Member State report / Art11 / 2020 / D7 / Poland / Baltic 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 | D7 Hydrographical changes |
| Member State | Poland |
| Region/subregion | Baltic Sea |
| Reported by | Chief Inspectorate of Environmental Protection |
| Report date | 2021-12-31 |
| Report access |
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Monitoring strategy description |
The goal of the strategy is to use information on human activities resulting in permanent alteration of hydrographical conditions gathered within strategy for Descriptor D6 and apply it along with information on water column physical characteristics to assess spatial extent and distribution of permanent alteration of hydrographical conditions to the seabed and water column. The strategy is compliant with Commission Directive (EU) 2017/845 of 17 May 2017 and criteria laid down in Commission Decision (EU) 2017/848 of 17 May 2017. |
The goal of the strategy is to use information on human activities resulting in permanent alteration of hydrographical conditions gathered within strategy for Descriptor D6 and apply it along with information on water column physical characteristics to assess spatial extent and distribution of permanent alteration of hydrographical conditions to the seabed and water column. The strategy is compliant with Commission Directive (EU) 2017/845 of 17 May 2017 and criteria laid down in Commission Decision (EU) 2017/848 of 17 May 2017. |
The goal of the strategy is to use information on human activities resulting in permanent alteration of hydrographical conditions gathered within strategy for Descriptor D6 and apply it along with information on water column physical characteristics to assess spatial extent and distribution of permanent alteration of hydrographical conditions to the seabed and water column. The strategy is compliant with Commission Directive (EU) 2017/845 of 17 May 2017 and criteria laid down in Commission Decision (EU) 2017/848 of 17 May 2017. |
The goal of the strategy is to use information on human activities resulting in permanent alteration of hydrographical conditions gathered within strategy for Descriptor D6 and apply it along with information on water column physical characteristics to assess spatial extent and distribution of permanent alteration of hydrographical conditions to the seabed and water column. The strategy is compliant with Commission Directive (EU) 2017/845 of 17 May 2017 and criteria laid down in Commission Decision (EU) 2017/848 of 17 May 2017. |
The goal of the strategy is to use information on human activities resulting in permanent alteration of hydrographical conditions gathered within strategy for Descriptor D6 and apply it along with information on water column physical characteristics to assess spatial extent and distribution of permanent alteration of hydrographical conditions to the seabed and water column. The strategy is compliant with Commission Directive (EU) 2017/845 of 17 May 2017 and criteria laid down in Commission Decision (EU) 2017/848 of 17 May 2017. |
The goal of the strategy is to use information on human activities resulting in permanent alteration of hydrographical conditions gathered within strategy for Descriptor D6 and apply it along with information on water column physical characteristics to assess spatial extent and distribution of permanent alteration of hydrographical conditions to the seabed and water column. The strategy is compliant with Commission Directive (EU) 2017/845 of 17 May 2017 and criteria laid down in Commission Decision (EU) 2017/848 of 17 May 2017. |
The goal of the strategy is to use information on human activities resulting in permanent alteration of hydrographical conditions gathered within strategy for Descriptor D6 and apply it along with information on water column physical characteristics to assess spatial extent and distribution of permanent alteration of hydrographical conditions to the seabed and water column. The strategy is compliant with Commission Directive (EU) 2017/845 of 17 May 2017 and criteria laid down in Commission Decision (EU) 2017/848 of 17 May 2017. |
The goal of the strategy is to use information on human activities resulting in permanent alteration of hydrographical conditions gathered within strategy for Descriptor D6 and apply it along with information on water column physical characteristics to assess spatial extent and distribution of permanent alteration of hydrographical conditions to the seabed and water column. The strategy is compliant with Commission Directive (EU) 2017/845 of 17 May 2017 and criteria laid down in Commission Decision (EU) 2017/848 of 17 May 2017. |
The goal of the strategy is to use information on human activities resulting in permanent alteration of hydrographical conditions gathered within strategy for Descriptor D6 and apply it along with information on water column physical characteristics to assess spatial extent and distribution of permanent alteration of hydrographical conditions to the seabed and water column. The strategy is compliant with Commission Directive (EU) 2017/845 of 17 May 2017 and criteria laid down in Commission Decision (EU) 2017/848 of 17 May 2017. |
The goal of the strategy is to use information on human activities resulting in permanent alteration of hydrographical conditions gathered within strategy for Descriptor D6 and apply it along with information on water column physical characteristics to assess spatial extent and distribution of permanent alteration of hydrographical conditions to the seabed and water column. The strategy is compliant with Commission Directive (EU) 2017/845 of 17 May 2017 and criteria laid down in Commission Decision (EU) 2017/848 of 17 May 2017. |
The goal of the strategy is to use information on human activities resulting in permanent alteration of hydrographical conditions gathered within strategy for Descriptor D6 and apply it along with information on water column physical characteristics to assess spatial extent and distribution of permanent alteration of hydrographical conditions to the seabed and water column. The strategy is compliant with Commission Directive (EU) 2017/845 of 17 May 2017 and criteria laid down in Commission Decision (EU) 2017/848 of 17 May 2017. |
The goal of the strategy is to use information on human activities resulting in permanent alteration of hydrographical conditions gathered within strategy for Descriptor D6 and apply it along with information on water column physical characteristics to assess spatial extent and distribution of permanent alteration of hydrographical conditions to the seabed and water column. The strategy is compliant with Commission Directive (EU) 2017/845 of 17 May 2017 and criteria laid down in Commission Decision (EU) 2017/848 of 17 May 2017. |
The goal of the strategy is to use information on human activities resulting in permanent alteration of hydrographical conditions gathered within strategy for Descriptor D6 and apply it along with information on water column physical characteristics to assess spatial extent and distribution of permanent alteration of hydrographical conditions to the seabed and water column. The strategy is compliant with Commission Directive (EU) 2017/845 of 17 May 2017 and criteria laid down in Commission Decision (EU) 2017/848 of 17 May 2017. |
The goal of the strategy is to use information on human activities resulting in permanent alteration of hydrographical conditions gathered within strategy for Descriptor D6 and apply it along with information on water column physical characteristics to assess spatial extent and distribution of permanent alteration of hydrographical conditions to the seabed and water column. The strategy is compliant with Commission Directive (EU) 2017/845 of 17 May 2017 and criteria laid down in Commission Decision (EU) 2017/848 of 17 May 2017. |
The goal of the strategy is to use information on human activities resulting in permanent alteration of hydrographical conditions gathered within strategy for Descriptor D6 and apply it along with information on water column physical characteristics to assess spatial extent and distribution of permanent alteration of hydrographical conditions to the seabed and water column. The strategy is compliant with Commission Directive (EU) 2017/845 of 17 May 2017 and criteria laid down in Commission Decision (EU) 2017/848 of 17 May 2017. |
The goal of the strategy is to use information on human activities resulting in permanent alteration of hydrographical conditions gathered within strategy for Descriptor D6 and apply it along with information on water column physical characteristics to assess spatial extent and distribution of permanent alteration of hydrographical conditions to the seabed and water column. The strategy is compliant with Commission Directive (EU) 2017/845 of 17 May 2017 and criteria laid down in Commission Decision (EU) 2017/848 of 17 May 2017. |
The goal of the strategy is to use information on human activities resulting in permanent alteration of hydrographical conditions gathered within strategy for Descriptor D6 and apply it along with information on water column physical characteristics to assess spatial extent and distribution of permanent alteration of hydrographical conditions to the seabed and water column. The strategy is compliant with Commission Directive (EU) 2017/845 of 17 May 2017 and criteria laid down in Commission Decision (EU) 2017/848 of 17 May 2017. |
The goal of the strategy is to use information on human activities resulting in permanent alteration of hydrographical conditions gathered within strategy for Descriptor D6 and apply it along with information on water column physical characteristics to assess spatial extent and distribution of permanent alteration of hydrographical conditions to the seabed and water column. The strategy is compliant with Commission Directive (EU) 2017/845 of 17 May 2017 and criteria laid down in Commission Decision (EU) 2017/848 of 17 May 2017. |
The goal of the strategy is to use information on human activities resulting in permanent alteration of hydrographical conditions gathered within strategy for Descriptor D6 and apply it along with information on water column physical characteristics to assess spatial extent and distribution of permanent alteration of hydrographical conditions to the seabed and water column. The strategy is compliant with Commission Directive (EU) 2017/845 of 17 May 2017 and criteria laid down in Commission Decision (EU) 2017/848 of 17 May 2017. |
The goal of the strategy is to use information on human activities resulting in permanent alteration of hydrographical conditions gathered within strategy for Descriptor D6 and apply it along with information on water column physical characteristics to assess spatial extent and distribution of permanent alteration of hydrographical conditions to the seabed and water column. The strategy is compliant with Commission Directive (EU) 2017/845 of 17 May 2017 and criteria laid down in Commission Decision (EU) 2017/848 of 17 May 2017. |
The goal of the strategy is to use information on human activities resulting in permanent alteration of hydrographical conditions gathered within strategy for Descriptor D6 and apply it along with information on water column physical characteristics to assess spatial extent and distribution of permanent alteration of hydrographical conditions to the seabed and water column. The strategy is compliant with Commission Directive (EU) 2017/845 of 17 May 2017 and criteria laid down in Commission Decision (EU) 2017/848 of 17 May 2017. |
The goal of the strategy is to use information on human activities resulting in permanent alteration of hydrographical conditions gathered within strategy for Descriptor D6 and apply it along with information on water column physical characteristics to assess spatial extent and distribution of permanent alteration of hydrographical conditions to the seabed and water column. The strategy is compliant with Commission Directive (EU) 2017/845 of 17 May 2017 and criteria laid down in Commission Decision (EU) 2017/848 of 17 May 2017. |
The goal of the strategy is to use information on human activities resulting in permanent alteration of hydrographical conditions gathered within strategy for Descriptor D6 and apply it along with information on water column physical characteristics to assess spatial extent and distribution of permanent alteration of hydrographical conditions to the seabed and water column. The strategy is compliant with Commission Directive (EU) 2017/845 of 17 May 2017 and criteria laid down in Commission Decision (EU) 2017/848 of 17 May 2017. |
The goal of the strategy is to use information on human activities resulting in permanent alteration of hydrographical conditions gathered within strategy for Descriptor D6 and apply it along with information on water column physical characteristics to assess spatial extent and distribution of permanent alteration of hydrographical conditions to the seabed and water column. The strategy is compliant with Commission Directive (EU) 2017/845 of 17 May 2017 and criteria laid down in Commission Decision (EU) 2017/848 of 17 May 2017. |
The goal of the strategy is to use information on human activities resulting in permanent alteration of hydrographical conditions gathered within strategy for Descriptor D6 and apply it along with information on water column physical characteristics to assess spatial extent and distribution of permanent alteration of hydrographical conditions to the seabed and water column. The strategy is compliant with Commission Directive (EU) 2017/845 of 17 May 2017 and criteria laid down in Commission Decision (EU) 2017/848 of 17 May 2017. |
The goal of the strategy is to use information on human activities resulting in permanent alteration of hydrographical conditions gathered within strategy for Descriptor D6 and apply it along with information on water column physical characteristics to assess spatial extent and distribution of permanent alteration of hydrographical conditions to the seabed and water column. The strategy is compliant with Commission Directive (EU) 2017/845 of 17 May 2017 and criteria laid down in Commission Decision (EU) 2017/848 of 17 May 2017. |
The goal of the strategy is to use information on human activities resulting in permanent alteration of hydrographical conditions gathered within strategy for Descriptor D6 and apply it along with information on water column physical characteristics to assess spatial extent and distribution of permanent alteration of hydrographical conditions to the seabed and water column. The strategy is compliant with Commission Directive (EU) 2017/845 of 17 May 2017 and criteria laid down in Commission Decision (EU) 2017/848 of 17 May 2017. |
The goal of the strategy is to use information on human activities resulting in permanent alteration of hydrographical conditions gathered within strategy for Descriptor D6 and apply it along with information on water column physical characteristics to assess spatial extent and distribution of permanent alteration of hydrographical conditions to the seabed and water column. The strategy is compliant with Commission Directive (EU) 2017/845 of 17 May 2017 and criteria laid down in Commission Decision (EU) 2017/848 of 17 May 2017. |
Coverage of GES criteria |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Gaps and plans |
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Related targets |
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Coverage of targets |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Adequate monitoring is in place by July 2020 |
Related measures |
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Coverage of measures |
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Related monitoring programmes |
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Programme code |
PL-D06-01 |
PL-D06-01 |
PL-D06-01 |
PL-D06-01 |
PL-D06-01 |
PL-D06-01 |
PL-D06-01 |
PL-D06-01 |
PL-D06-02 |
PL-D06-02 |
PL-D06-02 |
PL-D06-02 |
PL-D06-02 |
PL-D06-02 |
PL-D06-02 |
PL-D06-02 |
PL-D06-02 |
PL-D06-02 |
PL-D06-03 |
PL-D06-03 |
PL-D07-01 |
PL-D07-01 |
PL-D07-01 |
PL-D07-01 |
PL-D07-01 |
PL-D07-01 |
PL-D07-01 |
PL-D07-01 |
Programme name |
Seabed habitats - community characteristics |
Seabed habitats - community characteristics |
Seabed habitats - community characteristics |
Seabed habitats - community characteristics |
Seabed habitats - community characteristics |
Seabed habitats - community characteristics |
Seabed habitats - community characteristics |
Seabed habitats - community characteristics |
Benthic species – abundance or biomass |
Benthic species – abundance or biomass |
Benthic species – abundance or biomass |
Benthic species – abundance or biomass |
Benthic species – abundance or biomass |
Benthic species – abundance or biomass |
Benthic species – abundance or biomass |
Benthic species – abundance or biomass |
Benthic species – abundance or biomass |
Benthic species – abundance or biomass |
Seabed habitats - physical and chemical characteristics |
Seabed habitats - physical and chemical characteristics |
Water column - physical characteristics |
Water column - physical characteristics |
Water column - physical characteristics |
Water column - physical characteristics |
Water column - physical characteristics |
Water column - physical characteristics |
Water column - physical characteristics |
Water column - physical characteristics |
Update type |
New programme |
New programme |
New programme |
New programme |
New programme |
New programme |
New programme |
New programme |
New programme |
New programme |
New programme |
New programme |
New programme |
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New programme |
New programme |
New programme |
New programme |
New programme |
New programme |
New programme |
New programme |
New programme |
New programme |
New programme |
Old programme codes |
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Programme description |
The community characteristics is monitored each year in accordance with the HELCOM methodology, including parameters necessary for the assessment of benthic habitats. Monitoring includes sampling of macrozoobenthos at 16 stations and macrophyte and angiosperms at places of occurrence within PMA.
For the transitional and coastal waterbodies monitoring will be carried out for 19 monitoring points in 2020-2021 and 11 monitoring points in 2022-2025 in accordance with the WFD monitoring programme, carried out under the surface water monitoring programme for the years 2020-2025 ("Strategic State Environmental Monitoring Programme for the years 2020-2025"), approved by the Competent Minister of Climate in 2020 and the surface water executive programme for a specific year of research approved annually by the Chief Inspector of Environmental Protection |
The community characteristics is monitored each year in accordance with the HELCOM methodology, including parameters necessary for the assessment of benthic habitats. Monitoring includes sampling of macrozoobenthos at 16 stations and macrophyte and angiosperms at places of occurrence within PMA.
For the transitional and coastal waterbodies monitoring will be carried out for 19 monitoring points in 2020-2021 and 11 monitoring points in 2022-2025 in accordance with the WFD monitoring programme, carried out under the surface water monitoring programme for the years 2020-2025 ("Strategic State Environmental Monitoring Programme for the years 2020-2025"), approved by the Competent Minister of Climate in 2020 and the surface water executive programme for a specific year of research approved annually by the Chief Inspector of Environmental Protection |
The community characteristics is monitored each year in accordance with the HELCOM methodology, including parameters necessary for the assessment of benthic habitats. Monitoring includes sampling of macrozoobenthos at 16 stations and macrophyte and angiosperms at places of occurrence within PMA.
For the transitional and coastal waterbodies monitoring will be carried out for 19 monitoring points in 2020-2021 and 11 monitoring points in 2022-2025 in accordance with the WFD monitoring programme, carried out under the surface water monitoring programme for the years 2020-2025 ("Strategic State Environmental Monitoring Programme for the years 2020-2025"), approved by the Competent Minister of Climate in 2020 and the surface water executive programme for a specific year of research approved annually by the Chief Inspector of Environmental Protection |
The community characteristics is monitored each year in accordance with the HELCOM methodology, including parameters necessary for the assessment of benthic habitats. Monitoring includes sampling of macrozoobenthos at 16 stations and macrophyte and angiosperms at places of occurrence within PMA.
For the transitional and coastal waterbodies monitoring will be carried out for 19 monitoring points in 2020-2021 and 11 monitoring points in 2022-2025 in accordance with the WFD monitoring programme, carried out under the surface water monitoring programme for the years 2020-2025 ("Strategic State Environmental Monitoring Programme for the years 2020-2025"), approved by the Competent Minister of Climate in 2020 and the surface water executive programme for a specific year of research approved annually by the Chief Inspector of Environmental Protection |
The community characteristics is monitored each year in accordance with the HELCOM methodology, including parameters necessary for the assessment of benthic habitats. Monitoring includes sampling of macrozoobenthos at 16 stations and macrophyte and angiosperms at places of occurrence within PMA.
For the transitional and coastal waterbodies monitoring will be carried out for 19 monitoring points in 2020-2021 and 11 monitoring points in 2022-2025 in accordance with the WFD monitoring programme, carried out under the surface water monitoring programme for the years 2020-2025 ("Strategic State Environmental Monitoring Programme for the years 2020-2025"), approved by the Competent Minister of Climate in 2020 and the surface water executive programme for a specific year of research approved annually by the Chief Inspector of Environmental Protection |
The community characteristics is monitored each year in accordance with the HELCOM methodology, including parameters necessary for the assessment of benthic habitats. Monitoring includes sampling of macrozoobenthos at 16 stations and macrophyte and angiosperms at places of occurrence within PMA.
For the transitional and coastal waterbodies monitoring will be carried out for 19 monitoring points in 2020-2021 and 11 monitoring points in 2022-2025 in accordance with the WFD monitoring programme, carried out under the surface water monitoring programme for the years 2020-2025 ("Strategic State Environmental Monitoring Programme for the years 2020-2025"), approved by the Competent Minister of Climate in 2020 and the surface water executive programme for a specific year of research approved annually by the Chief Inspector of Environmental Protection |
The community characteristics is monitored each year in accordance with the HELCOM methodology, including parameters necessary for the assessment of benthic habitats. Monitoring includes sampling of macrozoobenthos at 16 stations and macrophyte and angiosperms at places of occurrence within PMA.
For the transitional and coastal waterbodies monitoring will be carried out for 19 monitoring points in 2020-2021 and 11 monitoring points in 2022-2025 in accordance with the WFD monitoring programme, carried out under the surface water monitoring programme for the years 2020-2025 ("Strategic State Environmental Monitoring Programme for the years 2020-2025"), approved by the Competent Minister of Climate in 2020 and the surface water executive programme for a specific year of research approved annually by the Chief Inspector of Environmental Protection |
The community characteristics is monitored each year in accordance with the HELCOM methodology, including parameters necessary for the assessment of benthic habitats. Monitoring includes sampling of macrozoobenthos at 16 stations and macrophyte and angiosperms at places of occurrence within PMA.
For the transitional and coastal waterbodies monitoring will be carried out for 19 monitoring points in 2020-2021 and 11 monitoring points in 2022-2025 in accordance with the WFD monitoring programme, carried out under the surface water monitoring programme for the years 2020-2025 ("Strategic State Environmental Monitoring Programme for the years 2020-2025"), approved by the Competent Minister of Climate in 2020 and the surface water executive programme for a specific year of research approved annually by the Chief Inspector of Environmental Protection |
The abundance and/or biomass of species is monitored each year in accordance with the HELCOM methodology, including parameters necessary for the assessment of benthic habitats. Monitoring includes sampling of macrozoobenthos at 16 stations and macrophyte and angiosperms at places of occurrence within PMA.
For the transitional and coastal waterbodies monitoring will be carried out for 19 monitoring points in 2020-2021 and 11 monitoring points in 2022-2025 in accordance with the WFD monitoring programme, carried out under the surface water monitoring programme for the years 2020-2025 ("Strategic State Environmental Monitoring Programme for the years 2020-2025"), approved by the Competent Minister of Climate in 2020 and the surface water executive programme for a specific year of research approved annually by the Chief Inspector of Environmental Protection |
The abundance and/or biomass of species is monitored each year in accordance with the HELCOM methodology, including parameters necessary for the assessment of benthic habitats. Monitoring includes sampling of macrozoobenthos at 16 stations and macrophyte and angiosperms at places of occurrence within PMA.
For the transitional and coastal waterbodies monitoring will be carried out for 19 monitoring points in 2020-2021 and 11 monitoring points in 2022-2025 in accordance with the WFD monitoring programme, carried out under the surface water monitoring programme for the years 2020-2025 ("Strategic State Environmental Monitoring Programme for the years 2020-2025"), approved by the Competent Minister of Climate in 2020 and the surface water executive programme for a specific year of research approved annually by the Chief Inspector of Environmental Protection |
The abundance and/or biomass of species is monitored each year in accordance with the HELCOM methodology, including parameters necessary for the assessment of benthic habitats. Monitoring includes sampling of macrozoobenthos at 16 stations and macrophyte and angiosperms at places of occurrence within PMA.
For the transitional and coastal waterbodies monitoring will be carried out for 19 monitoring points in 2020-2021 and 11 monitoring points in 2022-2025 in accordance with the WFD monitoring programme, carried out under the surface water monitoring programme for the years 2020-2025 ("Strategic State Environmental Monitoring Programme for the years 2020-2025"), approved by the Competent Minister of Climate in 2020 and the surface water executive programme for a specific year of research approved annually by the Chief Inspector of Environmental Protection |
The abundance and/or biomass of species is monitored each year in accordance with the HELCOM methodology, including parameters necessary for the assessment of benthic habitats. Monitoring includes sampling of macrozoobenthos at 16 stations and macrophyte and angiosperms at places of occurrence within PMA.
For the transitional and coastal waterbodies monitoring will be carried out for 19 monitoring points in 2020-2021 and 11 monitoring points in 2022-2025 in accordance with the WFD monitoring programme, carried out under the surface water monitoring programme for the years 2020-2025 ("Strategic State Environmental Monitoring Programme for the years 2020-2025"), approved by the Competent Minister of Climate in 2020 and the surface water executive programme for a specific year of research approved annually by the Chief Inspector of Environmental Protection |
The abundance and/or biomass of species is monitored each year in accordance with the HELCOM methodology, including parameters necessary for the assessment of benthic habitats. Monitoring includes sampling of macrozoobenthos at 16 stations and macrophyte and angiosperms at places of occurrence within PMA.
For the transitional and coastal waterbodies monitoring will be carried out for 19 monitoring points in 2020-2021 and 11 monitoring points in 2022-2025 in accordance with the WFD monitoring programme, carried out under the surface water monitoring programme for the years 2020-2025 ("Strategic State Environmental Monitoring Programme for the years 2020-2025"), approved by the Competent Minister of Climate in 2020 and the surface water executive programme for a specific year of research approved annually by the Chief Inspector of Environmental Protection |
The abundance and/or biomass of species is monitored each year in accordance with the HELCOM methodology, including parameters necessary for the assessment of benthic habitats. Monitoring includes sampling of macrozoobenthos at 16 stations and macrophyte and angiosperms at places of occurrence within PMA.
For the transitional and coastal waterbodies monitoring will be carried out for 19 monitoring points in 2020-2021 and 11 monitoring points in 2022-2025 in accordance with the WFD monitoring programme, carried out under the surface water monitoring programme for the years 2020-2025 ("Strategic State Environmental Monitoring Programme for the years 2020-2025"), approved by the Competent Minister of Climate in 2020 and the surface water executive programme for a specific year of research approved annually by the Chief Inspector of Environmental Protection |
The abundance and/or biomass of species is monitored each year in accordance with the HELCOM methodology, including parameters necessary for the assessment of benthic habitats. Monitoring includes sampling of macrozoobenthos at 16 stations and macrophyte and angiosperms at places of occurrence within PMA.
For the transitional and coastal waterbodies monitoring will be carried out for 19 monitoring points in 2020-2021 and 11 monitoring points in 2022-2025 in accordance with the WFD monitoring programme, carried out under the surface water monitoring programme for the years 2020-2025 ("Strategic State Environmental Monitoring Programme for the years 2020-2025"), approved by the Competent Minister of Climate in 2020 and the surface water executive programme for a specific year of research approved annually by the Chief Inspector of Environmental Protection |
The abundance and/or biomass of species is monitored each year in accordance with the HELCOM methodology, including parameters necessary for the assessment of benthic habitats. Monitoring includes sampling of macrozoobenthos at 16 stations and macrophyte and angiosperms at places of occurrence within PMA.
For the transitional and coastal waterbodies monitoring will be carried out for 19 monitoring points in 2020-2021 and 11 monitoring points in 2022-2025 in accordance with the WFD monitoring programme, carried out under the surface water monitoring programme for the years 2020-2025 ("Strategic State Environmental Monitoring Programme for the years 2020-2025"), approved by the Competent Minister of Climate in 2020 and the surface water executive programme for a specific year of research approved annually by the Chief Inspector of Environmental Protection |
The abundance and/or biomass of species is monitored each year in accordance with the HELCOM methodology, including parameters necessary for the assessment of benthic habitats. Monitoring includes sampling of macrozoobenthos at 16 stations and macrophyte and angiosperms at places of occurrence within PMA.
For the transitional and coastal waterbodies monitoring will be carried out for 19 monitoring points in 2020-2021 and 11 monitoring points in 2022-2025 in accordance with the WFD monitoring programme, carried out under the surface water monitoring programme for the years 2020-2025 ("Strategic State Environmental Monitoring Programme for the years 2020-2025"), approved by the Competent Minister of Climate in 2020 and the surface water executive programme for a specific year of research approved annually by the Chief Inspector of Environmental Protection |
The abundance and/or biomass of species is monitored each year in accordance with the HELCOM methodology, including parameters necessary for the assessment of benthic habitats. Monitoring includes sampling of macrozoobenthos at 16 stations and macrophyte and angiosperms at places of occurrence within PMA.
For the transitional and coastal waterbodies monitoring will be carried out for 19 monitoring points in 2020-2021 and 11 monitoring points in 2022-2025 in accordance with the WFD monitoring programme, carried out under the surface water monitoring programme for the years 2020-2025 ("Strategic State Environmental Monitoring Programme for the years 2020-2025"), approved by the Competent Minister of Climate in 2020 and the surface water executive programme for a specific year of research approved annually by the Chief Inspector of Environmental Protection |
Monitoring of parameters in scope of the seabed habitats - physical and chemical characteristics programme includes monitoring of hydromorphological parameters that characterize morphological conditions, morphometric conditions, change in depth and quantitative structure and physical and chemical characteristics of the seabed and is carried out within the WFD waterbodies at measurement points and profiles. Additional supplementary parameters are meteorological data on wind speed and direction at stations and hydrological data on sea levels obtained at stations. Monitoring will be carried out once in the period 2020-2025. In the current water management cycle, covering the period 2016-2021, hydromorphological monitoring was carried out in 2019. Another hydromorphological monitoring is scheduled to be carried out in the next water management cycle, that is, in the period 2022-2027, not later than 6 years after the preceding hydromorphological monitoring is performed in accordance with the Regulation of Minister of maritime economy and inland navigation of 9 October 2019 on the form and method of monitoring of surface water and groundwater bodies (Journal of Laws, item 2147). |
Monitoring of parameters in scope of the seabed habitats - physical and chemical characteristics programme includes monitoring of hydromorphological parameters that characterize morphological conditions, morphometric conditions, change in depth and quantitative structure and physical and chemical characteristics of the seabed and is carried out within the WFD waterbodies at measurement points and profiles. Additional supplementary parameters are meteorological data on wind speed and direction at stations and hydrological data on sea levels obtained at stations. Monitoring will be carried out once in the period 2020-2025. In the current water management cycle, covering the period 2016-2021, hydromorphological monitoring was carried out in 2019. Another hydromorphological monitoring is scheduled to be carried out in the next water management cycle, that is, in the period 2022-2027, not later than 6 years after the preceding hydromorphological monitoring is performed in accordance with the Regulation of Minister of maritime economy and inland navigation of 9 October 2019 on the form and method of monitoring of surface water and groundwater bodies (Journal of Laws, item 2147). |
Monitoring of physical parameters is carried out in the assessment units in accordance with the recent HELCOM guidelines. Monitoring includes in-situ measurements carried out annually at 30 monitoring stations located in the deep sea and shallow water zones, as well as in the Vistula Lagoon and the Gulf of Gdańsk. Annual frequency of research is 6 times a year, with an exception of a high frequency station monitored 12 times a year and 6 shallow water stations monitored from 1 to 6 times a year.
For the transitional and coastal waterbodies monitoring will be carried out for 19 monitoring points in 2020-2021 and 11 monitoring points in 2022-2025 in accordance with the WFD monitoring programme, carried out under the surface water monitoring programme for the years 2020-2025 ("Strategic State Environmental Monitoring Programme for the years 2020-2025"), approved by the Competent Minister of Climate in 2020 and the surface water executive programme for a specific year of research approved annually by the Chief Inspector of Environmental Protection.
In order to increase the frequency and resolution of data, in-situ measurements of temperature and salinity can be supplemented by continuous measurements from the Ferry Box (automatic measurement system installed on board of vessels, usualy ferries, the marine water parameters are measured on the route, the system also enables collection of in-situ samples for analysis in on-land laboratories) and satellite data (for the temperature of seawater only). |
Monitoring of physical parameters is carried out in the assessment units in accordance with the recent HELCOM guidelines. Monitoring includes in-situ measurements carried out annually at 30 monitoring stations located in the deep sea and shallow water zones, as well as in the Vistula Lagoon and the Gulf of Gdańsk. Annual frequency of research is 6 times a year, with an exception of a high frequency station monitored 12 times a year and 6 shallow water stations monitored from 1 to 6 times a year.
For the transitional and coastal waterbodies monitoring will be carried out for 19 monitoring points in 2020-2021 and 11 monitoring points in 2022-2025 in accordance with the WFD monitoring programme, carried out under the surface water monitoring programme for the years 2020-2025 ("Strategic State Environmental Monitoring Programme for the years 2020-2025"), approved by the Competent Minister of Climate in 2020 and the surface water executive programme for a specific year of research approved annually by the Chief Inspector of Environmental Protection.
In order to increase the frequency and resolution of data, in-situ measurements of temperature and salinity can be supplemented by continuous measurements from the Ferry Box (automatic measurement system installed on board of vessels, usualy ferries, the marine water parameters are measured on the route, the system also enables collection of in-situ samples for analysis in on-land laboratories) and satellite data (for the temperature of seawater only). |
Monitoring of physical parameters is carried out in the assessment units in accordance with the recent HELCOM guidelines. Monitoring includes in-situ measurements carried out annually at 30 monitoring stations located in the deep sea and shallow water zones, as well as in the Vistula Lagoon and the Gulf of Gdańsk. Annual frequency of research is 6 times a year, with an exception of a high frequency station monitored 12 times a year and 6 shallow water stations monitored from 1 to 6 times a year.
For the transitional and coastal waterbodies monitoring will be carried out for 19 monitoring points in 2020-2021 and 11 monitoring points in 2022-2025 in accordance with the WFD monitoring programme, carried out under the surface water monitoring programme for the years 2020-2025 ("Strategic State Environmental Monitoring Programme for the years 2020-2025"), approved by the Competent Minister of Climate in 2020 and the surface water executive programme for a specific year of research approved annually by the Chief Inspector of Environmental Protection.
In order to increase the frequency and resolution of data, in-situ measurements of temperature and salinity can be supplemented by continuous measurements from the Ferry Box (automatic measurement system installed on board of vessels, usualy ferries, the marine water parameters are measured on the route, the system also enables collection of in-situ samples for analysis in on-land laboratories) and satellite data (for the temperature of seawater only). |
Monitoring of physical parameters is carried out in the assessment units in accordance with the recent HELCOM guidelines. Monitoring includes in-situ measurements carried out annually at 30 monitoring stations located in the deep sea and shallow water zones, as well as in the Vistula Lagoon and the Gulf of Gdańsk. Annual frequency of research is 6 times a year, with an exception of a high frequency station monitored 12 times a year and 6 shallow water stations monitored from 1 to 6 times a year.
For the transitional and coastal waterbodies monitoring will be carried out for 19 monitoring points in 2020-2021 and 11 monitoring points in 2022-2025 in accordance with the WFD monitoring programme, carried out under the surface water monitoring programme for the years 2020-2025 ("Strategic State Environmental Monitoring Programme for the years 2020-2025"), approved by the Competent Minister of Climate in 2020 and the surface water executive programme for a specific year of research approved annually by the Chief Inspector of Environmental Protection.
In order to increase the frequency and resolution of data, in-situ measurements of temperature and salinity can be supplemented by continuous measurements from the Ferry Box (automatic measurement system installed on board of vessels, usualy ferries, the marine water parameters are measured on the route, the system also enables collection of in-situ samples for analysis in on-land laboratories) and satellite data (for the temperature of seawater only). |
Monitoring of physical parameters is carried out in the assessment units in accordance with the recent HELCOM guidelines. Monitoring includes in-situ measurements carried out annually at 30 monitoring stations located in the deep sea and shallow water zones, as well as in the Vistula Lagoon and the Gulf of Gdańsk. Annual frequency of research is 6 times a year, with an exception of a high frequency station monitored 12 times a year and 6 shallow water stations monitored from 1 to 6 times a year.
For the transitional and coastal waterbodies monitoring will be carried out for 19 monitoring points in 2020-2021 and 11 monitoring points in 2022-2025 in accordance with the WFD monitoring programme, carried out under the surface water monitoring programme for the years 2020-2025 ("Strategic State Environmental Monitoring Programme for the years 2020-2025"), approved by the Competent Minister of Climate in 2020 and the surface water executive programme for a specific year of research approved annually by the Chief Inspector of Environmental Protection.
In order to increase the frequency and resolution of data, in-situ measurements of temperature and salinity can be supplemented by continuous measurements from the Ferry Box (automatic measurement system installed on board of vessels, usualy ferries, the marine water parameters are measured on the route, the system also enables collection of in-situ samples for analysis in on-land laboratories) and satellite data (for the temperature of seawater only). |
Monitoring of physical parameters is carried out in the assessment units in accordance with the recent HELCOM guidelines. Monitoring includes in-situ measurements carried out annually at 30 monitoring stations located in the deep sea and shallow water zones, as well as in the Vistula Lagoon and the Gulf of Gdańsk. Annual frequency of research is 6 times a year, with an exception of a high frequency station monitored 12 times a year and 6 shallow water stations monitored from 1 to 6 times a year.
For the transitional and coastal waterbodies monitoring will be carried out for 19 monitoring points in 2020-2021 and 11 monitoring points in 2022-2025 in accordance with the WFD monitoring programme, carried out under the surface water monitoring programme for the years 2020-2025 ("Strategic State Environmental Monitoring Programme for the years 2020-2025"), approved by the Competent Minister of Climate in 2020 and the surface water executive programme for a specific year of research approved annually by the Chief Inspector of Environmental Protection.
In order to increase the frequency and resolution of data, in-situ measurements of temperature and salinity can be supplemented by continuous measurements from the Ferry Box (automatic measurement system installed on board of vessels, usualy ferries, the marine water parameters are measured on the route, the system also enables collection of in-situ samples for analysis in on-land laboratories) and satellite data (for the temperature of seawater only). |
Monitoring of physical parameters is carried out in the assessment units in accordance with the recent HELCOM guidelines. Monitoring includes in-situ measurements carried out annually at 30 monitoring stations located in the deep sea and shallow water zones, as well as in the Vistula Lagoon and the Gulf of Gdańsk. Annual frequency of research is 6 times a year, with an exception of a high frequency station monitored 12 times a year and 6 shallow water stations monitored from 1 to 6 times a year.
For the transitional and coastal waterbodies monitoring will be carried out for 19 monitoring points in 2020-2021 and 11 monitoring points in 2022-2025 in accordance with the WFD monitoring programme, carried out under the surface water monitoring programme for the years 2020-2025 ("Strategic State Environmental Monitoring Programme for the years 2020-2025"), approved by the Competent Minister of Climate in 2020 and the surface water executive programme for a specific year of research approved annually by the Chief Inspector of Environmental Protection.
In order to increase the frequency and resolution of data, in-situ measurements of temperature and salinity can be supplemented by continuous measurements from the Ferry Box (automatic measurement system installed on board of vessels, usualy ferries, the marine water parameters are measured on the route, the system also enables collection of in-situ samples for analysis in on-land laboratories) and satellite data (for the temperature of seawater only). |
Monitoring of physical parameters is carried out in the assessment units in accordance with the recent HELCOM guidelines. Monitoring includes in-situ measurements carried out annually at 30 monitoring stations located in the deep sea and shallow water zones, as well as in the Vistula Lagoon and the Gulf of Gdańsk. Annual frequency of research is 6 times a year, with an exception of a high frequency station monitored 12 times a year and 6 shallow water stations monitored from 1 to 6 times a year.
For the transitional and coastal waterbodies monitoring will be carried out for 19 monitoring points in 2020-2021 and 11 monitoring points in 2022-2025 in accordance with the WFD monitoring programme, carried out under the surface water monitoring programme for the years 2020-2025 ("Strategic State Environmental Monitoring Programme for the years 2020-2025"), approved by the Competent Minister of Climate in 2020 and the surface water executive programme for a specific year of research approved annually by the Chief Inspector of Environmental Protection.
In order to increase the frequency and resolution of data, in-situ measurements of temperature and salinity can be supplemented by continuous measurements from the Ferry Box (automatic measurement system installed on board of vessels, usualy ferries, the marine water parameters are measured on the route, the system also enables collection of in-situ samples for analysis in on-land laboratories) and satellite data (for the temperature of seawater only). |
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 |
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Regional cooperation - implementation level |
Common monitoring strategy |
Common monitoring strategy |
Common monitoring strategy |
Common monitoring strategy |
Common monitoring strategy |
Common monitoring strategy |
Common monitoring strategy |
Common monitoring strategy |
Common monitoring strategy |
Common monitoring strategy |
Common monitoring strategy |
Common monitoring strategy |
Common monitoring strategy |
Common monitoring strategy |
Common monitoring strategy |
Common monitoring strategy |
Common monitoring strategy |
Common monitoring strategy |
Common monitoring strategy |
Common monitoring strategy |
Common monitoring strategy |
Common monitoring strategy |
Common monitoring strategy |
Common monitoring strategy |
Common monitoring strategy |
Common monitoring strategy |
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Monitoring details |
Macrozoobenthos data is collected once a year, macrophytes 2 times a year (June, September). |
Macrozoobenthos data is collected once a year, macrophytes 2 times a year (June, September). |
Macrozoobenthos data is collected once a year, macrophytes 2 times a year (June, September). |
Macrozoobenthos data is collected once a year, macrophytes 2 times a year (June, September). |
Macrozoobenthos data is collected once a year, macrophytes 2 times a year (June, September). |
Macrozoobenthos data is collected once a year, macrophytes 2 times a year (June, September). |
Macrozoobenthos data is collected once a year, macrophytes 2 times a year (June, September). |
Macrozoobenthos data is collected once a year, macrophytes 2 times a year (June, September). |
Macrozoobenthos data is collected once a year, macrophytes 2 times a year (June, September). |
Macrozoobenthos data is collected once a year, macrophytes 2 times a year (June, September). |
Macrozoobenthos data is collected once a year, macrophytes 2 times a year (June, September). |
Macrozoobenthos data is collected once a year, macrophytes 2 times a year (June, September). |
Macrozoobenthos data is collected once a year, macrophytes 2 times a year (June, September). |
Macrozoobenthos data is collected once a year, macrophytes 2 times a year (June, September). |
Macrozoobenthos data is collected once a year, macrophytes 2 times a year (June, September). |
Macrozoobenthos data is collected once a year, macrophytes 2 times a year (June, September). |
Macrozoobenthos data is collected once a year, macrophytes 2 times a year (June, September). |
Macrozoobenthos data is collected once a year, macrophytes 2 times a year (June, September). |
The list of hydromorphological parameters constitutes of:
Morphological conditions:
Shore-normal profiles up to 1 NM from the shoreline
Parameter (A)
Morphometrical conditions:
- width of coastal zones - sb, sr, sg (10 m below sea level. and 1 NM)
- status of longshore bars – number and section area
Change in depth:
- behind surf zone
- behind breaker zone
- 1 NM from the shoreline
- the depth of the sampling point
Seabed structure and characteristics:
- grain size – median of grain diameter
- concentration of organic matter
- nutrient concentration (Ntot and Ptot)
- Chlorophyll a
- redox potential (Eh) and pH
- concentration of contaminants (Me, WWA, PCB, TBT) |
The list of hydromorphological parameters constitutes of:
Morphological conditions:
Shore-normal profiles up to 1 NM from the shoreline
Parameter (A)
Morphometrical conditions:
- width of coastal zones - sb, sr, sg (10 m below sea level. and 1 NM)
- status of longshore bars – number and section area
Change in depth:
- behind surf zone
- behind breaker zone
- 1 NM from the shoreline
- the depth of the sampling point
Seabed structure and characteristics:
- grain size – median of grain diameter
- concentration of organic matter
- nutrient concentration (Ntot and Ptot)
- Chlorophyll a
- redox potential (Eh) and pH
- concentration of contaminants (Me, WWA, PCB, TBT) |
The use of Ferry-Box data dependent on its availability.
The use of satellite products, information dependent on data availability. |
The use of Ferry-Box data dependent on its availability.
The use of satellite products, information dependent on data availability. |
The use of Ferry-Box data dependent on its availability.
The use of satellite products, information dependent on data availability. |
The use of Ferry-Box data dependent on its availability.
The use of satellite products, information dependent on data availability. |
The use of Ferry-Box data dependent on its availability.
The use of satellite products, information dependent on data availability. |
The use of Ferry-Box data dependent on its availability.
The use of satellite products, information dependent on data availability. |
The use of Ferry-Box data dependent on its availability.
The use of satellite products, information dependent on data availability. |
The use of Ferry-Box data dependent on its availability.
The use of satellite products, information dependent on data availability. |
Features |
Eutrophication
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Eutrophication
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Eutrophication
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Eutrophication
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Eutrophication
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Eutrophication
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Benthic broad habitats
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Benthic broad habitats
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Eutrophication
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Eutrophication
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Eutrophication
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Eutrophication
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Eutrophication
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Eutrophication
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Benthic broad habitats
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Benthic broad habitats
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Benthic broad habitats
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Benthic broad habitats
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Physical and hydrological characteristics
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Physical and hydrological characteristics
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Eutrophication
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Eutrophication
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Physical and hydrological characteristics
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Physical and hydrological characteristics
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Physical and hydrological characteristics
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Physical and hydrological characteristics
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Physical and hydrological characteristics
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Physical and hydrological characteristics
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Elements |
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GES criteria |
D5C6 |
D5C6 |
D5C7 |
D5C7 |
D5C8 |
D5C8 |
D6C5 |
D6C5 |
D5C6 |
D5C6 |
D5C7 |
D5C7 |
D5C8 |
D5C8 |
D6C5 |
D6C5 |
NotRelevan |
NotRelevan |
NotRelevan |
NotRelevan |
D5C4 |
D5C4 |
NotRelevan |
NotRelevan |
NotRelevan |
NotRelevan |
NotRelevan |
NotRelevan |
Parameters |
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Parameter Other |
Species composition, abundance/coverage and biomas |
Species composition, abundance/coverage and biomas |
Species composition, abundance/coverage and biomas |
Species composition, abundance/coverage and biomas |
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Spatial scope |
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Marine reporting units |
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Temporal scope (start date - end date) |
2014-9999 |
2014-9999 |
2014-9999 |
2014-9999 |
2014-9999 |
2014-9999 |
2014-9999 |
2014-9999 |
1999-9999 |
1999-9999 |
1999-9999 |
1999-9999 |
1999-9999 |
1999-9999 |
1999-9999 |
1999-9999 |
1999-9999 |
1999-9999 |
2014-9999 |
2014-9999 |
2014 |
2014 |
2014 |
2014 |
2014 |
2014 |
2014 |
2014 |
Monitoring frequency |
Yearly |
Yearly |
Yearly |
Yearly |
Yearly |
Yearly |
Yearly |
Yearly |
Yearly |
Yearly |
Yearly |
Yearly |
Yearly |
Yearly |
Yearly |
Yearly |
Yearly |
Yearly |
Other |
Other |
Yearly |
Yearly |
Yearly |
Yearly |
Yearly |
Yearly |
Yearly |
Yearly |
Monitoring type |
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Monitoring method |
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Monitoring method other |
Verified method of monitoring and hydromorphological assessment of transitional and coastal waters (GIOŚ 2018 or its update). www.gios.gov.pl |
Verified method of monitoring and hydromorphological assessment of transitional and coastal waters (GIOŚ 2018 or its update). www.gios.gov.pl |
Total organic carbon - Infrared spectroscopy PN-EN 14842. Methodology in accordance with the Regulation of the Minister of Maritime Economy and Inland Navigation of 9 October 2019 on the forms and method of monitoring surface water bodies and groundwater bodies (Office Journal of 2019, item 2147) http://prawo.sejm.gov.pl/isap.nsf/download.xsp/WDU20190002147/O/D20192147.pdf |
Total organic carbon - Infrared spectroscopy PN-EN 14842. Methodology in accordance with the Regulation of the Minister of Maritime Economy and Inland Navigation of 9 October 2019 on the forms and method of monitoring surface water bodies and groundwater bodies (Office Journal of 2019, item 2147) http://prawo.sejm.gov.pl/isap.nsf/download.xsp/WDU20190002147/O/D20192147.pdf |
Total organic carbon - Infrared spectroscopy PN-EN 14842. Methodology in accordance with the Regulation of the Minister of Maritime Economy and Inland Navigation of 9 October 2019 on the forms and method of monitoring surface water bodies and groundwater bodies (Office Journal of 2019, item 2147) http://prawo.sejm.gov.pl/isap.nsf/download.xsp/WDU20190002147/O/D20192147.pdf |
Total organic carbon - Infrared spectroscopy PN-EN 14842. Methodology in accordance with the Regulation of the Minister of Maritime Economy and Inland Navigation of 9 October 2019 on the forms and method of monitoring surface water bodies and groundwater bodies (Office Journal of 2019, item 2147) http://prawo.sejm.gov.pl/isap.nsf/download.xsp/WDU20190002147/O/D20192147.pdf |
Total organic carbon - Infrared spectroscopy PN-EN 14842. Methodology in accordance with the Regulation of the Minister of Maritime Economy and Inland Navigation of 9 October 2019 on the forms and method of monitoring surface water bodies and groundwater bodies (Office Journal of 2019, item 2147) http://prawo.sejm.gov.pl/isap.nsf/download.xsp/WDU20190002147/O/D20192147.pdf |
Total organic carbon - Infrared spectroscopy PN-EN 14842. Methodology in accordance with the Regulation of the Minister of Maritime Economy and Inland Navigation of 9 October 2019 on the forms and method of monitoring surface water bodies and groundwater bodies (Office Journal of 2019, item 2147) http://prawo.sejm.gov.pl/isap.nsf/download.xsp/WDU20190002147/O/D20192147.pdf |
Total organic carbon - Infrared spectroscopy PN-EN 14842. Methodology in accordance with the Regulation of the Minister of Maritime Economy and Inland Navigation of 9 October 2019 on the forms and method of monitoring surface water bodies and groundwater bodies (Office Journal of 2019, item 2147) http://prawo.sejm.gov.pl/isap.nsf/download.xsp/WDU20190002147/O/D20192147.pdf |
Total organic carbon - Infrared spectroscopy PN-EN 14842. Methodology in accordance with the Regulation of the Minister of Maritime Economy and Inland Navigation of 9 October 2019 on the forms and method of monitoring surface water bodies and groundwater bodies (Office Journal of 2019, item 2147) http://prawo.sejm.gov.pl/isap.nsf/download.xsp/WDU20190002147/O/D20192147.pdf |
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Quality control |
according HELCOM recommendations
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according HELCOM recommendations
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according HELCOM recommendations
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according HELCOM recommendations
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according HELCOM recommendations
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according HELCOM recommendations
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according HELCOM recommendations
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according HELCOM recommendations
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according HELCOM recommendations
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according HELCOM recommendations
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according HELCOM recommendations
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according HELCOM recommendations
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according HELCOM recommendations
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according HELCOM recommendations
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according HELCOM recommendations
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according HELCOM recommendations
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according HELCOM recommendations
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according HELCOM recommendations
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according to Helcom guidlines.
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according to Helcom guidlines.
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according HELCOM recommendations
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according HELCOM recommendations
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according HELCOM recommendations
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according HELCOM recommendations
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according HELCOM recommendations
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according HELCOM recommendations
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according HELCOM recommendations
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according HELCOM recommendations
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Data management |
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Data access |
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Related indicator/name |
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Contact |
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References |