生态环境学报2025,Vol.34Issue(7):1090-1099,10.DOI:10.16258/j.cnki.1674-5906.2025.07.009
植物提取液对养殖水体浮游植物群落结构和功能的影响
Effects of Plant Extracts on Phytoplankton Community Structure and Function in Aquaculture Water
摘要
Abstract
This study comprehensively investigated the effects of plant extracts on the community structure and functional composition of phytoplankton in aquaculture water.Conducted over a 40-day period at an ecological aquaculture farm in Jinshan District,Shanghai,China,this research aimed to explore the potential of plant extracts as a natural and sustainable addition to regulate aquatic ecosystems and improve water quality in aquaculture ponds.This study aimed to utilize plant extracts composed of a blend of traditional Chinese herbal medicines,including Andrographis paniculata(Burm.F.)Nees,Penthorum chinense Pursh,Vanilla planifolia Andrews,Mollugo lotoides(L.)O.Kuntze,and Cynanchum hancockianum(Maxim.)Iljinski.These plants were chosen based on their rich pharmacological history and known properties,which could potentially influence the aquatic environment.The plant extracts were introduced into the aquaculture ponds at a specific volumetric ratio of 1꞉(1.20×104-1.44×104)(Vplant extract꞉Vpond water),with the objective of evaluating their impacts on various water quality parameters,as well as the composition and function of the phytoplankton community.The findings of this study are multifaceted and offer valuable insight into the ecological dynamics of aquaculture systems.The addition of plant extracts significantly improved the water quality indicators.Specifically,the concentrations of chlorophyll a,nitrogen nutrients,and organic matter were notably reduced in the treatment ponds compared to those in the control ponds.This reduction suggests that the plant extracts facilitated the breakdown of organic matter and enhanced nutrient cycling,thereby improving the water quality and reducing the risk of eutrophication.The improved water quality is crucial for the overall health and productivity of aquaculture systems as it provides a more favorable environment for the growth of aquatic organisms.Furthermore,this study revealed that plant extracts had a profound influence on the phytoplankton community structure.Initially,both the control and treatment ponds were dominated by Cyanobacteria,a group of phytoplankton that can sometimes proliferate excessively,leading to harmful algal blooms and degraded water quality.However,over the course of the experiment,a marked shift occurred in the phytoplankton communities in the treatment ponds.The proportion of Cyanobacteria gradually decreased,whereas that of Bacillariophyta,a group of phytoplankton that is often considered beneficial to aquatic ecosystems,significantly increased.This succession from Cyanobacteria to Bacillariophyta is indicative of a healthier and more balanced phytoplankton community,which is essential for maintaining the ecological integrity of aquaculture systems.In addition to altering community structure,plant extracts also had a significant impact on the functional composition of phytoplankton.Metagenomic analysis was used to elucidate the functional roles of the phytoplankton communities in both the control and treatment ponds.The results showed that the top KEGG pathways of phytoplankton during the experiment were related to amino acid metabolism,metabolism of cofactors and vitamins,carbohydrate metabolism,energy metabolism,and replication and repair.These pathways collectively represent the metabolic(L1)and genetic information processing(L1)pathways,which are fundamental to the growth and reproduction of phytoplankton.Notably,the addition of plant extracts led to a reduction in the abundance of genes related to these metabolic pathways in the treatment ponds,indicating a decrease in the metabolic activity of phytoplankton.This finding suggests that plant extracts may inhibit the growth of phytoplankton that rely heavily on these metabolic pathways,thereby promoting the growth of more adapted and resilient species.Conversely,plant extracts enhanced the functions related to genetic information processing pathways.This observation suggests that the extracts may have promoted the growth and reproduction of phytoplankton,which are better equipped to handle environmental stressors and utilize available nutrients.These adapted phytoplankton may have played a crucial role in maintaining the ecological balance of the aquaculture ponds,contributing to improved water quality and enhanced productivity.To gain a deeper understanding of the relationships between phytoplankton communities,their functional roles,and environmental factors,a comprehensive correlation analysis was conducted.The results revealed that Cyanobacteria were positively correlated with factors such as pH,chlorophyll a,total phosphorus,and chemical oxygen demand,but negatively correlated with dissolved oxygen,conductivity,and nitrogen nutrients.In contrast,Bacillariophyta showed the opposite correlation with these environmental factors.Similar patterns were observed for metabolic functions,which were positively correlated with those favoring Cyanobacterial growth and negatively correlated with factors favoring Bacillariophyta.Conversely,the genetic information processing function was negatively correlated with factors favoring Cyanobacteria,but positively correlated with those favoring Bacillariophyta.These correlations provide valuable insights into the environmental conditions that favor the growth and reproduction of different phytoplankton species and functional groups,and highlight the importance of maintaining a balanced and diverse phytoplankton community in aquaculture systems.Moreover,this study investigated the potential active compounds in plant extracts that may have contributed to their effects on the phytoplankton community and functional composition.The analysis revealed the presence of various flavonoids including arbutin,trigonelline,wogonoside,octahydrocurcumin,and propyl gallate.These compounds are known for their diverse biological activities including anticancer,antibacterial,anti-inflammatory,and immunomodulatory effects.In the context of this study,it is plausible that these flavonoids may inhibit the growth of harmful Cyanobacteria by disrupting cellular processes or competing for essential nutrients.Additionally,flavonoids may promote the growth of beneficial Bacillariophyta by providing them with essential nutrients,enhancing their resistance to environmental stressors,or facilitating their interaction with other aquatic organisms.In summary,this study demonstrated the significant potential of plant extracts to improve water quality,regulate the community structure of phytoplankton,and enhance their functional composition in aquaculture systems.Plant extracts promoted the succession of phytoplankton communities from Cyanobacteria to Bacillariophyta,reduced metabolic functions,and enhanced genetic information processing.These findings not only provide a deeper understanding of the mechanisms by which plant extracts can influence aquatic ecosystems but also offer a promising natural and sustainable alternative to chemical treatments for the regulation of phytoplankton in aquaculture systems.Future research should aim to further elucidate the active compounds in plant extracts and their specific modes of action on phytoplankton communities,as well as evaluate the long-term effects of plant extract addition on the overall health,productivity,and sustainability of aquaculture systems.关键词
养殖池塘/植物提取液/宏基因组学/浮游植物/环境因子Key words
aquaculture pond/plant extracts/metagenomics/phytoplankton communities/environmental factors分类
生物科学引用本文复制引用
蔡敏,周丽,张旭,崔娜欣,庞思,邹国燕,袁泉,黄伟伟,赵志勇..植物提取液对养殖水体浮游植物群落结构和功能的影响[J].生态环境学报,2025,34(7):1090-1099,10.基金项目
国家重点研发计划课题(2021YFC3201503) (2021YFC3201503)
长江生态环境保护修复联合研究二期项目(2022-LHYJ-020304) (2022-LHYJ-020304)
国家自然科学基金面上项目(42377055) (42377055)
上海市农业科学院卓越团队建设计划项目(沪农科卓[2022]023) (沪农科卓[2022]023)
