Air bacteriological quality in Taha Al-Quran Education Park, Bima District
DOI:
10.29303/jpm.v18i1.4539Published:
2023-01-31Issue:
Vol. 18 No. 1 (2023): January 2023Keywords:
Bacteriological, Air, Qur’an Education ParkArticles
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Abstract
Qur'an Education Park is a nonformal education facility that has many students. Apart from being a place for learning knowledge, Quran Education Park also has the potential to become a place of a transmission. One of the factors influencing the spread of disease is the presence of germs in the Air. This study aims to determine the air quality in the classroom. The study showed the number of bacteria in the classroom at the Taha Qur'an Education Park, Sanggar District, Bima Regency. This type of research is analytic observational with a cross-sectional study approach. The highest number of bacterial colonies was in room 2, with the measurement time in the afternoon with a total of 2569 CFU/m3. Characterization showed that the average bacteria were gram-positive, and characteristics according to the average colony were pinpoint size. Conclusions from the research on quality air bacteriology in the Taha Quran Education Park do not meet the requirements according to KEPMENKES RI No. 1204/MENKES/SK/X/2002 concerning classroom (200-500 CFU/m3).
References
Nuriani, (2017). Hubungan Keberadaan Koloni Bakteri Staphylococcus dan Faktor Fisikawi dalam Ruangan Terhadap Kejadian Sick Building Syndrome (SBS) pada Petugas Perpustakaan Universitas Tanjungpura. Protobiont (2017) Vol. 6 (3): 240 – 248
Rhee, Chanu, Baker, E; Vaidya V; Tucker R; Resnick A; Charles A. Morris C. A; Klompas M. (2020). “Incidence of Nosocomial COVID-19 in Patients Hospitalized at a Large US Academic Medical Center.” JAMA Network Open 3(9): 1–9.
Jurado, S. R., Bankoff, A. D., & Sanchez, A. (2014). Indoor air quality in Brazilian universities. International journal of environmental research and public health, 11(7), 7081-7093.
Rahmatullah, W., Novianti, E., & Sari, A. D. L. (2021). Identifikasi Bakteri Udara Menggunakan Teknik Pewarnaan Gram. Jurnal Ilmu Kesehatan Bhakti Setya Medika p-ISSN, 6(2), 83-91.
Brągoszewska, E. (2021). Health effects and exposure assessment to bioaerosols in indoor and outdoor environments. Atmosphere, 12(3), 359.
Sivri, N., Dogru, A. O., Bagcigil, A. F., Metiner, K., & Seker, D. Z. (2020). Assessment of the indoor air quality based on airborne bacteria and fungi measurements in a public school of Istanbul. Arabian Journal of Geosciences, 13(24), 1-16.
Abdel-Aziz, R. A. Z., & Radwan, S. M. (2020). Microbial pollution of indoor air in Riyadh city government schools. World Journal of Advanced Research and Reviews, 8(1), 209-216.
Harbizadeh, A., Mirzaee, S. A., Khosravi, A. D., Shoushtari, F. S., Goodarzi, H., Alavi, N., ... & Goudarzi, G. (2019). Indoor and outdoor airborne bacterial air quality in day-care centers (DCCs) in greater Ahvaz, Iran. Atmospheric Environment, 216, 116927
Ahmed, W., Zhang, Q., Lobos, A., Sadowsky, M.J., Harwood, V.J., Saeidi, N., Marinoni, O., Ishii, S., (2018). Precipitation influences pathogenic bacteria and antibiotic resistance geneabundance in storm drain outfalls in coastal sub-tropical waters. Environ. Int. 116, 308–318.
Nurhidayatullah, N., Azwaruddin, A., & Mimhalina, L. (2022). Bacteriological quality test of Air in the classrooms of Darur Abror Foundation School West Lombok Regency in 2022. Jurnal Pijar Mipa, 17(6), 800–803.
Tositti, L., Brattich, E., Parmeggiani, S., Bolelli, L., Girotti, S., (2018). Airborne particulate matter biotoxicity estimated by chemometric analysis on bacterial luminescence data. Sci. Total Environ. 640–641, 1512–1520
WHO. (2002). Prevention of Hospital-Acquired Infections. 2nd Editio. eds. G. Ducel, J. Fabry, and L. Nicolle. World Health Organization.
Sahli, I. T., Kurniawan, F. B., Setiani, D., Asrianto, A., & Hartati, R. (2021). Kualitas Bakteri Udara Ruang Operasi Rumah Sakit di Wilayah Kota Jayapura. Health Information: Jurnal Penelitian, 13(2), 140-150.
Vonberg, R. P., Gastmeier, P., Kenneweg, B., Holdack-Janssen, H., Sohr, D., & Chaberny, I. F. (2010). The microbiological quality of air improves when using air conditioning systems in cars. BMC infectious diseases, 10, 1-6.
Murtius, W. S. (2018). Modul Praktek Dasar Mikrobiologi. Universitas Andalas. Padang.
Cahyono, T. (2017). Penyehatan Udara. Yogyakarta: Andi.
Carducci, A., Donzelli, G., Cioni, L., Federigi, I., Lombardi, R., & Verani, M. (2018). Quantitative microbial risk assessment for workers exposed to bioaerosol in wastewater treatment plants aimed at the choice and setup of safety measures. International journal of environmental research and public health, 15(7), 1490.
Yang, K., Li, L., Wang, Y., Xue, S., Han, Y., & Liu, J. (2019). Airborne bacteria in a wastewater treatment plant: emission characterization, source analysis and health risk assessment. Water Research, 149, 596-606.
Brągoszewska, E., Biedroń, I., Kozielska, B., & Pastuszka, J. S. (2018). Microbiological indoor air quality in an office building in Gliwice, Poland: analysis of the case study. Air Quality, Atmosphere & Health, 11, 729-740.
[Aguayo, J., Fourrier-Jeandel, C., Husson, C., & Ioos, R. (2018). Assessment of passive traps combined with high-throughput sequencing to study airborne fungal communities. Applied and Environmental Microbiology, 84(11), e02637-17.
Nakoe, R., Lalu, N. A. S., & Mohamad, Y. A. (2020). Perbedaan efektivitas hand-sanitizer dengan cuci tangan menggunakan sabun sebagai bentuk pencegahan covid-19. Jambura Journal of Health Sciences and Research, 2(2), 65-70.
Mahrun, M., & Putra, M. S. (2022). Bima ethnic medicinal plants as a natural hand sanitizer. Jurnal Pijar Mipa, 17(3), 413-419.
Idawati, S., & Sukmana, D. J. (2022). Formulation and evaluation liquid hand soap of celery leaf (Apium graviolens) extract. Jurnal Pijar Mipa, 17(1), 67-72.
Author Biographies
Sri Wahyuningsih, Undergraduate Program in Environmental Engineering, Mataram College of Environmental Engineering
Wahyudin Wahyudin, Environmental Engineering Study Program, Mataram College of Environmental Engineering
Mulhidin Mulhidin, Environmental Engineering Study Program, Mataram College of Environmental Engineering
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