Impacts of salinity stress induced by ballast water discharge on the ecosystem of shanghai port, China

Large quantities of marine ballast water discharged by ocean-going vessels can cause salinity increases in freshwater ports, which in turn negatively affects indigenous plankton in the ports. In this study, we investigated the impacts of marine ballast water discharge on the plankton community in a...

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Bibliographic Details
Published in:Marine environmental research 2024-09, Vol.200, p.106629, Article 106629
Main Authors: Duan, Chenyang, Hu, Lei, Lin, Xiangbin, Xue, Junzeng, Zou, Jin, Wu, Huixian
Format: Article
Language:English
Subjects:
ballast water
China
community structure
ecosystems
freshwater
Freshwater plankton
Marine ballast water
phytoplankton
risk
salinity
Salinization
salt stress
Species-diversity
zooplankton
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Summary:Large quantities of marine ballast water discharged by ocean-going vessels can cause salinity increases in freshwater ports, which in turn negatively affects indigenous plankton in the ports. In this study, we investigated the impacts of marine ballast water discharge on the plankton community in a freshwater wharf through field surveys. It was found that salinity stress caused reductions in community indicators such as plankton community composition, abundance and diversity, thus threatening the structure and function of the plankton community in the wharf. In terms of the impact range, the salinity stress had a significant effect on all plankton in the waters near the discharge point and the phytoplankton in the waters 50 m from the discharge point, but had no significant effect on the plankton in the waters further away. Ballast water discharge also caused a significant decrease in the alpha diversity and richness of the plankton community but had no significant effect on the evenness of the plankton community. Moreover, phytoplankton were more tolerant of salinity changes than zooplankton in our study. This study provides an ecological reference for the scientific management of marine ballast water discharge and the risk of exogenous nutrient inputs to freshwater ecosystems. •Discharges of marine ballast water can be detrimental to indigenous plankton in freshwater ports.•Phytoplankton are more tolerant to salinity changes than zooplankton in this study.•The ballast water discharge led to significant decreases in the α-diversity and abundance of freshwater plankton.
ISSN:0141-1136
1879-0291
1879-0291
DOI:10.1016/j.marenvres.2024.106629