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River Deltas as hotspots of microplastic accumulation: The case study of the Ebro River (NW Mediterranean)
Summary
The Ebro River delta in the northwestern Mediterranean was identified as a hotspot for microplastic accumulation, with concentrations in delta sediments far exceeding those in the open river channel upstream. River deltas, where flow slows and sediment deposits, appear to function as major trapping zones for riverborne microplastics before they reach the sea.
Microplastics (MPs) are considered pollutants that are ubiquitously distributed in aquatic environments. One of the key hotspot areas to understand fluxes of MPs entering into the oceans are transitional systems, between fresh and marine waters, where river estuaries in particular play an important role. In this study we analyzed MPs occurrence in the Ebro River Delta, Northeastern Iberian Peninsula, one of the largest wetland areas in the NW Mediterranean Basin. Microplastic profile, abundance, distribution, and characteristics were screened across different environmental matrices. MPs were collected in sandy beaches on the northern edge of the delta, in estuarine benthic sediments, and in surface waters of the Ebro River, with a mean abundance of 422 ± 119 MPs·kg DW, 2052 ± 746 MPs·kg DW and 3.5 ± 1.4 MPs·m, respectively. Fibers were found to be the largest class (70 ± 22%) of the three different environmental matrices investigated. We estimated that the Ebro surface water represents an input of 2.14 × 10 MPs·yr to the Mediterranean Sea. The main contribution of this study is a new insight on the distribution of MPs across different environmental matrices in river estuaries, where estuarine benthic sediments were identified as a potential important sink for MPs.
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