Microbial community diversity during algal inhibition using slow-release microcapsules of tea polyphenols

IF 3.7 Q1 WATER RESOURCES Water science and engineering Pub Date : 2024-05-23 DOI:10.1016/j.wse.2024.05.004

Li-xiao Ni , Yuan-yi Fang , Cun-hao Du , Jia-jia Wang , Cheng-jie Zhu , Chu Xu , Shi-yin Li , Jian Xu , Xu-qing Chen , Hua Su

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Abstract

Harmful algal blooms (HABs) resulting from eutrophication pose a major threat to ecosystems and human health, necessitating effective control measures. Allelochemicals have shown their importance in slowing down algal proliferation due to their proven efficacy and low ecological impacts. In this study, allelopathy tea polyphenols (TPs) and β-cyclodextrin were combined to prepare slow-release algicidal microcapsules, and the diversity of microbial community in the algal inhibition process was analyzed. Results showed that TP slow-release microcapsules had strong algicidal activity. When against Microcystis aeruginosa within 20 d, their constant inhibitory rate was up to 99% compared to the control group. Microbial diversity decreased with an increase in algae density, and the species richness and diversity of algae increased under the stress of TP slow-release microcapsules. The redundancy analysis showed that the environmental factors with impacts on the abundance and diversity of bacterial communities in descending order were dissolved oxygen, pH, and temperature. This study provides a theoretical basis for the application of TP slow-release microcapsules to actual water.

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使用茶多酚缓释微胶囊抑制藻类生长过程中的微生物群落多样性

富营养化导致的有害藻华（HABs）对生态系统和人类健康构成重大威胁，必须采取有效的控制措施。等位化学物质因其公认的功效和较低的生态影响，在减缓藻类增殖方面显示出其重要性。本研究将等位基因茶多酚（TPs）与β-环糊精结合，制备了缓释杀藻微胶囊，并分析了抑藻过程中微生物群落的多样性。结果表明，TP 缓释微胶囊具有很强的杀藻活性。与对照组相比，在 20 d 内对铜绿微囊藻的持续抑制率高达 99%。微生物多样性随藻类密度的增加而降低，而在 TP 缓释微胶囊的胁迫下，藻类的物种丰富度和多样性均有所增加。冗余分析表明，对细菌群落丰度和多样性有影响的环境因素依次为溶解氧、pH 值和温度。该研究为 TP 缓释微胶囊在实际水体中的应用提供了理论依据。

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来源期刊

Water science and engineering WATER RESOURCES-

CiteScore

6.60

自引率

5.00%

发文量

573

审稿时长

50 weeks

期刊介绍： Water Science and Engineering journal is an international, peer-reviewed research publication covering new concepts, theories, methods, and techniques related to water issues. The journal aims to publish research that helps advance the theoretical and practical understanding of water resources, aquatic environment, aquatic ecology, and water engineering, with emphases placed on the innovation and applicability of science and technology in large-scale hydropower project construction, large river and lake regulation, inter-basin water transfer, hydroelectric energy development, ecological restoration, the development of new materials, and sustainable utilization of water resources.