a,b) In the art 9 and 10 report in 2012 the Netherlands has opted for a general description of GES under art 9 and a further elaboration of the targets and associated indicators under art 10. These targets and indicators cover all criteria from the Commission Decision as far as they are considered relevant for the Netherlands part of the North Sea. Therefore, they also cover the information requirement for the assessment of the descriptors and targets. See paragraph 9.2.1 (benthos) and 9.2.6 (Habitats) of the Marine Strategy II for a detailed description of how the targets and the information required to describe GES, via the elaboration of an information strategy, functional requirements and a monitoring strategy, are translated into the monitoring plan. GES of the Dutch North Sea ecosystem in 2020 is implies that biological diversity is maintained and that the quality and distribution of habitats is in line with prevailing physiographic, geographic and climatic conditions. Distribution of habitats: Natura2000 habitats as well as characteristic aquatic seabed habitats at EUNIS level3 can be distinguished according to differences in seabed composition and depth. No changes in regard to these parameters are expected, hence no direct monitoring is being done. Bathymetric information is available form hydrographical monitoring. Sediment composition is being registered in the benthos monitoring programmme. Activities that may change depth and seabed composition, such as sand extraction and suppletion dredging and spreading of dredged material, are registered. Biogenic Oyster reefs have disappeared and there will be no spntanuous recovery, hence there is no targeted monitoring. Relevant data are available from the Benthos monitoring programme in which also locations that were formerly Oster banks are monitored. Habitat quality: the benthos monitoring targets biodiversity and species composition. The established monitoring with boxcores, that also link to the WFD assessment of benthos, is being continued and is being expanded with additional monitoring aimed at typical HD species as well as indicator-species that are sensitive to damage to the seabed. c) A statistical analysis has been used to determine the number of monitoring sites per habitat type, in order to be able to detect trends. d) A statistical analysis has been used to determine the number of monitoring sites per habitat type and with different monitoring equipment, in order to be able to detect changes that differ from natural variation. To distinguish the effects of terminating beam trawling, locations where beam-trawling is prohibited as well as reference locations where it is still allowed are being monitored. Distribution and population size of the invasive exotic species Ensis directus is being monitored in the shellfish monitoring programme. e) The MSFD Monitoring Plan will be updated annually in a digitally amended supplement based on the latest developments and insights in the area of indicator definitions and measurement methods, for example as a result from (sub) regional coordination within OSPAR.

a,b) In the art 9 and 10 report in 2012 the Netherlands has opted for a general description of GES under art 9 and a further elaboration of the targets and associated indicators under art 10. These targets and indicators cover all criteria from the Commission Decision as far as they are considered relevant for the Netherlands part of the North Sea. Therefore, they also cover the information requirement for the assessment of the descriptors and targets. See paragraph 9.2.1 (benthos) and 9.2.6 (Habitats) of the Marine Strategy II for a detailed description of how the targets and the information required to describe GES, via the elaboration of an information strategy, functional requirements and a monitoring strategy, are translated into the monitoring plan. GES of the Dutch North Sea ecosystem in 2020 is implies that biological diversity is maintained and that the quality and distribution of habitats is in line with prevailing physiographic, geographic and climatic conditions. Distribution of habitats: Natura2000 habitats as well as characteristic aquatic seabed habitats at EUNIS level3 can be distinguished according to differences in seabed composition and depth. No changes in regard to these parameters are expected, hence no direct monitoring is being done. Bathymetric information is available form hydrographical monitoring. Sediment composition is being registered in the benthos monitoring programmme. Activities that may change depth and seabed composition, such as sand extraction and suppletion dredging and spreading of dredged material, are registered. Biogenic Oyster reefs have disappeared and there will be no spntanuous recovery, hence there is no targeted monitoring. Relevant data are available from the Benthos monitoring programme in which also locations that were formerly Oster banks are monitored. Habitat quality: the benthos monitoring targets biodiversity and species composition. The established monitoring with boxcores, that also link to the WFD assessment of benthos, is being continued and is being expanded with additional monitoring aimed at typical HD species as well as indicator-species that are sensitive to damage to the seabed. c) A statistical analysis has been used to determine the number of monitoring sites per habitat type, in order to be able to detect trends. d) A statistical analysis has been used to determine the number of monitoring sites per habitat type and with different monitoring equipment, in order to be able to detect changes that differ from natural variation. To distinguish the effects of terminating beam trawling, locations where beam-trawling is prohibited as well as reference locations where it is still allowed are being monitored. Distribution and population size of the invasive exotic species Ensis directus is being monitored in the shellfish monitoring programme. e) The MSFD Monitoring Plan will be updated annually in a digitally amended supplement based on the latest developments and insights in the area of indicator definitions and measurement methods, for example as a result from (sub) regional coordination within OSPAR.

a,b) In the art 9 and 10 report in 2012 the Netherlands has opted for a general description of GES under art 9 and a further elaboration of the targets and associated indicators under art 10. These targets and indicators cover all criteria from the Commission Decision as far as they are considered relevant for the Netherlands part of the North Sea. Therefore, they also cover the information requirement for the assessment of the descriptors and targets. See paragraph 9.2.1 (benthos) and 9.2.6 (Habitats) of the Marine Strategy II for a detailed description of how the targets and the information required to describe GES, via the elaboration of an information strategy, functional requirements and a monitoring strategy, are translated into the monitoring plan. GES of the Dutch North Sea ecosystem in 2020 is implies that biological diversity is maintained and that the quality and distribution of habitats is in line with prevailing physiographic, geographic and climatic conditions. Distribution of habitats: Natura2000 habitats as well as characteristic aquatic seabed habitats at EUNIS level3 can be distinguished according to differences in seabed composition and depth. No changes in regard to these parameters are expected, hence no direct monitoring is being done. Bathymetric information is available form hydrographical monitoring. Sediment composition is being registered in the benthos monitoring programmme. Activities that may change depth and seabed composition, such as sand extraction and suppletion dredging and spreading of dredged material, are registered. Biogenic Oyster reefs have disappeared and there will be no spntanuous recovery, hence there is no targeted monitoring. Relevant data are available from the Benthos monitoring programme in which also locations that were formerly Oster banks are monitored. Habitat quality: the benthos monitoring targets biodiversity and species composition. The established monitoring with boxcores, that also link to the WFD assessment of benthos, is being continued and is being expanded with additional monitoring aimed at typical HD species as well as indicator-species that are sensitive to damage to the seabed. c) A statistical analysis has been used to determine the number of monitoring sites per habitat type, in order to be able to detect trends. d) A statistical analysis has been used to determine the number of monitoring sites per habitat type and with different monitoring equipment, in order to be able to detect changes that differ from natural variation. To distinguish the effects of terminating beam trawling, locations where beam-trawling is prohibited as well as reference locations where it is still allowed are being monitored. Distribution and population size of the invasive exotic species Ensis directus is being monitored in the shellfish monitoring programme. e) The MSFD Monitoring Plan will be updated annually in a digitally amended supplement based on the latest developments and insights in the area of indicator definitions and measurement methods, for example as a result from (sub) regional coordination within OSPAR.

a,b) In the art 9 and 10 report in 2012 the Netherlands has opted for a general description of GES under art 9 and a further elaboration of the targets and associated indicators under art 10. These targets and indicators cover all criteria from the Commission Decision as far as they are considered relevant for the Netherlands part of the North Sea. Therefore, they also cover the information requirement for the assessment of the descriptors and targets. See paragraph 9.2.1 (benthos) and 9.2.6 (Habitats) of the Marine Strategy II for a detailed description of how the targets and the information required to describe GES, via the elaboration of an information strategy, functional requirements and a monitoring strategy, are translated into the monitoring plan. GES of the Dutch North Sea ecosystem in 2020 is implies that biological diversity is maintained and that the quality and distribution of habitats is in line with prevailing physiographic, geographic and climatic conditions. Distribution of habitats: Natura2000 habitats as well as characteristic aquatic seabed habitats at EUNIS level3 can be distinguished according to differences in seabed composition and depth. No changes in regard to these parameters are expected, hence no direct monitoring is being done. Bathymetric information is available form hydrographical monitoring. Sediment composition is being registered in the benthos monitoring programmme. Activities that may change depth and seabed composition, such as sand extraction and suppletion dredging and spreading of dredged material, are registered. Biogenic Oyster reefs have disappeared and there will be no spntanuous recovery, hence there is no targeted monitoring. Relevant data are available from the Benthos monitoring programme in which also locations that were formerly Oster banks are monitored. Habitat quality: the benthos monitoring targets biodiversity and species composition. The established monitoring with boxcores, that also link to the WFD assessment of benthos, is being continued and is being expanded with additional monitoring aimed at typical HD species as well as indicator-species that are sensitive to damage to the seabed. c) A statistical analysis has been used to determine the number of monitoring sites per habitat type, in order to be able to detect trends. d) A statistical analysis has been used to determine the number of monitoring sites per habitat type and with different monitoring equipment, in order to be able to detect changes that differ from natural variation. To distinguish the effects of terminating beam trawling, locations where beam-trawling is prohibited as well as reference locations where it is still allowed are being monitored. Distribution and population size of the invasive exotic species Ensis directus is being monitored in the shellfish monitoring programme. e) The MSFD Monitoring Plan will be updated annually in a digitally amended supplement based on the latest developments and insights in the area of indicator definitions and measurement methods, for example as a result from (sub) regional coordination within OSPAR.

a,b) In the art 9 and 10 report in 2012 the Netherlands has opted for a general description of GES under art 9 and a further elaboration of the targets and associated indicators under art 10. These targets and indicators cover all criteria from the Commission Decision as far as they are considered relevant for the Netherlands part of the North Sea. Therefore, they also cover the information requirement for the assessment of the descriptors and targets. See paragraph 9.2.1 (benthos) and 9.2.6 (Habitats) of the Marine Strategy II for a detailed description of how the targets and the information required to describe GES, via the elaboration of an information strategy, functional requirements and a monitoring strategy, are translated into the monitoring plan. GES of the Dutch North Sea ecosystem in 2020 is implies that biological diversity is maintained and that the quality and distribution of habitats is in line with prevailing physiographic, geographic and climatic conditions. Distribution of habitats: Natura2000 habitats as well as characteristic aquatic seabed habitats at EUNIS level3 can be distinguished according to differences in seabed composition and depth. No changes in regard to these parameters are expected, hence no direct monitoring is being done. Bathymetric information is available form hydrographical monitoring. Sediment composition is being registered in the benthos monitoring programmme. Activities that may change depth and seabed composition, such as sand extraction and suppletion dredging and spreading of dredged material, are registered. Biogenic Oyster reefs have disappeared and there will be no spntanuous recovery, hence there is no targeted monitoring. Relevant data are available from the Benthos monitoring programme in which also locations that were formerly Oster banks are monitored. Habitat quality: the benthos monitoring targets biodiversity and species composition. The established monitoring with boxcores, that also link to the WFD assessment of benthos, is being continued and is being expanded with additional monitoring aimed at typical HD species as well as indicator-species that are sensitive to damage to the seabed. c) A statistical analysis has been used to determine the number of monitoring sites per habitat type, in order to be able to detect trends. d) A statistical analysis has been used to determine the number of monitoring sites per habitat type and with different monitoring equipment, in order to be able to detect changes that differ from natural variation. To distinguish the effects of terminating beam trawling, locations where beam-trawling is prohibited as well as reference locations where it is still allowed are being monitored. Distribution and population size of the invasive exotic species Ensis directus is being monitored in the shellfish monitoring programme. e) The MSFD Monitoring Plan will be updated annually in a digitally amended supplement based on the latest developments and insights in the area of indicator definitions and measurement methods, for example as a result from (sub) regional coordination within OSPAR.

a,b) In the art 9 and 10 report in 2012 the Netherlands has opted for a general description of GES under art 9 and a further elaboration of the targets and associated indicators under art 10. These targets and indicators cover all criteria from the Commission Decision as far as they are considered relevant for the Netherlands part of the North Sea. Therefore, they also cover the information requirement for the assessment of the descriptors and targets. See paragraph 9.2.1 (benthos) and 9.2.6 (Habitats) of the Marine Strategy II for a detailed description of how the targets and the information required to describe GES, via the elaboration of an information strategy, functional requirements and a monitoring strategy, are translated into the monitoring plan. GES of the Dutch North Sea ecosystem in 2020 is implies that biological diversity is maintained and that the quality and distribution of habitats is in line with prevailing physiographic, geographic and climatic conditions. Distribution of habitats: Natura2000 habitats as well as characteristic aquatic seabed habitats at EUNIS level3 can be distinguished according to differences in seabed composition and depth. No changes in regard to these parameters are expected, hence no direct monitoring is being done. Bathymetric information is available form hydrographical monitoring. Sediment composition is being registered in the benthos monitoring programmme. Activities that may change depth and seabed composition, such as sand extraction and suppletion dredging and spreading of dredged material, are registered. Biogenic Oyster reefs have disappeared and there will be no spntanuous recovery, hence there is no targeted monitoring. Relevant data are available from the Benthos monitoring programme in which also locations that were formerly Oster banks are monitored. Habitat quality: the benthos monitoring targets biodiversity and species composition. The established monitoring with boxcores, that also link to the WFD assessment of benthos, is being continued and is being expanded with additional monitoring aimed at typical HD species as well as indicator-species that are sensitive to damage to the seabed. c) A statistical analysis has been used to determine the number of monitoring sites per habitat type, in order to be able to detect trends. d) A statistical analysis has been used to determine the number of monitoring sites per habitat type and with different monitoring equipment, in order to be able to detect changes that differ from natural variation. To distinguish the effects of terminating beam trawling, locations where beam-trawling is prohibited as well as reference locations where it is still allowed are being monitored. Distribution and population size of the invasive exotic species Ensis directus is being monitored in the shellfish monitoring programme. e) The MSFD Monitoring Plan will be updated annually in a digitally amended supplement based on the latest developments and insights in the area of indicator definitions and measurement methods, for example as a result from (sub) regional coordination within OSPAR.

a,b) In the art 9 and 10 report in 2012 the Netherlands has opted for a general description of GES under art 9 and a further elaboration of the targets and associated indicators under art 10. These targets and indicators cover all criteria from the Commission Decision as far as they are considered relevant for the Netherlands part of the North Sea. Therefore, they also cover the information requirement for the assessment of the descriptors and targets. c,d) GES of the Dutch North Sea ecosystem in 2020 implies that biological diversity is maintained and that the quality and distribution of habitats is in line with prevailing physiographic, geographic and climatic conditions. The distribution of pelagic habitats at EUNIS level 3 is being determined by hydrographical properties such as depth, salinity, current velocity and the source of the water and the occurrence of stratification. No changes in regard to these parameters are expected. These parameters are monitored in the regular monitoring and in different sub-programmes. The most important human impact on the quality of water column habitats are the effects of eutrophication as an effect of the input of nutrients. In the Initial Assessment 2012 it has been concluded that there are no significant direct effects of human activities on zooplankton. The quality of pelagic habitats at EUNIS-3 level is being monitored by the indicators for eutrophication, fish and foodwebs. Whether additional zooplankton monitoring is useful depends on the further development of OSPAR indicators. At this moment it is unclear whether the proposed indexes for zooplankton are meaningful for the Netherlands part of the North Sea. Depending on further development the Netherlands will consider to take part in the Continuous Plankton Recorder programme. An assessment of the effect on the quality of the water column is part of the regular licensing procedure for new human activities. Research into the possible effects of loud impulsive noise on fish larvae is part of the monitoring and evaluation programmes for marine wind farms. e) The MSFD Monitoring Plan will be updated annually in a digitally amended supplement based on the latest developments and insights in the area of indicator definitions and measurement methods, for example as a result from (sub) regional coordination within OSPAR.

a,b) In the art 9 and 10 report in 2012 the Netherlands has opted for a general description of GES under art 9 and a further elaboration of the targets and associated indicators under art 10. These targets and indicators cover all criteria from the Commission Decision as far as they are considered relevant for the Netherlands part of the North Sea. Therefore, they also cover the information requirement for the assessment of the descriptors and targets. c,d) GES of the Dutch North Sea ecosystem in 2020 implies that biological diversity is maintained and that the quality and distribution of habitats is in line with prevailing physiographic, geographic and climatic conditions. The distribution of pelagic habitats at EUNIS level 3 is being determined by hydrographical properties such as depth, salinity, current velocity and the source of the water and the occurrence of stratification. No changes in regard to these parameters are expected. These parameters are monitored in the regular monitoring and in different sub-programmes. The most important human impact on the quality of water column habitats are the effects of eutrophication as an effect of the input of nutrients. In the Initial Assessment 2012 it has been concluded that there are no significant direct effects of human activities on zooplankton. The quality of pelagic habitats at EUNIS-3 level is being monitored by the indicators for eutrophication, fish and foodwebs. Whether additional zooplankton monitoring is useful depends on the further development of OSPAR indicators. At this moment it is unclear whether the proposed indexes for zooplankton are meaningful for the Netherlands part of the North Sea. Depending on further development the Netherlands will consider to take part in the Continuous Plankton Recorder programme. An assessment of the effect on the quality of the water column is part of the regular licensing procedure for new human activities. Research into the possible effects of loud impulsive noise on fish larvae is part of the monitoring and evaluation programmes for marine wind farms. e) The MSFD Monitoring Plan will be updated annually in a digitally amended supplement based on the latest developments and insights in the area of indicator definitions and measurement methods, for example as a result from (sub) regional coordination within OSPAR.

a,b) In the art 9 and 10 report in 2012 the Netherlands has opted for a general description of GES under art 9 and a further elaboration of the targets and associated indicators under art 10. These targets and indicators cover all criteria from the Commission Decision as far as they are considered relevant for the Netherlands part of the North Sea. Therefore, they also cover the information requirement for the assessment of the descriptors and targets. c,d) GES of the Dutch North Sea ecosystem in 2020 implies that biological diversity is maintained and that the quality and distribution of habitats is in line with prevailing physiographic, geographic and climatic conditions. The distribution of pelagic habitats at EUNIS level 3 is being determined by hydrographical properties such as depth, salinity, current velocity and the source of the water and the occurrence of stratification. No changes in regard to these parameters are expected. These parameters are monitored in the regular monitoring and in different sub-programmes. The most important human impact on the quality of water column habitats are the effects of eutrophication as an effect of the input of nutrients. In the Initial Assessment 2012 it has been concluded that there are no significant direct effects of human activities on zooplankton. The quality of pelagic habitats at EUNIS-3 level is being monitored by the indicators for eutrophication, fish and foodwebs. Whether additional zooplankton monitoring is useful depends on the further development of OSPAR indicators. At this moment it is unclear whether the proposed indexes for zooplankton are meaningful for the Netherlands part of the North Sea. Depending on further development the Netherlands will consider to take part in the Continuous Plankton Recorder programme. An assessment of the effect on the quality of the water column is part of the regular licensing procedure for new human activities. Research into the possible effects of loud impulsive noise on fish larvae is part of the monitoring and evaluation programmes for marine wind farms. e) The MSFD Monitoring Plan will be updated annually in a digitally amended supplement based on the latest developments and insights in the area of indicator definitions and measurement methods, for example as a result from (sub) regional coordination within OSPAR.

a,b) In the art 9 and 10 report in 2012 the Netherlands has opted for a general description of GES under art 9 and a further elaboration of the targets and associated indicators under art 10. These targets and indicators cover all criteria from the Commission Decision as far as they are considered relevant for the Netherlands part of the North Sea. Therefore, they also cover the information requirement for the assessment of the descriptors and targets. c,d) GES of the Dutch North Sea ecosystem in 2020 implies that biological diversity is maintained and that the quality and distribution of habitats is in line with prevailing physiographic, geographic and climatic conditions. The distribution of pelagic habitats at EUNIS level 3 is being determined by hydrographical properties such as depth, salinity, current velocity and the source of the water and the occurrence of stratification. No changes in regard to these parameters are expected. These parameters are monitored in the regular monitoring and in different sub-programmes. The most important human impact on the quality of water column habitats are the effects of eutrophication as an effect of the input of nutrients. In the Initial Assessment 2012 it has been concluded that there are no significant direct effects of human activities on zooplankton. The quality of pelagic habitats at EUNIS-3 level is being monitored by the indicators for eutrophication, fish and foodwebs. Whether additional zooplankton monitoring is useful depends on the further development of OSPAR indicators. At this moment it is unclear whether the proposed indexes for zooplankton are meaningful for the Netherlands part of the North Sea. Depending on further development the Netherlands will consider to take part in the Continuous Plankton Recorder programme. An assessment of the effect on the quality of the water column is part of the regular licensing procedure for new human activities. Research into the possible effects of loud impulsive noise on fish larvae is part of the monitoring and evaluation programmes for marine wind farms. e) The MSFD Monitoring Plan will be updated annually in a digitally amended supplement based on the latest developments and insights in the area of indicator definitions and measurement methods, for example as a result from (sub) regional coordination within OSPAR.

a,b) In the art 9 and 10 report in 2012 the Netherlands has opted for a general description of GES under art 9 and a further elaboration of the targets and associated indicators under art 10. These targets and indicators cover all criteria from the Commission Decision as far as they are considered relevant for the Netherlands part of the North Sea. Therefore, they also cover the information requirement for the assessment of the descriptors and targets. c,d) GES of the Dutch North Sea ecosystem in 2020 implies that biological diversity is maintained and that the quality and distribution of habitats is in line with prevailing physiographic, geographic and climatic conditions. The distribution of pelagic habitats at EUNIS level 3 is being determined by hydrographical properties such as depth, salinity, current velocity and the source of the water and the occurrence of stratification. No changes in regard to these parameters are expected. These parameters are monitored in the regular monitoring and in different sub-programmes. The most important human impact on the quality of water column habitats are the effects of eutrophication as an effect of the input of nutrients. In the Initial Assessment 2012 it has been concluded that there are no significant direct effects of human activities on zooplankton. The quality of pelagic habitats at EUNIS-3 level is being monitored by the indicators for eutrophication, fish and foodwebs. Whether additional zooplankton monitoring is useful depends on the further development of OSPAR indicators. At this moment it is unclear whether the proposed indexes for zooplankton are meaningful for the Netherlands part of the North Sea. Depending on further development the Netherlands will consider to take part in the Continuous Plankton Recorder programme. An assessment of the effect on the quality of the water column is part of the regular licensing procedure for new human activities. Research into the possible effects of loud impulsive noise on fish larvae is part of the monitoring and evaluation programmes for marine wind farms. e) The MSFD Monitoring Plan will be updated annually in a digitally amended supplement based on the latest developments and insights in the area of indicator definitions and measurement methods, for example as a result from (sub) regional coordination within OSPAR.

a,b) In the art 9 and 10 report in 2012 the Netherlands has opted for a general description of GES under art 9 and a further elaboration of the targets and associated indicators under art 10. These targets and indicators cover all criteria from the Commission Decision as far as they are considered relevant for the Netherlands part of the North Sea. Therefore, they also cover the information requirement for the assessment of the descriptors and targets. c,d) GES of the Dutch North Sea ecosystem in 2020 implies that biological diversity is maintained and that the quality and distribution of habitats is in line with prevailing physiographic, geographic and climatic conditions. The distribution of pelagic habitats at EUNIS level 3 is being determined by hydrographical properties such as depth, salinity, current velocity and the source of the water and the occurrence of stratification. No changes in regard to these parameters are expected. These parameters are monitored in the regular monitoring and in different sub-programmes. The most important human impact on the quality of water column habitats are the effects of eutrophication as an effect of the input of nutrients. In the Initial Assessment 2012 it has been concluded that there are no significant direct effects of human activities on zooplankton. The quality of pelagic habitats at EUNIS-3 level is being monitored by the indicators for eutrophication, fish and foodwebs. Whether additional zooplankton monitoring is useful depends on the further development of OSPAR indicators. At this moment it is unclear whether the proposed indexes for zooplankton are meaningful for the Netherlands part of the North Sea. Depending on further development the Netherlands will consider to take part in the Continuous Plankton Recorder programme. An assessment of the effect on the quality of the water column is part of the regular licensing procedure for new human activities. Research into the possible effects of loud impulsive noise on fish larvae is part of the monitoring and evaluation programmes for marine wind farms. e) The MSFD Monitoring Plan will be updated annually in a digitally amended supplement based on the latest developments and insights in the area of indicator definitions and measurement methods, for example as a result from (sub) regional coordination within OSPAR.