Integrative Modelling for Shelf Seas Biogeochemistry
Lead Research Organisation:
Met Office
Department Name: Climate Science
Abstract
Shelf seas are of major societal importance providing a diverse range of goods (e.g. fisheries, renewable energy, transport) and services (e.g. carbon and nutrient cycling and biodiversity). At the same time they are under enormous pressures from man's activities which may have significant impact on the basic function of such systems. For example climate change will lead to large scale changes in stratification and temperature, while increasing atmospheric CO2 levels will lead to acidification of the oceans with significant impacts on ocean biogeochemistry. Simultaneously combinations of direct human activities (e.g. fishing, and eutrophication) directly impact the biogeochemical cycles of carbon and nutrients.
Our understanding of the biogeochemistry of the shelf seas is limited and many processes are poorly understood, in particular the biogeochemical budgets of carbon and nutrients. The key questions include is the UK continental shelf a source or sink for carbon and nitrogen remain unanswered. In addition there are gaps in our knowledge of some of the key physical, chemical and biological controls on biogeochemical cycles. By synthesising empirical knowledge into quantitative descriptions, computer models allow scientists to investigate the functioning of, and interactions between, ecology, biogeochemistry, anthropogenic pressures and climate.
The overarching scientific goal is to enhance our capacity to assess the controls on biogeochemical cycling and hence to quantify with uncertainties the budgets of carbon, nitrogen, phosphorous and silicon including their response to climate, natural variability and anthropogenic stress. The underpinning strategic goal is to develop a new shelf seas biogeochemical model system, coupled to a state of the art physical model, capable of predicting regional impacts of environmental change from days to decades.
We will establish a new common model version for the European Regional Seas Ecosystem Model (ERSEM), drawing from the combined expertise of the partners. Exploiting, existing data, and new biogeochemical process understanding generated by the SSB program we will improve existing process models and develop new ones as appropriate, for both the physical and biological models. We will develop collaborations with the observational and experimentally focussed scientists working on the entire SSB programme in order to make best use of the available expertise. This will form the basis of the new community model system which will be supported and made freely available to the wider UK and international research communities. The resultant model will be used to make simulations of past present and potential future sates of the biogeochemistry of the UK shelf.
In summary, the project will provide new modelling tools which provide estimates of crucial information to help resolve key scientific questions as well as provide a better understanding of the functioning of the shelf seas as they respond to global change and direct anthropogenic pressures. The combination of predictive tools and new knowledge will underpin the development and implementation of marine policy and the implementation of marine forecast systems.
Our understanding of the biogeochemistry of the shelf seas is limited and many processes are poorly understood, in particular the biogeochemical budgets of carbon and nutrients. The key questions include is the UK continental shelf a source or sink for carbon and nitrogen remain unanswered. In addition there are gaps in our knowledge of some of the key physical, chemical and biological controls on biogeochemical cycles. By synthesising empirical knowledge into quantitative descriptions, computer models allow scientists to investigate the functioning of, and interactions between, ecology, biogeochemistry, anthropogenic pressures and climate.
The overarching scientific goal is to enhance our capacity to assess the controls on biogeochemical cycling and hence to quantify with uncertainties the budgets of carbon, nitrogen, phosphorous and silicon including their response to climate, natural variability and anthropogenic stress. The underpinning strategic goal is to develop a new shelf seas biogeochemical model system, coupled to a state of the art physical model, capable of predicting regional impacts of environmental change from days to decades.
We will establish a new common model version for the European Regional Seas Ecosystem Model (ERSEM), drawing from the combined expertise of the partners. Exploiting, existing data, and new biogeochemical process understanding generated by the SSB program we will improve existing process models and develop new ones as appropriate, for both the physical and biological models. We will develop collaborations with the observational and experimentally focussed scientists working on the entire SSB programme in order to make best use of the available expertise. This will form the basis of the new community model system which will be supported and made freely available to the wider UK and international research communities. The resultant model will be used to make simulations of past present and potential future sates of the biogeochemistry of the UK shelf.
In summary, the project will provide new modelling tools which provide estimates of crucial information to help resolve key scientific questions as well as provide a better understanding of the functioning of the shelf seas as they respond to global change and direct anthropogenic pressures. The combination of predictive tools and new knowledge will underpin the development and implementation of marine policy and the implementation of marine forecast systems.
Planned Impact
Who will benefit from this research?
Policy-makers
Department of Energy and Climate Change (DECC)
Department of Environment Food and Rural Affairs (Defra)
Ministry of Defence (MoD)
EU member states
Agencies:
Marine Scotland
AFBI
Marine Climate Change Impacts Partnership (MCCIP)
Marine Management Organisation (MMO)
National Centre for Ocean Forecasting (NCOF)
The international climate evidence community (embodied by the IPCC)
Commercial private sector
Environmental Consultancies
Wider public:
UK and international general public and relevant NGOs
How will they benefit from this research?
Policy-makers/agencies
The Marine Strategy Framework Directive (2008/56/EC) (MSFD) requires EC member states to develop strategies to achieve a healthy marine environment and make ecosystems more resilient to climate change in all European marine waters by 2020 at the latest. The strategies must contain a detailed assessment of the state of the environment, a definition of "Good Environmental Status" (GES) at regional level and the establishment of clear environmental targets and monitoring programmes. Defra, Marine Scotland and AFBI are responsible for the implementation of the MSFD in UK and will benefit from improved knowledge and predictive skill for key indicators of the state of the marine environment. In addition by addressing productivity at the lower trophic levels of the marine food web, including forecasting to century-scales, our research may assist the development of marine fisheries policy and approaches for working towards an ecosystem-focused approach to marine resource management. Cefas are key to this engagement, having for many years advised and Defra (and more recently the MMO) on the environmental status of UK waters and are advising on the implementation of the MSFD and the CFP in England and Wales. DECC and the international climate community (embodied by the IPCC) will benefit through our rigorous investigation and evaluation of shelf seas processes, through engagement with the UK Met Office (UKMO), continuing a close working relationship and the use of a common ocean model, ERSEM-NEMO. This provides the underlying code for operational oceanography (open-ocean and shelf seas) at UKMO, who provide data products to the MOD and to GMES.
Wealth Creation
The European Earth observation program GMES (Global Monitoring for Environment and Security) provides high quality environmental information through the development of a marine monitoring service. Crucially the GMES core service provides regular and systematic reference information on the state of the oceans and regional seas, which is free at the point of use for businesses to exploit commercially. The UKMO run the UK operational ecosystem models delivering high quality data products to the marine core service thought the FP7 MyOCEAN data portal. The model developments proposed will be fed through to the UKMO operational model systems thus improving the range and quality of core service data products.
Wider public
We will publicise our research through:
A project website
Engagement with the media as appropriate
Programme wide outreach activities as they are developed.
Online summaries of the project and key findings disseminated to key interested parties or events
Policy-makers
Department of Energy and Climate Change (DECC)
Department of Environment Food and Rural Affairs (Defra)
Ministry of Defence (MoD)
EU member states
Agencies:
Marine Scotland
AFBI
Marine Climate Change Impacts Partnership (MCCIP)
Marine Management Organisation (MMO)
National Centre for Ocean Forecasting (NCOF)
The international climate evidence community (embodied by the IPCC)
Commercial private sector
Environmental Consultancies
Wider public:
UK and international general public and relevant NGOs
How will they benefit from this research?
Policy-makers/agencies
The Marine Strategy Framework Directive (2008/56/EC) (MSFD) requires EC member states to develop strategies to achieve a healthy marine environment and make ecosystems more resilient to climate change in all European marine waters by 2020 at the latest. The strategies must contain a detailed assessment of the state of the environment, a definition of "Good Environmental Status" (GES) at regional level and the establishment of clear environmental targets and monitoring programmes. Defra, Marine Scotland and AFBI are responsible for the implementation of the MSFD in UK and will benefit from improved knowledge and predictive skill for key indicators of the state of the marine environment. In addition by addressing productivity at the lower trophic levels of the marine food web, including forecasting to century-scales, our research may assist the development of marine fisheries policy and approaches for working towards an ecosystem-focused approach to marine resource management. Cefas are key to this engagement, having for many years advised and Defra (and more recently the MMO) on the environmental status of UK waters and are advising on the implementation of the MSFD and the CFP in England and Wales. DECC and the international climate community (embodied by the IPCC) will benefit through our rigorous investigation and evaluation of shelf seas processes, through engagement with the UK Met Office (UKMO), continuing a close working relationship and the use of a common ocean model, ERSEM-NEMO. This provides the underlying code for operational oceanography (open-ocean and shelf seas) at UKMO, who provide data products to the MOD and to GMES.
Wealth Creation
The European Earth observation program GMES (Global Monitoring for Environment and Security) provides high quality environmental information through the development of a marine monitoring service. Crucially the GMES core service provides regular and systematic reference information on the state of the oceans and regional seas, which is free at the point of use for businesses to exploit commercially. The UKMO run the UK operational ecosystem models delivering high quality data products to the marine core service thought the FP7 MyOCEAN data portal. The model developments proposed will be fed through to the UKMO operational model systems thus improving the range and quality of core service data products.
Wider public
We will publicise our research through:
A project website
Engagement with the media as appropriate
Programme wide outreach activities as they are developed.
Online summaries of the project and key findings disseminated to key interested parties or events
| Description | A comprehensive suite of evaluation methods has been developed to evaluate a physical/biogeochemical reanalysis of the Northwest European Shelf Seas (NWS). It has been applied to a reanalysis product developed by the Met Office and other partners (funded outside this project). The analysis suite allows both strengths and weakenesses of the reanalysis to be identified, feeding into development of improved products in future. Additionally we have demonstrated the potential for useful predictions of aspects of the NW European Shelf marine environment, on timescales of months ahead. |
| Exploitation Route | The findings will form the basis for ongoing routine evaluation metrics for future 'operational' reanalysis products, including those of the Copernicus Marine Environment Monitoring Service. The demonstrated potential of seasonal prediction skill for marine variables is expected to open up a new field of research with potential practical applications in future. |
| Sectors | Energy,Environment,Leisure Activities, including Sports, Recreation and Tourism,Transport |
| URL | http://marine.copernicus.eu/documents/QUID/CMEMS-GLO-QUID-001-014.pdf |
| Description | Feed into quality information on the Copernicus Marine Service NW European Shelf reanalysis products - of interest to a wide variety of downstream users with interests in the marine environment (2015). New versions of the prediction and reanalysis systems, building on the earlier insights, are under development at the time of writing, and expected to become operational Copernicus services during 2018. |
| First Year Of Impact | 2018 |
| Sector | Energy,Environment,Transport |
| Impact Types | Economic,Policy & public services |
| Description | Integrated UK approach to ocean biogeochemical modelling |
| Organisation | Centre For Environment, Fisheries And Aquaculture Science |
| Country | United Kingdom |
| Sector | Public |
| PI Contribution | Coordinate and evaluate pullthrough of model developments into use in the UK's operational oceanographic systems and the EU's Copernicus Marine Environment Monitoring Service. |
| Collaborator Contribution | Deliver improvements and tunings to the ERSEM model (PML). Integrate ERSEM with the physical NEMO model fo rthe NW European Shelf (NOC). |
| Impact | UK-led consortium is delivering the NW Shelf regional Monitoring and Forecasting Centre on behalf of the Copernicus Marine Environment Monitoring Service (CMEMS). Met Office, NOC and PML are the UK partners in this consortium, along with BSH Hamburg and IMR Bergen. |
| Start Year | 2014 |
| Description | Integrated UK approach to ocean biogeochemical modelling |
| Organisation | National Oceanography Centre |
| Country | United Kingdom |
| Sector | Academic/University |
| PI Contribution | Coordinate and evaluate pullthrough of model developments into use in the UK's operational oceanographic systems and the EU's Copernicus Marine Environment Monitoring Service. |
| Collaborator Contribution | Deliver improvements and tunings to the ERSEM model (PML). Integrate ERSEM with the physical NEMO model fo rthe NW European Shelf (NOC). |
| Impact | UK-led consortium is delivering the NW Shelf regional Monitoring and Forecasting Centre on behalf of the Copernicus Marine Environment Monitoring Service (CMEMS). Met Office, NOC and PML are the UK partners in this consortium, along with BSH Hamburg and IMR Bergen. |
| Start Year | 2014 |
| Description | Integrated UK approach to ocean biogeochemical modelling |
| Organisation | Plymouth Marine Laboratory |
| Country | United Kingdom |
| Sector | Academic/University |
| PI Contribution | Coordinate and evaluate pullthrough of model developments into use in the UK's operational oceanographic systems and the EU's Copernicus Marine Environment Monitoring Service. |
| Collaborator Contribution | Deliver improvements and tunings to the ERSEM model (PML). Integrate ERSEM with the physical NEMO model fo rthe NW European Shelf (NOC). |
| Impact | UK-led consortium is delivering the NW Shelf regional Monitoring and Forecasting Centre on behalf of the Copernicus Marine Environment Monitoring Service (CMEMS). Met Office, NOC and PML are the UK partners in this consortium, along with BSH Hamburg and IMR Bergen. |
| Start Year | 2014 |
| Description | NPOP Activity Group on marine climate prediction |
| Organisation | Centre For Environment, Fisheries And Aquaculture Science |
| Country | United Kingdom |
| Sector | Public |
| PI Contribution | Recognition of potential for extended range prediction of the marine environment. Start (and will lead) UK-based group to align and promote UK effort on marine prediction from seasonal to centennial timescales. |
| Collaborator Contribution | Each of the partners brings small funded efforts in the area of this activity group. By aligning the effort across institutions we aim to achieve critical mass. |
| Impact | At present we are agreeing the Terms of reference of the group, with an initial science workshop planned for later in 2018. Multidisciplinary across physical and biogeochemical ocean ography and climate science. |
| Start Year | 2017 |
| Description | NPOP Activity Group on marine climate prediction |
| Organisation | National Oceanography Centre |
| Country | United Kingdom |
| Sector | Academic/University |
| PI Contribution | Recognition of potential for extended range prediction of the marine environment. Start (and will lead) UK-based group to align and promote UK effort on marine prediction from seasonal to centennial timescales. |
| Collaborator Contribution | Each of the partners brings small funded efforts in the area of this activity group. By aligning the effort across institutions we aim to achieve critical mass. |
| Impact | At present we are agreeing the Terms of reference of the group, with an initial science workshop planned for later in 2018. Multidisciplinary across physical and biogeochemical ocean ography and climate science. |
| Start Year | 2017 |
| Description | NPOP Activity Group on marine climate prediction |
| Organisation | Plymouth Marine Laboratory |
| Country | United Kingdom |
| Sector | Academic/University |
| PI Contribution | Recognition of potential for extended range prediction of the marine environment. Start (and will lead) UK-based group to align and promote UK effort on marine prediction from seasonal to centennial timescales. |
| Collaborator Contribution | Each of the partners brings small funded efforts in the area of this activity group. By aligning the effort across institutions we aim to achieve critical mass. |
| Impact | At present we are agreeing the Terms of reference of the group, with an initial science workshop planned for later in 2018. Multidisciplinary across physical and biogeochemical ocean ography and climate science. |
| Start Year | 2017 |
| Title | Copernicus Marine Environment Monitoring Service: NW European Shelf |
| Description | Techniques have been developed to evaluate the quality of the forecast and reanalysis products for the Copernicus Marine Environment Monitoring Service (CMEMS), NW European Shelf Regional Monitoring and Forecasting Centre. These are described in Wakelin et al 2015, McLaren et al 2015. |
| Type Of Technology | Webtool/Application |
| Year Produced | 2015 |
| Impact | The CMEMS products are funded by the European Commission and provide a free-at-point-of-delivery service for monitoring and forecasting the marine environment. The products are widely used across the public and private sectors to support policy, marine management, infrastructure planning, and operations. The techniques have identified both the strengths and some technical and scientific weaknesses in the current products (documented in Wakelin et al 2015), providing a target for future improvements to the system, including the underlying ERSEM model which is being developed in the NRC SSB programme. |
| URL | http://marine.copernicus.eu/documents/QUID/CMEMS-GLO-QUID-001-014.pdf |