Parker, B., Britton, J R., Green, I. D., Jackson, M. C. and Andreou, D., 2024. Microplastic-stressor responses are rarely synergistic in freshwater fishes: A meta-analysis. Sci Total Environ, 947, 174566.
Full text available as:
|
PDF (OPEN ACCESS ARTICLE)
1-s2.0-S0048969724047144-main.pdf - Published Version Available under License Creative Commons Attribution. 1MB | |
Copyright to original material in this document is with the original owner(s). Access to this content through BURO is granted on condition that you use it only for research, scholarly or other non-commercial purposes. If you wish to use it for any other purposes, you must contact BU via BURO@bournemouth.ac.uk. Any third party copyright material in this document remains the property of its respective owner(s). BU grants no licence for further use of that third party material. |
DOI: 10.1016/j.scitotenv.2024.174566
Abstract
Microplastic exposure can cause a range of negative effects on the biochemistry, condition and ecology of freshwater fishes depending on aspects of the exposure and the exposed fish. However, fishes are typically exposed to microplastics and additional multiple stressors simultaneously, for which the combined effects are poorly understood and may have important management consequences. Additive effects are those where the combined effect is equal to the sum, antagonistic where combined effects are less than the sum and for synergistic effects the combined effect is greater to the sum of the individual effects. Here, we performed a meta-analysis of studies recording freshwater fish responses to microplastic-stressor exposures to test if interactions were primarily non-additive (synergistic or antagonistic), and factors impacting the net response. Individual responses were classified (antagonistic/additive/synergistic) and the fit of net responses to a null additive model determined for 838 responses (36 studies) split by categorical variables for the microplastic exposure (environmental relevance, interacting stressor, microplastic morphology and response category measured), as well as the exposed fish (lifestage, ecology and family). Most responses were classified as antagonistic (48 %) and additive (34 %), with synergistic effects least frequent (17 %). Net responses fitted null additive models for all levels of interacting stressor, fish family and microplastic morphology. In contrast, net antagonism was present for biochemical responses, embryo lifestages, environmentally relevant microplastic exposures and fish with benthopelagic ecology, while synergism was identified for fishes with demersal ecology. While substantial knowledge gaps remain and are discussed, the data thus far suggest microplastic-stressor responses in freshwater fishes are rarely synergistic and, therefore, addressing either or both stressors will likely result in positive management and biological outcomes.
Item Type: | Article |
---|---|
ISSN: | 0048-9697 |
Uncontrolled Keywords: | Environmental contaminants; Management; Multiple stressors; Plastic pollution; Review |
Group: | Bournemouth University Business School |
ID Code: | 40163 |
Deposited By: | Symplectic RT2 |
Deposited On: | 15 Jul 2024 15:22 |
Last Modified: | 15 Jul 2024 15:22 |
Downloads
Downloads per month over past year
Repository Staff Only - |