Scientific Reports (Apr 2023)

The effects of large roughness elements on the in-stream transport and retention of polystyrene microplastics

  • Usama Ijaz,
  • Abul B. M. Baki,
  • Omar I. Abdul-Aziz,
  • Wenming Zhang,
  • Alan D. Christian

DOI
https://doi.org/10.1038/s41598-023-33436-0
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 10

Abstract

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Abstract The mechanisms controlling transport and retention of microplastics (MPs) in riverine systems are not understood well. We investigated the impact of large roughness elements (LREs) on in-stream transport and retention of the ubiquitous polystyrene-microplastics (PS-MPs). Scaled experiments were conducted with and without LREs under various shear Reynolds numbers (Re*) in an ecohydraulics flume. Our results, for the first time, demonstrated a clear dependence of the MPs’ velocity on Re* in LREs-dominated channel. Two distinct regimes and thresholds were identified: lower Re* (≤ 15,000) regime corresponding to higher velocities of MPs ( $${U}_{MPs}^{*}$$ U MPs ∗ > 0.45), and higher Re* (> 15,000) to lower $${U}_{MPs}^{*} ($$ U MPs ∗ ( < 0.45). The presence and higher density of LREs increased Re*, decreased $${U}_{MPs}^{*}$$ U MPs ∗ , and enhanced the PS-MPs capture. The LREs-generated turbulence kinetic energy (TKE) was found to be a good predictor of PS-MPs transport and retention rates, indicating the effectiveness of LREs in retaining PS-MPs in streams and rivers.