A Correlation between the Number of Airborne Bacteria and Fungi using the Settle Plate Method with Temperature and Relative Humidity at the Clinical Microbiology Laboratory of Dr. Soetomo Regional General Hospital Surabaya, Indonesia

Air is an important part of human life. However, air can be contaminated with microorganisms such as airborne bacteria and fungi. Temperature and relative humidity in a room can have an impact on the quantity of airborne bacteria and fungi. This study aims to figure out the correlation between the n...

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Bibliographic Details
Published inJournal of pure & applied microbiology : an international research journal of microbiology Vol. 17; no. 2; pp. 942 - 950
Main Authors Andriana, Yenni, Widodo, Agung Dwi Wahyu, Endraswari, Pepy Dwi
Format Journal Article
LanguageEnglish
Published Oriental Scientific Publishing Company 01.06.2023
Journal of Pure and Applied Microbiology
Subjects
airborne bacteria
airborne fungi
Bacteria
Humidity
Methods
Microbiology
relative humidity
temperature
Indonesia
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Summary:Air is an important part of human life. However, air can be contaminated with microorganisms such as airborne bacteria and fungi. Temperature and relative humidity in a room can have an impact on the quantity of airborne bacteria and fungi. This study aims to figure out the correlation between the number of airborne bacteria and fungi with temperature and relative humidity. In 15 rooms of Microbiology laboratory, NA and SDA Petri plates were placed, after incubation, the number of colonies in each plate was counted. Pearson test was conducted with SPSS to determine the correlation between temperature and relative humidity to the number of airborne bacteria and fungi. The highest number of airborne bacteria was in the reading room (352 CFU/m3), while the lowest number was in the laundry room (13 CFU/m3) and the highest number of airborne fungi was in the Mycology room (156 CFU/m3), while there were no airborne fungi found in the urine and laundry rooms. Based on the results of the Pearson test, it was found that the value of p = 0.668 (p> 0.5) showed that there was no correlation between temperature and the number of airborne bacteria and fungi. Based on the results of the Pearson test, the value of p = 0.745 (p> 0.5) showed that there was no correlation between relative humidity and the number of airborne bacteria and fungi. There is no correlation between temperature and relative humidity with the number of airborne bacteria and fungi.
ISSN:0973-7510
2581-690X
DOI:10.22207/JPAM.17.2.24