Member State report / Art11 / 2020 / D10 / Netherlands / NE Atlantic: Greater North Sea
| Report type | Member State report to Commission |
| MSFD Article | Art. 11 Monitoring programmes (and Art. 17 updates) |
| Report due | 2020-10-15 |
| GES Descriptor | D10 Litter |
| Member State | Netherlands |
| Region/subregion | NE Atlantic: Greater North Sea |
| Reported by | Rijkswaterstaat Water, Verkeer en Leefomgeving Zuiderwagenplein 2 8224 AD Lelystad Postbus 2232 3500 |
| Report date | 2020-11-17 |
| Report access |
Descriptor |
D10 |
D10 |
D10 |
D10 |
D10 |
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Monitoring strategy description |
The principal purpose of the MSFD monitoring programme is to review the progress that has been made towards achieving good environmental status prescribed for each criterion in the Marine Strategy Part I (2018). This review is based on established indicators. The monitoring can also be used to evaluate the environmental targets defined for each descriptor. The environmental targets are operational in nature and are linked to specific actions and/or measures in the Marine Strategy Part 3. The effects of individual measures cannot generally be linked directly to environmental status or the criteria. Monitoring data can, however, indirectly give an indication of the effectiveness of measures.
The monitoring (methods, spatial and temporal coverage) aims to achieve sufficient statistical confidence in the assessment. The risk of not achieving GES or deterioration from GES is addressed in the Marine Strategy, Parts 1 and 3.
The European Commission requests that the electronic reports explain how the DPSIR cycle is monitored and to which part of the cycle the monitoring surveys are linked. The MSFD monitoring programme helps to generate better insight into the relationships between the use of the sea and the marine ecosystem. This can be accomplished by monitoring pressures and the underlying activities (D1C1: incidental bycatch, D2: non-indigenous species, D3C1: fish mortality, D5: eutrophication, D6C1/D6C4: physical loss of seabed/habitats and D6C2: fisheries intensity and sand extraction, D8 and D9: pollutants, D10: litter, D11: underwater noise), and by monitoring species and habitats (D1: biodiversity (with the exception of D1C1), D3C2: spawning stock biomass, D4: food web, D6C3/D6C5: habitats ) and hydrographical characteristics (D7). The numerous relationships between the various elements of the marine ecosystem are complex, and many are still not known. Consequently, it is often only possible to give an indication of the impact of specific activities on the marine ecosystem.
Experts generally derive DPSIR relationships from the monitoring of pressures/activities and of species and habitats (from the MSFD monitoring programme), in combination with data derived from permits and research programmes. However, some surveys have been established to measure pressures and their effects and/or to learn more about the effectiveness of measures. In designing the monitoring survey for benthic animals (habitats), the Netherlands explicitly took account of the need to |
The principal purpose of the MSFD monitoring programme is to review the progress that has been made towards achieving good environmental status prescribed for each criterion in the Marine Strategy Part I (2018). This review is based on established indicators. The monitoring can also be used to evaluate the environmental targets defined for each descriptor. The environmental targets are operational in nature and are linked to specific actions and/or measures in the Marine Strategy Part 3. The effects of individual measures cannot generally be linked directly to environmental status or the criteria. Monitoring data can, however, indirectly give an indication of the effectiveness of measures.
The monitoring (methods, spatial and temporal coverage) aims to achieve sufficient statistical confidence in the assessment. The risk of not achieving GES or deterioration from GES is addressed in the Marine Strategy, Parts 1 and 3.
The European Commission requests that the electronic reports explain how the DPSIR cycle is monitored and to which part of the cycle the monitoring surveys are linked. The MSFD monitoring programme helps to generate better insight into the relationships between the use of the sea and the marine ecosystem. This can be accomplished by monitoring pressures and the underlying activities (D1C1: incidental bycatch, D2: non-indigenous species, D3C1: fish mortality, D5: eutrophication, D6C1/D6C4: physical loss of seabed/habitats and D6C2: fisheries intensity and sand extraction, D8 and D9: pollutants, D10: litter, D11: underwater noise), and by monitoring species and habitats (D1: biodiversity (with the exception of D1C1), D3C2: spawning stock biomass, D4: food web, D6C3/D6C5: habitats ) and hydrographical characteristics (D7). The numerous relationships between the various elements of the marine ecosystem are complex, and many are still not known. Consequently, it is often only possible to give an indication of the impact of specific activities on the marine ecosystem.
Experts generally derive DPSIR relationships from the monitoring of pressures/activities and of species and habitats (from the MSFD monitoring programme), in combination with data derived from permits and research programmes. However, some surveys have been established to measure pressures and their effects and/or to learn more about the effectiveness of measures. In designing the monitoring survey for benthic animals (habitats), the Netherlands explicitly took account of the need to |
The principal purpose of the MSFD monitoring programme is to review the progress that has been made towards achieving good environmental status prescribed for each criterion in the Marine Strategy Part I (2018). This review is based on established indicators. The monitoring can also be used to evaluate the environmental targets defined for each descriptor. The environmental targets are operational in nature and are linked to specific actions and/or measures in the Marine Strategy Part 3. The effects of individual measures cannot generally be linked directly to environmental status or the criteria. Monitoring data can, however, indirectly give an indication of the effectiveness of measures.
The monitoring (methods, spatial and temporal coverage) aims to achieve sufficient statistical confidence in the assessment. The risk of not achieving GES or deterioration from GES is addressed in the Marine Strategy, Parts 1 and 3.
The European Commission requests that the electronic reports explain how the DPSIR cycle is monitored and to which part of the cycle the monitoring surveys are linked. The MSFD monitoring programme helps to generate better insight into the relationships between the use of the sea and the marine ecosystem. This can be accomplished by monitoring pressures and the underlying activities (D1C1: incidental bycatch, D2: non-indigenous species, D3C1: fish mortality, D5: eutrophication, D6C1/D6C4: physical loss of seabed/habitats and D6C2: fisheries intensity and sand extraction, D8 and D9: pollutants, D10: litter, D11: underwater noise), and by monitoring species and habitats (D1: biodiversity (with the exception of D1C1), D3C2: spawning stock biomass, D4: food web, D6C3/D6C5: habitats ) and hydrographical characteristics (D7). The numerous relationships between the various elements of the marine ecosystem are complex, and many are still not known. Consequently, it is often only possible to give an indication of the impact of specific activities on the marine ecosystem.
Experts generally derive DPSIR relationships from the monitoring of pressures/activities and of species and habitats (from the MSFD monitoring programme), in combination with data derived from permits and research programmes. However, some surveys have been established to measure pressures and their effects and/or to learn more about the effectiveness of measures. In designing the monitoring survey for benthic animals (habitats), the Netherlands explicitly took account of the need to |
The principal purpose of the MSFD monitoring programme is to review the progress that has been made towards achieving good environmental status prescribed for each criterion in the Marine Strategy Part I (2018). This review is based on established indicators. The monitoring can also be used to evaluate the environmental targets defined for each descriptor. The environmental targets are operational in nature and are linked to specific actions and/or measures in the Marine Strategy Part 3. The effects of individual measures cannot generally be linked directly to environmental status or the criteria. Monitoring data can, however, indirectly give an indication of the effectiveness of measures.
The monitoring (methods, spatial and temporal coverage) aims to achieve sufficient statistical confidence in the assessment. The risk of not achieving GES or deterioration from GES is addressed in the Marine Strategy, Parts 1 and 3.
The European Commission requests that the electronic reports explain how the DPSIR cycle is monitored and to which part of the cycle the monitoring surveys are linked. The MSFD monitoring programme helps to generate better insight into the relationships between the use of the sea and the marine ecosystem. This can be accomplished by monitoring pressures and the underlying activities (D1C1: incidental bycatch, D2: non-indigenous species, D3C1: fish mortality, D5: eutrophication, D6C1/D6C4: physical loss of seabed/habitats and D6C2: fisheries intensity and sand extraction, D8 and D9: pollutants, D10: litter, D11: underwater noise), and by monitoring species and habitats (D1: biodiversity (with the exception of D1C1), D3C2: spawning stock biomass, D4: food web, D6C3/D6C5: habitats ) and hydrographical characteristics (D7). The numerous relationships between the various elements of the marine ecosystem are complex, and many are still not known. Consequently, it is often only possible to give an indication of the impact of specific activities on the marine ecosystem.
Experts generally derive DPSIR relationships from the monitoring of pressures/activities and of species and habitats (from the MSFD monitoring programme), in combination with data derived from permits and research programmes. However, some surveys have been established to measure pressures and their effects and/or to learn more about the effectiveness of measures. In designing the monitoring survey for benthic animals (habitats), the Netherlands explicitly took account of the need to |
The principal purpose of the MSFD monitoring programme is to review the progress that has been made towards achieving good environmental status prescribed for each criterion in the Marine Strategy Part I (2018). This review is based on established indicators. The monitoring can also be used to evaluate the environmental targets defined for each descriptor. The environmental targets are operational in nature and are linked to specific actions and/or measures in the Marine Strategy Part 3. The effects of individual measures cannot generally be linked directly to environmental status or the criteria. Monitoring data can, however, indirectly give an indication of the effectiveness of measures.
The monitoring (methods, spatial and temporal coverage) aims to achieve sufficient statistical confidence in the assessment. The risk of not achieving GES or deterioration from GES is addressed in the Marine Strategy, Parts 1 and 3.
The European Commission requests that the electronic reports explain how the DPSIR cycle is monitored and to which part of the cycle the monitoring surveys are linked. The MSFD monitoring programme helps to generate better insight into the relationships between the use of the sea and the marine ecosystem. This can be accomplished by monitoring pressures and the underlying activities (D1C1: incidental bycatch, D2: non-indigenous species, D3C1: fish mortality, D5: eutrophication, D6C1/D6C4: physical loss of seabed/habitats and D6C2: fisheries intensity and sand extraction, D8 and D9: pollutants, D10: litter, D11: underwater noise), and by monitoring species and habitats (D1: biodiversity (with the exception of D1C1), D3C2: spawning stock biomass, D4: food web, D6C3/D6C5: habitats ) and hydrographical characteristics (D7). The numerous relationships between the various elements of the marine ecosystem are complex, and many are still not known. Consequently, it is often only possible to give an indication of the impact of specific activities on the marine ecosystem.
Experts generally derive DPSIR relationships from the monitoring of pressures/activities and of species and habitats (from the MSFD monitoring programme), in combination with data derived from permits and research programmes. However, some surveys have been established to measure pressures and their effects and/or to learn more about the effectiveness of measures. In designing the monitoring survey for benthic animals (habitats), the Netherlands explicitly took account of the need to |
Coverage of GES criteria |
Adequate monitoring will be in place by 2024 |
Adequate monitoring will be in place by 2024 |
Adequate monitoring will be in place by 2024 |
Adequate monitoring will be in place by 2024 |
Adequate monitoring will be in place by 2024 |
Gaps and plans |
The IBTS survey, which is primarily established to monitor fish stocks, gives an initial impression of the quantity of litter on the seabed. However, its efficiency in ‘catching’ litter on the seabed is low; the actual quantities are therefore significantly larger than reported. The combined data on litter on the seabed from different North Sea countries are also inadequate for quantitative analysis, but that comparison can be made with a presence/absence analysis.
The MSFD monitoring programme will continue to anticipate any further requirements and developments, for example arising from OSPAR or new legislation. OSPAR collaborates closely with the EU Technical Group Marine Litter (TGML). E.g., both groups will investigate how representative the monitoring is for seabed and floating macro litter. Steps are also being taken to improve the quality assurance and quality control of the monitoring.
There is no monitoring in place for micro-litter yet, but a new survey for micro-litter in sediment is expected to be launched at the beginning of 2021. |
The IBTS survey, which is primarily established to monitor fish stocks, gives an initial impression of the quantity of litter on the seabed. However, its efficiency in ‘catching’ litter on the seabed is low; the actual quantities are therefore significantly larger than reported. The combined data on litter on the seabed from different North Sea countries are also inadequate for quantitative analysis, but that comparison can be made with a presence/absence analysis.
The MSFD monitoring programme will continue to anticipate any further requirements and developments, for example arising from OSPAR or new legislation. OSPAR collaborates closely with the EU Technical Group Marine Litter (TGML). E.g., both groups will investigate how representative the monitoring is for seabed and floating macro litter. Steps are also being taken to improve the quality assurance and quality control of the monitoring.
There is no monitoring in place for micro-litter yet, but a new survey for micro-litter in sediment is expected to be launched at the beginning of 2021. |
The IBTS survey, which is primarily established to monitor fish stocks, gives an initial impression of the quantity of litter on the seabed. However, its efficiency in ‘catching’ litter on the seabed is low; the actual quantities are therefore significantly larger than reported. The combined data on litter on the seabed from different North Sea countries are also inadequate for quantitative analysis, but that comparison can be made with a presence/absence analysis.
The MSFD monitoring programme will continue to anticipate any further requirements and developments, for example arising from OSPAR or new legislation. OSPAR collaborates closely with the EU Technical Group Marine Litter (TGML). E.g., both groups will investigate how representative the monitoring is for seabed and floating macro litter. Steps are also being taken to improve the quality assurance and quality control of the monitoring.
There is no monitoring in place for micro-litter yet, but a new survey for micro-litter in sediment is expected to be launched at the beginning of 2021. |
The IBTS survey, which is primarily established to monitor fish stocks, gives an initial impression of the quantity of litter on the seabed. However, its efficiency in ‘catching’ litter on the seabed is low; the actual quantities are therefore significantly larger than reported. The combined data on litter on the seabed from different North Sea countries are also inadequate for quantitative analysis, but that comparison can be made with a presence/absence analysis.
The MSFD monitoring programme will continue to anticipate any further requirements and developments, for example arising from OSPAR or new legislation. OSPAR collaborates closely with the EU Technical Group Marine Litter (TGML). E.g., both groups will investigate how representative the monitoring is for seabed and floating macro litter. Steps are also being taken to improve the quality assurance and quality control of the monitoring.
There is no monitoring in place for micro-litter yet, but a new survey for micro-litter in sediment is expected to be launched at the beginning of 2021. |
The IBTS survey, which is primarily established to monitor fish stocks, gives an initial impression of the quantity of litter on the seabed. However, its efficiency in ‘catching’ litter on the seabed is low; the actual quantities are therefore significantly larger than reported. The combined data on litter on the seabed from different North Sea countries are also inadequate for quantitative analysis, but that comparison can be made with a presence/absence analysis.
The MSFD monitoring programme will continue to anticipate any further requirements and developments, for example arising from OSPAR or new legislation. OSPAR collaborates closely with the EU Technical Group Marine Litter (TGML). E.g., both groups will investigate how representative the monitoring is for seabed and floating macro litter. Steps are also being taken to improve the quality assurance and quality control of the monitoring.
There is no monitoring in place for micro-litter yet, but a new survey for micro-litter in sediment is expected to be launched at the beginning of 2021. |
Related targets |
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Coverage of targets |
Adequate monitoring will be in place by 2024 |
Adequate monitoring will be in place by 2024 |
Adequate monitoring will be in place by 2024 |
Adequate monitoring will be in place by 2024 |
Adequate monitoring will be in place by 2024 |
Related measures |
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Coverage of measures |
Adequate monitoring will be in place by 2024 |
Adequate monitoring will be in place by 2024 |
Adequate monitoring will be in place by 2024 |
Adequate monitoring will be in place by 2024 |
Adequate monitoring will be in place by 2024 |
Related monitoring programmes |
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Programme code |
ANSNL-D10-Sub1-OSPAR-Beach |
ANSNL-D10-Sub2-OSPAR-Fulmar |
ANSNL-D10-Sub2-OSPAR-FulmarC3 |
ANSNL-D10-Sub2-OSPAR-seabed |
ANSNL-D10-microafval |
Programme name |
Litter - characteristics and abundance/volume on coast, water surface, seabed |
Litter - characteristics and abundance/volume on coast, water surface, seabed |
Litter/micro-litter in biota |
Litter - characteristics and abundance/volume on coast, water surface, seabed |
Litter micro-particles - abundance/volume in water, sediment |
Update type |
Same programme as in 2014 |
Same programme as in 2014 |
Same programme as in 2014 |
New programme |
New programme |
Old programme codes |
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Programme description |
To assess whether GES is achieved for criterion D10C1, information is needed on trends in the quantity and composition of litter on Dutch beaches, on the seabed and floating on the sea surface. The quantity of plastic found in the stomachs of fulmars (Fulmarus glacialis) is used as an indicator for litter on the surface layer. This indicator is also used for D10C3, which relates to the amount of litter ingested by marine animals.
Because litter crosses national borders, the monitoring and assessment is regionally coordinated in OSPAR. To gain insight into the sources of pollution and the effectiveness of measures, a distinction is made between different categories of litter. The assessment is carried out at both DCS level and North Sea level.
To monitor litter on beaches, surveys are conducted four times a year on four reference beaches in the municipalities of Terschelling, Bergen, Noordwijk and Veere for Rijkswaterstaat. At each location the litter is classified according to the 115 litter types in the OSPAR CEMP Guidelines (OSPAR, 2017). For each type of litter, the number of items per 100 metres is counted along the entire width of the beach. Only items of litter that are visible on the surface are counted.
The survey for monitoring plastics in the stomachs of birds has been part of Rijkswaterstaat’s MWTL programme since 2004, but has been operational since 1996. The data are provided every year by volunteers of the Northern fulmar working group, who collect dead Northern fulmars that have washed up along the Dutch coast during the year. Professionals then analyse the contents of the birds’ stomachs to determine the total mass of plastic particles in grams and the total number of particles in the stomach. The plastics found are divided into consumer plastics and industrial plastics (pellets). The method is documented in the OSPAR CEMP Guidelines (OSPAR, 2019).
In the coming years, Rijkswaterstaat will carry out pilot projects to develop monitoring methods for macro-litter and micro-plastics in rivers. Although they will not be part of the MSFD monitoring programme, these surveys will provide information about sources and the effectiveness of measures. |
To assess whether GES is achieved for criterion D10C1, information is needed on trends in the quantity and composition of litter on Dutch beaches, on the seabed and floating on the sea surface. The quantity of plastic found in the stomachs of fulmars (Fulmarus glacialis) is used as an indicator for litter on the surface layer. This indicator is also used for D10C3, which relates to the amount of litter ingested by marine animals.
Because litter crosses national borders, the monitoring and assessment is regionally coordinated in OSPAR. To gain insight into the sources of pollution and the effectiveness of measures, a distinction is made between different categories of litter. The assessment is carried out at both DCS level and North Sea level.
The survey for monitoring plastics in the stomachs of birds has been part of Rijkswaterstaat’s MWTL programme since 2004, but has been operational since 1996. The data are provided every year by volunteers of the Northern fulmar working group, who collect dead Northern fulmars that have washed up along the Dutch coast during the year. Professionals then analyse the contents of the birds’ stomachs to determine the total mass of plastic particles in grams and the total number of particles in the stomach. The plastics found are divided into consumer plastics and industrial plastics (pellets). The method is documented in the OSPAR CEMP Guidelines (OSPAR, 2019).
In the coming years, Rijkswaterstaat will carry out pilot projects to develop monitoring methods for macro-litter and micro-plastics in rivers. Although they will not be part of the MSFD monitoring programme, these surveys will provide information about sources and the effectiveness of measures. |
To assess whether GES is achieved for criterion D10C1, information is needed on trends in the quantity and composition of litter on Dutch beaches, on the seabed and floating on the sea surface. The quantity of plastic found in the stomachs of fulmars (Fulmarus glacialis) is used as an indicator for litter on the surface layer. This indicator is also used for D10C3, which relates to the amount of litter ingested by marine animals.
Because litter crosses national borders, the monitoring and assessment is regionally coordinated in OSPAR. To gain insight into the sources of pollution and the effectiveness of measures, a distinction is made between different categories of litter. The assessment is carried out at both DCS level and North Sea level.
The survey for monitoring plastics in the stomachs of birds has been part of Rijkswaterstaat’s MWTL programme since 2004, but has been operational since 1996. The data are provided every year by volunteers of the Northern fulmar working group, who collect dead Northern fulmars that have washed up along the Dutch coast during the year. Professionals then analyse the contents of the birds’ stomachs to determine the total mass of plastic particles in grams and the total number of particles in the stomach. The plastics found are divided into consumer plastics and industrial plastics (pellets). The method is documented in the OSPAR CEMP Guidelines (OSPAR, 2019).
In the coming years, Rijkswaterstaat will carry out pilot projects to develop monitoring methods for macro-litter and micro-plastics in rivers. Although they will not be part of the MSFD monitoring programme, these surveys will provide information about sources and the effectiveness of measures. |
To assess whether GES is achieved for criterion D10C1, information is needed on trends in the quantity and composition of litter on Dutch beaches, on the seabed and floating on the sea surface. The quantity of plastic found in the stomachs of fulmars (Fulmarus glacialis) is used as an indicator for litter on the surface layer. This indicator is also used for D10C3, which relates to the amount of litter ingested by marine animals.
Because litter crosses national borders, the monitoring and assessment is regionally coordinated in OSPAR. To gain insight into the sources of pollution and the effectiveness of measures, a distinction is made between different categories of litter. The assessment is carried out at both DCS level and North Sea level.
Since 2013, litter on the seabed has been collected as ‘bycatch’ during the International Bottom Trawl Survey (IBTS). The IBTS monitoring is carried out every year for the Ministry of Agriculture, Nature and Food Quality for the purposes of the Common Fisheries Policy (CFP). For the IBTS, ICES quadrants (areas of roughly 56 x 56 km) are sampled with a standard bottom trawl, the Grand Ouverture Verticale (GOV). Every area is fished in accordance with the standard ICES protocol. Litter that surfaces in the process is classified according to a list of forty types of litter. The number of items of each type of litter is registered during each 30-minute trawl, and the swept area is calculated, leading to litter counts per km2. The method to be used is laid down in the OSPAR CEMP Guidelines (OSPAR, 2017).
In the coming years, Rijkswaterstaat will carry out pilot projects to develop monitoring methods for macro-litter and micro-plastics in rivers. Although they will not be part of the MSFD monitoring programme, these surveys will provide information about sources and the effectiveness of measures. |
No GES has yet been established for micro-litter (D10C2), but OSPAR is expected to formulate an indicator in 2020. A new monitoring survey for micro-litter in sediment is expected to be launched at the beginning of 2021. The survey to be developed for monitoring at sea will have to be compatible with the technical specifications that are ultimately adopted in OSPAR’s CEMP Guidelines. Although not yet finalised, the following specifications are being considered:
• Spatial coverage: the DCS will be sampled at multiple locations, with the greatest density in the coastal zone since that is where the largest concentrations are.
• Monitoring frequency: a limited number of locations in the coastal zone will be sampled annually to allow for an analysis of the trend after five years of measurements. Monitoring every three years is sufficient for the other locations.
• Method: methods being considered to allow quantitative analysis are sampling with box core (subtidal) or trowel (intertidal).
Parameters: the total number of microplastic particles in each sample and the total mass (per kg dry weight) will be determined in the sand fraction. Only the top layer (to a depth of 5 cm) will be sampled because that is where the highest concentration of microplastics occur and the greatest changes are observed. The upper size limit for microplastic particles is 5 mm. |
Monitoring purpose |
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Other policies and conventions |
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Regional cooperation - coordinating body |
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Regional cooperation - countries involved |
NL |
NL |
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Regional cooperation - implementation level |
Coordinated data collection |
Coordinated data collection |
Coordinated data collection |
Coordinated data collection |
Agreed data collection methods |
Monitoring details |
To monitor litter on beaches, surveys are conducted four times a year on four reference beaches in the municipalities of Terschelling, Bergen, Noordwijk and Veere for Rijkswaterstaat. At each location the litter is classified according to the 115 litter types in the OSPAR CEMP Guidelines (OSPAR, 2017). For each type of litter, the number of items per 100 metres is counted along the entire width of the beach. Only items of litter that are visible on the surface are counted. |
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Features |
Litter in the environment
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Litter in the environment
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Litter and micro-litter in species
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Litter in the environment
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Micro-litter in the environment
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Elements |
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GES criteria |
D10C1 |
D10C1 |
D10C3 |
D10C1 |
D10C2 |
Parameters |
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Parameter Other |
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Spatial scope |
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Marine reporting units |
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Temporal scope (start date - end date) |
2001-9999 |
1996-9999 |
1996-9999 |
2013-9999 |
2021-9999 |
Monitoring frequency |
3-monthly |
Continually |
Continually |
Yearly |
3-yearly |
Monitoring type |
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Monitoring method |
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Monitoring method other |
Microplastics were not previously covered in the MSFD monitoring programme. On the basis of technical specifications and in consultation with OSPAR, Rijkswaterstaat is developing a monitoring method and monitoring network survey for microplastics in sediment. The method is expected to be operational from the beginning of 2021.
International coordination takes place under the auspices of OSPAR; to which the MSFD monitoring programme is linked as closely as possible. In recent years, a lot has been learned about the presence, the analysis and the effects of microplastics in national and international research programmes, including JPI Oceans, EU programmes and in the context of regional marine sea conventions.
The OSPAR microplastic expert group is currently working to construct OSPAR CEMP guidelines for monitoring of microplastics in marine sediment. The finalization of these CEMP guidelines is expected no sooner than in 2022, because many countries are still gaining experience with this new type of monitoring. With these CEMP guidelines, a common OSPAR indicator for microplastics in marine sediment will be established.
The monitoring of emissions of microplastics is still in the research phase. Various long-term research programmes are underway in the Netherlands, including the TRAMP project financed by the Technology Foundation STW.58
Steps will be taken in the coming years to develop a first monitoring programme for microplastics in fresh water, primarily designed to determine and model the microplastics mass load. |
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Quality control |
Monitoring of litter on the beach is carried out by the North Sea Foundation on behalf of RWS. The measurements are carried out by experienced employees according to strict OSPAR protocols. The results are processed annually into an extensive report with static analyzes and trend calculations.
http://publicaties.minienm.nl/download-bijlage/96367/bm-18-15-ospar-beach-litter-monitoring-in-the-netherlands-2012-2017-annual-report.pdf |
The monitoring of plastics in petrels is carried out by Wageningen Marine Research according to an internationally agreed method. The results are processed annually into an extensive report with static analysis and trend calculations.
Ongoing data quality by OSPAR-ICG-ML and OSPAR secretariat. |
The monitoring of plastics in petrels is carried out by Wageningen Marine Research according to an internationally agreed method. The results are processed annually into an extensive report with static analysis and trend calculations.
Ongoing data quality by OSPAR-ICG-ML and OSPAR secretariat. |
Monitoring of litter on the seabed is part of the IBTS survey and is coordinated by ICES. This monitoring is relatively new and not yet fully developed, which means that the quality of the collected data can be further improved. |
The monitoring of microplastics is still under development. Data quality control has not yet been organized for this monitoring. |
Data management |
Marine Information and Data Centre
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Marine Information and Data Centre
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Marine Information and Data Centre
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Marine Information and Data Centre
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Data access |
not yet available |
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Related indicator/name |
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Contact |
https://www.informatiehuismarien.nl/uk/secundaire-navigatie/contact/ |
https://www.informatiehuismarien.nl/uk/secundaire-navigatie/contact/ |
https://www.informatiehuismarien.nl/uk/secundaire-navigatie/contact/ |
https://www.informatiehuismarien.nl/uk/secundaire-navigatie/contact/ |
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References |
Van Hal R. (2019) Dutch seafloor litter monitoring North Sea. International Bottom Trawl Survey 2019. Wageningen Marine Research, IJmuiden. |
OSPAR (2018) Proposal for a candidate indicator on micro litter in sediments. Accepted by EIHA Committee. |