Bacteriological quality test of air in the classrooms of Darur Abror Foundation School West Lombok Regency in 2022
DOI:
10.29303/jpm.v17i6.4294Published:
2022-11-30Issue:
Vol. 17 No. 6 (2022): November 2022Keywords:
Air Bacteria, Colony Number, Bacteria CharacteristicsArticles
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Abstract
This study aims to determine the air quality in the classroom. The study showed the quality of air bacteria in the classrooms at the Darur Abror Foundation School (Sudak Gardens Hamlet, Terong Tawah Village, Labuapi District, West Nusa Tenggara, Indonesia) exceeded the predetermined limit on the number of germs in the room. According to Minister of Health Regulation No. 1405/MENKES/SKXI/2002, the germ number is 200-500 CFU/m3. The number of bacteria in the classroom is 2,699 CFU/m3. The most abundant characteristic according to the size of the bacteria is pinpoint. The shape of bacteria based on the number is circular, and the color of most bacteria is white.
References
Chandra, B. (2006). Pengantar Kesehatan Lingkungan Jakarta. Jakarta: Penerbit Buku Kedokteran.
Irianto, K. (2007). Mikrobiologi Menguak Dunia Mikrobiologi Jilid 2. Bandung (ID): CV. Yrama Widya.
Dewi, W. C., Raharjo, M., & Wahyuningsih, N. E. (2021). Literatur Review: Hubungan Antara Kualitas Udara Ruang Dengan Gangguan Kesehatan Pada Pekerja. An-Nadaa: Jurnal Kesehatan Masyarakat (e-Journal), 8(1), 88-94.
Kalwasinska, A., Burkowska, A., & Wilk, I. (2012). Microbial air contamination in indoor environment of a university library. Annals of Agricultural and Environmental Medicine, 19(1).
Santoso, I. (2015). Kesehatan lingkungan permukiman perkotaan. Gosyen Publishing.
Padder, S. A., Dar, G. H., Bhat, Z. A., Verma, K., & Wani, A. B. (2017). Morphological metabolic and biochemical characterization of bacterial root endophytes associated with brown sarson (Brassica rapa L.). Journal of Pharmacognosy and Phytochemistry, 6(2), 226-232.
Zahan, K. A., Azizul, N. M., Mustapha, M., Tong, W. Y., & Rahman, M. S. A. (2020). Application of bacterial cellulose film as a biodegradable and antimicrobial packaging material. Materials Today: Proceedings, 31, 83-88.
Krishnamoorthy, A., Agarwal, T., Kotamreddy, J. N. R., Bhattacharya, R., Mitra, A., Maiti, T. K., & Maiti, M. K. (2020). Impact of seed-transmitted endophytic bacteria on intra-and inter-cultivar plant growth promotion modulated by certain sets of metabolites in rice crop. Microbiological research, 241, 126582.
Dewi, A. K., Sudaryanto, S., & Amalia, R. (2018). Penggunaan Ekstrak Kulit Jeruk Nipis (Citrus aurantifolia) pada Berbagai Jarak Paparan terhadap Penurunan Angka Kuman Udara di Puskesmas Sewon II Bantul. Sanitasi: Jurnal Kesehatan Lingkungan, 10(2), 58-64.
Schmidt, M. G., von Dessauer, B., Benavente, C., Benadof, D., Cifuentes, P., Elgueta, A., ... & Navarrete, M. S. (2016). Copper surfaces are associated with significantly lower concentrations of bacteria on selected surfaces within a pediatric intensive care unit. American journal of infection control, 44(2), 203-209.
Meride, Y., & Ayenew, B. (2016). Drinking water quality assessment and its effects on residents health in Wondo genet campus, Ethiopia. Environmental Systems Research, 5(1), 1-7.
Eisenlöffel, L., Reutter, T., Horn, M., Schlegel, S., Truyen, U., & Speck, S. (2019). Impact of UVC-sustained recirculating air filtration on airborne bacteria and dust in a pig facility. PloS one, 14(11), e0225047.
Skóra, J., Gutarowska, B., Pielech-Przybylska, K., Stępień, Ł., Pietrzak, K., Piotrowska, M., & Pietrowski, P. (2015). Assessment of microbiological contamination in the work environments of museums, archives and libraries. Aerobiologia, 31(3), 389-401.
Chaudhary, V., Ashraf, N., Khalid, M., Walvekar, R., Yang, Y., Kaushik, A., & Mishra, Y. K. (2022). Emergence of MXene–polymer hybrid nanocomposites as high‐performance next‐generation chemiresistors for efficient air quality monitoring. Advanced Functional Materials, 32(33), 2112913.
Rahayu, E. P., Saam, Z., Sukendi, S., & Afandi, D. (2019). The Factors of Affect Indoor Air Quality Inpatient at Private Hospital, Pekanbaru, Indonesia. Open Access Maced J Med Sci. 2019 Jul 15; 7 (13): 2208-2212.
Noya, L. Y. J., Wahyuningsih, N. E., & Joko, T. (2020). Pemeriksaan Kualitas Udara Ruang yang Berhubungan dengan Angka Kuman di Ruang Operasi Rumah Sakit Sumber Hidup di Kota Ambon 2020. Jurnal Kesehatan Masyarakat (Undip), 8(5), 679-686.
Rompas, C. L., Pinontoan, O., & Maddusa, S. S. (2019). Pemeriksaan angka kuman udara di ruang rawat inap rumah sakit umum GMIM pancaran kasih manado. KESMAS, 8(1).
Praptiwi, J., Rahardjo, S. S., & Sunarto, S. (2021). Environmental Management Strategy to Control Air Germs in Tjitrowardojo District Hospital. JURNAL KESEHATAN LINGKUNGAN, 13(1), 9-16.
Santri, I. N., & Suryani, D. (2015). Relation between temperature and wards humidity with air germs number in inpatient unit of RS PKU Muhammadiyah Jogjakarta. JKKI: Jurnal Kedokteran dan Kesehatan Indonesia, 7(1), 19-24.
Moerdjoko, M. (2004). KAITAN SISTEM VENTlLASI BANGUNAN DENGAN KEBERADAAN MIKROORGANISME UDARA. DIMENSI: Journal of Architecture and Built Environment, 32(1).
Brągoszewska, E., & Biedroń, I. (2018). Indoor air quality and potential health risk impacts of exposure to antibiotic resistant bacteria in an office rooms in Southern Poland. International Journal of Environmental Research and Public Health, 15(11), 2604.
Author Biographies
Nurhidayatullah Nurhidayatullah, Undergraduate Program in Environmental Engineering, Mataram College of Environmental Engineering
Azwaruddin Azwaruddin, Environmental Engineering Study Program, Mataram College of Environmental Engineering
Liza Mimhalina, Environmental Engineering Study Program, Mataram College of Environmental Engineering
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Copyright (c) 2022 Nurhidayatullah Nurhidayatullah, Azwaruddin Azwaruddin, Liza Mimhalina
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