Copernicus Marine Service for the
GLOBAL OCEAN
USE CASE BOOK
SUMMARY COASTAL MONITORING P.4
OpenCoasts – on-demand marine data forecast service for coastal management
P.6
Web-based coastal monitoring service: BSO
P.8
Supporting NOAA Oceanwatch Monitor
P.10
Coastal marine safety in Costa Rica
P.12
Tailored marine weather information services
P.14
Met-ocean conditions in support to German RWE offshore wind farm operator
P.16
Hydrodynamic downscaling for coastal studies
P.18
Monitoring and forecasting nearshore water quality
MARINE CONSERVATION & POLICIES P.20
Oceana marine expeditions to fill key gaps in biodiversity data
P.22
EO4Wildlife platform for wildlife monitoring
P.24
Copernicus Marine for Maritime Spatial Planning: the Plasmar project
P.26
Building uniform ocean acidity maps from scattered in-situ data
P.28
Predicting the habitat and distribution of giant squid
P.30
Ocean noise mapping in support to EU and international regulations
P.32
Supporting Eurostat with ocean acidity and PH indicator
P.34
Supporting European member states with the MSFD
P.36
Understanding the behaviour of elephant seals at sea
P.38
Turtles monitored thanks to what they eat
MARINE FOOD P.40
Locating the closest legal fishing ground
P.42
Supporting fishing & aquaculture sector in Chile
P.44
Developing Africa’s capacity in fishery resource management with MESA
P.46
Supporting aquaculture and fishing
MARINE NAVIGATION P.48
Intelligent maritime awareness solutions for shipping operators
P.50
VoyOpt® – Voyage Optimization
P.52
Reducing ship’s fuel consumption thanks to better marine coatings
P.54
Designing more robust ships thanks to wave data
P.56
Developing EO-based demonstration services for public authorities: Marine-EO
P.58
Timezero, a weather routing module
P.60
Optimal ship routing and control with Oceanics
P.62
Support to marine seismic ship operations
P.64
Great Circle ship-routing application
P.66
Ship routing to save fuel and reduce CO2 emissions
P.68
Sailgrib ship-routing application
NATURAL RESOURCES & ENERGY P.70
Resource assessment for renewable energy
P.72
Wello – wave resource assessment and cost of energy world map
P.74
Bluerise: ocean thermal energy resource analysis
P.76
Tidal energy assessment – Tidea
P.78
Support to exploration activities for deep sea mining
P.80 A system for predicting global and regional tidal currents P.82
Met-Ocean conditions for the oil & gas industry and ocean energy sector
P.84
Validation of hydrodynamic models for coastal applications
SAFETY & DISASTER P.86
Addressing marine pollution from oil spills with effective dispersion modelling
P.88
Web based drift scenario interface
P.90
Improving sonar communication between defence vessels
P.92
Backtracking of MH370 trajectory from la Réunion
SCIENCE & CLIMATE P.94
High resolution wind forecast to assess environmental risk
P.96
Data.awi.de: a one-stop shop portal
P.98
Ocean currents in support to gliders piloting
P.100 Seasonal forecasting at ECMWF P.102 Seasonal forecasting at Météo-France SOCIETY & EDUCATION P.104 Nausicaa: discover the marine environment P.106 Supporting ocean awareness: Children for the Oceans P.108 Support to coral reef protection: Coral Guardian P.110 Combatting plastic pollution: Emily Penn Exxpedition P.112 How can one survive on Pacific atolls? P.114 Combating marine litter pollution
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 for the Global Ocean 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 2.2 02/04/2020
U S E CASES
OPENCOASTS ON-DEMAND MARINE DATA FORECAST SERVICE FOR COASTAL MANAGEMENT CASE • USE OVE RVIE W
Forecast systems are fundamental components of emergency response and routine management of coastal regions. They provide coastal managers and all entities that have responsibilities on the coast with accurate and timely predictions on water conditions (e.g., water levels and velocities; wave characteristics), supporting multiple uses such as navigation, water monitoring, port operations, dredging works and construction activities on the coast. In this context, LNEC, LIP, CNRS and UC have developed the OPENCoastS service that builds on-demand circulation forecast systems for user-selected sections of the coast and maintains them to ensure that they are running operationally for the timeframe defined by the user. This daily service generates forecasts of water levels and 2D velocities (and wave parameters in the near future) over the spatial region of interest for periods of 48 hours based on numerical simulations of all relevant physical processes. The platform includes an interactive map to allow for the visualization of the model outputs and comparison with sensor data for physical variables.
E NE FIT S • BFOR USE R
Free generation of coastal forecast services anywhere in the world.
COASTAL FORECAST PHYSICAL DATA MODEL WATER LEVEL 3D MAPPING INTERACTIVE MAP GLOBAL OCEAN IBI REGION
Implemented by
COASTAL MONITORING
4
Copernicus Marine Service
Version 2.2 02/04/2020
U S E CASES
S A ND • FACT KE Y N UMBER S
The generation of a forecast service is usually a highly specialized task. The maintenance cost is high in terms of human and computer resources. Accordingly, OPENCoastS automates this service and provides the computational resources through the European Open Science Cloud (EOSC). OPENCoastS simulations use the model SCHISM (http://ccrm.vims.edu/schismweb/). This service is co-funded by the EOSC-hub project (Horizon 2020) under Grant number 777536.
MS • CME P RODUCT I N U SE Product in use 1 Product in use 2
E MS • CM USE R
The Laboratório Nacional de Engenharia Civil (LNEC) is located in Lisbon, Portugall. Its mission is to undertake, coordinate and promote scientific research and technological development with the aim of continuous improvement and ensuring the good practice of Civil Engineering.    
LNEC opencoasts.ncg.ingrid.pt/home/ Contact Anabela Oliveira aoliveira@lnec.pt
COPERNICUS MARINE SERVICE
COASTAL MONITORING
5
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 1.4 08/11/2019
U S E CASES
WEB-BASED COASTAL MONITORING SERVICE: BSO
CASE • USE OVE RVIE W
The Brazilian Sea Observatory (BSO) is a web-based coastal monitoring service to integrate forecast modelling results, satellite observations, in-situ measurements, and vessel positions. An operational modelling system based on a downscaling approach from the Copernicus Marine Service models provides high-resolution forecast results for local coastal systems, initially focusing on the south-eastern Brazilian shelf. Trough the BSO, users are able to simulate on-demand marine pollution incidents (e.g., oil spills) considering the highest resolution models. The main goal is to promote a cooperation network for the exchange of information connected to oceanography research and contribute to coastal and marine environment management, maritime safety management, marine resources management, oceanic and weather forecasting, tourism activities, fisheries and aquaculture, and scientific research. Link to the platform: https://portal.brazilianseaobservatory.org/
E NE FIT S • BFOR USE R
Maritime and port activities safety Oil drift modelling to support contingency works Scientific research support
MARITIME ACTIVITIES PORT ACTIVITIES SAFETY OIL DRIFT MODELLING OCEANIC FORECASTING COASTAL FORECASTING
Implemented by
COASTAL MONITORING
6
Copernicus Marine Service
Version 1.4 08/11/2019
U S E CASES
S A ND • FACT KE Y N UMBER S
Although the BSO recently started, supported by the user uptake program, different sectors have demonstrated great interest, including Port Administrations, Companies, Environmental Agencies, State Departments, and researchers. The launch event counted with approximately 100 people from public and private sectors and important media coverage on television and several news sites, due to its important contribution to coastal management, such as oil drift modelling. The visibility achieved will be important for the future of the service maintenance and development.
MS • CME P RODUCT I N U SE
CMEMS forecast model products of ocean currents, sea surface height, temperature, salinity, plankton, oxygen, nutrients. CMEMS observation (in-situ and satellite) products of temperature, salinity, and chlorophyll. 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
The Center for Marine Studies (Centro de Estudos do Mar ? CEM) is a satellite campus of the Federal University of Parana (UFPR), located in Pontal do Parana, Brazil. Founded in 1982 as a marine research center, it has since developed into a full-fledged section of the University, hosting five undergraduate programs (Oceanography, Aquaculture Engineering, Civil Engineering, Environmental Engineer
More information here CEM
Contact Guilherme Franz guilherme.franz@ufpr.br
www.cem.ufpr.br/portal/
COPERNICUS MARINE SERVICE
COASTAL MONITORING
7
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 1.0
U S E CASES
SUPPORTING NOAA OCEANWATCH MONITOR
CASE • USE OVE RVIE W
NOAA CoastWatch was established in 1987 in response to two significant environmental events. CoastWatch portfolio has now expanded to providing a variety of environmental satellite data (Sea Surface Temperature, ocean color, salinity, sea surface altimetry and winds) from several different satellite platforms covering all U.S. coastal waters, including Hawaii and Alaska. It provides easy access for everyone to global and regional satellite data products for use in understanding, managing and protecting ocean and coastal resources and for assessing impacts of environmental change in ecosystems, weather, and climate. Scientific validation of NOAA CoastWatch portfolio is done by the OceanWatch Monitor system. The OceanWatch Monitor is designed to address the need for monitoring and validation of satellite-based all ocean products and make the diagnostics available online. Currently, it is a stand-alone system and serves as a companion website to NOAA CoastWatch and will be selectively integrated in the future. It uses a number of products from Copernicus Marine Service as a first guess to monitor stability and consistency of various NOAA CoastWatch data record
E NE FIT S • BFOR USE R
An easy way to the CoastWatch users to assess the state of the
Flexible to accommodate newer products for existing
available products under one URL environmental data records
SENTINEL NOAA COASTWATCH NOAA OCEANWATCH MONITOR SATELLITE PRODUCTS
Implemented by
COASTAL MONITORING
8
Copernicus Marine Service
Version 1.0
U S E CASES
S A ND • FACT KE Y N UMBER S
Today, NOAA CoastWatch sea surface temperature maps support meteorological weather predictions and also support commercial and recreational activities (e.g., fishing). Biologists also utilize ocean color radiometry data and derived chlorophyll-a and total suspended matter/turbidity products to identify runoff plumes and blooms and also predict Harmful Algae Blooms. Moreover, sailors and commercial shipping pilots use ocean surface vector winds for safe navigation.
MS • CME P RODUCT I N U SE
A number of products from Copernicus Marine Service are used as an independant first guess to monitor stability and consistency of various data records and allows to make a relative performance assessment. The ones obtained from Copernicus Marine Service include satellite-based or model-based products from Ocean color, sea surface height, sea surface salinity and sea surface wind. 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
The US NOAA CoastWatch/OceanWatch provides easy access for everyone to global and regional satellite data products for use in understanding, managing and protecting ocean and coastal resources and for assessing impacts of environmental change in ecosystems, weather, and climate. It distributes free of charge, high quality oceanic satellite data for the benefit of users, and educate and train them.
NOAA
Contact Prasanjit Dash prasanjit.dash@noaa.gov
www.star.nesdis.noaa.gov/socd/om/
COPERNICUS MARINE SERVICE
COASTAL MONITORING
9
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2 04/02/2019
U S E CASES
COASTAL MARINE SAFETY IN COSTA RICA
CASE • USE OVE RVIE W
The MIO (Oceanographic Information Module) application allows to receive warnings of sea state conditions on the Pacific and Caribbean coasts of Costa Rica. Wind forecasts, wave (height, period and direction), sea surface temperature and ocean currents are provided, with warning messages for swimmers and rip currents, sailing boats and docking at ports. This application has been created in June 2011 as a part of the Research Centre in Marine and Limnology Sciences (CIMAR) of the University of Costa RICA (UCR). UCR is the official entity about oceanographic events of the National Commission on Risk Prevention and Emergency Response of Costa Rica. The MIO platform consists in a web page and two applications. According to Google Analytics reports in 2018 the apps report about 9500 users and was installed 10000+ times. The webpage report about 9000 users. One of the products of MIO is the regional forecast in the surroundings of Costa Rica available form the apps and the web, the latter offer Sea Surface Temperature and Ocean Currents forecast maps using data provided by the Copernicus Marine Service global forecast model.
E NE FIT S • BFOR USE R
Forecast every 6h 7 days ahead.
Push notification in case of adverse conditions for sea users.
Offline functionality.
Updates automatically User friendly to understand forecasts.
COSTA RICA COASTAL MONITORING AND SAFETY WAVE, TEMPERATURE AND CURRENTS FORECASTS
Implemented by
COASTAL MONITORING
10
Copernicus Marine Service
Version 2 04/02/2019
U S E CASES
S A ND • FACT KE Y N UMBER S
The MIO CIMAR App and website feature an a automatized local wave and wind forecast that is automatically updated every 6 hours and forecast 7 days ahead, It also features a regional forecast that automatically download data of Sea Surface Temperature and Ocean Currents forecast 7 days ahead and is updated every 12 hours.
MS • CME P RODUCT I N U SE
MIO CIMAR uses Surface Temperature and Ocean Currents data from global ocean forecast model from the Copernicus Marine Service Product in use 1
E MS • CM USE R
The main objective in MIO CIMAR is provide daily information and forecast about the sea conditions and ocean-meteorological events that may represent a coastal marine threat in Costa Rica.
MIO CIMAR miocimar.ucr.ac.cr
More information here Contact MIO CIMAR mio.cimar@ucr.a.cr
COPERNICUS MARINE SERVICE
COASTAL MONITORING
11
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 1.4 11/10/2017
U S E CASES
TAILORED MARINE WEATHER INFORMATION SERVICES CASE • USE OVE RVIE W
Sea related operations management requires the best possible knowledge about the factors that impact them. In the recent years, Earth Observation products and services have become more widely available and reliable. The Copernicus Marine Environment Monitoring Service (CMEMS) represents one data source which can provide important efficiency and safety gains for different operations in the marine environment. Taking advantage of these data sets HIDROMOD is daily producing derived downstream services providing user fitted information which include high resolution model forecasts and local real-time observations. Different coastal activities such as navigation, seaport operations, aquaculture, sea pollution control services, search and rescue missions, etc., are already benefiting from these services and by this way improving their efficiency and safety. HIDROMOD is making use of different Copernicus Marine Service data sets either for high resolution models validation (mostly satellite data) or for high resolution models operation (CMEMS regional forecasts to provide initial and boundary conditions to high resolution models).
E NE FIT S • BFOR USE R
Be notified in time in case of critical situation Get access to all the required information through a single access
point
Get access to models validation reports
Get information instead of data Receive daily reports with information on selected parameters
HIDROMOD DOWNSCALING DECISION SUPPORT TOOL SINGLE ACCESS POINT MARITIME SECURITY
Implemented by
COASTAL MONITORING
12
Copernicus Marine Service
Version 1.4 11/10/2017
U S E CASES
S A ND • FACT KE Y N UMBER S
Although the exact quantification of the benefits is difficult, it is a fact that the return in efficiency for operations related to ports or aquaculture are translated into thousands of Euros a year. In practice the recognition by the users of the added value translates in their willing to pay for the provided services. It already represents about 25% of HIDROMOD annual turnover. Examples of clients are 5 major ports in Portugal, 1 in Spain and 1 in Brazil, 2 water utilities, 2 electric utilities in Portugal and 1 major aquaculture operation in Portugal. New pilots are starting in operations related with offshore renewables and aquacultures.
MS • CME P RODUCT I N U SE
HIDROMOD is making use of different Copernicus Marine Service data sets either for high resolution models validation (mostly satellite data) or for high resolution models operation (CMEMS regional forecasts to provide initial and boundary conditions to high resolution models). Product in use 1 Product in use 2 Product in use 3 Product in use 4 Product in use 5 Product in use 6
E MS • CM USE R
HIDROMOD is a Portuguese SME established in 1992 as a technology company in the field of Computational Modelling of Aquatic Environments. Its core business is the use of models complemented with advanced data mining techniques, to support project and planning or to provide operational services in water related projects or operations.
HIDROMOD, Lda www.hidromod.com/ More information here Contact Adelio Silva adelio@hidromod.com
COPERNICUS MARINE SERVICE
COASTAL MONITORING
13
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.0
U S E CASES
MET-OCEAN CONDITIONS IN SUPPORT TO GERMAN RWE OFFSHORE WIND FARM OPERATOR CASE • USE OVE RVIE W
Planet OS, provider of big data infrastructure for data driven energy, delivers Powerboard, a data intelligence solution that helps wind farm operators to boost power output and reduce costs. Powerboard provides wind farm operators with a rich easy-to-use data visualization experience enabling them to significantly streamline daily operations and maintenance, leading to increased profitability. The cloud-based solution combines real-time operational and industrial data with a growing programmatic catalog of open and commercial data from external data providers. Many offshore wind farm operators are interested in Copernicus Marine Service data, which are included in Powerboard. The result is a visually rich, interactive analysis tool that permits detailed optimization of a wind farm and replaces rooms full of distracting monitors that are lacking integration. German energy giant RWE Innogy is currently using Powerboard in production at Gwynt y Môr, their largest offshore wind farm, to help increase power output and improve operational efficiency. RWE International SE is currently implementing Powerboard across their entire fleet of wind farms globally.
E NE FIT S • BFOR USE R
Improve safety, forecasting, trading: recognize not completed past work orders due to weather factors and reduce future incomplete
work orders and improve worker safety.
Increase power production. Use predictive analytics to optimize forecasts and energy trading decisions.
PLANET OS DASHBOARD MET OCEAN CONDITIONS POWER BOARD OCEAN ENERGY OFFSHORE WIND FARM ENVIRONMENTAL MONITORING WIND
Implemented by
COASTAL MONITORING
14
Copernicus Marine Service
Version 2.0
U S E CASES
S A ND • FACT KE Y N UMBER S
Ocean energy technology is rapidly being developed to help meet Europe?s energy needs and reduce its fossil fuel footprint. Several technologies have emerged to harness the energy of the seas. The Copernicus Marine Service ocean models provide key input for such technologies, as they can be used to estimate the ocean energy resources available, to help minimize the risks for operations at sea, and to help with the mandatory environmental monitoring of offshore ocean and wind energy sites.
MS • CME P RODUCT I N U SE
CMEMS Satellite Wind observations are used in this application. Product in use 1 Product in use 2 Product in use 3
E MS • CM USE R
Planet OS is a private company that provides big data infrastructure for the energy industry to help them transform the way data-driven decisions are made. With specialized applications to easily integrate, exchange, and visualize their proprietary as well as third party data, renewable energy can become more competitive.
More information here Planet OS www.planetos.com
COPERNICUS MARINE SERVICE
COASTAL MONITORING
15
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 1.2
U S E CASES
HYDRODYNAMIC DOWNSCALING FOR COASTAL STUDIES
CASE • USE OVE RVIE W
ARTELIA Group develops tools and services for various markets among which are maritime and port engineering, coastal environment and marine energy. In the case of port engineering for example, ARTELIA provides design and construction services for port extensions in various locations around the world. In such contracts, robust knowledge and expertise of the local hydrodynamics is required. CMEMS ocean model products are used to build a statistical analysis of the general and seasonal circulation patterns of the considered area. CMEMS ocean models are also used as boundary conditions for higher resolution ocean models: dynamical downscaling is a method for obtaining high-resolution local models from lower resolution CMEMS models as forcing conditions. Florence Gandilhon from ARTELIA says that "Downscaling the CMEMS regional ocean dynamics enables us to take into account its impact on considered coastal areas. We follow CMEMS product developments closely, as they help us develop new markets and studies".
E NE FIT S • BFOR USE R
High quality information allowing realistic applied results.
Useful, free and sustained information provision for downscaled
Ready to use expertised ocean products. coastal modelling.
ARTELIA PRIVATE COMPANY GLOBAL OCEAN WATER QUALITY COASTAL ENGINEERING RENEWABLE MARINE ENERGY DOWNSCALING CMEMS MODEL PRODUCTS
Implemented by
COASTAL MONITORING
16
Copernicus Marine Service
Version 1.2
U S E CASES
S A ND • FACT KE Y N UMBER S
Ports, waterways and locks are constantly being extended and adapted in order to meet economic demand. Private companies such as ARTELIA help project developers and government authorities with the design, construction, and servicing of ports. Their knowledge about waves, morphology, hydrodynamics, water quality and ecology allows to advise clients and to optimise the design of ports. The use of the free and sustained Copernicus Marine Service products is an asset for such private companies.
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. Physics Model over the Global Ocean is used in this application. It provides hydrodynamic forecast including high frequency processes of paramount importance to characterize regional scale marine processes. Product in use 1 Product in use 2
E MS • CM USE R
Artelia is a private company born from union of Coteba and Sogreah. European leader in engineering, Artelia offers its public and private clients an original approach to Engineering, project management and consulting. Artelia carries out its missions in nine areas of activity: building, water, environment, energy, maritime, city, transport, industry, multi-sites.
ARTELIA www.arteliagroup.com/ More information here
COPERNICUS MARINE SERVICE
COASTAL MONITORING
17
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.0
U S E CASES
MONITORING AND FORECASTING NEARSHORE WATER QUALITY CASE • USE OVE RVIE W
The SUEZ center RIVAGES PRO TECH develops tools and services for real-time monitoring and forecasting of the nearshore environment for empowered decision making. For example, local authorities in charge of bathing water quality and coastal waters as well as beach users benefit from RIVAGES PRO TECH services. RIVAGES PRO TECH collects data, runs detailed ocean models and provides synthetic indicators for decision making support. Matthias Delpey from RIVAGES PRO TECH says that "Downscaling the CMEMS regional ocean dynamics model enables us to account for its impact in coastal and nearshore regions. CMEMS ocean models are used as boundary conditions for higher resolution ocean models: dynamical downscaling is a method for obtaining high-resolution local models from lower resolution CMEMS models as forcing conditions".
E NE FIT S • BFOR USE R
High quality information allowing realistic applied results. Ready to use expertised ocean products. Useful, free and sustained information provision for downscaled coastal modelling.
RIVAGES PRO TECH SUEZ GLOBAL OCEAN WATER QUALITY COASTAL ENGINEERING DOWNSCALING CMEMS MODEL PRODUCTS
Implemented by
COASTAL MONITORING
18
Copernicus Marine Service
Version 2.0
U S E CASES
S A ND • FACT KE Y N UMBER S
Microbial organisms, also referred to as pathogens, such as bacteria and viruses in water bodies can make waters unsafe for humans. Swimming and other recreational activities in water contaminated with pathogens can make people ill. Hence monitoring the microbial organisms in water bodies helps local authorities to protect human health.
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. Physics Models for the Iberia Biscay Irish sea is used for this application. It provides hydrodynamic forecast including high frequency processes of paramount importance to characterize regional scale marine processes. Product in use 1
E MS • CM USE R
RIVAGES PRO TECH from SUEZ is a center of technical and scientific expertise specialized in the management of aquatic environments in response to the needs of local authorities.
More information here iopr.pol.fr/?RIVAGE-PRO-TECHLYONNAISE-DES-EAUX
COPERNICUS MARINE SERVICE
COASTAL MONITORING
19
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 4.5 15th march 2019
U S E CASES
OCEANA MARINE EXPEDITIONS TO FILL KEY GAPS IN BIODIVERSITY DATA CASE • USE OVE RVIE W
One of the key components of Oceana's work is to carry out research expeditions at sea with the aim of marine habitat protection. Such expeditions allow for the collection of in situ data on marine species, communities, and habitats. Various technologies are used during these expeditions. The resulting data allows for the preparation of detailed proposals for the designation, expansion or improved management of marine protected areas for biodiversity conservation or fisheries sustainability. During Oceana research expeditions, multiple spatial data sources are used (such as Copernicus Marine Service and EMODnet) which are of vital importance throughout the entire project. For example, during the expedition preparations, marine data are used to define the study areas, identify specific points of potential interest and plan survey methodology. Moreover, for the preparation of reports, marine data help in developing proposed marine conservation and fisheries management measures.
E NE FIT S • BFOR USE R
Creation of scientific papers to improve global knowledge about the oceans and marine biodiversity.
Designation and expansion of marine protected areas
Development of fisheries management measures Open sharing of raw data
OCEANA MARINE CONSERVATION FISHERIES MANAGEMENT BIODIVERSITY NGO
MARINE CONSERVATION & POLICIES
Implemented by
20
Copernicus Marine Service
Version 4.5 15th march 2019
U S E CASES
S A ND • FACT KE Y N UMBER S
Since 2005, Oceana has carried out 29 oceanographic expeditions in 28 countries, and approximately 3000 surveys. They have filmed more than 2000 hours of video of marine habitats and species from Atlantic, Baltic, and Mediterranean waters. These videos, together with still images and with samples from more than 500 grabs, have yielded new information and understanding of the biodiversity present in the many areas where Oceana has carried out expeditions in Europe. Many of these data have contributed to Oceana efforts to create or expand marine protected areas; to date, these efforts have led to the protection of 73 028 km² of marine area in countries such as Finland, Malta, Portugal and Spa
MS • CME P RODUCT I N U SE
Many CMEMS products have been used during Oceana expeditions. 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
Oceana is the largest international organization focused on ocean conservation. Oceana aims at a more biodiverse and abundant ocean by winning policy victories in countries that govern much of the world's marine life. Their offices around the world work together to win strategic, directed campaigns that achieve measurable outcomes.
Oceana eu.oceana.org/en/home More information here Contact Blanco Jorge jblanco@oceana.org
MARINE CONSERVATION & POLICIES
COPERNICUS MARINE SERVICE 21
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 1.0 05/02/2019
U S E CASES
EO4WILDLIFE PLATFORM FOR WILDLIFE MONITORING
CASE • USE OVE RVIE W
The EO4wildlife platform was developed with fundings from the European Union Horizon 2020 research and innovation programme. The EO4wildlife platform is developed for wildlife scientists, biologists, ecologists, ornithologists involved in the conservation, protection and management of marine wildlife and willing to improve their knowledge of animal habitat and behaviour. The platform allows the user to upload his own animal data (observation, ARGOS tracking data and other) in his private workspace, and acces to earth observation data through a series of thematic services running on a cloud infrastructure. Using the services deployed on the platform, the user can retrieve Earth Observation (EO) data from the Copernicus Marine Service, the CLS datastore and other sources and calculate EO statistics along its animal tracks or on a specified area. This EO data will then be used for habitat modelling or environmental assessment.
E NE FIT S • BFOR USE R
Better knowledge of fish migration routes
Management of seabirds
Identify marine turtle behaviours
Monitor marine protected areas
Predicting seabird distribution and suitable areas Run habitat modelling using Copernicus Marine Service data
MONITORING MARINE ANIMALS MARINE WILDLIFE TRACKING EARTH OBSERVATIONS EO4WILDLIFE
MARINE CONSERVATION & POLICIES
Implemented by
22
Copernicus Marine Service
Version 1.0 05/02/2019
U S E CASES
S A ND • FACT KE Y N UMBER S
The objective of the marine protected areas is to protect 20% of the ocean. EO4WILDLIFE is a 3 year project with 7 partners (CLS, ATOS France , ATOS Spain, IT Innovation, AFB, Birdlife and University of Exeter) that ended in December 2018. The EO4willife platform facilitates the access to all the Copernicus Marine Service data and to 60 products from the CLS datastore, and match them with sientific data bases from Birdlife and seaturtle.org. For example, more than 10 million bird locations are stored in the seabirdtracking database managed by Birdlife. Moreover, the seaturtle.org stores more than 6000 turtles trajectories all tracked with ARGOS (10 years of Argos location data are collected)
MS • CME P RODUCT I N U SE
All Copernicus Marine Service datasets can be accessed from the EO4wildlife platform. The main parameters of interest for the scienticts are: sea surface temperature, chlorophyl-a, currents. Only a few are listed below. Users access preferably historical data, model or observation. Product in use 1 Product in use 2 Product in use 3
E MS • CM USE R
CLS is a worlwide company operating satellite systems and developing value-Added products and services to monitor the Earth, in 6 strategic areas of activity: sustainable management of fisheries, environmental monitoring, maritime safety and security, fleet management, Energy and mining, space and ground systems.
More information here CLS
Contact Marion Sutton msutton@groupcls.com
www.cls.fr/
MARINE CONSERVATION & POLICIES
COPERNICUS MARINE SERVICE 23
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.1 15/02/2019
U S E CASES
COPERNICUS MARINE FOR MARITIME SPATIAL PLANNING: THE PLASMAR PROJECT CASE • USE OVE RVIE W
The PLASMAR Project, lead by IU-ECOAQUA at the University of Las Palmas de Gran Canaria, is addressing Marine Spatial Planning through an ecosystem-based approach adapted to the biogeographic characteristics of the Macaronesian Region (Azores, Madeira and the Canary Islands). In short, it is about promoting the development of Blue Growth sectors while ensuring the conservation of natural marine heritage. PLASMAR bases its activities on the development of robust methodologies and tools funded on scientific knowledge, supported with marine and maritime spatial data and information. From the Copernicus Marine Service, PLASMAR project has used standardized global products with inter-regional coverage (the whole Macaronesia). These are homogeneous products in terms of quality, spatial and temporal resolution, thus filling the oceanographic information requirements of the project for the immense marine extension of the Exclusive Economic Zones of Azores, Madeira and Canary Islands. In summary, four CMEMS products have been used, focusing on 17 variables, generating 77 by-products.
E NE FIT S • BFOR USE R
Long time series for parameters included in the products. Standardized products with inter-regional coverage which
facilitate to compare conditions between archipelagos. The products cover the whole area of interest which is the entire
European Macaronesia including all three Exclusive Economic Zones of Azores Madeira and Canary Islands. Wide range of tools available for processing data encoded in NetCDF format.
MARITIME SPATIAL PLANNING PLASMAR PROJECT MACARONESIA AZORES MADEIRA CANARY ISLANDS
MARINE CONSERVATION & POLICIES
Implemented by
24
Copernicus Marine Service
Version 2.1 15/02/2019
U S E CASES
S A ND • FACT KE Y N UMBER S
Marine spatial planning (MSP) is a process that brings together multiple users of the ocean to make informed and coordinated decisions about how to use marine resources sustainably. The European Parliament and the Council have adopted legislation to create a common framework for maritime spatial planning in Europe. Data gathered in the PLASMAR include: marine parameters defined by Marine Strategy Framework Directive, marine protected areas, land and marine use spatial information and oceanographic data (EMODnet, INSPIRE, EIONET and COPERNICUS MARINE SERVICE, and national, regional and local spatial data infrastructures such as GRAFCAN, IDE IEO, IDEE, SIGMAR, SNIMAR).
MS • CME P RODUCT I N U SE
Four products have been used in which mean, maximum, minimum, 10th and 90th percentiles values have been calculated. Additionally, for variables such as currents and wind, directions and speeds have also been calculated. The resulting NetCDF files have been converted to Shapefile format to become part of the GIS database and are now being used as an essential part of the analyses carried out in PLASMAR project. Product in use 1 Product in use 2 Product in use 3 Product in use 4
E MS • CM USE R
The University of La Palmas de Gran Canaria (ULPGC) was established in 1989 and has more than 25,000 students and 1,500 lecturers. Degrees and Master programmes as well as a wide range of courses at all learning levels are offered. The ULPGC has signed agreements with universities from the five continents, to facilitate the mobility of teachers, researchers, students, and administrative staff.
University Las Palmas de Gran Canaria www.ulpgc.es/node More information here Contact ALEJANDRO GARCÍA alejandro.garcia@ulpgc.es
MARINE CONSERVATION & POLICIES
COPERNICUS MARINE SERVICE 25
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 1.3
U S E CASES
BUILDING UNIFORM OCEAN ACIDITY MAPS FROM SCATTERED INSITU DATA CASE • USE OVE RVIE W
On the one hand, the Copernicus Marine Service provides with pH in situ observations that are scattered, i.e. not available as a full coverage map but as discrete points over the globe. On the other hand, SeaDataNet provides with an interplation tool (Data-Interpolating Variational Analysis service, DIVA) allowing to map global, uniform distributions of pH from the Copernicus Marine Service scattered in situ data. However, the SeaDataNet service is not compliant with the Copernicus marine Service in situ data formats. Researchers from ISTI-CNR with funding from the H2020 BlueBridge project have developed the D4Science e-Infrastructure which creates a bridge between several e-Infrastructures to fill the gap between them. As for the ocean acidification monitoring case, the D4Science process can transform a set of Copernicus in situ marine observations of an acidification parameter into a uniform global distribution map, published on a data catalogue under standard geographical representation formats (e.g. Web Map Service). Benefit for users and scientists are numerous among which the data sharing and the scientific publishing facilities.
E NE FIT S • BFOR USE R
Free data global coverage
Near real time capacity
One stop shop gathering all in situ data. Ready to use, global coverage, expertised ocean products.
DATA MAPPING DATA INTERPOLATION DATA FORMAT H2020 BLUEBRIDGE D4SCIENCE TOOL
MARINE CONSERVATION & POLICIES
Implemented by
26
Copernicus Marine Service
Version 1.3
U S E CASES
S A ND • FACT KE Y N UMBER S
The h2020 BlueBRIDGE project - Building Research environments fostering Innovation, Decision making, Governance and Education to support Blue growth - supports capacity building in interdisciplinary research communities actively involved in increasing scientific knowledge about resource overexploitation, degraded environment and ecosystem with the aim of providing a more solid ground for informed advice to competent authorities and to enlarge the spectrum of growth opportunities as addressed by the Blue Growth Societal Challenge.
MS • CME P RODUCT I N U SE
The Copernicus Marine Service in situ acidity (pH) products are used in this application. Product in use 1
E MS • CM USE R
The Institute of Information Science and Technologies (ISTI) is an institute of the Italian National Research Council (CNR). The Institute is committed to producing scientific excellence and to playing an active role in technology transfer. The domain of competence covers Information Science, related technologies and a wide range of applications.
isti cnr www.isti.cnr.it/ More information here Contact Gianpaolo Coro gianpaolo.coro@isti.cnr.it
MARINE CONSERVATION & POLICIES
COPERNICUS MARINE SERVICE 27
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.1
U S E CASES
PREDICTING THE HABITAT AND DISTRIBUTION OF GIANT SQUID CASE • USE OVE RVIE W
Architeuthis dux belongs to the family of giant squids which are difficult to observe in the nature. Very little is known about their habitat and worlwide distribution in the oceans. Predicting the habitat and distribution of this species is important from a biological conservation perspective. Researchers from ISTI-CNR with funding from the H2020 BlueBridge project have developed an approach to estimate the potential distribution of A. dux at global scale, with relative high resolution (1-degree). They have developed a so-called "niche model" that estimates species distribution and have become widely used in conservation biology. Their approach relies on a complex preparation phase, which improves the reliability of presence, absence and environmental data correlated to the species habitat. The datasets come from several sources among which the Copernicus Marine Service Global model mass concentration of chlorophyll and nitrates. Results show that their approach gives good estimate of the distribution of A. dux. They also explain how their approach can be generalized and extended to other rare species.
E NE FIT S • BFOR USE R
Ready to use, global coverage, expertised products.
Useful, free and sustained information provision.
Service avalaible 24/7
HABITAT AND DISTRIBUTION NICHE MODEL GIANT SQUID GLOBAL OCEAN
MARINE CONSERVATION & POLICIES
Implemented by
28
Copernicus Marine Service
Version 2.1
U S E CASES
S A ND • FACT KE Y N UMBER S
The giant squid (genus Architeuthis) is a deep-ocean dwelling squid in the family Architeuthidae. Giant squid can grow to a tremendous size due to deep-sea gigantism: recent estimates put the maximum size at 13 m for females and 10 m for males from the posterior fins to the tip of the two long tentacles. The number of different giant squid species has been debated, but recent genetic research suggests that only one species exists. In 2004, Japanese researchers took the first images of a live giant squid in its natural habitat, and in July 2012, a live adult was first filmed in its natural habitat.
MS • CME P RODUCT I N U SE
The datasets come from several sources: MyOcean (Copernicus Marine Service), World Ocean Atlas, Bio-Oracle, Marine Geoscience website and the AquaMaps website. Product in use 1
E MS • CM USE R
The Institute of Information Science and Technologies (ISTI) is an institute of the Italian National Research Council (CNR). The Institute is committed to producing scientific excellence and to playing an active role in technology transfer. The domain of competence covers Information Science, related technologies and a wide range of applications.
isti cnr www.isti.cnr.it/ More information here Contact Gianpaolo Coro gianpaolo.coro@isti.cnr.it
MARINE CONSERVATION & POLICIES
COPERNICUS MARINE SERVICE 29
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 1.9
U S E CASES
OCEAN NOISE MAPPING IN SUPPORT TO EU AND INTERNATIONAL REGULATIONS CASE • USE OVE RVIE W
The adoption of the Marine Strategy Framework Directive (MSFD 2008/56/EC) which descriptor 11 focuses on underwater noise, has given a great impulse to the market of underwater acoustic products and services. Quonops© Online Services, by Quiet-Oceans, provides noise monitoring and prediction tools. It produces an estimate of the spatio-temporal distribution of noise levels generated by human activities at sea and assesses source contributions to the global noise field. It provides for example real time noise and monthly statistical noise maps from shipping. It also allows mapping scenarios of noisy activities at sea to predict their impacts. The outputs are tailored to the requirements of regulations such as the EU MSFD directive. Based on physical acoustic propagation models, Quonops© considers the reality of the area through input data gathered from numerous sources. In particular, the Copernicus Marine Service temperature, salinity and surface roughness products are used to accurately compute the sound propagation and natural noise levels. More here: https://qos.quiet-oceans.com/qos/Copernicus_Marine_Service/i ndex.html
E NE FIT S • BFOR USE R
global coverage
Service available 24/7
Near real time capacity
Service elaborated with the most accurate data available nowadays. Supports national and regional authorities for EU directive implementation
NOISE QUIET-OCEANS MSFD DESCRIPTOR 11 MONITORING NOISE FROM HUMAN ACTIVITIES
MARINE CONSERVATION & POLICIES
Implemented by
30
Copernicus Marine Service
Version 1.9
U S E CASES
S A ND • FACT KE Y N UMBER S
The adoption of the Marine Directive which descriptor 11 focuses on underwater noise, has given a great impulse to the market of underwater acoustic. Attention has been raised on the topic of underwater noise and its effects on marine life. Yet, the effects of underwater noise are not fully understood. Some underwater noise can be heard by marine life over hundreds of kilometers. Sources of energy include (but is not limited to) 1) Shipping, 2) Oil&Gaz exploration sonar systems, 3) Construction of offshore Oil&Gaz platforms and wind farms, 4) Dredging for shipping lanes, sand mining and for laying pipes and cables, 5) Coastal developments, 6) Operation of offshore platforms.
MS • CME P RODUCT I N U SE
Copernicus Marine Service provides essential data that describes the physical marine environment: temperature, salinity, and surface roughness. These parameters of the ocean directly impact the propagation and the distribution of underwater noise in the marine environment. Product in use 1 Product in use 2 Product in use 3 Product in use 4 Product in use 5 Product in use 6
E MS • CM USE R
Quiet Oceans is a private company, French leader in passive acoustics, underwater noise prediction, monitoring and risk mitigation. It develops state-of-the-art risk assessment tools and management capabilities to help the offshore industry to secure its projects. It also supports the industry with shaped and pragmatic methodologies and integrated tools adapted to the level of risk.
quiet-oceans www.quiet-oceans.com More information here Contact Thomas Folegot sales@quiet-oceans.com
MARINE CONSERVATION & POLICIES
COPERNICUS MARINE SERVICE 31
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.2
U S E CASES
SUPPORTING EUROSTAT WITH OCEAN ACIDITY AND PH INDICATOR CASE • USE OVE RVIE W
Eurostat is the statistical office of the European Union. Its mission is to provide high quality statistics for Europe. Eurostat will publish in 2018 new official environmental indicators, among which indicators on the ocean acidity and PH. In this frame, Copernicus Marine Service will reinforce its in situ and ocean model capacity by the end of 2018 for an improved monitoring of the carbon cycle at global and regional scales. Once achieved, Eurostat, for its indicator computation, will use ocean PH and acidity products from the Copernicus Marine Service portfolio in all European regional seas. Ocean PH and acidity are relevant indicators to monitor climate change.
E NE FIT S • BFOR USE R
Support to EUROSTAT European Statistics. Support to SDG14 monitoring.
SGD14 SUSTAINABLE DEVELOPMENT GOALS PH ACIDITY EUROSTAT INDICATOR STATISTICS
MARINE CONSERVATION & POLICIES
Implemented by
32
Copernicus Marine Service
Version 2.2
U S E CASES
S A ND • FACT KE Y N UMBER S
On 1 January 2016, the 17 Sustainable Development Goals (SDGs) of the 2030 Agenda for Sustainable Development, adopted by world leaders in September 2015 at an historic United Nations (UN) Summit, officially came into force. Over the next fifteen years, with these new Goals, countries will mobilize efforts to end all forms of poverty, fight inequalities and tackle climate change, while ensuring that no one is left behind. Among the 17 Goals, the 14th (called SGD14) is dedicated to the Oceans: Conserve and sustainably use the oceans, seas and marine resources.
MS • CME P RODUCT I N U SE
CMEMS will improve its capacity to monitor ocean PH and acidity by 2018. CMEMS already provides with few in situ PH measurements and will reinforce its in situ and modeling portfolio for the PH and acidity parameters by 2018. Product in use 1
E MS • CM USE R
Eurostat is the statistical office of the European Union situated in Luxembourg. Its mission is to provide high quality statistics for Europe. While fulfilling its mission, Eurostat promotes the following values: respect and trust, fostering excellence, promoting innovation, service orientation.
Eurostat ec.europa.eu/eurostat/home
MARINE CONSERVATION & POLICIES
COPERNICUS MARINE SERVICE 33
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.2
U S E CASES
SUPPORTING EUROPEAN MEMBER STATES WITH THE MARINE STRATEGY FRAMEWORK DIRECTIVE CASE • USE OVE RVIE W
AquaMar, an FP7 research project (2009-2013), is the R&D branch of MarCoast and provides Earth Observation (EO) based water quality services to support European and national monitoring agencies and industries operating in coastal waters. It develops water quality downstream services supporting the EU Water Framework Directive, monitoring Harmful Algal Blooms (HAB), marine coastal infrastructure projects, aquaculture precision farming and bathing waters quality. The Copernicus Marine Service Ocean Colour satellite data are used by the MarCoast Ocean Colour Data service to provide value-added services to the public sector organisations responsible for implementing policies at European, national and regional levels.
E NE FIT S • BFOR USE R
Free and sustained information provision. Provision of merged satellite information along with in situ information. Ready to use, global coverage, expertised ocean colour satellite products.
AQUAMAR MSFD EU POLICY WATER QUALITY SATELLITE OBSERVATIONS OCEAN COLOUR MEMBER STATE EUTROPHICATION MARCOAST
MARINE CONSERVATION & POLICIES
Implemented by
34
Copernicus Marine Service
Version 2.2
U S E CASES
S A ND • FACT KE Y N UMBER S
The aim of the European Union's ambitious Marine Strategy Framework Directive is to protect more effectively the marine environment across Europe. It came into force on June 2008 and was transposed into each member's state national legislation by mid 2010. It is the first EU legislative instrument related to the protection of marine biodiversity and aims to protect the resource base upon which marine-related economic and social activities depend.
MS • CME P RODUCT I N U SE
The Copernicus Marine Service Satellite Ocean Colour data are central for the MSFD, as it allows us to improve coherence in eutrophication assessments based on chlorophyll. Product in use 1 Product in use 2
E MS • CM USE R
AquaMar, Marine Water Quality Information Services, is a EU funded FP7 project (2010-2013) lead by Thales Alenia Space, which has now ended. Its objective was to monitor water quality as well as to develop and provide downstream services turning Marine Core Service products into water quality services, demanded by end user.
cordis.europa.eu/project/ rcn/94247_en.html More information here
MARINE CONSERVATION & POLICIES
COPERNICUS MARINE SERVICE 35
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.0
U S E CASES
UNDERSTANDING THE BEHAVIOUR OF ELEPHANT SEALS AT SEA CASE • USE OVE RVIE W
CEBC is a French laboratory from the French research centre (CNRS) specialising in wildlife habitat studies and working in particular on Southern Ocean marine fauna. CEBC tags marine animals (e.g. elephant seals) with Argos beacons in order to follow their routes and monitor their feeding behaviour. CEBC uses satellite data, in particular altimetry, to study the animal environment. Christophe Guinet from CEBC says that the Copernicus Marine Service satellite altimetry data provides us with essential information to understand how elephant seals move, where they travel and feed with respect to ocean currents and eddy structures. Year-to-year variations with long-term datasets can be compared with our 14-year tracking of elephant seals, to understand the impact of climate change on this species. Also to be noted is that the temperature and salinity data recorded on elephant seal beacons are distributed in the Copernicus Marine Service in-situ products.
E NE FIT S • BFOR USE R
Impact assessment of climate change. Knowledge for the definition of marine protected areas and laws to protect Southern ocean fauna. Useful and sustained information provision for scientific studies.
CEBC CNRS ELEPHANT SEALS SEA MAMMALS ANTARCTIC OCEAN SATELLITE DATA ALTIMETRY
MARINE CONSERVATION & POLICIES
Implemented by
36
Copernicus Marine Service
Version 2.0
U S E CASES
S A ND • FACT KE Y N UMBER S
Before the Argos beacon era, marine mammal behavior at sea such as elephant seals was fully unknown. Since 1992, several animals were followed each year (elephant seals, royal, emperor or macaroni penguins, albatrosses, etc.), thus providing with elements of assessment about climate change impacts on wildlife.
MS • CME P RODUCT I N U SE
The global Ocean satellite sea level anomaly maps in real time and in the past are used for this application. It merges data from several satellites among which Sentinel-3. Product in use 1 Product in use 2
E MS • CM USE R
CEBC (Centre d'Etudes Biologique de Chizé) is a French laboratory specialized in wildlife habitat studies.
CEBC www.cebc.cnrs.fr/GB_index.htm
Contact Christophe Guinet guinet@cebc.cnrs.fr
MARINE CONSERVATION & POLICIES
COPERNICUS MARINE SERVICE 37
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.0
U S E CASES
TURTLES MONITORED THANKS TO WHAT THEY EAT
CASE • USE OVE RVIE W
CLS and CNR have developed a model to predict oceanic biomass of 6 micronekton groups as part of the OSMOSIS project. Micronektons are eaten by predators such as marine mammals, turtles and tuna, hence modelling micronekton behaviour helps with the monitoring of its predators. Micronekton are relatively small but actively swimming oceanic organisms ranging in size between plankton (< 2 cm), which drift with the currents, and larger nekton (> 10 cm), which have the ability to swim freely without being overly affected by currents. Modelled hindcasting and forecasting of micronekton movements contribute to the further simulation of the habitats of higher trophic level predators (e.g. marine mammals, turtles, tuna). Patrick Lehodey from CLS says that "Copernicus Marine Service ocean temperature and currents products are key inputs for our model, as the development and migration of micronekton are strongly linked to temperature and ocean currents respectively. We also use Copernicus Marine Service global high-resolution models to validate our micronekton model.
E NE FIT S • BFOR USE R
Free and sustained information on hydrodynamics allows a better comprehension of the development and migration of micronekton as they are strongly linked to temperature and ocean currents.
CLS CNR TURTLES MICRONEKTON OSMOSIS PROJECT BIOGEOCHEMISTRY MODEL FOOD CYCLE
MARINE CONSERVATION & POLICIES
Implemented by
38
Copernicus Marine Service
Version 2.0
U S E CASES
S A ND • FACT KE Y N UMBER S
Aquatic species are tied together through the food web. It's a Fish-Eat-Fish World! Marine food chain can be described with 4 levels, from Plants (Photo-Autotroph), to Herbivores, then to Carnivores, and finally to Top Predators that are simply larger and faster than most of their competitors. Better understanding the marine food chain and the links between each level is a necessary step for a better and more sustainable management of our environment. Eddies predicted by the CMEMS model are highly correlated with positioning of micronekton predators. The assumption made in the present case is that micronekton is located in the middle of eddies.
MS • CME P RODUCT I N U SE
CMEMS Reanalysis model products provide with the last 20 years of 3D ocean currents and temperature updated daily. Physics Reanalysis Model over the Global Ocean is used in this application. It provides hydrodynamic including high frequency processes of paramount importance to characterize global and regional scale marine processes. Product in use 1
E MS • CM USE R
CLS, a subsidiary of CNES, ARDIAN & IFREMER, is a worldwide company and pioneer provider of monitoring and surveillance solutions for the Earth since 1986.
www.cls.fr/en/cls-group/
MARINE CONSERVATION & POLICIES
More information here
COPERNICUS MARINE SERVICE 39
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
40
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 41
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.0
U S E CASES
SUPPORTING FISHING & AQUACULTURE SECTOR IN CHILE
CASE • USE OVE RVIE W
Instituto de Fomento Pesquero (IFOP) is a public institution in Chile, which supports the sustainable development of the country fishing & aquaculture sector. It has developed an oceanographic operational system for southern Chile that is used to better manage this ecosystem and its fishery & aquaculture activities. Since 2014, Instituto de Fomento Pesquero (IFOP) has initiated a program for the implementation of an operational system, whose main objective is to generate forecasts of oceanographic variables in the fjord and canal area of southern Chile. In this area, aquaculture plays an important social and economical role, but lacks adequate environmental management. That is why this operational system in its first stage seeks to solve the local hydrodynamics, what will enable in the mid-term to couple it with biogeochemical modules. Both boundary and initial conditions of mass and velocity fields are daily downloaded from the CMEMS global ocean model and then downscalled to local specific resolution.
E NE FIT S • BFOR USE R
Free and sustained information provision. Get access to all the required information through a single access
point
global coverage High quality information allowing realistic applied results.
AQUACULTURE FISHERIES CHILE SUSTAINABLE EXPLOITATION STRATEGIES QUOTAS
MARINE FOOD
Implemented by
42
Copernicus Marine Service
Version 2.0
U S E CASES
S A ND • FACT KE Y N UMBER S
Chile is home to the world largest estuarine system, it has some 80,000 km of coastline, and the country economy depends on this fragile coastal ecosystem. It is the world second largest salmon producer, with around 38% of the market share. Chile has been confronted with ecosystem challenges in terms of resources and changing environmental patterns. For example last year, they had unprecedented algal blooms (red tides).
MS • CME P RODUCT I N U SE
Both boundary and initial conditions of mass and velocity fields are daily downloaded from the CMEMS global ocean model and then downscalled to local specific resolution. Product in use 1
E MS • CM USE R
The Fisheries Development Institute (IFOP) is based in Chile and develop & transfer useful knowledge for sustainability in the aquaculture & fishing sector. IFOP develops integral advice for decision making in Fisheries & Aquaculture and research projects on the status & evaluation of sustainable exploitation strategies and estimation of total allowable quotas of commercial
IFOP
interes
www.ifop.cl/en/
Contact Cristian Ruiz Soto cristian.ruiz@ifop.cl
MARINE FOOD
COPERNICUS MARINE SERVICE 43
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 1.3
U S E CASES
DEVELOPING AFRICA'S CAPACITY IN FISHERY RESOURCE MANAGEMENT WITH MESA CASE • USE OVE RVIE W
The Monitoring of Environment and Security in Africa programme (MESA) builds on the results obtained in PUMA and AMESD and will be a first contribution to the GMES and Africa Initiative. Launched in 2012, MESA will run until 2018 and received funding of EUR 37 million from the European Union. Beneficiary Countries of MESA program are 48 ACP countries of five African Regions, namely CEMAC, ECOWAS, IGAD, IOC and SADC. In particular, MESA propose 2 new services in the ECOWAS region (West African States), namely support to fishery resource management and forecasting of ocean conditions. Copernicus Marine Service's contribution to this project consists of the provision ocean model and satellite products for both services (Sea Surface Temperature and Currents, Ocean Colour data, In Situ data for validation) which allow the publication of monthly bulletins including maps of potential fishing zones and oceanic conditions. It benefits to fishermen and policy makers to better manage fishery resources along the western African coast.
E NE FIT S • BFOR USE R
Free and sustained information provision. Provision of merged satellite information along with in situ information. Ready to use, global coverage, expertised products.
AFRICA PUMA AMESD MESA GMES AND AFRICA CEMAC ECOWAS IGAD IOC SADC MARINE RESOURCES
MARINE FOOD
Implemented by
44
Copernicus Marine Service
Version 1.3
U S E CASES
S A ND • FACT KE Y N UMBER S
The MESA programme was proposed through the Ouagadougou Declaration signed in September 2010 by the African Union Commission, the ACP Secretariat and the African Regional Economic Communities. The aim of the programme is to ensure continuity of past investments on the use of Earth Observation data in Africa (e.g. PUMA and AMESD) and to provide an initial contribution to the GMES and Africa Initiative, which was called upon through the Maputo Declaration in October 2006 and included in the Joint EU-Africa Strategy as of December 2007. Beneficiary Countries of MESA program are 48 ACP countries of five African Regions, namely CEMAC, ECOWAS, IGAD, IOC and SADC.
MS • CME P RODUCT I N U SE
CMEMS Analysis and Forecast model products provide with 7-day forecast of 3D ocean salinity updated daily. Physics Model over the Global Ocean is used in this application. Product in use 1
E MS • CM USE R
The Monitoring of Environment and Security in Africa programme (MESA) builds on the results obtained in PUMA and AMESD and will be a first contribution to the GMES and Africa Initiative. Launched in 2012, MESA will run until 2018 and received funding of EUR 37 million from the European Union. The purpose is to increase the capacity in information management, decision making
MESA
and planning in Africa.
mesa.au.int/
MARINE FOOD
COPERNICUS MARINE SERVICE 45
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.0
U S E CASES
SUPPORTING AQUACULTURE AND FISHING
CASE • USE OVE RVIE W
ACRI-ST and 7 partners have developed products, tools and services for the aquaculture and fishing industries in the framework of the FP7-SAFI project. Indicators and tools collecting data from various sources such as the Ocean Colour and Sea Surface Temperature satellite products from the Copernicus Marine Service are available to aquaculture farmers and fishing-related industries. Such dashboards help them with their daily decision making, for example to optimise site location selection for shellfish growth, or to monitor water quality. Antoine Mangin from ACRI-ST says that "more than 65 end users have been consulted so far and are potentially interested by the SAFI services".
E NE FIT S • BFOR USE R
Better planning of the aquaculture farm sitting and management. Better understanding of the environmental conditions. Free and sustained information about many ocean parameters.
ACRI-ST UCC COFREPECHE DOMMRS IPMA IFAPA ACRI-EC SAFI FRANCE PRIVATE COMPANY MEDITERRANEAN SEA ATLANTIC OCEAN GLOBAL OCEAN FISHERIES AQUACULTURE CMEMS SATELLITE PRODUCTS
MARINE FOOD
Implemented by
46
Copernicus Marine Service
Version 2.0
U S E CASES
S A ND • FACT KE Y N UMBER S
Water quality is a critical factor when culturing any aquatic organism. Optimal water quality varies by species and must be monitored to ensure growth and survival. The quality of the water in the production systems can significantly affect the organism's health and the costs associated with getting a product to the market. Water quality parameters that are commonly monitored in the aquaculture industry include temperature, dissolved oxygen, pH, alkalinity, hardness, ammonia, and nitrites.
MS • CME P RODUCT I N U SE
CMEMS provides sea surface height, sea surface temperature and chlorophyll from satellite observations, which are key for the development of the current application. Product in use 1 Product in use 2 Product in use 3
E MS • CM USE R
ACRI-ST is an independant SME working for space agencies and users of satellite imagery, coupling scientific research and engineering of complex enviromental systems since 1989.
www.acri-st.fr/index.php/about-us/
More information here
MARINE FOOD
COPERNICUS MARINE SERVICE 47
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version V0 12/12/19
U S E CASES
INTELLIGENT MARITIME AWARENESS SOLUTIONS FOR SHIPPING OPERATORS CASE • USE OVE RVIE W
nauticAi is a Finnish maritime IoT-startup specialising in real-time situational awareness solutions. The core technology and concept is to combine multiple maritime data sources, such as IoT-sensor data, ship tracking data, company business data and weather forecast and observation data and effectively visualise the combined information into a simple-to-use situational picture. nauticAi efficiently leverages Copernicus Marine data in both its Snapshot-solution and the BOQA-platform. Snapshot offers real-time ship tracking with built-in IoT capabilities and live video streaming, while BOQA (Bridge Operations Quality Assurance) is used for detecting Close encounters, Route deviations, heavy weather on route and much more. This service is now also available on the Inmarsat Fleet Data IoT platform. nauticAi utilises Copernicus Marine data, such as wind, wave and ice forecasts in all of their solutions. The primary use case is to combine weather forecast data with ship operational and IoT-data and automatically detect risk situations or deviations from normal operation.
E NE FIT S • BFOR USE R
Automated event tracker which uses various rules and artificial intelligence techniques to detect anomalies and deviations in
operational behaviour.
Live monitoring solution combining IoT and environmental data Single-point Web Map Service with marine and weather base maps layers accessible through an API
SAFETY AT SEA SHIPPING OPERATOR SITUATIONAL AWARENESS AUTOMATIC MONITORING AND ALERTS
MARINE NAVIGATION
Implemented by
48
Copernicus Marine Service
Version V0 12/12/19
U S E CASES
S A ND • FACT KE Y N UMBER S
Ship operators need to have a safety-solution which can provide a 24/7 continuous monitoring of sensor data and alarms and raise alerts if defined operational limits were deviated from. The BOQA solution developed by nauticAi answers this specific need: it is essentially an automated event tracker, which uses various rules and artificial intelligence techniques to detect anomalies and deviations in operational behaviour. Some of the key event types include route plan deviations, heavy weather, heavy motions, sudden stops at sea, under keel clearance, excessive rudder movement, black-outs and crash stops.
MS • CME P RODUCT I N U SE
Copernicus Marine data, such as wind, wave and ice forecasts 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
nauticAi is a Finnish maritime IoT-startup with a team that consists of devoted marine IT-enthusiasts, strengthened by a wide cooperation-network and strategic development, marketing and sales-partners. nauticAi is proudly Finnish and #nordicmade.
nauticai nauticai.com/ Contact Henrik Ramm-Schmidt henrik@nauticai.com
MARINE NAVIGATION
COPERNICUS MARINE SERVICE 49
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.3 10/04/2019
U S E CASES
VOYOPT® - VOYAGE OPTIMIZATION
CASE • USE OVE RVIE W
VoyOpt® (Voyage Optimization) is an innovative sail planning system developed by Offshore Navigation Ltd. This is an all-weather 24/7 surveillance and route plan system, that guides ships how to efficiently sail from one port to the next. These observations are able to compensate the weaknesses of one particular sensor by the characteristics of another. The sensor suite is chosen such that the sensors capabilities partly overlap and complement each other. The end-result is significantly better than relying your route planning on weather forecast models only. This in turn results in a safer and more economical execution of maritime and offshore operations.
E NE FIT S • BFOR USE R
Asset preservation and maintenance
Fuel and Emission Reduction
Economical execution of offshore operations
Optimized sailing time Passenger and crew comfort
MARINE NAVIGATION GLOBAL OCEAN SHIPPING SATELLITE PRODUCTS MODEL PRODUCTS IN SITU PRODUCTS EONAV OFFSHORE NAVIGATION
MARINE NAVIGATION
Implemented by
50
Copernicus Marine Service
Version 2.3 10/04/2019
U S E CASES
S A ND • FACT KE Y N UMBER S
The maritime industry seeks to optimize route plans for fuel reduction, vessel emission reduction and/or reduction in sailing time in an efficient manner. However, they do not have sufficient means to visualize the observations needed to develop such an optimized route plan. Nor do they have continuous observational updates with sufficient accuracy or numerical modelling capabilities. VoyOpt® is using EONav (Earth Observation Navigation) technology which fuses ship-specific parameters with real-time weather and seas state observations. Observations are acquired from several (spaceborne, seaborne and coastal) Earth Observations (EO) sensor systems and weather forecast data into advanced nume
MS • CME P RODUCT I N U SE
We are using CMEMS Analysis and Forecast model products for wind, waves, and currents for our project entitled "EONav - Earth Observation for Marine Navigation" to perform near real time analysis on different scales range from small to large or regional to global coverage. 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
The mission of Offshore Navigation Ltd's (ONL) is to become a leading provider of voyage and route plan systems. ONL shall provide the most accurate and advanced navigation system for worldwide offshore and maritime use, that will enable greater fuel optimization and make the global maritime transport more sustainable.
Offshore Navigation Ltd. (ONL) offshorenavigation.com/
Contact Joakim Moller joakim.moller@offshorenavigation.com
MARINE NAVIGATION
COPERNICUS MARINE SERVICE 51
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 3.0 18 feb 2019
U S E CASES
REDUCING SHIP'S FUEL CONSUMPTION THANKS TO BETTER MARINE COATINGS CASE • USE OVE RVIE W
Jotun is a leading manufacturer of paint, coatings and powder coatings for more than 90 years. Jotun produce marine coatings that use cutting edge technology to maximize ship speed through water and conserve energy. Jotun Marine Coatings allow to reduce both ship fuel costs and greenhouse gas emissions. The impact of biofouling on a ship fuel consumption can be large. Jotun Hull Performance Solutions (HPS) monitors the changes in ship specific hull and propeller performance. The correlation between the vessel speed and power over time is compared against the ideal conditions. Performance indicators like in-service and dry-docking performance are determined and monitored for vessels coated with Jotun marine coatings. The Copernicus Marine Service provides information on ocean conditions relevant to improve and complement the accurate analysis of hull performance. The knowledge of the actual physical conditions of ocean water are relevant for making better and customized specifications for Jotun customers regarding marine coatings.
E NE FIT S • BFOR USE R
Improved and customized product specification
Reduce biofouling and consequently fuel consumption and
Improved methods for monitoring hull and propeller performance greenhouse gas emissions
JOTUN MARINE COATING HULL PERFORMANCE FUEL CONSUMPTION
MARINE NAVIGATION
Implemented by
52
Copernicus Marine Service
Version 3.0 18 feb 2019
U S E CASES
S A ND • FACT KE Y N UMBER S
Hull performance refers to the impact of hull and propeller on the fuel efficiency of a ship. Deterioration in hull and propeller performance between dry-dockings currently accounts for around 10% of world fleet fuel cost and corresponding greenhouse gas emissions. Most vessels leave dry dock with hull and propeller in a good condition. However, on account of a combination of biofouling and mechanical damage, hull and propeller performance begin to deteriorate. Vessel operators can reduce their fuel costs and emission significantly if proven quality coatings and a standardized approach along with data driven solutions are used and implemented.
MS • CME P RODUCT I N U SE
Several Copernicus Marine Service products based on global ocean satellite observations and operational analysis and forecast are used to complement the analysis on hull performance and get approximate estimates of the biogeochemistry and physical ocean conditions. 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
Jotun is a world leading provider of marine coating solutions to the global marine fleet namely in the newbuilding, dry-dock and sea-stock markets. In addition, Jotun supplies coating solutions for mega yachts and leisure yachts. Jotun marine coating solutions offering significant savings in fuel and greenhouse gas emissions for the shipping industry.
jotun www.jotun.com/
More information here Contact Jotun contact hps-analysis@jotun.com
MARINE NAVIGATION
COPERNICUS MARINE SERVICE 53
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.0 Feb 4 2019
U S E CASES
DESIGNING MORE ROBUST SHIPS THANKS TO WAVE DATA CASE • USE OVE RVIE W
Damen Shipyards is building 165 ships per year. These ships operate in all kind of environmental sea conditions. The structures of a ship has to carry the loads from the outside environment and is designed to last at least 20 years. Additionally the hulls have to be light to ensure fuel efficiency. The ship structure is therefore optimized for efficiency and safety. During the design of new ships the development team of Damen Shipyards is therefore focusing on predicting the fatigue life of these ships as accurately as possible. To be able to predict the fatigue life more accurately our prediction methods are continuously improved by our research team. The new fatigue models developed by Damen are using the global wave model data from the Copernicus Marine Service. Wave conditions along AIS (Automatic Identification System) tracks are extracted in order to know the real wave conditions encountered. Based on this input the fatigue life consumption for each ship is predicted. In the future, Damen is planning to get the wave conditions along the AIS tracks in real time to remotely monitor for their clients the ship fatigue and fuel consumption over time.
E NE FIT S • BFOR USE R
Provide realistic estimation of wave conditions encountered by
Reduce risk of ship hull cracking
ships
wave data feeding fatigue models With the Copernicus wave data it is now possible to get much more accurate insight in the actual wave conditions encountered than in the past with scatter diagrams of expected sailing areas
SHIP CONSTRUCTION SHIP HULL STRENGHT IN HARSH MARINE ENVIRONMENT FATIGUE MODEL DAMEN SHIPYARDS
MARINE NAVIGATION
Implemented by
54
Copernicus Marine Service
Version 2.0 Feb 4 2019
U S E CASES
S A ND • FACT KE Y N UMBER S
A harsh ocean environment with strong winds and waves over decades of use causes significant wear and tear on ship hull and structures. The angle from which waves hit a platform, and the wave height are important factors, but in addition the wave frequency is an important factor due to the resonance frequency of the structure itself. Running fatigue models is an approach for risk assessment of the ultimate strength of a ship hull structure degraded by corrosion and fatigue.
MS • CME P RODUCT I N U SE
The Copernicus Marine Service Global wave model is used for this application. Product in use 1
E MS • CM USE R
Damen is an international shipyard group operating everywhere in the world. They deliver tried and tested designs of competitively priced and innovative vessels. By building a wide variety of standard hulls for stock, they substantially reduce delivery times.
Damen Shipyards www.damen.com/
More information here Contact Ewoud Huiskamp ewoud.huiskamp@damen.com
MARINE NAVIGATION
COPERNICUS MARINE SERVICE 55
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.2
U S E CASES
DEVELOPING EO-BASED DEMONSTRATION SERVICES FOR PUBLIC AUTHORITIES: MARINE-EO CASE • USE OVE RVIE W
Marine-EO is an H2020 project which procures through the PCP instrument (Pre-Commercial Procurement) the development of EO-based demonstration services for Public Authorities in Europe. Those various services procured are in the field of Marine Environment monitoring (called SATOCEAN services) such as support to MSFD EU Directive, support to the Aquaculture sector and Ship routing in the Arctic polar region. Other services procured cover the maritime surveillance field (called SATSURVEILLANCE services) contributing to the development of EUROSUR regulation. Marine-EO teams up a group of 5 maritime authorities (the buyers group) and a group of 4 prestigious scientific and technical organizations with significant experience in EO and maritime matters (the technical advisors) to achieve the following objectives: Develop, test and validate two sets of EO-based services, support the transfer of the above mentioned EO services to operational services, and strengthen transnational collaboration in maritime awareness sector. The SATOCEAN services are developed with the support of the Copernicus Marine Service products.
E NE FIT S • BFOR USE R
SATOCEAN 1: Monitoring marine environmental status in hot spots SATOCEAN 2: Detection of Fish farms threats
SATOCEAN 3: Detection of vessels and icebergs in Arctic areas
SATSURVEILLANCE 1: Monitoring of unusual/irregular activity around a Critical Infrastructure SATSURVEILLANCE 2: Enhanced change detection for evidence of embarking or disembarking of irregular immigrants
MARINE-EO PRE-COMMERCIAL PROCUREMENT EO SERVICES DEVELOPMENT MARINE ENVIRONMENT MONITORING MARITIME SURVEILLANCE
MARINE NAVIGATION
Implemented by
56
Copernicus Marine Service
Version 2.2
U S E CASES
S A ND • FACT KE Y N UMBER S
Marine-EO is the first Earth Observation PCP project in the SPACE field and has received funding from the EU H2020 research and innovation programme. PCP challenges the industry from the demand side to develop innovative solutions for public sector needs. More specifically, in PCP: (i) The scope is the development of R&D services only, covering activities such as solution exploration, design and prototyping, up to the original development, (ii) The risks and benefits are shared between the Public authorities and the industry in order to develop new innovative solutions that outperform those available in the market, iii) The State aid is excluded ensuring maximum competition and transpare
MS • CME P RODUCT I N U SE
Many products from the Copernicus Marine Service are used to develop the MARINE-EO applications in the Global, Arctic and Atlantic Oceans as well as in the Med Sea, For example, Sea Surface Temperature, Wind Speed, Chlorophyll-a concentration as well as wave forecasts. Product in use 1 Product in use 2 Product in use 3 Product in use 4
E MS • CM USE R
The Coordinator of the Marine-EO project is the National Center for Scientific Research 'Demokritos' (NCSRD). The Consortium is composed of: Directorate General for Maritime Policy (Lead procurer), Guardia Civil, Hellenic Centre for Marine Research, Fundo Regional para a Ciência e Tecnologia, Kystverket, National Observatory of Athens, European Union Satellite Centre and Sintef Ocean.
National Centre of Scientific Research
Contact Dr. Stelios C.A. Thomopoulos scat@iit.demokritos.gr
"Demokritos" marine-eo.eu/
MARINE NAVIGATION
COPERNICUS MARINE SERVICE 57
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 1.2 22/10/2018
U S E CASES
TIMEZERO, A WEATHER ROUTING MODULE
CASE • USE OVE RVIE W
TIMEZERO is a full marine navigation software solution for recreational sailing and motor boat users or for professional navigation, sold in more than 25 countries. It provides a route that will optimize the time taken to travel on a sailboat using the weather forecast information and your boat's polars. TIMEZERO's roots trace back to racing and pioneering the racing world by being the first to develop an algorithm to optimize the best route based on the forecasted wind, waves and currents as well as the polars of your boat. The weather routing module provides the fastest and or safest way to get across the finish line. More than 6,000 nautical charts are embedded from around the world. The Copernicus Marine Service Ocean current and wave forecast models are used in this application.
E NE FIT S • BFOR USE R
Wind speed cap and wave height cap are new features that now allow sailors to sail in security by limiting these two variables to optimize travel time while ensuring safety at sea
TIMEZERO NAVIGATION SOFTWARE RECREATIONAL SAILING, FISHING AND SHIPPING NAUTICAL CHARTS
MARINE NAVIGATION
Implemented by
58
Copernicus Marine Service
Version 1.2 22/10/2018
U S E CASES
S A ND • FACT KE Y N UMBER S
The algorithm used by the weather routing module is extremely reliable. For over 30 years, we have equipped the most demanding sailors. The module has also been integral in winning some of the legendary off-shore races, such as the Vendée Globe and the Transat Jacques Vabre. TIMEZERO Navigator comes with a suite of new features that allows to dramatically increase safety onboard. TIMEZERO allows to compute departure time according to various conditions (Tides, Currents, Transit Time, etc.), arrive at high tide or leave the harbor with optimal currents conditions.
MS • CME P RODUCT I N U SE
The Copernicus Marine Service Global ocean currents and waves forecast model are used in this application. Product in use 1 Product in use 2
E MS • CM USE R
MaxSea is the worldwide leader in marine navigation software for both recreational boating and commercial fleets.
MaxSea www.mytimezero.com More information here Contact FREDERIC ALGALARRONDO FRED@NOBELTEC.COM
MARINE NAVIGATION
COPERNICUS MARINE SERVICE 59
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version V1.1 25/09/2018
U S E CASES
OPTIMAL SHIP ROUTING AND CONTROL WITH OCEANICS CASE • USE OVE RVIE W
D-ICE activities on ship routing covers 3 services. *First, statistical routing studies enabling its customers to validate a project (business model, extreme weather conditions, ship performance...) with a large amount of calculations. *Then, D-ICE operational team provides metocean and routing support for shipping companies during navigations. *Finally, OCEANiCS (OCEAN Intelligent Control System) is an embedded system enabling both ship control and weather routing. Main objective are environmental impact reduction and improvement of navigation safety. Our multi-objective algorithms optimize ship route and ship velocity along the transit, considering wind, waves and current. Application covers also sailing teams, which are interested in advanced routing as their ships are becoming more and more extreme. Copernicus Marine Service data from global to regional modelling are crucial for D-ICE customers. Todays used datasets are waves, wind and ocean currents, but further developments will take benefits from satellites images, ice forecasts or nebulosity.
E NE FIT S • BFOR USE R
Fuel savings
Safety improvement
Respecting a fixed Estimated Time of Arrival
Ship motions reduction Travel time reduction
D-ICE ENGINEERING SHIP ROUTING SAVE FUEL CONSUMPTION IMPROVE SAFETY GLOBAL OCEAN
MARINE NAVIGATION
Implemented by
60
Copernicus Marine Service
Version V1.1 25/09/2018
U S E CASES
S A ND • FACT KE Y N UMBER S
Route planning has always been a crutial issue for the shipping industry to manage logistics. Today, route optimization is at stake to decrease fuel consumption, operate safely the vessels and address risk management with due regard to environment. Shipping industry indeed represents 3% of today global CO2 emission, and should reach 17% in 2050 if nothing is done. Global policies and IMO are thus starting to handle it and legiferate shipping industry. The OCEANiCS ship routing service offers new perspectives enabling multiobjective optimization for motor, sailing and hybrid propulsion. Fuel savings for motor ships are from 5 to 15% depending on the projects.
MS • CME P RODUCT I N U SE
CMEMS Analysis and Forecast model products of waves and currents are used by D-ICE company. Moreover, for specific analysis, CMEMS satellite observations (for wind, current, waves) are also useful. Product in use 1 Product in use 2
E MS • CM USE R
D-ICE Engineering is a French startup developing cutting edge solutions for the marine industry. Its expertise covers control systems, optimization, big data analysis and multibody dynamics. D-ICE develops the OCEANiCS tool (Ocean Intelligent Control System) allowing weather routing and ship control. D-ICE provides metocean and routing assistance to shipping companies.
D-ICE Engineering www.dice-engineering.com More information here Contact Maxime Dupuy maxime.dupuy@dice-engineering.com
MARINE NAVIGATION
COPERNICUS MARINE SERVICE 61
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 1.2 12/07/2017
U S E CASES
SUPPORT TO MARINE SEISMIC SHIP OPERATIONS
CASE • USE OVE RVIE W
CGG collects seismic data to image the subsurface of the Earth. At sea, this data is acquired by deploying large spreads of sensors: up to 14 cables separated by 100m each and up to 10km in length are towed between 7m and 50m below the sea surface. These operations can be affected by environmental conditions (sea current, swell, wind). Access to relevant marine information, through services like CMEMS, is essential to operation performance and safety. The oceanographic information is used at different stages of an acquisition. During preparation, past statistical data is processed to assess ocean conditions, identify risks and anticipate possible performance issues. During surveys, the global understanding of the ocean dynamics is needed to set correct equipment and sensors parameters, make real time decisions for managing the environmental risks, and ideally for optimizing acquisition strategy. Specifically, acoustic propagation parameters are based on water column information, the steering of the acquisition spread requires a good multilayer current anticipation, and accurate weather forecast ensures safe management and protection of the equipment.
E NE FIT S • BFOR USE R
Better knowledge of ocean conditions
Better understanding of the ocean dynamics
Better preparation at situation at sea
CGG SEISMIC SHIP OPERATIONS AT SEA TOWING CABLES RISK MANAGEMENT
MARINE NAVIGATION
Implemented by
62
Copernicus Marine Service
Version 1.2 12/07/2017
U S E CASES
S A ND • FACT KE Y N UMBER S
Seismic operations at sea are significantly affected by environmental factors including weather and ocean conditions. Accessing relevant marine information on the area of interest, through operational oceanography services and products, is essential to operation performance and safety. In some areas, the standby time due to weather can be up to 30 %, the time loss due to current and loss of coverage can amount 15 % of production time.
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; mainly Global Ocean models, but also regional models. They provide hydrodynamic forecast including high frequency processes of paramount importance to characterize regional scale information and the water column in area of interest. Product in use 1 Product in use 2 Product in use 3
E MS • CM USE R
CGG provides geoscience services and equipment for the Oil & Gas industry. Acquisition represents a significant share of the activity alongside design and production of equipment and data processing. CGG manages a fleet of 5 high capacity ocean going vessels. They are engaged in worldwide operations for independent or national oil companies.
CGG www.cgg.com/en More information here Contact Laurent Dollon laurent.dollon@CGG.com
MARINE NAVIGATION
COPERNICUS MARINE SERVICE 63
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.0
U S E CASES
GREAT CIRCLE SHIP-ROUTING APPLICATION
CASE • USE OVE RVIE W
GREAT CIRCLE, a Belgian startup, has developed a sailing navigation software (SQUID) that includes a weather routing module for sailboats. Great Circle works with most of the leading offshore teams and race management offices around the world, including the Vendée Globe, Volvo Ocean Race, Route du Rhum and America Cup. SQUID is software that lets the user download and view the GRIB weather files and does the routing with the isochronic method. SQUID can also display satellite images (visible imagery, infrared, water vapour and colour composite) and retrieve synoptic charts and observations (SYNOP, METAR and scatterometry). SQUID uses the Copernicus Marine Service sea-surface temperature satellite data as an input as well as ocean model currents for the Global ocean and Europeans Seas.
E NE FIT S • BFOR USE R
Faster sailing routes which is decisive during sailing race. More accurate planning of arrival time. Safer sailing routes for cruisers for human beings and boat equipment.
GREAT CIRCLE SAILING NAVIGATION SOFTWARE ROUTING GLOBAL OCEAN OCEAN CURRENTS LEISURE SAILORS
MARINE NAVIGATION
Implemented by
64
Copernicus Marine Service
Version 2.0
U S E CASES
S A ND • FACT KE Y N UMBER S
Up until recently, sailors were planning their crossing using manual methods and books like pilot charts. New weather routing tools have now appeared on the market. Racers can improve their travel speed by 5 to 10% which is decisive during a race. Predicted arrival time is 4 times more accurate. Crossings are safer for human beings and equipment on board.
MS • CME P RODUCT I N U SE
CMEMS Analysis and Forecast model products provide with 7-day ocean current forecasting updated daily. It provides information relevant to ship routing. Product in use 1 Product in use 2
E MS • CM USE R
Great Circle is a private company that works with most of the leading offshore teams and race management offices around the world, including the Vendée Globe, Volvo Ocean Race, Route du Rhum and America Cup.
Great Circle www.greatcircle.be/
MARINE NAVIGATION
COPERNICUS MARINE SERVICE 65
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.0
U S E CASES
SHIP ROUTING TO SAVE FUEL AND REDUCE CO2 EMISSIONS CASE • USE OVE RVIE W
CMA CGM is a leading worldwide container shipping group and the leader in France. With a presence on every continent through its network of more than 600 offices in more than 160 countries, CMA-CGM serves over 420 ports in the world with around 450 vessels assigned to 200 shipping lines. CMA CGM has developed the Fleet Navigation & Support Centre, which provides navigation support and routing and guidance services. Working 24/7, the Fleet Navigation & Support Centre is manned by experienced CMA CGM seafarers and acts as a valuable interface between vessels and office departments by monitoring, warning, and guiding the fleet. ACTIMAR (SUEZ group) has been contracted by CMA CGM to compare several ocean current products including the Copernicus Marine Service ocean currents from the IBI, MED and GLOBAL hydrodynamic models and the satellite and in-situ-based Global Observed Ocean current product. According to Stephane Raynaud from Actimar, In addition to the constant improvement on the reliability of ocean forecasts provided by CMEMS, the knowledge of the forecast uncertainty will represent a major step forward.
E NE FIT S • BFOR USE R
Adaptation of the course and the speed of the ship to arrived at the desired time in a port Reduction in fuel consumption, leading to reduction of cost and carbon footprint.
CMA CGM ACTIMAR SUEZ SHIP ROUTING GLOBAL OCEAN OCEAN CURRENTS
MARINE NAVIGATION
Implemented by
66
Copernicus Marine Service
Version 2.0
U S E CASES
S A ND • FACT KE Y N UMBER S
Maritime transport accounts for more than 80% of international freight transport. Ship weather routing is widely used. But routing by the current remains recent and innovative. The emergence of new operational ocean forecasts makes it possible to better understand the mesoscale dynamics of the upper ocean and to provide optimized and qualified forecasts when combined with innovative data processing methods. Using surface current for ship routing in areas where the weather conditions do not prevail may allow to save about 1% of the fuel consumption.
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. It provides ocean current information relevant to ship routing in the ocean. Product in use 1 Product in use 2 Product in use 3
E MS • CM USE R
Actimar is a French company devoted to maritime and coastal activity. Our recent advances have benefited from improvements in modelling, operational systems and data processing methods. Our engineers bring in innovations from the research community, for the benefit of economic actors.
More information here Actimar
Contact Stéphane Raynaud raynaud@actimar.fr
www.actimar.fr
MARINE NAVIGATION
COPERNICUS MARINE SERVICE 67
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.0
U S E CASES
SAILGRIB SHIP-ROUTING APPLICATION
CASE • USE OVE RVIE W
SAILGRIB, a French startup, has developed a sailing navigation app available from the Google Play Store that includes a weather routing module for sailboats. As of Jan 2017, the application was being used by more than 10,000 racers and leisure sailors every week. The app success is steadily increasing as the number of downloads is doubling every year. Most users (70%) are European. SailGrib algorithms are based on the isochrones method tweaked for running on Android phones or tablets. Henri Laurent from SailGrib says that in order to get reliable routing, accurate inputs such as polar plots showing boat speed, weather and ocean current forecasts are needed. The latter are provided by the Copernicus Marine Service high quality analysis and forecast products for the Global Ocean, the Iberia-Biscay-Irish Seas, the European North West Shelves, the Baltic and Mediterranean Seas.
E NE FIT S • BFOR USE R
5 à 10% faster sailing routes which is decisive during sailing race More accurate planning of arrival time: The error on the travel time has been divided by 4. Safer sailing routes for cruisers (for human beings and boat equipment).
SAILGRIB SAILING NAVIGATION APP ROUTING GLOBAL OCEAN OCEAN CURRENTS LEISURE SAILORS
MARINE NAVIGATION
Implemented by
68
Copernicus Marine Service
Version 2.0
U S E CASES
S A ND • FACT KE Y N UMBER S
Up until recently, sailors were planning their crossing using manual methods and books like pilot charts. New weather routing tools have now appeared on the App market thanks to the mobile revolution. Racers can improve their travel speed by 5 to 10% which is decisive during a race. Predicted arrival time is 4 times more accurate when planning it with the App. Crossings are safer for human beings and equipment on board.
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 Product in use 2 Product in use 3
E MS • CM USE R
SailGrib is a French startup publisher of the renowned marine weather, weather routing and navigation Android app called SailGrib WR.
More information here SAILGRIB
Contact Henri Laurent henri@sailgrib.com
www.sailgrib.com
MARINE NAVIGATION
COPERNICUS MARINE SERVICE 69
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
70
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 University of Edimbourg
Contact Pr. Encarni Medina LOPEZ encarni.medina-lopez@ed.ac.uk
www.ed.ac.uk/
NATURAL RESOURCES &ENERGY
COPERNICUS MARINE SERVICE 71
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.0
U S E CASES
WELLO - WAVE RESOURCE ASSESSMENT AND COST OF ENERGY WORLD MAP CASE • USE OVE RVIE W
Wello started designing wave energy converters in 2008. Its devices called Penguins are unique in the wave energy landscape. The asymmetrical shape of their hull creates a gyrating motion which pushes a rotating mass inside the device with each passing wave. The converter turns it into electrical power, immediately transferred to the grid by a sub-sea cable. Wello is also one of the first wave energy companies to develop a project outside of Europe. With its 10 MW capacity, the Nusa Lembongan site in Indonesia is currently the largest in-the-works wave-energy park in the world. Copernicus Marine Service product: Global Ocean Waves Analysis and Forecast updated Daily, provides precious wave data to optimize Wello's activity.
E NE FIT S • BFOR USE R
Allows to design cost of energy maps for investors. Provides relevant data for wave resource mapping in Europe and export markets.
WAVE ENERGY NATURAL RESOURCES & ENERGY GLOBAL OCEAN WAVES ANALYSIS AND FORECAST UPDATED DAILY
NATURAL RESOURCES & ENERGY
Implemented by
72
Copernicus Marine Service
Version 2.0
U S E CASES
S A ND • FACT KE Y N UMBER S Wello's Penguins are rated at 1 MW. Its first device survived 18 meters waves. Wello expects to reduce the costs of its Penguin by 30% by 2020.
MS • CME P RODUCT I N U SE
Wello has been using Copernicus Marine Service's data to develop its Indonesian project. The global coverage allowed the Finnish company to get wave data for remote locations and perform both resource assessments and production simulations thanks to our product: Global Ocean Waves Analysis and Forecast updated Daily. Wello also used our product to design a world map showing the price of electricity produced by its devices in each suitable location on the globe. Product in use 1
E MS • CM USE R
Wello was established in 2008 with the development of the Wello Penguin product line. Over the years the company has secured several essential patents and has grown, getting new partners on board. Among Wello's lead investors: Fortum Oyj, VNT Management, Innovestor Ventures, and Estlander Holdings Oy.
WELLO wello.eu/
More information here Contact Heikki PAAKKINEN heikki.paakkinen@wello.eu
NATURAL RESOURCES &ENERGY
COPERNICUS MARINE SERVICE 73
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.0
U S E CASES
BLUERISE: OCEAN THERMAL ENERGY RESOURCE ANALYSIS
CASE • USE OVE RVIE W
Covering seventy percent of our globe, the oceans are the world largest solar collectors. This solar energy is captured as heat in the upper layers of the oceans. From the natural temperature difference that exists between the upper and deep layers of the ocean, energy can be extracted. This is called Ocean Thermal Energy Conversion (OTEC) and is in particular of interest in the tropics where it can be instrumental in helping islands and coastal regions in achieving a sustainable future. It is considered among the biggest renewable energy sources. Using the ocean database of Copernicus Marine Service, Bluerise in collaboration with TU Delft, has evaluated the year round and ten year average ocean characteristics in the Caribbean analyzing the ocean currents, density and temperature profiles over depth. Particular attention was spent on ocean upwelling and seasonal fluctuations. Bluerise has developed a model, using the data from the Copernicus Marine Service, to analyze oceanographic features such as natural ocean current patterns and their variability relevant for OTEC. This enables a quick assessment of the feasibility of OTEC locations.
E NE FIT S • BFOR USE R
Provides relevant inputs for the feasibility analysis of Ocean Thermal Energy Conversion (OTEC) for a particular location quick assessment of the ocean characteristics
OTEC OCEAN THERMAL ENERGY CONVERSION BLUERISE CARRIBEAN ISLANDS RENEWABLE
NATURAL RESOURCES & ENERGY
Implemented by
74
Copernicus Marine Service
Version 2.0
U S E CASES
S A ND • FACT KE Y N UMBER S
Ocean Thermal Energy Conversion is a renewable electricity source that uses the natural temperature difference in tropical oceans between the surface water and deep water. The technology can transform a temperature difference of 20 °C or more into clean, reliable, and predictable base load electricity. Tropical regions, with population centers near the coast, have ideal conditions to deploy OTEC technology to fully meet their rapidly growing energy needs. Although tropical regions currently account for less than 30% of the current global energy demand, the tropics will become the most significant energy market within the next 20 years.
MS • CME P RODUCT I N U SE
Ten years of data from the Global Ocean Model with a spatial resolution of 1/12 degree and temporal resolution of one day is applied. This enables a quick assessment of the feasibility of OTEC locations. Product in use 1
E MS • CM USE R
Bluerise develops Ocean Thermal Energy solutions. Bluerise is a private company which mission is to bring the cost of OTEC down to a competitive level and to provide a vast, baseload source of renewable energy to its customers. Bluerise was conceived in 2009 by a team of experts convinced that OTEC can become a
Bluerise
substantial part of the future sustainable energy mix.
www.bluerise.nl/
Contact a.s.candy@tudelft.nl b.j.kleute@bluerise.nl
NATURAL RESOURCES &ENERGY
COPERNICUS MARINE SERVICE 75
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 1.4 06/11/2017
U S E CASES
TIDAL ENERGY ASSESSMENT - TIDEA
CASE • USE OVE RVIE W
To date, there is no global solution providing a first level of information for ocean renewable energy site assessments for tidal energy devices (tidal current speed, tidal elevation, tidal power). NOVELTIS has developed a unique solution to provide this information: TidEA, Tidal Energy Assessment. TidEA is a free of charge decision-making tool to identify the most suitable sites for the development of tidal energy and also to characterize in detail the resource of the various sites of interest through the provision of relevant indicators calculated by NOVELTIS teams and validated using products (in situ data, elevation data) provided by the Copernicus Marine Environment Monitoring Service (CMEMS, marine.copernicus.eu). TiDEA lists all the worldwide coastal regions and offers data up to 100 meters deep. For each selected site, you will find the maximum current speeds, the power density and the indicators of occurrence of some specific speed thresholds. TidEA is used by different types of end-users : NAVAL GROUP and SABELLA for the tidal energy project development and KRAKEN SUBSEA for their business development. More here: http://www.tidea.io/
E NE FIT S • BFOR USE R
A first level of information concerning the worldwide tidal energy resource Free of charge access global coverage
OCEAN RENEWABLE ENERGY TIDAL RESOURCE OCEAN ENERGY RESOURCES ASSESSMENT OCEAN FARM SITING TIDEA NOVELTIS
NATURAL RESOURCES & ENERGY
Implemented by
76
Copernicus Marine Service
Version 1.4 06/11/2017
U S E CASES
S A ND • FACT KE Y N UMBER S
Ocean energy technology is rapidly being developed to help meet Europe energy needs and reduce its fossil fuel footprint. Several technologies have emerged to harness the energy of the seas. The Copernicus Marine Service ocean products provide key input for such technologies, as they can be used to help estimate the ocean energy resources available and select the most interesting areas to develop the tidal energy projects in the world.
MS • CME P RODUCT I N U SE
NOVELTIS is performing high resolution tidal atlases for the space agency and maritime industry. These atlases have been validated thanks to the best satellite data and in-situ observations procured by the Copernicus Marine Service allowing to provide some tidal energy parameters (Maximum current speed, Tidal power density etc...) all over the world. Product in use 1 Product in use 2
E MS • CM USE R
NOVELTIS, a french private company, supports its offshore energy clients in their projects with resource assessment, site selection and metocean studies. It develops services for offshore wind, tidal and wave energy. Their expertise in modelling, data and statistical analysis and in forecast services helps their clients in the design of projects and risk management.
NOVELTIS www.tidea.io/
More information here Contact Florian Jeliazovski florian.jeliazovski@noveltis.fr
NATURAL RESOURCES &ENERGY
COPERNICUS MARINE SERVICE 77
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 1.3 12/07/2017
U S E CASES
SUPPORT TO EXPLORATION ACTIVITIES FOR DEEP SEA MINING CASE • USE OVE RVIE W
SAGRES Project is an innovative and disruptive approach developed by ISQ that focus on the conception and validation of an algorithm that supports decision to prospection and exploration (P&E) activities related with deep sea mineral (DSM) resources based on satellite information, and complemented by in-situ data, including CMEMS data. The fusion and analysis of these data can be used as approximation vectors towards mineralization in order to enhance location, delineation and ranking of potential P&E target areas related with the occurrence of DSM resources such as manganese nodules, cobalt-rich ferromanganese crusts, and seafloor massive sulphide deposits. By using this approach, SAGRES Project expects to increase P&E discovery success rates, optimize campaigns time, reduce P&E uncertainty and costs, and provide baseline information related to the environmental impact of this activity. The preliminary and ongoing results are very promising, and show for several areas considered in the North Atlantic Ocean a significant forecast capacity performed by the algorithm.
E NE FIT S • BFOR USE R
Better knowledge and preparation for exploration missions at sea
Higher cost-effectiveness by better mission time optimization
Decision-making support tool
Useful environmental baseline information useful information provision at multiscale (regional to local)
DEEP SEA MINING SAGRES ISQ DEEP SEA PROSPECTION DATA BASE
NATURAL RESOURCES & ENERGY
Implemented by
78
Copernicus Marine Service
Version 1.3 12/07/2017
U S E CASES
S A ND • FACT KE Y N UMBER S
In the case of cobalt-rich ferromanganese crusts, the algorithm results show 77% of certainty in its forecasted capability. The distribution of the algorithm predicted points are in good agreement with the depth range considered appropriated for the economically viable occurrence of cobalt-rich ferromanganese crusts. The SAGRES Project ongoing approach can therefore contribute to smarter ocean exploration missions.
MS • CME P RODUCT I N U SE
CMEMS model about the ocean physical, chemical and biological parameters together with other satellite and in-situ data are used. For instance, the provision of data on temperature, salinity, and concentration of oxygen, nitrate, phosphate and chlorophyll in sea water at several depth ranges and fairly high resolution grids are important to better constraint and enhance the forecast capability of the SAGRES Project algorithm. Product in use 1 Product in use 2 Product in use 3
E MS • CM USE R
ISQ is a private Portuguese entity established in 1965, and currently has about 1400 employees and presence in 16 countries. ISQ offers 250+ specialized engineering services, and is involved in 400+ R&D international projects related with business sectors such as Aeronautical & Aerospace, Automotive, Construction & Infrastructures, Energy, Oil & Gas, and Process Industries.
ISQ
More information here
www.isq-group.com
NATURAL RESOURCES &ENERGY
Contact João Carvalho jrcarvalho@isq.pt
COPERNICUS MARINE SERVICE 79
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 1.2
U S E CASES
A SYSTEM FOR PREDICTING GLOBAL AND REGIONAL TIDAL CURRENTS CASE • USE OVE RVIE W
NOVELTIS is a private French service company specialized in space, environment, sustainable development and technological innovations. The company has developed a global and regional tidal currents prediction system called TIPS targeting the Marine Renewable Energy sector and its tidal turbines. NOVELTIS has built a regional tidal model that uses Data Assimilation Techniques to incorporate satellite and in-situ observations into their model. This technique can be used to correct the NOVELTIS ocean model to be closer to observed conditions and to improve forecasting accuracy. The NOVELTIS data assimilation system uses Satellite Sea Level data from the Copernicus Marine Service and uses in-situ observed Sea Level data, also from the Copernicus Marine Service, to validate the results. F. Jeliazovski from NOVELTIS says that "Satellite Sea Level data from the Copernicus Marine Service are a great asset for our tidal system as this allows our tidal model to be as close as possible to real ocean conditions".
E NE FIT S • BFOR USE R
Free and sustained information provision.
Provision of merged satellite information along with in situ information. Ready to use, global coverage, expertised satellite products.
NOVELTIS TIDAL CURRENTS SATELLITE OBSERVATIONS ALTIMETRY GLOBAL OCEAN OCEAN ENERGY TIDAL TURBINES
NATURAL RESOURCES & ENERGY
Implemented by
80
Copernicus Marine Service
Version 1.2
U S E CASES
S A ND • FACT KE Y N UMBER S
Coastal areas and Offshore platforms are constantly being extended and adapted in order to meet economic demand. Private companies such as NOVELTIS help project developers and government authorities with the design, construction, monitoring and servicing of coastal or offshore infrastructure. Their knowledge about waves, morphology, hydrodynamics, water quality and ecology allows to advise clients. The use of the free and sustained Copernicus Marine Service products is an asset for such private companies.
MS • CME P RODUCT I N U SE
The global Ocean satellite sea level anomaly maps in real time and in the past are used for this application. It merges data from several satellites among which Sentinel-3. Product in use 1 Product in use 2
E MS • CM USE R
Noveltis is an innovative private company serving the space, environment and sustainable development. It offer services of scientific engineering, studies, and implementation of tailor-made operational solutions. it develops high-tech solutions that combine strong physical and environmental expertise in the fields of atmosphere, ocean and land.
Noveltis www.noveltis.com/
More information here Contact Jeliazovski Florian Florian.jeliazovski@noveltis.fr
NATURAL RESOURCES &ENERGY
COPERNICUS MARINE SERVICE 81
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.0
U S E CASES
MET-OCEAN CONDITIONS FOR THE OIL & GAS INDUSTRY AND OCEAN ENERGY SECTOR CASE • USE OVE RVIE W
OPEN OCEAN develops tools and services for offshore oil & gas, wind, and wave and tidal energy applications. OPEN OCEAN has developed a dashboard called "Metocean Analytics", combining information about both meteorological and oceanic conditions and collecting data from various sources in order to contribute to the study and monitoring of specific sites. Renaud Laborbe from OPEN OCEAN says that "thanks to our Metocean Analytics tool, the Copernicus Marine Service data can now be used to obtain a complete Met-Ocean study in 5 minutes and provide a comprehensive study of a specific area of the global ocean for many applications in the offshore oil & gas, wind, and wave and tidal energy sectors". Metocean Analystics now delivers services over the Australian area, of interest for the Australian renewable energy sector.
E NE FIT S • BFOR USE R
High quality information allowing realistic applied results. Ready to use, global coverage, expertised ocean products. Useful, free and sustained information provision.
OPENOCEAN PRIVATE COMPANY GLOBAL OCEAN OIL&GAS COASTAL ENGINEERING RENEWABLE MARINE ENERGY MET-OCEAN DASHBOARD CMEMS MODEL/SATELLITE/INSITU PRODUCTS
NATURAL RESOURCES & ENERGY
Implemented by
82
Copernicus Marine Service
Version 2.0
U S E CASES
S A ND • FACT KE Y N UMBER S
A decision support system is a computer-based information system that supports business or organizational decision-making activities, typically resulting in ranking, sorting, or choosing from among alternatives. It serves the management, operations, and planning levels of an organization and help people make decisions about problems that may be rapidly changing and not easily specified in advance. Decision support systems can be either fully computerized, human-powered or a combination of both.
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 relevant for many sectors as for example Ocean Energy or the Oil&Gas industry. Product in use 1 Product in use 2
E MS • CM USE R
Open Ocean is an innovative company based in Brest and Paris, which conceives since 2011 online decision-making solutions for industrial marine activities. Its highly qualified team of oceanographers is specialized in high resolution modelling, statistical analysis and data mining. Its "Metocean Analytics" dashboard is the first online offer for metocean study on-demand.
OPEN OCEAN www.openocean.fr/en/
NATURAL RESOURCES &ENERGY
More information here
COPERNICUS MARINE SERVICE 83
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.0
U S E CASES
VALIDATION OF HYDRODYNAMIC MODELS FOR COASTAL APPLICATIONS CASE • USE OVE RVIE W
GLOBOCEAN develops tools and services for Oil & Gas, Coastal Engineering and Renewable Energy applications. For example, Met-Ocean dashboards (i.e. dashboards combining information about both meteorological and oceanic conditions) combining data from various sources are developed, in order to contribute to the study and monitoring of specific sites. Moreover, fine scale ocean models are developed to better comprehend the complexity of such specific areas. Hafedh Hajji from GLOBOCEAN says that "CMEMS satellite products such as sea level altimetry products are key information for validating our ocean models".
E NE FIT S • BFOR USE R
High quality information allowing realistic applied results. Useful, free and sustained information provision for coastal modelling.
GLOBOCEAN PRIVATE COMPANY GLOBAL OCEAN OIL&GAS COASTAL ENGINEERING RENEWABLE MARINE ENERGY MET-OCEAN DASHBOARD CMEMS SATELLITE PRODUCTS
NATURAL RESOURCES & ENERGY
Implemented by
84
Copernicus Marine Service
Version 2.0
U S E CASES
S A ND • FACT KE Y N UMBER S
Ports, waterways and locks are constantly being extended and adapted in order to meet economic demand. Private companies such as GLOBOCEAN help project developers and government authorities with the design, construction, and servicing of ports. Their knowledge about waves, morphology, hydrodynamics, water quality and ecology allows to advise clients and to optimise the design of ports. The use of the free and sustained Copernicus Marine Service products is an asset for such private companies.
MS • CME P RODUCT I N U SE
The global Ocean satellite sea level anomaly maps in real time and in the past are used for this application. It merges data from several satellites among which Sentinel-3. Product in use 1 Product in use 2
E MS • CM USE R
Globocean is a french private service company with strong expertise in met-oceanic studies : Evaluation of offshore and coastal wind, waves, current and water levels useful to operators and engineers, Supervision of sea operations, Hindcasting of storms and tropical cyclones, Meteorologic assistance for routes and operations at sea, Tidal studies, Analysis of in-situ measurements.
GLOBOCEAN www.globocean.fr/
NATURAL RESOURCES &ENERGY
More information here
COPERNICUS MARINE SERVICE 85
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.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
86
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
Riskaware www.riskaware.co.uk
provide innovative software solutions across a wide range of industry sectors.
Contact Tim Culmer tim.culmer@riskaware.co.uk
SAFETY & DISASTER
COPERNICUS MARINE SERVICE 87
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 1.2
U S E CASES
WEB BASED DRIFT SCENARIO INTERFACE
CASE • USE OVE RVIE W
CLS is a French private company developing products and services in various sectors including maritime safety. CLS has developed a new web based drift modelling service that allows users to set up drift scenarios for oil, garbage and Search&Rescue purposes. Via a web mapping interface, the user selects the location and time period as well as specific parameters such as number of particles, horizontal diffusion and type of scenario. The model results are then immediately available for visualization on the web mapping interface and auxiliary features allow the user to properly plan operation to contain a position or recover an object lost at sea. The web based tool allows users to quickly access critical information to optimize the recovery of objects, pollutants or persons. The user friendly aspect of the drift module means that very little training is required to properly and efficiently operate the system. CLS computes surface velocities thanks to the Copernicus Marine Service product, as well as on other sources. The CMEMS Global Ocean model currents are used for this application.
E NE FIT S • BFOR USE R
Faster recovering of objetcs or person at sea Lower risk at sea for search and rescue staff.
CLS PERSON LOST AT SEA DRIFT MARINE LITTER SEARCH AND RESCUE WEB BASED DRIFT SCENARIO INTERFACE
SAFETY & DISASTER
Implemented by
88
Copernicus Marine Service
Version 1.2
U S E CASES
S A ND • FACT KE Y N UMBER S
In order to stand a chance to recover an object, pollutant or person lost at sea, it is vital to react quickly to narrow the search area. This tool does exactly that by forecasting the drift of the object thus insuring a better handle on the uncertainty of the location.
MS • CME P RODUCT I N U SE
This application requires wind and surface currents as a standard input and as a default, the Copernicus Marine Service Global Ocean model currents are used as surface current inputs. Product in use 1
E MS • CM USE R
Collecte Localisation Satellites (CLS) is a subsidiary of CNES, ARDIAN & IFREMER and a worldwide company and pioneer provider of monitoring and surveillance solutions for the Earth since 1986.
cls
More information here
www.cls.fr/
SAFETY & DISASTER
Contact Lucas Marc mlucas@cls.fr
COPERNICUS MARINE SERVICE 89
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.2
U S E CASES
IMPROVING SONAR COMMUNICATION BETWEEN DEFENCE VESSELS CASE • USE OVE RVIE W
The Defence Materiel Organisation (DMO) under the Dutch Ministry of Defence and the Netherlands Organisation for applied scientific research (TNO) are collaborating in order to improve underwater sonar communications between the Dutch Ministry of Defence?s sea-going vessels. The performance of a given sonar is critical for self protection. DMO and TNO have developed a sonar performance model, the most complex aspect of which by far is the propagation of sound in the ocean. Such models need to take into account the refraction of sound due to oceanic temperature and salinity variation in the water column, the reflection of sound at the surface, the influence of roughness (wave spectrum, wind speed, sea surface temperature) and bubble content at the surface, as well as the reflection of sound at the seabed. The DMO and TNO use the Copernicus Marine Service Mediterranean Sea and Global models as an input source for ocean density (temperature and salinity) in their sonar performance model. Gert Vlaming from DMO says that "we also soon expect to use the wave products from the Copernicus Marine Service".
E NE FIT S • BFOR USE R
Free and sustained information provision for oceanic water density. High quality information allowing realistic applied results. Provision of sustained and accurate oceanic water density and wave height for reliable underwater anthropogenic noise estimation.
DMO TNO DEFENCE SONAR COMMUNICATION ACOUSTIC GLOBAL OCEAN
SAFETY & DISASTER
Implemented by
90
Copernicus Marine Service
Version 2.2
U S E CASES
S A ND • FACT KE Y N UMBER S
Undersea warfare including sonars communication is strategic for all naval forces. Naval forces develop research and development activities, as well as test and evaluation to provide engineering and fleet support center for submarines, autonomous underwater systems, and offensive and defensive weapons systems associated with undersea warfare.
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. Product in use 1 Product in use 2
E MS • CM USE R
The Dutch Defence Materiel Organisation (DMO) ensures that military personnel have modern, robust and safe materiel to work with. The Dutch DMO is involved in the procurement, maintenance and sale of materiel.
DMO www.defensie.nl/organisatie/dmo
SAFETY & DISASTER
More information here
COPERNICUS MARINE SERVICE 91
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.0
U S E CASES
BACKTRACKING OF MH370 TRAJECTORY FROM LA RéUNION
CASE • USE OVE RVIE W
In March 2014, Malaysia Airlines Flight MH370 vanished in the South Indian Ocean with 239 passengers and crew on board. Debris has since washed up on the East African coast and on Indian Ocean islands, brought there by the ocean currents and winds. Thanks to the location of debris and the knowledge of the ocean currents and winds from numerical models, it is possible to trace their movements back to a possible location for the plane crash. Several research and oceanographer teams from GEOMAR (GER), ECMWF (UK), MERCATOR OCEAN (FR), NATIONAL OCEANOGRAPHY CENTER (UK) and CMCC (IT) have used these calculations to run computer oceanic models back in time, from the time the debris washed up on land back to the time the plane disappeared. These studies were able to come up with a possible location of where the plane had crashed, with a large error bar nevertheless. The Copernicus Marine Environment Monitoring Service global ocean model, including data of global surface currents and winds over the past two years, was used in these studies.
E NE FIT S • BFOR USE R
Help to focus the multinational search effort on a reduced area and save time, effort and money. New method proposing a possible location of where the plane had crashed, with a large error bar nevertheless.
MH370 MALAYSIA AIRLINES BACKTRACKING PLANE TRAJECTORY INDIAN OCEAN OCEAN CURRENTS GEOMAR ECMWF MERCATOR OCEAN CMCC NOC
SAFETY & DISASTER
Implemented by
92
Copernicus Marine Service
Version 2.0
U S E CASES
S A ND • FACT KE Y N UMBER S
The multinational search effort for the MH370 aircraft was the largest and most expensive in aviation history. The search began in the Gulf of Thailand and the South China Sea, and was soon extended to the Strait of Malacca and Andaman Sea. Backtracking of the MH370 trajectory using debris trajectories and knowledge on ocean currents helped to come up with a possible location of where the plane had crashed, with a large error bar nevertheless.
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. Physics Model over the Global Ocean is used in this application. It provides hydrodynamic forecast including high frequency processes of paramount importance to characterize regional scale marine processes. Product in use 1
E MS • CM USE R
GEOMAR (GER), ECMWF (UK), MERCATOR OCEAN (FR), NATIONAL OCEANOGRAPHY CENTER (UK) and CMCC (IT) are world leading institutes in the field of marine sciences. They investigate the chemical, physical, biological processes of the oceans and interaction with atmosphere.
www.geomar.de/en/centre/
SAFETY & DISASTER
COPERNICUS MARINE SERVICE 93
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.0
U S E CASES
HIGH RESOLUTION WIND FORECAST TO ASSESS ENVIRONMENTAL RISK CASE • USE OVE RVIE W
EXWEXs is a private company that provides high-resolution wind forecast to answer the oil&gaz, aviation, shipping and defense sectors and their issues related to extreme meteorological and climatic events. EXWEXs also provides routing services for sailing races such as the America cup. In 2017, EXWEXs was the official weather supplier of the team "Emirates team New Zealand" that won the cup. The oil&gaz, aviation, shipping and defense sectors require very accurate wind forecast from the poles to the tropical regions for their exploration and operational exploitation at sea. EXWEXs specialises in high-resolution wind forecast associated to convective system using both data from satellite observations and dedicated innovative model forecast. Convection is one of the major processes driving our weather. Convective structures in the atmosphere are complex to understand and are very hard to forecast at fine local scale. EXWEXs has developed a strong expertise in the understanding and representation of such convective structures which allow to provide an accurate weather forecast system at very local scale.
E NE FIT S • BFOR USE R
Provide high-resolution wind forecast for operations at sea in the i) oil and gaz ii) aviation iii) shipping and defense sectors Quantify environmental risk for insurance and re-insurance sectors Reduce environmental risk for operations at sea
HIGH-RESOLUTION WIND FORECAST ENVIRONMENTAL RISK CONVECTIVE CELLS OIL AND GAS AVIATION SHIPPING DEFENSE
SCIENCE & CLIMATE
Implemented by
96
Copernicus Marine Service
Version 2.0
U S E CASES
S A ND • FACT KE Y N UMBER S
Convection is one of the major processes driving our weather. Convection is one cause of rising air in our atmosphere, usually warm air rises above cold air. Convection is the principle motor of cloud formation and circulation on all scales as warm moist air is going upwards and colder, drier and denser air will be sinking downwards. In general, convection is the vertical transport and imply vertical motion. Evidence of convection happening in our atmosphere is seen with the formation and growth of cumulus clouds as well as strong winds and squall lines. Their understanding and physical representation or parameterisation are crucial to allow an accurate local weather and wind forecast.
MS • CME P RODUCT I N U SE
The Copernicus Marine Service ocean currents, waves and sea surface temperature products from both satellite observations and numerical models are used by EXWEXs to validate their high-resolution wind forecast model. For example, the correlation between ocean waves or swells and ocean surface wind are used to valide their model. Product in use 1 Product in use 2 Product in use 3
E MS • CM USE R
EXWEXs was created in 2012 to provide scientific and reliable answers to industrial and societal issues related to extreme meteorological and climatic events. The company develops its own scientific solutions to determine wind associated to convective system, wind gust, precipitation peak and polar ice-cover.
EXWEXS exwexs.com/
Contact Christophe Messager contact@exwexs.fr
SCIENCE & CLIMATE
COPERNICUS MARINE SERVICE 97
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 1.1 09/04/2018
U S E CASES
DATA.AWI.DE: A ONE-STOP SHOP PORTAL
CASE • USE OVE RVIE W
Over the last 2 decades, the Alfred Wegener Institute (AWI) Helmholtz Center for Polar and Marine Research has been continuously committed to develop and sustain an eResearch infrastructure for coherent discovery, view, dissemination, and archival of scientific data and information in polar and marine regions. Most of the data collected by scientists originates from research activities carried out on a wide variety of research platforms operated by AWI (vessels, aircraft, stations, buoys, moorings, in-situ ocean floor stations, drones, and ocean floor crawling systems). Archival and publishing in the information system PANGAEA along with DOI assignment to individual datasets is a typical end-of-line for most data producers. AWI has built O2A, a generic and cost-effective framework compliant with OGC standards, assuring interoperability at international level. The AWI DATA Portal http://data.awi.de is a key component with its one-stop-shop web interface supporting scientists in the discovery of various types of scientific content associated with AWI research platform. Some CMEMS Ocean Wind satellite data are displayed within this interface.
E NE FIT S • BFOR USE R
Graph-based visualization of near real-time and delayed-mode
and archived data in PANGAEA Map-based discovery of all research platforms operated by AWI
including metadata on all shipborne instrumentation
Map-based visualization of gridded data products Map-based visualization of tracklines for AWI-operated vessels and aircraft and dives for small vehicles
AWI ONE-STOP-SHOP PORTAL SCIENTIFIC DATA ARCHIVE AND INTERFACE POLARSTERN OGC COMPLIANCE
SCIENCE & CLIMATE
Implemented by
98
Copernicus Marine Service
Version 1.1 09/04/2018
U S E CASES
S A ND • FACT KE Y N UMBER S
To date DATA.awi.de brings together metadata on over 1540 expeditions, 1400 sensors, 370000 datasets and data products archived in PANGAEA, 40230 publications and 1740 field reports archived in AWI's publication repository EPIC. In particular, the past expeditions of Polarstern along with the description of the instruments on board are extensively documented.
MS • CME P RODUCT I N U SE
the DATA.awi.de portal is currently using the CMEMS data services to access the 6-hourly updated wind products from the 'Global Ocean Wind L4 Near Real Time 6 Hourly Observations'. The wind product is displayed in the collection 'ATM' for atmospheric observations. See https://data.awi.de/?site=collection&collection=atm Product in use 1
E MS • CM USE R
The Alfred Wegener Institute (AWI) is primarily active in the cold and temperate regions of the world. Working together with numerous national and international partners, AWI is actively involved in unravelling the complex processes at work in the Earth System. AWI coordinates the German polar research efforts, while also conducting research in the North Sea and adjacent coastal
Wegener Institute, Helmholtz Centre for Polar and Marine Research
regions in Germany
www.awi.de
Contact Roland Koppe Roland.Koppe@awi.de
SCIENCE & CLIMATE
COPERNICUS MARINE SERVICE 99
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 1.1
U S E CASES
OCEAN CURRENTS IN SUPPORT TO GLIDERS PILOTING
CASE • USE OVE RVIE W
Unmanned Underwater Vehicles (UUV) are used in oceanography thanks to their low cost and wide range of capabilities, in order to sample water profiles and support in situ ocean monitoring. Gliders are UUV that can change their buoyancy to dive and climb in the water column, describing a vertical saw tooth route. They get an effective but low horizontal speed and as result are strongly sensitive to ocean dynamics. Therefore, an effective path planning is needed to route them using ocean data. The University of Las Palmas de Gran Canaria has developed a smart visualization and piloting management tool (named PINZON-4D), that has been largely tested and exploited in the so-called Challenger glider operations. This smart viewing ocean data tool is based on Google Earth and generates continuous and discretized information about the bathymetry, 3D salinity, temperature and currents. The Copernicus Marine Service IBI and GLOBAL ocean model forecast products are used by the PINZON-4D in real time, and has been extremely useful information during the glider crossing missions.
E NE FIT S • BFOR USE R
Copernicus Marine Service Ocean Currents are key for the piloting
High spatial resolution and frequency model outputs are needed
of gliders crossing the ocean to better plan and pilote gliders crossing the ocean
GLIDER PATH PLANNING TRANS OCEANIC GLIDER MISSION UNIVERSITY OF LAS PALMAS DE GRAN CANARIA RUTGERS UNIVERSITY THE CHALLENGER MISSION
SCIENCE & CLIMATE
Implemented by
100
Copernicus Marine Service
Version 1.1
U S E CASES
S A ND • FACT KE Y N UMBER S
The first glider expedition that crossed the Atlantic Ocean in 2009 was a glider called Scarlet Knight. It was led by the Rutgers University (NOAA, TWR, IOOS) supported by Puertos del Estado and the Robotic & computational Oceanography Division (SITMA-ULPGC). Eight years later, the Challenger glider completed 6 crossing missions, including the first circumnavigation of the South Atlantic (2013 to 2016). It has now gathered more than 15,000 CTD sampling profiles. It is led by the Rutgers University (NOAA, IOOS, TWR, SITMA-ULPGC) supported by Puertos del Estado (Spain), Marine Institute (Ireland), Univ. of Sao Paulo (Brazil), Univ. of South Africa and the UTM of Western Australia.
MS • CME P RODUCT I N U SE
The Copernicus Marine Service ocean model forecast over the Iberia Biscay Irish sea (IBI) and the Global Ocean are used in this application. High resolution and frequency of the CMEMS products are needed for this application. Product in use 1 Product in use 2
E MS • CM USE R
The Integrated Marine Advanced Technology System (SITMA) is a transversal unit of the University of las Palmas de Gran Canaria in charge of the management and exploitation of the marine robotic vehicles fleet.
University of las Palmas de Gran Canaria www.sitma.ulpgc.es/en/ More information here Contact Antonio RAMOS antonio.ramos@ulpgc.es
SCIENCE & CLIMATE
COPERNICUS MARINE SERVICE 101
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
102
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
ECMWF www.ecmwf.int/
catalogue of forecast data that can be purchased by businesses worldwide.
More information here
SCIENCE & CLIMATE
COPERNICUS MARINE SERVICE 103
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 MéTéO-FRANCE
CASE • USE OVE RVIE W
Météo-France, the French meteorology agency, provides seasonal forecasts for many applications such as hydroelectric energy production management in Sweden and food security early warning systems in Ethiopia, among many others. Predicting ocean behaviour is essential, especially in the tropics, in order to provide accurate seasonal forecasts. Météo-France modelling techniques are based on ocean-atmosphere coupled models and simulations are performed both in real time and for a long reference period in the past. Patrick Josse from Météo-France says that High quality consistent initial oceanic states are needed, both in real time and over the last 25 years and are provided by the Copernicus Marine Service 3D global model product and also the high quality Sea Surface Temperature satellite product. Those two CMEMS products provide key input for seasonal forecasting activities.
E NE FIT S • BFOR USE R
Improve scientific community relations and public awareness. Increase accuracy of seasonal forecast, including el Nino event.
METEO-FRANCE FRANCE PUBLIC AGENCY GLOBAL OCEAN CLIMATE SEASONAL FORECASTING CMEMS SATELLITE PRODUCTS MODEL EU POLICY
SCIENCE & CLIMATE
Implemented by
104
Copernicus Marine Service
Version 2.0
U S E CASES
S A ND • FACT KE Y N UMBER S
El Nino is one of the main seasonal events and is closely studied by Météo France 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
CMEMS Satellite Sea Surface Temperature products used in this application merge data from several satellites. The CMEMS products used provide with global blended (L4 processing level) gridded estimation of the ocean temperature at 10 meter depth, merging the strengths of Microwave (i.e. temporal and spatial coverage) and Thermal Infrared (i.e. high accuracy and resolution) satellite radiometers measurements. Product in use 1 Product in use 2
E MS • CM USE R
Météo-France is the French meteorology agency, providing weather and seasonal forecasts on the French territories.
More information here Météo-France www.meteofrance.com/
SCIENCE & CLIMATE
COPERNICUS MARINE SERVICE 105
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 3
U S E CASES
NAUSICAA: DISCOVER THE MARINE ENVIRONMENT
CASE • USE OVE RVIE W
Nausicaá, the French national sea center in Boulogne-sur-Mer, France, focuses on exploring the marine environment, on understanding the relationship between man and the sea. With provisions of giant fish tanks, undersea exploration, and cutting-edge technology, all contributing to a sophisticated setting, it presents its visitors with a wide variety of information to understand and learn better. Nausicaá showcases exhibitions that are under constant improvements and renewals to inspire people to discover and love the sea. As an initiator and promoter of the Blue Society, it offers new solutions from the ocean. It is the largest aquarium in Europe. It was inaugurated in the year 1991 and has been considered since 1998 as the Centre of Excellence in Marine Environment Education by The United Nations Educational, Scientific and Cultural Organization (UNESCO)'s Intergovernmental Oceanographic Commission. The interactive and tactile application using the Copernicus Marine Service data has been been adopted since 2016 in the aquarium to inform the visitors about ocean evolutions in an educational and scientific way.
E NE FIT S • BFOR USE R
Educational tactile application to simulate a navigation
Interactive and tactile application to inform the general public on about ocean dynamics and its links with climate change. visual projection of oceanic currents
AQUARIUM TACTILE APPLICATION MARINE CONSERVATION
SOCIETY & EDUCATION
Implemented by
106
Copernicus Marine Service
Version 3
U S E CASES
S A ND • FACT KE Y N UMBER S
Nausicaá is the largest museum in Europe. It holds 60,000 creatures, 1600 different species, and 17,000m3 of water; its large viewing panel is 100m². It has received 17,000 million visitors in 28 years. Nausicaá's center has realized six European projects to raise awareness and valorize the Blue economy. It has been rewarded several times. Among these, Nausicaá has been awarded in 2008 for implementing medical training for the care of sea lions. With the help of a veterinary surgeon who specializes in the wellbeing of sharks, it conducted the world's first surgical operation on a sandbar shark belonging to Nausicaá.
MS • CME P RODUCT I N U SE Copernicus Marine Service's tactile application providing accurate data about the ocean Sea-temperature, sea-level, and current drifts analysis for the general public and different kinds of exhibitions.
E MS • CM USE R
Nausicaá is an aquarium settled in Boulogne-Sur-Mer, France, since 1991 and have welcomed more than 16 million visitors. The goal of the aquarium is to link man with the ocean through interactive and educational ways to improve marine life protection and conservation.
Nausicaa www.nausicaa.fr/ More information here
SOCIETY & EDUCATION
COPERNICUS MARINE SERVICE 107
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.5
U S E CASES
SUPPORTING OCEAN AWARENESS: CHILDREN FOR THE OCEANS CASE • USE OVE RVIE W
Children for the Oceans is a non-profit association that aims to protect the ocean. Created in 2018, after a worldwide sailing tour made by its founder, this organization has been supported by Mercator Ocean International and Copernicus Marine Service from the beginning for the deliverance of scientific accurate knowledge. Thanks to a young ambassador's network, Children for the Oceans presents awareness sessions worldwide focusing on three major threats: acidification, overfishing, and plastic pollution. It informs as many children as possible in the hope that an educated child today will be an aware citizen tomorrow. The sessions have been delivered in Madera, the Netherlands, the United States, England, Senegal, Spain, and Norway. Founder Thomas Lesage focuses on fighting pollution by partaking in international political conferences to highlight the importance of ocean protection for the young generation. During these international conferences, he tries to remind decision-makers that children need to be included in the decision processes
E NE FIT S • BFOR USE R
mapping and knowledge about ocean acidification
Understanding of substantial accumulation of plastics on the
More accurate oceanic data for fishing and aquaculture. coastlines and sea bottom
SOCIETAL AWARENESS PLASTIC POLLUTION OVERFISHING ACIDIFICATION
SOCIETY & EDUCATION
Implemented by
108
Copernicus Marine Service
Version 2.5
U S E CASES
S A ND • FACT KE Y N UMBER S
By 2050, there will be more plastic than fishes in the ocean if nothing is done. Indeed, every year, around 8 million tons of plastic is dumped in the ocean and 29% of commercial fish stocks are over exploited within the EU. Besides, acidification has been increasing, threatening diverse ecosystems and shellfish such as coral reefs. With the help of snowball effect, kids can inform most of their family members and thus have a more sustainable effect to preserve the ocean. Today, about 1000 children are assisted in an awareness session delivered by Children for the Oceans.
MS • CME P RODUCT I N U SE Knowledge and expertise about acidification, marine litter, overfishing, and Co2 flow. Detailed explanation about oceanography. Support for the realization of pedagogical tools.
E MS • CM USE R
Children for the Oceans is a non-profit organization aiming at raising awareness among children and policy makers to reduce ocean threats such as acidification, overfishing, and plastic contamination. Implanted in Toulouse, its network has now been developed in seven different countries. Being the NGO's founder Thomas Lesage has participated in some conferences with the Copernicus Marine Service.
More information here
SOCIETY & EDUCATION
COPERNICUS MARINE SERVICE 109
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 5
U S E CASES
SUPPORT TO CORAL REEF PROTECTION: CORAL GUARDIAN
CASE • USE OVE RVIE W
Coral Guardian is a non-profit founded in 2012 that aims to restore coral ecosystems by implicating local communities through a worlwide network of coral restoration, to raise awareness at an international level, and to participate in scientific discoveries. The organisation underlines the importance of a social, environmental and scientific approach to marine conservation. Coral Guardian launched the Blue Center to expand its participatory marine conservation model worldwide. Science contributes to this whole model especially through the scientific monitoring of the organisation's restoration techniques and the collection of data specific to coral ecosystems. They have adopted the motto and philosophy of Benjamin Franklin: "Tell me and I forget. Teach me and I remember. Involve me and I learn" and underline the importance of a social approach for marine conservation based on the basic needs defined by the Universal Declaration of Human Rights « All people must freely dispose of their natural wealth and resources . Under no circumstances should people be deprived of their own means of subsistence ».
E NE FIT S • BFOR USE R
expertise about ocean warming and ocean acidity mapping and knowledge about ocean acidification
CORALS PROTECTION PUBLIC AWARENESS ECONOMIC VALORIZATION MARINE ECOSYSTEMS MARINE CONSERVATION OCEAN ACIDIFICATION
SOCIETY & EDUCATION
Implemented by
110
Copernicus Marine Service
Version 5
U S E CASES
S A ND • FACT KE Y N UMBER S
In 40 years, 40% of corals have already disappeared and scientists agree that if nothing is done before 2050, they could all disappear. Corals are a habitat and a food resource for 25% of marine biodiversity and provides $29.8 billion in goods and services per year. Coral reefs are one of the most biodiverse marine areas. Coral Guardian has transplanted over 38 000 corals and there are 5.8 times more fish on their restoration area in just 4 years. They have alerted politicians in international conferences and more than 130 000 people about corals current conditions over the last years.
MS • CME P RODUCT I N U SE Global acidity maps Temperature anomaly maps Product in use 1
E MS • CM USE R
Coral Guardian is a French non-profit international organization dedicated to the conservation of coral reef ecosystems, raising awareness, scientific research and the development of marine ecosystems for communities that depend on them for subsistance. Coral Guardian aims to promote innovative approaches to marine conservation and encourage sustainable development models by exploring an array of
More information here
SOCIETY & EDUCATION
COPERNICUS MARINE SERVICE 111
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 6.1
U S E CASES
COMBATTING PLASTIC POLLUTION: EMILY PENN EXXPEDITION
CASE • USE OVE RVIE W
Emily Penn is a sailor and ocean advocate whose goal is to struggle against plastic and toxics pollution. As a sailor, she witnessed contamination and decided to create eXXpedition, an all-female expedition aiming at collecting plastic samples , delivering awareness sessions and finding solutions to negative environmental and health issues created by single-used plastics. Exxpedition aims at fighting plastic contamination by building a global network of multidisciplinary women who can contribute to world-class scientific studies. Emily Penn's work has helped inform to the global knowledge about plastic in the ocean, contributing data to 27 different studies with partner organisations around the world. Former expeditions have led to understand better the endemic nature of microplastics. From 2019 to 2021, as a wish to know better the plastic issue as a whole, Emily Pen eXXpedition "Round the World" will circumnavigate the globe via four ocean Gyres and the Arctic.
E NE FIT S • BFOR USE R
Co-creation of tools that can be used to educate people about
plastic convergence zones
First basin-scale vision of plastics at the sea surface Useful, free and sustained information provision to find plastic convergence zones.
PLASTIC WASTE DISPERSION PUBLIC AWARENESS THE PACIFIC GYRE MARINE LITTER POLLUTION
SOCIETY & EDUCATION
Implemented by
112
Copernicus Marine Service
Version 6.1
U S E CASES
S A ND • FACT KE Y N UMBER S
Plastic has been contaminating and destroying marine ecosystem for years. Since 2014, the eXXpedition crew has conducted 11 expeditions to understand the causes of and solutions to plastic pollution, collecting 75 samples across the Atlantic, the Amazon, the Carribean, Great Britain, the North Pacific. EXXpedition has now embarked on its most ambitious mission yet, circumnavigating the world collecting microplastics samples from the surface of the ocean, the subsurface, the subtidal sediment and back on land to understand where it's coming from and how we can stop the tap.
MS • CME P RODUCT I N U SE
Mercator Ocean and CMEMS provide eXXpedition drift calculations using ocean current data to locate the concentration of plastics in the five oceanic gyres. It is used as a tool in outreach talks and on the online tracker map to allow people to learn about how the currents impact plastic pollution. «The model, a clear visual aid based on real data, has been an essential tool for engaging with people and increasing their understanding of the movement of ocean plastic» says Emily Penn.
E MS • CM USE R
EXXpedition is an all-female sailing voyage conducting scientific research on microplastics in our ocean with a focus on pinpointing solutions to ocean plastic pollution back on dry land, founded by ocean advocate and skipper Emily Penn. Emily Penn's work has helped inform the global knowledge about plastic in the ocean, contributing data to 27 different studies with partner organisations.
Emily Penn www.emilypenn.co.uk/
SOCIETY & EDUCATION
More information here
COPERNICUS MARINE SERVICE 113
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.3 14 mars 2019
U S E CASES
HOW CAN ONE SURVIVE ON PACIFIC ATOLLS?
CASE • USE OVE RVIE W
The Danish publishing firm Lindhardt and Ringhof Education publishes scientific schoolbooks for high schools in Denmark, among which a physical geography book called GEOdetective: The authors of the book use the Copernicus Marine Service image displaying the regional mean sea level trends in the second chapter of their book. This image showcases that sea level has been rising up to 10 millimeters (i.e. 1 cm) around some of the Pacific islands during the time period 1993-2017. In this chapter the authors examine the question: How can one survive on pacific atolls? The GEOdetective book contains 8 courses built around real-life issues involving exercises, experiments, field trips and field work. The teaching model used in the book puts a case at the center, from which students analyze the problem from different angles. A natural red thread arises allowing the student to formulate a qualified answer. The book's course is based on questions among which 3 are related to the ocean: How can one survive on Pacific atolls? What happens when the ice melts? Why are plastic islands formed in the oceans?
E NE FIT S • BFOR USE R
easily understandable figures
Scientifically assessed trends
open source and free of charge information and graphics
SEA LEVEL RISE GLOBAL WARMING CLIMATE CHANGE SOCIETY AND EDUCATION FLOOD RISKS FORCING PEOPLE'S MIGRATION
SOCIETY & EDUCATION
Implemented by
114
Copernicus Marine Service
Version 2.3 14 mars 2019
U S E CASES
S A ND • FACT KE Y N UMBER S
Sea level rises on average over the globe of 1.2 mm per year. This trend has been estimated from 2005 to 2016, over the ocean depth layer 0-2000 meters. The uncertainty associated to this figure is of ± 0.2 mm/year. Sea level rise can seriously effect human populations in coastal and island regions and natural environments like marine ecosystems. Global mean and regional sea level is affected by natural climate variability, as well as by human-induced changes. Because of ocean warming and land ice mass loss, the sea level rises. Water expands when heated and about 30% of contemporary sea level rise can be attributed to this thermal expansion (i.e. thermosteric sea level).
MS • CME P RODUCT I N U SE
Ocean Monitoring Indicators (OMIs) are used in this application. OMI are free downloadable trends and data sets covering the past quarter of a century. These are key variables used to track the vital health signs of the ocean and changes in line with climate change. Product in use 1 Product in use 2
E MS • CM USE R
Lindhardt and Ringhof Education is a Danish book publishing company based in Copenhagen. The GEOdetective book can be used by teachers in the organization of teaching at both C and B level, so that a good progression in working methods, professional requirements and independence in the work process is ensured.
More information here Lindhardt and Ringhof Education
Contact Frederikke Carlsen frederikke.carlsen@lrforlag.dk
www.lru.dk/geodetektiven
SOCIETY & EDUCATION
COPERNICUS MARINE SERVICE 115
Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.0
U S E CASES
COMBATING MARINE LITTER POLLUTION
CASE • USE OVE RVIE W
The 7th Continent Expedition aims to build up awareness amongst general public, students as well as local industry and political stakeholders about the devastating impact of plastic waste dispersion in the ocean. Having studied plastic waste dispersion and accumulation in the ocean, the organisation strongly believes that public awareness and mobilisation must go hand-in-hand with research in order to put an end to this type of pollution. According to Patrick Deixonne, 7th Continent Expedition founder -We must all spread awareness about our impact on the ocean. Alexandra Ter Halle, CNRS chief scientist of the 7th Continent Expedition testifies that "Plastic debris is fragmented into tiny pieces (less than a millimetre) and is responsible for animal entanglement and the transport of invasive species and chemicals. CMEMS ocean model currents and sea level satellite maps allow us to locate plastic debris trapped in oceanic eddy structures, in order to sample and study its fragmentation".
E NE FIT S • BFOR USE R
High quality information allowing realistic applied results. Ready to use expertised ocean products. Useful, free and sustained information provision to find plastic convergence zones.
7TH CONTINENT EXPEDITION PLASTIC WASTE DISPERSION PUBLIC AWARENESS MARINE LITTER POLLUTION
SOCIETY & EDUCATION
Implemented by
116
Copernicus Marine Service
Version 2.0
U S E CASES
S A ND • FACT KE Y N UMBER S
For more than 50 years, global production and consumption of plastics have continued to rise. Plastic has many attractive qualities which have led to an over-consumption of plastic goods. However, durable and very slow to degrade, plastic materials have ultimately become waste with staying power. Plastic litter has become a large source of pollution, lethal to nature. The annual plastic production has increased globally of + 620% in the last 70 years. During year 2014, 311 million metrics tons of plastic were produced. In 2015, 5 to 13 million metric tons of plastic waste were available to enter into the ocean, through river discharge mainly.
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 relevant to find plastic convergence zones in the oceans.The global Ocean satellite sea level anomaly maps in real time and in the past are also used to find plastic convergence zones. It merges data from several satellites among which Sentinel-3. Product in use 1 Product in use 2
E MS • CM USE R
The 7th Continent Expedition aims to build up awareness amongst general public, students as well as local industry and political stakeholders about the devastating impact of plastic waste dispersion in the ocean.
www.septiemecontinent.com/ More information here
SOCIETY & EDUCATION
COPERNICUS MARINE SERVICE 117
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
10
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 FOR THE GLOBAL OCEAN
Implemented by
marine.opernicus.eu
@CMEMS_EU
Copernicus Marine Service
servicedesk.cmems@mercator-ocean.eu