INORGANIC ION REMOVAL FROM SYNTHETIC WASTEWATER BY S. CEREVISIAE UNDER ANAEROBIC CONDITIONS
Ong, G., Tan, Y., Wong, K., Wong, R., Loh, K., Tanee, T., Si, W. (2025). INORGANIC ION REMOVAL FROM SYNTHETIC WASTEWATER BY S. CEREVISIAE UNDER ANAEROBIC CONDITIONS. EKB Journal Management System, 39(1), 74-82. doi: 10.21608/jesj.2025.415513.1149
Ghim Hock Ong; Yuan Tao Tan; Kok Kee Wong; Rui Rui Wong; Khye Er Loh; Tawatchai Tanee; Wuyang Si. "INORGANIC ION REMOVAL FROM SYNTHETIC WASTEWATER BY S. CEREVISIAE UNDER ANAEROBIC CONDITIONS". EKB Journal Management System, 39, 1, 2025, 74-82. doi: 10.21608/jesj.2025.415513.1149
Ong, G., Tan, Y., Wong, K., Wong, R., Loh, K., Tanee, T., Si, W. (2025). 'INORGANIC ION REMOVAL FROM SYNTHETIC WASTEWATER BY S. CEREVISIAE UNDER ANAEROBIC CONDITIONS', EKB Journal Management System, 39(1), pp. 74-82. doi: 10.21608/jesj.2025.415513.1149
Ong, G., Tan, Y., Wong, K., Wong, R., Loh, K., Tanee, T., Si, W. INORGANIC ION REMOVAL FROM SYNTHETIC WASTEWATER BY S. CEREVISIAE UNDER ANAEROBIC CONDITIONS. EKB Journal Management System, 2025; 39(1): 74-82. doi: 10.21608/jesj.2025.415513.1149

INORGANIC ION REMOVAL FROM SYNTHETIC WASTEWATER BY S. CEREVISIAE UNDER ANAEROBIC CONDITIONS

Journal of Environmental Studies
Volume 39, Issue 1, September 2025, Pages 74-82    PDF (786.84 K)
Document Type: High quality original papers
DOI: 10.21608/jesj.2025.415513.1149
Authors
Ghim Hock Ong* 1; Yuan Tao Tan1; Kok Kee Wong1; Rui Rui Wong1; Khye Er Loh2; Tawatchai Tanee3; Wuyang Si4
1Faculty of Health and Life Sciences, INTI International University
2Department of Bioscience, Faculty of Applied Sciences, Tunku Abdul Rahman University of Management and Technology
3Faculty of Environment and Resource Studies Mahasarakham University
4Anhui Vocational College of Grain Engineering
Abstract
Agricultural activities in Malaysia contribute significantly to wastewater pollution, leading to problems such as eutrophication, economic loss, and health risks. Saccharomyces cerevisiae (yeast) is a promising biological treatment option, but limited research exists on the use of baker’s and brewer’s yeast in tropical regions like Malaysia. This study evaluates the effectiveness of locally sourced baker’s and brewer’s yeast in removing nitrate, nitrite, ammonium, phosphate, and sulfate from synthetic agricultural wastewater, as well as their biomass production. Yeast cultures were incubated for 120 hours at 28 °C, and viable cell counts were measured before and after incubation using microscopy. Pollutant concentrations were analysed via spectrophotometry following standardized protocols. Both yeast types showed significant removal of phosphate, ammonium, and sulfate, but had limited effectiveness against nitrate and nitrite. Yeast cell counts increased significantly, with microscopic evidence of budding, indicating both strains could survive, grow, and reproduce under anaerobic conditions. Both baker’s and brewer’s yeast show potential for ion removal, though real-world application may be limited by environmental factors and wastewater variability.
Keywords
Ion removal; Remediation; Wastewater and treatment; Wastewater pollution; Yeast
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