Towards Underwater Macroplastic Monitoring Using Echo Sounding
Frontiers in Earth Science2021
47 citations
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Score: 40
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Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Daniel González‐Fernández,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Sophie Broere,
Sophie Broere,
Sophie Broere,
Sophie Broere,
Sophie Broere,
Sophie Broere,
Daniel González‐Fernández,
Andrés Cózar
Andrés Cózar
Andrés Cózar
Andrés Cózar
Tim van Emmerik,
Tim van Emmerik,
Daniel González‐Fernández,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Daniel González‐Fernández,
Daniel González‐Fernández,
Tim van Emmerik,
Tim van Emmerik,
Daniel González‐Fernández,
Daniel González‐Fernández,
Daniel González‐Fernández,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Andrés Cózar
Daniel González‐Fernández,
Daniel González‐Fernández,
Daniel González‐Fernández,
Daniel González‐Fernández,
Daniel González‐Fernández,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Daniel González‐Fernández,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Daniel González‐Fernández,
Tim van Emmerik,
Tim van Emmerik,
Daniel González‐Fernández,
Tim van Emmerik,
Daniel González‐Fernández,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Andrés Cózar
Daniel González‐Fernández,
Andrés Cózar
Matthieu A. de Schipper,
Daniel González‐Fernández,
Daniel González‐Fernández,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Daniel González‐Fernández,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Willem Luxemburg,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Daniel González‐Fernández,
Daniel González‐Fernández,
Daniel González‐Fernández,
Daniel González‐Fernández,
Andrés Cózar
Andrés Cózar
Andrés Cózar
Andrés Cózar
Andrés Cózar
Willem Luxemburg,
Willem Luxemburg,
Willem Luxemburg,
Andrés Cózar
Tim van Emmerik,
Andrés Cózar
Tim van Emmerik,
Tim van Emmerik,
Daniel González‐Fernández,
Daniel González‐Fernández,
Tim van Emmerik,
Tim van Emmerik,
Matthieu A. de Schipper,
Matthieu A. de Schipper,
Andrés Cózar
Tim van Emmerik,
Tim van Emmerik,
Daniel González‐Fernández,
Tim van Emmerik,
Andrés Cózar
Andrés Cózar
Nick van de Giesen,
Tim van Emmerik,
Andrés Cózar
Andrés Cózar
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Andrés Cózar
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Andrés Cózar
Tim van Emmerik,
Nick van de Giesen,
Tim van Emmerik,
Nick van de Giesen,
Tim van Emmerik,
Daniel González‐Fernández,
Andrés Cózar
Daniel González‐Fernández,
Andrés Cózar
Tim van Emmerik,
Tim van Emmerik,
Andrés Cózar
Tim van Emmerik,
Daniel González‐Fernández,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Tim van Emmerik,
Andrés Cózar
Summary
Researchers investigated using echo sounding (sonar) technology to detect and monitor underwater macroplastics in rivers and coastal environments, presenting this acoustic approach as a promising tool for measuring submerged plastic loads that surface trawling misses.
Study Type
Environmental
Plastics originating from land are mainly transported to the oceans by rivers. The total plastic transport from land to seas remains uncertain because of difficulties in measuring and the lack of standard observation techniques. A large focus in observations is on plastics floating on the water surface. However, an increasing number of observations suggest that large quantities of plastics are transported in suspension, below the water surface. Available underwater plastic monitoring methods use nets or fish traps that need to be deployed below the surface and are labor-intensive. In this research, we explore the use of echo sounding as an innovative low-cost method to quantify and identify suspended macroplastics. Experiments under controlled and natural conditions using a low-cost off-the-shelf echo sounding device show that plastic items can be detected and identified up to 7 m below the river surface. Eight different debris items (metal can, cup, bottles, food wrappers, food container) were characterized based on their reflection signature. Reflectance from plastic items diverged significantly from organic material and non-plastic anthropogenic debris. During a multi-day trial field expedition in the Guadalete river, Spain, we found that between 0.8 and 6.3 m depth considerable quantities of plastics are transported. As most plastic monitoring and removal strategies focus on the upper layer below the surface (up to approximately 1.5 m depth), a substantial share of the total plastic transport may be neglected. With this paper we 1) demonstrate that echo sounding is a promising tool for underwater plastic monitoring, and 2) emphasize the importance of an improved understanding of the existing plastic loads below the surface.