4.7 Article

Macroalgal morphology mediates microplastic accumulation on thallus and in sediments

Journal

SCIENCE OF THE TOTAL ENVIRONMENT
Volume 825, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.scitotenv.2022.153987

Keywords

Microplastics; Macrophytes; Macroalgae; Particle retention; Microplastic deposition; Sediment

Funding

  1. Environment Conservation Fund [ECF2020134]
  2. Research Grants Council of the Hong Kong Special Administrative Region [UGC/IDS(R)16/19]
  3. Marine Conservation Enhancement Fund [MCEF20011]
  4. European Union [101029198]
  5. Marie Curie Actions (MSCA) [101029198] Funding Source: Marie Curie Actions (MSCA)

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The accumulation of microplastics on macrophytes plays a crucial role in their fate in the environment. Filamentous algae retain a significantly higher number of microplastics compared to non-filamentous algae when considering biomass as the unit. However, there is no significant difference in microplastic abundance between algal morphologies when using other units. Sediment collected under vegetated areas contains significantly higher microplastic concentrations, with filamentous algae retaining higher abundances of microplastics compared to non-filamentous algae.
The accumulation process of microplastics (MPs) is a key to understanding their fate in the environment. However, there is limited information about the short-term accumulation of MPs on macrophytes. The ability of macrophyte to attenuate wave and reduce current velocity is potentially facilitating MPs deposition. We hypothesize that the macroalgae retain MPs with their morphologies (filamentous and non-filamentous) being one of the factors to govern retention. Our hypothesis was tested by field observation during the dry season in Hong Kong when the macroalgae communities were the most diverse. MPs per biomass, surface area, or interstitial volume were used to represent the abundances on macroalgae. We found that filamentous algae retained a 2.35 times higher number of MPs when compared with non-filamentous algae if unit per biomass was considered. Other units, however, showed insignificant differences in MPs abundances between algal morphologies. Fibre was the most dominant shape of MPs with no significant difference in their abundances between filamentous and non-filamentous algae, suggesting fibres were retained regardless of the algal morphologies. To further evaluate the potential accumulation in the environment, sediment samples were also collected under the algal mat and immediate vicinity (similar to 50 cm) of the algal mat. We found that sediment collected under the vegetated area contained significantly higher MPs. This was 3.39 times higher than the unvegetated area. Sediment collected under/near filamentous algae retained much higher abundances of MPs than those of non-filamentous algae. Provided that the observed retention of MPs on macroalgae, we speculate macrophyte system is one of the short-term MPs accumulation hotspots where the temporal increase of MPs depends on the seasonality of macrophyte in a given region.

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