期刊
ENVIRONMENTAL POLLUTION
卷 303, 期 -, 页码 -出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.envpol.2022.119108
关键词
Seagrass; Epiphytes; Microplastics; Photosynthesis; Nutrient cycle; Food web
资金
- Boston University Undergraduate Research Opportunities Program Global Challenge Grant
- Boston University Lara D. Vincent Research Assistance Fund
Microplastics have potential impacts on seagrass plants, epiphytes, and sediment processes and functions. They may harm seagrasses and epiphytes through impalement and light/gas blockage, increase toxin concentrations, and disrupt nutrient cycling and sediment characteristics.
Microplastics have been discovered ubiquitously in marine environments. While their accumulation is noted in seagrass ecosystems, little attention has yet been given to microplastic impacts on seagrass plants and their associated epiphytic and sediment communities. We initiate this discussion by synthesizing the potential impacts microplastics have on relevant seagrass plant, epiphyte, and sediment processes and functions. We suggest that microplastics may harm epiphytes and seagrasses via impalement and light/gas blockage, and increase local concentrations of toxins, causing a disruption in metabolic processes. Further, microplastics may alter nutrient cycling by inhibiting dinitrogen fixation by diazotrophs, preventing microbial processes, and reducing root nutrient uptake. They may also harm seagrass sediment communities via sediment characteristic alteration and organism complications associated with ingestion. All impacts will be exacerbated by the high trapping efficiency of seagrasses. As microplastics become a permanent and increasing member of seagrass ecosystems it will be pertinent to direct future research towards understanding the extent microplastics impact seagrass ecosystems.
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