]

[17] H. J. Overgaard et al., “A cross-sectional survey of Aedes aegypti immature abundance in urban and rural household containers in central Colombia,” Parasites and Vectors, vol. 10, No. 1, pp. 1–12, 2017. [CrossRef] [Google Scholar]

[18] A. A. Arsunan and E. Ibrahim, “Analysis Relationship and Mapping of the Environmental Factors with the Existence of Mosquito Larva Aedes aegypti in the Endemic Area of Dengue Fever, Makassar, Indonesia,” Int J Curr Res Aca Rev, vol. 2, No. 11, pp. 1–9, 2014. [Google Scholar]

[19] J. Yasuoka and R. Levins, “Ecology of vector mosquitoes in Sri Lanka - Suggestions for future mosquito control in rice ecosystems,” Southeast Asian J. Trop. Med. Public Health, vol. 38, No. 4, pp. 646–657, 2007. [Google Scholar]

[20] R. Yudhastuti and A. Vidiyani, “Hubungan Kondisi Lingkungan, Kontainer, Dan Perilaku Masyarakat Dengan Keberadaan Jentik Nyamuk Aedes Aegypti di Daerah Endemis Demam Berdarah Dengue Surabaya,” J. Kesehat. Lingkung. , 2005. [Google Scholar]

[21] M. U. Riandi, U. K. Hadi, and S. Soviana, “Karakteristik Habitat dan Keberadaan Larva Aedes spp pada Wilayah Kasus Demam Berdarah Dengue Tertinggi dan Terendah di Kota Tasikmalaya,” Aspirator, vol. 9, No. 1, pp. 43–50, 2017. [Google Scholar]

[22] J. A. MartiNez Ibarra, Y. G. Guillen, J. I. Arredondo-Jimenez, and M. H. Rodriguez-Lopez, “Indigenous fish species for the control of Aedes aegypti in water storage tanks in Southern Mexico,” BioControl, vol. 47, No. 4, pp. 481–486, 2002. [CrossRef] [Google Scholar]

[23] D. K. Lee, “Predation efficacy of the fish muddy loach, Misgurnus mizolepis, against Aedes and Culex mosquitoes in laboratory and small rice plots,” J Am Mosq Control Assoc, 2000. [Google Scholar]