Ceratophyllum demersum alleviates microplastics uptake and physiological stress responses in aquatic organisms, an overlooked ability

• Published in: Journal of hazardous materials Vol. 474; p. 134573
• Main Authors: Zhao, Weihong, Zheng, Xirui, Liu, Jintao, Sui, Yanming, Wang, Yuning, Luo, Pan, Zhu, Xi, Wu, Wenjing, Gu, Wen, Liu, Xingyu
• Format: Journal Article
• Language: English
• Published: Netherlands Elsevier B.V 05.08.2024
• Subjects: acute exposure; Animals; Bellamya aeruginosa; Biological markers; C. demersum; Ceratophyllum demersum; Chlorophyceae - metabolism; Corbicula - drug effects; Corbicula - metabolism; Corbicula fluminea; Depuration; digestive enzymes; energy metabolism; enzyme activity; food chain; food safety; foods; Freshwater aquatic organisms; Macrobrachium nipponense; Microplastics; Microplastics - toxicity; oxidative stress; Oxidative Stress - drug effects; Palaemonidae - metabolism; species; Stress, Physiological; Water Pollutants, Chemical - metabolism; Water Pollutants, Chemical - toxicity; Microplastics; Freshwater aquatic organisms; Biological markers; C. demersum; Depuration
• ISSN: 0304-3894; 1873-3336; 1873-3336
• DOI: 10.1016/j.jhazmat.2024.134573

It has been demonstrated that microplastics (MPs) may be inadvertently ingested by aquatic animals, causing harm to their physiological functions and potentially entering the food chain, thereby posing risks to human food safety. To achieve an environmentally friendly and efficient reduction of MPs in freshwater environments, this experiment investigates the depuration effect of C. demersum on MPs using three common aquatic animals: Macrobrachium nipponense, Corbicula fluminea, and Bellamya aeruginosa as research subjects. The amounts of MPs, digestive enzyme activity, oxidative stress index, and energy metabolism enzyme activity in the digestive and non-digestive systems of three aquatic animals were measured on exposure days 1, 3, and 7 and on depuration days 1 and 3. The results indicated that the depuration effect of C. demersum and the species interaction were significant for the whole individual. Concerning digestive tissue, C. demersum was the most effective in purifying B. aeruginosa. When subjected to short-term exposure to MPs, C. demersum displayed a superior depuration effect. Among non-digestive tissues, C. demersum exhibited the earliest purifying effect on C. fluminea. Additionally, C. demersum alleviated physiological responses caused by MPs. In conclusion, this study underscores C. demersum as a promising new method for removing MPs from aquatic organisms. [Display omitted] •C. demersum can effectively reduce MPs in the digestive tissues of B. aeruginosa.•C. demersum starts MP depuration earlier in C. fluminea's non-digestive tissues.•There are species differences in the depuration effect of C. demersum on MPs.•C. demersum has better depuration effect in short-term exposure to MPs.•C. demersum alleviates physiological stress responses induced by MPs.