Ruihua Cao, Lili Tan, Qiqi Wan, Gehui Wu, Jingyi Wang, Yingzi Lin, Tinglin Huang, Gang Wen
Chemosphere 2024 FebFungi outbreaks in water will include a series of processes, including spore aggregation, germination, biofilm, and finally present in a mixed state in the aquatic environment. More attention is paid to the control of dispersed fungal spores, however, there was little knowledge of the control of germinated spores. This study investigated the inactivation kinetics and mechanism of ultraviolet (UV) treatment for fungal spores with different germination percentages compared with dormant spores. The results indicated that the inactivation rate constants (k) of spores with 5%-45% germination were 0.0278-0.0299 cm2/mJ for Aspergillus niger and 0.0588-0.0647 cm2/mJ for Penicillium polonicum, which were lower than those of dormant spores. It suggested that germinated spores were more tolerant to UV irradiation than dormant spores, and it may be due to the defensive barrier (upregulated pigments) and some reductive substance (upregulated enoyl reductase) by absorbing UV or reacting with reactive oxygen species according to transcriptome analysis. Compared to dormant spores, the k-UV of germinated spores decreased by 18.17%-26.56% for Aspergillus niger, which was less than k-chlorine (62.33%-69.74%). A slighter decrease in k-UV showed UV irradiation can efficiently control fungi contamination, especially when dormant spores and germinated spores coexisted in actual water systems. This study indicates that more attention should be paid to germinated spores. Copyright © 2023 Elsevier Ltd. All rights reserved.
Ruihua Cao, Lili Tan, Qiqi Wan, Gehui Wu, Jingyi Wang, Yingzi Lin, Tinglin Huang, Gang Wen. The improved resistance of germinated spores to ultraviolet irradiation: Comparison with chlorine. Chemosphere. 2024 Feb;349:140929
PMID: 38092169
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