Copernicus Marine Service in support to
UNITED KINGDOM
USE CASE BOOK
SUMMARY P. 4
Adressing marine pollution from oil spills with effective dispersion modelling
P. 6
CMEMS in support to EMODnet seabed habitats
P. 8
Coastal applications using the scottish shelf model
P. 10
Greeland community ice information service
P. 12
Location the closest legal fishing ground
P. 14
Marine scotland oil spill response
P. 16
Monitoring trends in Biogeochemical indicators to support marine policies
P. 18
Seasonal forecasting at ECMWF
P. 20
Ship routing in ice covered areas: polarview
P. 22
Resource assessment for renewable energy
The Copernicus Marine Service (CMEMS) provides reference data and information on the physical and biogeochemical state, variability and dynamics of the ocean and marine ecosystems for the global ocean and the European regional seas. Products are free of charge and open to all, accessible via marine.copernicus.eu. CMEMS is implemented by Mercator Ocean International on behalf of the European Commission.
Inventory of marine applications developed in United Kingdom with the help of Copernicus Marine Service products.
Should you have any comments or questions, please contact us at : communication@mercator-ocean.eu CMEMS_EU
Copernicus Marine Service
Version 2.1 30/01/2019
U S E CASES
ADDRESSING MARINE POLLUTION FROM OIL SPILLS WITH EFFECTIVE DISPERSION MODELLING CASE • USE OVE RVIE W
As part of the UKSA funded EASOS project, Riskaware has developed an oil spill dispersion model to help the Malaysian government tackle marine pollution. Pollution from oil spills is a major issue for the Malaysian government, who are responsible for monitoring and policing the Malacca Straits, one of the busiest shipping lanes in the world. The Riskaware's model supports informed decision making by predicting the areas which will be affected when an oil spill is reported. Mitigation strategies can also be simulated to assess the best course of action, and there is a source estimation capability to help identify ships who choose to pollute deliberately. Using the Copernicus Marine Service high quality global forecasts, Riskaware have been able to extend their capability beyond Malaysia to model oil spills anywhere in the world, allowing many other countries to potentially benefit from the service.
E NE FIT S • BFOR USE R
Bayesian source estimation capability Best estimate and probabilistic modelling of oil in the water and on
the coasts
Model connects to CMEMS directly to automatically use the best available forecast data Web-based user interface combining detection and modelling results
MALAYSIA OIL SPILL DISPERSION DRIFT MODEL MALACCA STRAIT
SAFETY & DISASTER
Implemented by
4
Copernicus Marine Service
Version 2.1 30/01/2019
U S E CASES
S A ND • FACT KE Y N UMBER S
Riskaware's oil dispersion model capability includes a web-based user interface which brings to together the reporting of oil spills and the model results. Through the interface, users now have a centralised system for viewing all current and historic oil spill incidents. It is possible to view the predicted concentration levels of oil both in the water and on the coast. The source estimation capability makes use of the latest Bayesian mathematics techniques to identify potential sources where the oil could have originated. A trial of the model is expected to start in Malaysia shortly.
MS • CME P RODUCT I N U SE
CMEMS Forecast model products provide the oil dispersion model with a 7-day forecast of 3D ocean currents, wave height and sea temperature that is updated daily. The model uses all this data to predict how a reported oil slick will disperse. The global coverage of these forecasts allow the dispersion model to be used all over the world. Product in use 1 Product in use 2
E MS • CM USE R
Based in Bristol in the UK, Riskaware is an independent organisation with an international reputation for developing specialised software solutions for technical and scientific applications. With 20 years experience within the defence sector, they have combined their specialist knowledge and expertise to provide innovative software solutions across a wide range of
Riskaware
industry sectors.
www.riskaware.co.uk
Contact Tim Culmer tim.culmer@riskaware.co.uk
SAFETY & DISASTER
COPERNICUS MARINE SERVICE 5
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.4
U S E CASES
CMEMS IN SUPPORT TO EMODNET SEABED HABITATS
CASE • USE OVE RVIE W
European seabed habitat maps are important as they contain essential information about the seafloor. They serve many purposes including the design of ecologically coherent Marine Protected Area networks, assessing benthic ecosystem services, establishing monitoring programs for seabed habitats and informing maritime spatial planning. They are also indispensable for Member States to fulfil their legal obligations under the Marine Strategy Framework Directive, where full coverage of benthic broad-scale habitats of all European seas is required. EMODnet Seabed Habitats aims to provide a single access point to European seabed habitat data by assembling individual point datasets, maps and models from various sources and publishing them as interoperable data products for assessing the environmental state of ecosystems and sea basins. Habitats are influenced by the physical environment such as ocean currents and waves. EMODnet Seabed Habitats uses CMEMS model ocean currents reanalysis in the Mediterranean and Black Seas as boundary conditions to higher resolution coastal models to predict values at the sea floor (using EMODnet bathymetry and substrate data).
E NE FIT S • BFOR USE R
Standardized and interoperable interfaces.
supports national and regional authorities in fulfilling environmental reporting (Water Framework Directive) Useful, free and sustained information provision.
EMODNET SEABED HABITATS MEMBER STATES MSFD MARINE PROTECTED AREA SEAFLOOR MAPS
Implemented by
WATER QUALITY
6
Copernicus Marine Service
Version 2.4
U S E CASES
S A ND • FACT KE Y N UMBER S
EUSeaMap broad-scale predictive model, produced by EMODnet Seabed Habitats fulfil the EU Member States legal obligations under the Marine Strategy Framework Directive. The extent of the mapped area includes the Mediterranean Sea, Black Sea, Baltic Sea, and areas of the North Eastern Atlantic extending from the Canary Islands in the south to Norway in the North. The maps are produced using a top-down modelling approach using classified habitat descriptors to determine a final output habitat. Habitat descriptors differ per region but include: Biological zone, Energy class, Oxygen regime, Salinity regime, Seabed Substrate and Riverine input.
MS • CME P RODUCT I N U SE
EMODnet Seabed Habitats uses CMEMS model ocean currents reanalysis over the last 20 years in the Mediterranean and Black Seas and used them as boundary conditions to higher resolution coastal models to predict values at the sea floor. Product in use 1 Product in use 2
E MS • CM USE R
The European Marine Observation and Data Network (EMODnet) is a network of organisations supported by the EU integrated maritime policy. These organisations work together to observe the sea, process the data according to international standards and make that information freely available as interoperable data layers and data products.
Contact Eleonora Manca Eleonora.Manca@jncc.gov.uk
jncc www.emodnet.eu/seabed-habitats
COPERNICUS MARINE SERVICE
WATER QUALITY
7
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 1.1 18/06/2018
U S E CASES
COASTAL APPLICATIONS USING THE SCOTTISH SHELF MODEL CASE • USE OVE RVIE W
The Scottish Shelf Model (SSM) gives a detailed spatial picture of the physical water properties, unobtainable from observation alone. It is a resource that has already been shown to help government and commercial users better plan and protect Scottish Marine Waters. The SSM is a Finite Volume Community Ocean Model (FVCOM) of Scottish continental shelf waters, nested into Copernicus Marine products. Marine Scotland Science (MSS) are continuing to develop this system and integrate it with their existing FVCOM models. The model covers the Scottish continental shelf at relatively high resolution (up to 1 km node spacing at the coastline) but also covers most of UK waters, the North Sea and the English Channel. The domain extends in latitude from approximately 13° W to 13° E, including the Baltic Sea. In addition to this large domain Scottish Shelf Model, a number of smaller domain sub-models have been developed, covering areas of interest to specific socio-economic sectors such as aquaculture and marine renewable energy. These sub-models have a higher spatial resolution, necessary to adequately understand the complex physical processes within the area.
E NE FIT S • BFOR USE R
Useful, free and sustained information provision for downscaling purposes.
COASTAL APPLICATIONS SCOTTISH SHELF MODEL EUROPEAN NORTH WEST SHELVES
Implemented by
COASTAL MONITORING
8
Copernicus Marine Service
Version 1.1 18/06/2018
U S E CASES
S A ND • FACT KE Y N UMBER S
The SSM is a shared resource for the marine science community. Developments will include the implementation of new high resolution sub-models, new hindcasts, forecast and climatological runs. The model has been used to provide resources for aquaculture, marine renewables and other marine scientists and policy makers, including tidal and wave energy resource maps; connectivity indices between aquaculture finfish farm management areas, and of Marine Protected Areas and Priority Marine Features; the environmental impact of tidal stream energy extraction and other renewable energy technologies.
MS • CME P RODUCT I N U SE
CMEMS Analysis and Forecast model products provide reanalysis of 3D ocean currents, temperature and salinity, and sea surface height, for use as boundary conditions from the European North West Shelves product. These products, including time series of up to a year, are downloaded periodically when they are required. Product in use 1 Product in use 2
E MS • CM USE R
Marine Scotland Science (MSS) supports the Scottish Government's vision of marine and coastal environments that are clean, healthy, safe, productive, biologically diverse and are sustainably managed. Their purpose is to provide expert advice and services, to provide the evidence to support the policies of the Scottish Government and to perform regulatory and enforcement activities.
Marine Scotland Science www.scotland.gov.uk/Topics/marine/science
Contact Rory O'Hara Murray Rory.O'HaraMurray@gov.scot
COPERNICUS MARINE SERVICE
COASTAL MONITORING
9
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.4
U S E CASES
GREENLAND COMMUNITY ICE INFORMATION SERVICE CASE • USE OVE RVIE W
For northern communities, the ability to move safely over ice is an essential part of culture, community and livelihood for travel, food, and tourism. The challenge of travelling on ice is compounded by the changing climate. The Greenland community ice information service provides Inuit hunters, tourism operators, local communities, and search and rescue operators with Earth Observation (EO)-based information that helps them to navigate safely over the sea ice in coastal waters. The first demonstration was held in the community of Qaanaaq, Greenland. The service is now being extended to all Greenland communities. As part of the service, Sentinel 1 satellite imagery is analyzed by an expert to determine the ice conditions around the community. Local maps are created delineating conditions suitable for travel as. The satellite imagery and travel maps are combined with Copernicus Marine Service data such as: sea ice fraction and snow thickness. These data layers are available to users through a web site and a mobile phone app. More here: http://floeedge.polarview.org/
E N E FIT S • BFOR USE R
Decision-making support tool
safer transport for people and goods along ice roads to/from
islands supporting traditional ways of life as well as protecting lives and contributing to the Greenland economy
ARCTIC AND GREENLAND SEA ICE SERVICE SAFETY OVER ICE SEA ICE TRAVEL
Implemented by
POLAR ENVIRONMENT MONITORING
10
Copernicus Marine Service
Version 2.4
U S E CASES
S A ND • FACT KE Y N UMBER S
Although deaths are rare, the search and rescue effort required to retrieve stranded individuals is costly in both time and money, as well as endangering the rescuers. As an example in the Canadian context, in 2013 the extraction of 31 people (including a 16-person Inuit hunting party) turned out to be one of the largest Arctic rescues that the Royal Canadian Air Force has ever undertaken. Over a two-day period, the rescue involved three dozen aircrew and six aircraft in co-operation with the Royal Canadian Mounted Police (RCMP) and local authorities, turning into a major news story that was reported around the world. The rescue operation also cost Canadian taxpayers $2.7 million.
MS • CME P RODUCT I N U SE
A variety of information products from the Copernicus Marine Service are included, such as: sea ice fraction and snow thickness. The integration of this information provides an enhanced situational awareness for users. Product in use 1 Product in use 2
E MS • CM USE R
Polar View is a world leading organization for the provision of operational, satellite-based monitoring of the polar regions and the cryosphere.
polarview floeedge.polarview.org/
More information here Contact David Arthurs david.arthurs@polarview.org
COPERNICUS MARINE SERVICE
POLAR ENVIRONMENT MONITORING
11
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 1.3 26/01/2018
U S E CASES
LOCATING THE CLOSEST LEGAL FISHING GROUND
CASE • USE OVE RVIE W
HeraSpace helps fishermen to locate the closest legal fishing ground, optimizing their operative budgets. HeraSpace is a multi winning award British startup which has showcased a unique tracking fish distributions system. HeraSpace uses oceanographic data among which Copernicus satellite and Copernicus Marine Service global ocean model, crowd-sourcing and a top-notch neural machine learning neural network. HeraSpace adapts to the variabilities in the fish distributional patterns (provoked by anomalies in the climate) by applying accurate updated ocean friendly patterns and artificial intelligence. HeraSpace proposes building an adaptive intelligent service based on the latest publically funded satellite missions which shall result in optimizing resources consumption and as a consequence reducing the greenhouse gas emissions to the atmosphere. HeraSpace supports sustainable fisheries management practices and the recovery of fish stocks. Transparency thought the whole process is guaranteed with blockchain technology, the same that is used for cutting-edge electronic currency like Bitcoin.
E NE FIT S • BFOR USE R
In relationship to a fixed volume of fish caught HeraSpace offers
less time at sea
tremendous cost savings to fishermen from:
lower maintenances
reduced CO2 equivalent emissions and related CO2 taxes reduced fuel consumption
MARINE FOOD
Implemented by
12
Copernicus Marine Service
Version 1.3 26/01/2018
U S E CASES
S A ND • FACT KE Y N UMBER S
HeraSpace helps fishermen to locate the closest legal fishing ground, optimizing operative budgets. HeraSpace proposes an app for optimising ocean fishing standards and best practices. Combining Copernicus satellite data with actual fishing data, fishing routes and selection could eventually be drastically improved. Particularly interesting are the features aimed at supporting sustainable exploitation of ocean resources.
MS • CME P RODUCT I N U SE
CMEMS Analysis and Forecast model products provide with 7-day forecast of 3D ocean currents updated daily. Models over several areas are used: the Global Ocean, the Iberia Biscay Irish seas, the European North West Shelves, the Baltic and Mediterranean seas. They provide hydrodynamic forecast including high frequency processes of paramount importance to characterize regional scale marine processes. Product in use 1
E MS • CM USE R
HeraSpace, a multiple award winning British startup, has showcased at top level scientific and entrepreneurial events in Europe, a unique tracking fish distributions system.
More information here Contact Isaac Durá isaacdura@heraspace.com
HeraSpace heraspace.com
MARINE FOOD
COPERNICUS MARINE SERVICE 13
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 1.1 18/06/2018
U S E CASES
MARINE SCOTLAND OIL SPILL RESPONSE
CASE • USE OVE RVIE W
In Northern Scotland harbor, ship-to-ship oil transfer have historically taken place at the jetties of Nigg oil terminal in the Cromarty Firth. Therefore an oil spill planning and response capability is required. A trajectory model based on 2D Lagrangian particle tracking software in order to simply tracking virtual oil particles was used to study the potential consequences of a spill. An oil spill modelling capability for Scotland is possible due to both the use of direct application of Copernicus Marine Service model products in the European North West Shelves seas, and through nested capability for coastal hotsposts. In an enclosed area like the inner Moray Firth, an oil spill could easily influence the coastline. Marine Scotland use ocean currents from the Copernicus Marine Service or from the Scottish Shelf Model (forced using CMEMS NWS data) in the Scottish Government GNOME oil spill trajectory model. There is also trial capability for higher resolution response capability using coastal Finite Volume Community Ocean Models (FVCOM). The model was forced using the Scottish Shelf Model, an FVCOM model itself forced using Copernicus Marine Service model.
E NE FIT S • BFOR USE R
Supports the Scottish Government's vision of marine and coastal
The forecast products enable predictions to be made in an
environments emergency. Useful, free and sustained information provision for downscaling modelling.
OIL SPILL MARINE SCOTLAND SCIENCE SCOTTISH GOVERNMENT MARINE ATLAS OSPAR MARITIME SAFETY
SAFETY & DISASTER
Implemented by
14
Copernicus Marine Service
Version 1.1 18/06/2018
U S E CASES
S A ND • FACT KE Y N UMBER S
Oil spills can have disastrous consequences and as a result, oil spill accidents have initiated intense attention. Appropriate and rapid oil spill response and monitoring is critical in ensuring the impacts due to oil spills is limited. Oil and gas are a significant part of the economy and so oil spill response capability is an important issue in Scotland.
MS • CME P RODUCT I N U SE
CMEMS Analysis and Forecast model products provide reanalysis, analysis and forecast of 3D ocean currents, temperature and salinity, and sea surface height, for use as boundary conditions from the European North West Shelves product. MSS require instant access to these forecast products as and when they are required, i.e. in the event of a real oil spill. Product in use 1 Product in use 2
E MS • CM USE R
Marine Scotland Science (MSS) supports the Scottish Government's vision of marine and coastal environments that are clean, healthy, safe, productive, biologically diverse and are sustainably managed. Their purpose is to provide expert advice and services, to provide the evidence to support the policies of the Scottish Government and to perform regulatory and enforcement activities.
Marine Scotland Science www.scotland.gov.uk/Topics/marine/science
Contact Rory O'Hara Murray Rory.O'HaraMurray@gov.scot
SAFETY & DISASTER
COPERNICUS MARINE SERVICE 15
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.0
U S E CASES
MONITORING TRENDS IN BIOGEOCHEMICAL INDICATORS TO SUPPORT MARINE POLICIES CASE • USE OVE RVIE W
Monitoring trends in biogeochemical indicators such as chlorophyll, dissolved oxygen, and nutrient concentrations is crucial for evaluating the ocean response to global climate change. Researchers from PML have integrated the CMEMS satellite-derived data with a coupled physical-biogeochemical model using a method that constrains the output to fit the observations. This results into a biogeochemistry reanalysis which provides a unique decadal data set that has considerable skill in approximating ocean observations, and that can enhance the understanding and management for marine policies of the North West European shelf ecosystem, in relation to eutrophication and fluctuations of the carbon cycle. Results show for example that an area as large as 325,000 km2 is vulnerable to oxygen deficiency at the bottom of the North West European shelf, and an additional 40,000 km2 are included when using a strict 1% confidence criteria. It also shows that the North West European shelf is a net sink of atmospheric CO2, with a simulated uptake that ranges between 36 and 46 Tg C yr-1, when applying a 90% confidence level for the estimates.
E NE FIT S • BFOR USE R
Better understanding of the environmental conditions. Support to SDG14 monitoring. Supports national and regional authorities for EU directive implementation
NORTHWEST EUROPEAN SHELF BIOGEOCHEMISTRY DECADE-LONG REANALYSIS SIMULATION MONITORING TRENDS CHLOROPHYLL NUTRIENT CONCENTRATIONS UPTAKE OF ATMOSPHERIC CARBON DIOXIDE OXYGEN DEFICIENCY
MARINE CONSERVATION & POLICIES
Implemented by
16
Copernicus Marine Service
Version 2.0
U S E CASES
S A ND • FACT KE Y N UMBER S
Monitoring trends in biogeochemical indicators such as chlorophyll, dissolved oxygen, and nutrient concentrations is crucial for evaluating the ocean response to global climate change and its effects on marine ecosystems. Trends and patterns of biogeochemical variables that are relevant for marine policy and ecosystem understanding can be evaluated by merging numerical models and ocean color in extended biogeochemical reanalysis using a consistent data assimilation algorithm. Results from the first decade-long reanalysis simulation of northwest European shelf biogeochemistry show the importance of quantifying the uncertainty in these indicators to inform marine policy.
MS • CME P RODUCT I N U SE
The Global surface chlorophyll concentration from satellite observations (daily average) from ESA-CCI and distributed in the CMEMS catalogue is used in this application. Product in use 1
E MS • CM USE R
Plymouth Marine Laboratory (PML) is a charity which aims to develop and apply innovative marine science to ensure a sustainable future for the ocean. They also have a commercial trading subsidiary, PML Applications Ltd, which delivers services, products and solutions related to the marine environment in key sectors such as ballast water management and biofouling.
pml portal.ecosystem-modelling.pml.ac.uk/
More information here Contact Ciavatta Stefano avab@pml.ac.uk
MARINE CONSERVATION & POLICIES
COPERNICUS MARINE SERVICE 17
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.0
U S E CASES
SEASONAL FORECASTING AT ECMWF
CASE • USE OVE RVIE W
The European Centre for Medium-Range Weather Forecasts (ECMWF) is an independent intergovernmental organisation producing and disseminating numerical weather predictions to its Member States. The ocean data assimilation system is a crucial component of ECMWF Earth system approach. It produces both real-time and reanalysed ocean states and it relies on the assimilation of conventional and satellite observations. In particular, radar altimeter sea-level anomaly (SLA) data assimilation improves the representation of the seasonal and inter-annual variability of sea level, which is important for extended to seasonal range weather forecasts. In February 2017, ECMWF has concluded an agreement with the Copernicus Marine Environment Monitoring Service (CMEMS) which formalises the terms under which CMEMS provides the Centre with its satellite sea-level anomaly products for ocean data assimilation into ECMWF system.
E NE FIT S • BFOR USE R
Improvement of the representation of the seasonal and inter-annual variability of sea level changes, which is important for
extended-range and seasonal-range weather forecasts.
Minimum notification periods required by ECMWF for testing purposes. Operational service from CMEMS.
ECMWF SEA LEVEL CHANGE SEASONAL FORECAST OPERATIONAL SERVICE
SCIENCE & CLIMATE
Implemented by
18
Copernicus Marine Service
Version 2.0
U S E CASES
S A ND • FACT KE Y N UMBER S
El Niño is the main source of predictability for year-to-year climate variations and is closely studied by ECMWF and its seasonal forecast experts. The El Niño acts to redistribute heat and precipitation over the globe. It bestows beneficial effects on economies as well as negative effects. In the United States, for example, researchers have estimated that the 1997-1998 El Niño pattern inflicted costs of approximately $4 billion, but was offset by $19 billion in benefits. Many other countries have endured an economical deficit only.
MS • CME P RODUCT I N U SE
The CMEMS Sea Level Anomaly satellite data currently used by ECMWF include observations from several sensors, with observations from Jason-2, Jason-3, CryoSat-2 and SARAL/AltiKa operationally assimilated at ECMWF. Product in use 1 Product in use 2
E MS • CM USE R
The European Centre for Medium-Range Weather Forecasts (ECMWF) is an independent intergovernmental organisation supported by 34 states. ECMWF is both a research institute and a 24/7 operational service, producing and disseminating numerical weather predictions to its Member States. The Centre also offers a catalogue of forecast data that can be purchased by businesses
ECMWF
worldwide.
www.ecmwf.int/ More information here
SCIENCE & CLIMATE
COPERNICUS MARINE SERVICE 19
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.3
U S E CASES
SHIP ROUTING IN ICE COVERED AREAS: POLARVIEW
CASE • USE OVE RVIE W
PolarView is an online downstream service useful to the general public in Greenland and also to professionals, to visualize Copernicus ice-related data in Polar regions (Satellite observation and Forecast Models). The PolarView consortium includes government agencies (such as DMI in Denmark), research institutes, system developers, service providers and end users from 17 countries. Polarview uses the Copernicus Marine Service Satellite sea-ice products and ocean currents from the Arctic ocean forecast model and provides a very simple user interface (click on an area, click on a thumbnail and see the latest images). Polarview helps for example shipping companies with the ship routing in ice covered areas.
E N E FIT S • BFOR USE R
Free and sustained ocean currents and waves provision to feed
High quality information allowing consistent fuel saving and lower
ship routing software. CO2 emission.
More accurate planning of arrival time. Safer sailing routes for human beings and boat equipment.
POLARVIEW SHIP ROUTING ARCTIC OCEAN CURRENTS SEA ICE NAVIGATION SOFTWARE
Implemented by
POLAR ENVIRONMENT MONITORING
20
Copernicus Marine Service
Version 2.3
U S E CASES
S A ND • FACT KE Y N UMBER S
Wind, waves and currents and sea ice cover are crucial factors in choosing a route at sea. Advanced routing systems are being introduced in shipping, one result being that the skipper on board makes the crucial decisions about the route. Avoiding rough weather and having the best possible advance route planning can minimise cargo damage and mean more precise arrival times. Choosing the optimum route also lays the foundation for reducing fuel consumption.
MS • CME P RODUCT I N U SE
CMEMS Analysis and Forecast model products provide with 7-day sea ice forecasting updated daily. It provides sea ice information relevant to ship routing in the Arctic ocean. Product in use 1
E MS • CM USE R
Polar View is a world leading organization for the provision of operational, satellite-based monitoring of the polar regions and the cryosphere.
Polar View
More information here
www.polarview.org/
COPERNICUS MARINE SERVICE
POLAR ENVIRONMENT MONITORING
21
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.1 13/01/2020
U S E CASES
RESOURCE ASSESSMENT FOR RENEWABLE ENERGY
CASE • USE OVE RVIE W
Salinity gradient power is the energy available from the difference in the salt concentration between seawater and river water. Such high salinity gradients are usually located at the mouth of main rivers and can result in the production of electrity. Europe is a pioneer in this new type of marine renewable energy prototype. Salinity gradient resource characterization in the global ocean is critical for both renewable energy project developers and policy makers alike. It allows the industry to identify the right markets and sites to install ocean energy technologies, and informs decision makers for a more relevant energy policy and better marine spatial planning. The University of Edinburgh made significant contributions to improving knowledge of salinity gradient resources. Pr. Medina-Lopez from University of Edinburgh uses Sentinel-2 satellite data, in situ measurements and machine learning techniques (neural nodes) to produce high resolution maps of sea surface salinity and sea surface temperature at the mouth of main rivers in the global ocean. She uses the Copernicus Marine in situ products at regional and global scales.
E NE FIT S • BFOR USE R
Copernicus Marine in situ data allow to build the neural network
and obtain high resolution Sentinel-2 maps for sea surface temperature and salinity at river mouths in the global ocean Free data
RENEWABLE ENERGY MARINE SPATIAL PLANNING OCEAN RESOURCES SATELLITE DATA IN-SITU DATA GLOBAL OCEAN HIGH-RESOLUTION MAPPING SEA SURFACE SALINITY OSMOTIC POWER SALINITY GRADIENT ENERGY REVERSE ELECTRODIALYSIS
NATURAL RESOURCES & ENERGY
Implemented by
22
Copernicus Marine Service
Version 2.1 13/01/2020
U S E CASES
S A ND • FACT KE Y N UMBER S
Reverse electrodialysis also called osmotic power or salinity gradient power is the energy available from the difference in the salt concentration between seawater and river water. The chemical potential difference between salt and fresh water generates a voltage over a set of membranes and results in the production of electrity. Europe is a pioneer in salinity gradient energy research and development. A state-of-the-art Reverse Electro Dialysis test unit has been deployed as early as 2014 in the Netherlands.
MS • CME P RODUCT I N U SE
In-situ Copernicus Marine products from the regional basins and global ocean are used in this application: Product in use 1 Product in use 2 Product in use 3 Product in use 4 Product in use 5
E MS • CM USE R
From Nobel laureates and Olympic champions to space explorers and prime ministers, the University of Edinburgh has been a leading research institution since it opened the gates to its first students in 1583. A key player in European research collaborations, UEDIN engages in specialised and interdisciplinary research in pure and applied science and engineering.
More information here Contact Pr. Encarni Medina LOPEZ encarni.medina-lopez@ed.ac.uk
University of Edimbourg www.ed.ac.uk/
NATURAL RESOURCES &ENERGY
COPERNICUS MARINE SERVICE
23
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
MARKETS
Copernicus Marine Service supports all sectors of the Blue Economy.
1
POLAR E NVI RONME NT M ONI TORI NG
2
The Copernicus Marine Service polar environment products allow users to assess environmental safety in both poles. These products are used by national sea ice services to serve many user groups like: National authorities Research institutes Shipping companies
3
SCIENCE & CL IMAT E
We provide scientists with many products to conduct their environmental, climate and oceanographic research. They can rely on: The Ocean Monitoring The Ocean State Indicators (OMIs) Report, a flagship scientific publication
5
We provide public authorities and governments with key parameters to support the monitoring of habitats within conservation areas. Many variables can be monitored by each European Member State using the Copernicus Marine Service, such as: Sea water eutrophication Ocean noise
4
WATE R QUALI TY
SOCIET Y & EDUCAT ION
We develop ocean literacy tools for the general public, teachers, decision-makers etc. They are used to raise awareness about the multifaceted environmental pressures on the ocean: Climate change Overfishing Plastic pollution
9
M ARI NE NAVI GATI ON
We provide products contributing to safer ship routing (can reduce fleet navigation risks in ice-covered areas) and more ecological and efficient marine navigation (by lowering fuel consumption): Ocean current Sea ice Wave
N ATU RA L R ES O U R C ES & E N E R GY
Our ocean models provide key inputs to estimate ocean energy resources to: Monitor Evaluate ocean offshore sites energy resources These data are used by businesses researchers and decision-makers.
6
COASTAL M O NITO R IN G
The modelling method called “Downscaling” allows the Copernicus Marine Service data to be used to develop high resolution coastal models, useful for coastal management.
Using our products, each European Member State can: Monitor sea water Notably sea water quality in line with eutrophication in the European Marine areas impacted by Strategy Framework harmful algae blooms Directive (MSFD)
7
M A R IN E CO N S E RVAT I O N & PO L IC IES
8
M A R IN E FO O D
Our products and services are used to model fish habitats with variables like chorophyll and sea surface temperature, for example. These contribute to the sustainable management of: Fisheries Aquaculture farms
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SA FE TY & D ISASTE R
Our daily forecast ocean model provides inputs for: Search and rescue Meteo-ocean software dashboards The ocean current model can be used for drift forecasting of oil spills that help government agencies to better plan emergency response operations.
COPERNICUS MARINE DATA IN SUPPORT TO UNITED KINGDOM
Implemented by
marine.opernicus.eu
@CMEMS_EU
Copernicus Marine Service
servicedesk.cmems@mercator-ocean.eu