Emission, Transport, and Deposition of visible Plastics in an Estuary and the Baltic Sea—a Monitoring and Modeling Approach

Emission, Transport, and Deposition of visible Plastics in an Estuary and the Baltic Sea—a Monitoring and Modeling Approach

Aim: was to assess whether a comprehensive approach linking existing knowledge with monitoring and modeling can provide an improved insight into coastal and marine plastics pollution. We focused on large micro- and mesoplastic (1–25 mm) and selected macroplastic items. Emission calculations, samplings in the Warnow river and estuary (water body and bottom sediments) and a flood accumulation zone monitoring served as basis for model simulations on transport and behavior in the entire Baltic Sea. Considered were the most important pathways, sewage overflow and stormwater. The coastline monitoring together with calculations allowed estimating plastics emissions for Rostock city and the Warnow catchment. Average concentrations at the Warnow river mouth were 0.016 particles/m³ and in the estuary 0.14 particles/m³ (300 µm net). The estuary and nearby Baltic Sea beaches were hot-spots for plastic accumulation with 6–31 particles/m². With increasing distance from the estuary, the concentrations dropped to 0.3 particles/m². This spatial pattern, the plastic pollution gradients and the observed annual accumulation values were consistent with the model results. Indicator items for sewer overflow and stormwater emissions exist, but were only found at low numbers in the environment. The considered visible plastics alone can hardly serve as indicator for microplastic pollution (<1 mm). The use of up-scaled emission data as input for Baltic Sea model simulations provided information on large scale emission, transport and deposition patterns of visible plastics. The results underline the importance of plastic retention in rivers and estuaries.

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Bibliographic Details
Main Authors: Schernewski, Gerald, Radtke, Hagen, Robbe, Esther, Haseler, Mirco, Hauk, Rahel, Meyer, Lisa, Piehl, Sarah, Riedel, Joana, Labrenz, Matthias
Format: Article/Letter to editor biblioteca
Language:English
Subjects:Cigarette butts, Microplastic, Monitoring, Pollution, Sanitary sewer overflow, Stormwater,
Online Access:https://research.wur.nl/en/publications/emission-transport-and-deposition-of-visible-plastics-in-an-estua
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spelling dig-wur-nl-wurpubs-5875172024-12-04 Schernewski, Gerald Radtke, Hagen Robbe, Esther Haseler, Mirco Hauk, Rahel Meyer, Lisa Piehl, Sarah Riedel, Joana Labrenz, Matthias Article/Letter to editor Environmental Management 68 (2021) 6 ISSN: 0364-152X Emission, Transport, and Deposition of visible Plastics in an Estuary and the Baltic Sea—a Monitoring and Modeling Approach 2021 Aim: was to assess whether a comprehensive approach linking existing knowledge with monitoring and modeling can provide an improved insight into coastal and marine plastics pollution. We focused on large micro- and mesoplastic (1–25 mm) and selected macroplastic items. Emission calculations, samplings in the Warnow river and estuary (water body and bottom sediments) and a flood accumulation zone monitoring served as basis for model simulations on transport and behavior in the entire Baltic Sea. Considered were the most important pathways, sewage overflow and stormwater. The coastline monitoring together with calculations allowed estimating plastics emissions for Rostock city and the Warnow catchment. Average concentrations at the Warnow river mouth were 0.016 particles/m³ and in the estuary 0.14 particles/m³ (300 µm net). The estuary and nearby Baltic Sea beaches were hot-spots for plastic accumulation with 6–31 particles/m². With increasing distance from the estuary, the concentrations dropped to 0.3 particles/m². This spatial pattern, the plastic pollution gradients and the observed annual accumulation values were consistent with the model results. Indicator items for sewer overflow and stormwater emissions exist, but were only found at low numbers in the environment. The considered visible plastics alone can hardly serve as indicator for microplastic pollution (<1 mm). The use of up-scaled emission data as input for Baltic Sea model simulations provided information on large scale emission, transport and deposition patterns of visible plastics. The results underline the importance of plastic retention in rivers and estuaries. en application/pdf https://research.wur.nl/en/publications/emission-transport-and-deposition-of-visible-plastics-in-an-estua 10.1007/s00267-021-01534-2 https://edepot.wur.nl/554622 Cigarette butts Microplastic Monitoring Pollution Sanitary sewer overflow Stormwater https://creativecommons.org/licenses/by/4.0/ https://creativecommons.org/licenses/by/4.0/ Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic Cigarette butts
Microplastic
Monitoring
Pollution
Sanitary sewer overflow
Stormwater
Cigarette butts
Microplastic
Monitoring
Pollution
Sanitary sewer overflow
Stormwater
spellingShingle Cigarette butts
Microplastic
Monitoring
Pollution
Sanitary sewer overflow
Stormwater
Cigarette butts
Microplastic
Monitoring
Pollution
Sanitary sewer overflow
Stormwater
Schernewski, Gerald
Radtke, Hagen
Robbe, Esther
Haseler, Mirco
Hauk, Rahel
Meyer, Lisa
Piehl, Sarah
Riedel, Joana
Labrenz, Matthias
Emission, Transport, and Deposition of visible Plastics in an Estuary and the Baltic Sea—a Monitoring and Modeling Approach
description Aim: was to assess whether a comprehensive approach linking existing knowledge with monitoring and modeling can provide an improved insight into coastal and marine plastics pollution. We focused on large micro- and mesoplastic (1–25 mm) and selected macroplastic items. Emission calculations, samplings in the Warnow river and estuary (water body and bottom sediments) and a flood accumulation zone monitoring served as basis for model simulations on transport and behavior in the entire Baltic Sea. Considered were the most important pathways, sewage overflow and stormwater. The coastline monitoring together with calculations allowed estimating plastics emissions for Rostock city and the Warnow catchment. Average concentrations at the Warnow river mouth were 0.016 particles/m³ and in the estuary 0.14 particles/m³ (300 µm net). The estuary and nearby Baltic Sea beaches were hot-spots for plastic accumulation with 6–31 particles/m². With increasing distance from the estuary, the concentrations dropped to 0.3 particles/m². This spatial pattern, the plastic pollution gradients and the observed annual accumulation values were consistent with the model results. Indicator items for sewer overflow and stormwater emissions exist, but were only found at low numbers in the environment. The considered visible plastics alone can hardly serve as indicator for microplastic pollution (<1 mm). The use of up-scaled emission data as input for Baltic Sea model simulations provided information on large scale emission, transport and deposition patterns of visible plastics. The results underline the importance of plastic retention in rivers and estuaries.
format Article/Letter to editor
topic_facet Cigarette butts
Microplastic
Monitoring
Pollution
Sanitary sewer overflow
Stormwater
author Schernewski, Gerald
Radtke, Hagen
Robbe, Esther
Haseler, Mirco
Hauk, Rahel
Meyer, Lisa
Piehl, Sarah
Riedel, Joana
Labrenz, Matthias
author_facet Schernewski, Gerald
Radtke, Hagen
Robbe, Esther
Haseler, Mirco
Hauk, Rahel
Meyer, Lisa
Piehl, Sarah
Riedel, Joana
Labrenz, Matthias
author_sort Schernewski, Gerald
title Emission, Transport, and Deposition of visible Plastics in an Estuary and the Baltic Sea—a Monitoring and Modeling Approach
title_short Emission, Transport, and Deposition of visible Plastics in an Estuary and the Baltic Sea—a Monitoring and Modeling Approach
title_full Emission, Transport, and Deposition of visible Plastics in an Estuary and the Baltic Sea—a Monitoring and Modeling Approach
title_fullStr Emission, Transport, and Deposition of visible Plastics in an Estuary and the Baltic Sea—a Monitoring and Modeling Approach
title_full_unstemmed Emission, Transport, and Deposition of visible Plastics in an Estuary and the Baltic Sea—a Monitoring and Modeling Approach
title_sort emission, transport, and deposition of visible plastics in an estuary and the baltic sea—a monitoring and modeling approach
url https://research.wur.nl/en/publications/emission-transport-and-deposition-of-visible-plastics-in-an-estua
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AT robbeesther emissiontransportanddepositionofvisibleplasticsinanestuaryandthebalticseaamonitoringandmodelingapproach
AT haselermirco emissiontransportanddepositionofvisibleplasticsinanestuaryandthebalticseaamonitoringandmodelingapproach
AT haukrahel emissiontransportanddepositionofvisibleplasticsinanestuaryandthebalticseaamonitoringandmodelingapproach
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AT piehlsarah emissiontransportanddepositionofvisibleplasticsinanestuaryandthebalticseaamonitoringandmodelingapproach
AT riedeljoana emissiontransportanddepositionofvisibleplasticsinanestuaryandthebalticseaamonitoringandmodelingapproach
AT labrenzmatthias emissiontransportanddepositionofvisibleplasticsinanestuaryandthebalticseaamonitoringandmodelingapproach
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