Marine
- Project News
- Marine
May 20, 2021
No more haunting by ‘ghost nets’: bio-based and biodegradable nets could be the solution
Celebrating European Maritime Day (20 May 2021), researchers in Paphos, Cyprus organised a clean-up operation to collect ghost fishing nets and derelict fishing gear from the local seabed. Two partners from the EU-funded SEALIVE project, the NGO, AKTI Project and Research Centre and the environmental research and consultancy, ISOTECH Ltd organised the event in cooperation with local organisations, the Paphos Fishermen Association and the diving organisation, CYDIVE. “Ghost nets” are nets that have been either accidentally or deliberately lost, abandoned or discarded in the marine environment. While these nets, and other derelict or abandoned fishing gear, no longer serve any purpose for the fishing industry, the nets continue to entangle fish and other marine animals. This can have devastating effects on marine ecosystems. Fishing nets have been identified as an item of particular concern as part of the European Directive on Single-use Plastics that will come into effect in July 2021. The Directive includes actions to target the collection and recycling of old fishing nets. However, the collection of fishing nets that are lost accidentally at sea remains a challenge. SEALIVE is working to address these issues by developing bio-based fishing nets made from green alternative materials such as micro-algae. Production of the nets is more sustainable compared to those based on traditional fossil fuel plastics. The nets will also be compostable at an industrial scale. This is particularly important because recycling infrastructure for fishing nets is currently not available in most countries and the recycling of traditional fishing nets can be both labour-intensive and financially non-viable. SEALIVE’s goal is to enable a transition to biodegradable, compostable nets, coupled with supporting infrastructure for the collection of old nets. This will create a market for otherwise useless fishing nets, providing an additional incentive for the fishing industry to move to sustainable methods of disposal. In addition, if biodegradable nets are lost or discarded in the marine environment, they will degrade much faster than conventional nets, limiting their “ghost net” potential. ISOTECH will work with Cypriot fishermen to test SEALIVE’s biodegradable fishing nets in real-life conditions for 12 months. The results from this pilot test will help to evaluate the effectiveness and operability of the nets and contribute to the advancement of research and the development of more market competitive products. Commenting on the event, Ms. Anna Tselepou, representing AKTI, said “We are proud to work with our local and international partners to develop better, more sustainable ways of protecting our oceans. Fishing has always been important to Cyprus and we are working to enable and support our fishermen to move to more environmentally friendly practices that will protect our marine heritage for generations to come.”
- Project News
- Marine
March 23, 2021
EU project develops biobased and biodegradable ropes prototypes for offshore aquaculture
The EU-funded BIOGEARS project has developed its first biobased and biodegradable rope prototypes for offshore aquaculture. The prototypes are a significant step towards the project’s contribution to a more eco-friendly aquaculture industry. BIOGEARS aims to provide the European aquaculture sector with innovative products and a value chain to challenge the existing gap of biobased ropes (biogears) for offshore aquaculture, which are currently manufactured with 100% non-biodegradable (petrol-based) plastics. The next step is to test the prototype in field trials for validation at sea. Test facilities have been identified in different sea environments, including offshore high energy conditions in a longline system; low energy conditions in a raft system; and an Integrated Multi-Trophic Aquaculture (IMTA) system. Once started, the field demonstrations will test and monitor at least two production cycles with biobased ropes under best practices for eco-friendly aquaculture. These prototype biogears and pilot tests taking place in the BIOGEARS project aim to reduce the current technological gaps and extend the potential use of sustainable materials in the sector. The results of the project support creating a biobased value chain under the EU Bioeconomy Strategy framework. To read more about the prototype development please visit: biogears.eu, Twitter, LinkedIn or subscribe to news.
- Horizon Europe
- Project News
- Marine
December 8, 2020
AQUAEXCEL3.0 project launched to further boost European aquaculture
Eagerly awaited by the European aquaculture community familiar with the many benefits that the previous AQUAEXCEL projects provided, AQUAEXCEL3.0 has now officially launched. AQUAEXCEL3.0 aims to further boost the European aquaculture sector by, amongst others, expanding the Transnational Access programme to support even more external research teams collaborating with its high-quality facilities, providing free training courses on the latest topics and engaging closely with industry to ensure research is aligned with industry needs. Aquaculture now provides over half of seafood for human consumption worldwide. To meet the increasing demand for seafood globally, aquaculture is growing annually and has been the fastest growing animal production sector in the world for decades now. However, within the EU aquaculture production has been lagging behind and there remains a high dependency on imported fish for consumption. The aquaculture industry landscape is also changing, with new consumer preferences, growing concern for environment and animal welfare issues, new standards and effects of global climate change. Sustainable growth of the sector can only be achieved through efficient production of high value fish products in an environmentally and ethically responsible way, supported by high-level research and innovation. In order for the EU aquaculture sector to maintain its global leadership in aquaculture research and support the sustainable development of the sector, an open and inclusive dialogue between industry, science and policy, as well as between experts across different disciplines is required. AQUAEXCEL3.0 builds on the achievements of the previous AQUAEXCEL (FP7) and AQUAEXCEL2020 (H2020) projects, with the ambition to boost this effort in a user-centric approach. AQUAEXCEL3.0 will continue to have fish as its main target but will widen its scope by including shellfish and macroalgae research facilities to push towards lower trophic level aquaculture. Dr Marc Vandeputte, AQUAEXCEL3.0 coordinator, said “The continued engagement of the EC to support the AQUAEXCEL network really gives a chance to any researcher in Europe to run a project with the top aquaculture facilities available. This is a unique opportunity to give the best support to the best ideas. Aquaculture also needs better support for the public, and for this we will work on improving fish welfare and on recycling nutrients with algae, shellfish, worms and insects which can be used directly or as raw materials for aquaculture feeds ”. AQUAEXCEL3.0 will help to further boost European aquaculture by integrating 40 top class research facilities from biology to technology in all types of rearing systems, covering all major EU farmed species as well as promising new species, including at lower trophic levels. The project will expand access to high-quality services and resources, covering all scientific fields relevant to research and innovation in aquaculture. Through a strong partnership, the project will boost excellent research and sustainable innovation for both public and private sectors working in aquaculture. Almost 200 Transnational Access projects are planned over the duration of the 5-year project. These are expected to consolidate the global leadership of European aquaculture research, as researchers will be able to perform their research projects free of charge, with access to infrastructures which are not available in their country of origin. AQUAEXCEL3.0 will also provide online training courses that build upon the newest results and experience from previous courses. In addition, improving the use of animal experiments for research according to Reduction, Refinement and Replacement is integral to the AQUAEXCEL3.0 concept. For further information, please visit www.aquaexcel2020.eu for now, the new AQUAEXCEL3.0 website will be live in the new year. AQUAEXCEL3.0 (“Aquaculture Infrastructures for Excellence in European Fish Research 3.0”) is a research infrastructure project funded under the European Union’s Framework Programme for Research and Innovation, Horizon 2020, grant agreement number 871108. The project will run for five years from 2020 to 2025, with a total budget of €9.9 million ERINN Innovation are responsible for the communication and dissemination of the AQUAEXCEL3.0 project and results (WP3 leader) and are involved in the knowledge management and transfer of the project outputs through WP2, leading T2.2 on brokerage activities and events.
- Horizon Europe
- Project News
- Marine
November 9, 2020
TechOceanS launched to revolutionise ocean observations and measurements
International ocean technology experts from Cyprus, France, Germany, Greece, Ireland, Italy, Spain and the United Kingdom are uniting to develop a range of new in-situ sensing, imaging and sampling technologies (e.g. on robot submersibles) that will improve our understanding of the chemistry and biology of the oceans. Funded by a €8.9M grant from the European Union’s Horizon 2020 programme, TechOceanS – Technologies for Ocean Sensing – will pioneer five new sensors, two imaging systems, a novel sampler and an Artificial Intelligence-driven image processing methodology, all capable of robust operations at depths beyond 2,000 metres. TechOceanS will actively engage with scientists, manufacturers, marine stakeholders and resource managers to target “Essential Ocean Variables” that currently can only be measured by observations from a ship. The new technologies developed in the project will enable the capture of vital, previously inaccessible data on the ocean’s biogeochemistry, biology and ecosystems. The project’s highly interdisciplinary team ensures that the technologies developed will both expand our knowledge of the ocean’s interconnected systems and provide tangible benefits to those industries most directly reliant on them, such as fisheries and aquaculture. The data generated will also support conservation initiatives and provide vital information for policymakers. Professor Matthew Mowlem, TechOceanS Project Coordinator, said “TechOceanS is an ambitious project that has the potential to revolutionise how we measure and monitor our changing oceans. The exciting technology we’re developing will capture important data that will have a significant impact in diverse areas such as ocean conservation, resource management, blue economy and policy.” TechOceanS will deliver an unprecedented acceleration in the diversity and capability of sensors and measurement systems. Technical ambitions for the project include: piloting and demonstrating novel nucleic acid samplers and sensors targeting the genetic code of aquatic organisms to identify them and quantify their populations; improving imaging systems and image processing workflows so that machines can turn vast numbers of images into data about species, habitats and plastic pollution; producing optical primary productivity (plant growth) and multiparameter optical sensors to measure energy entering the base of the food web and to investigate water quality ; and creating biogeochemical and bio-assay enabled lab-on-chip sensors and microcytometers to measure a large number of parameters including: nutrients, carbon dioxide, trace metals, bio-toxins, pollutants, single celled organisms and microplastics. The future impact of these valuable technologies relies on their accessibility. Therefore, TechOceanS technology pilots will be low-cost and place minimal demands on existing infrastructure, allowing them to be made available for use by all countries regardless of resources. In addition to expanding scientific knowledge of the ocean, TechOceanS will focus on improving “ocean best practices” by working closely with the IOC-UNESCO to develop training and standards covering metrology and operation of measurement systems in addition to the application of management principles, standards, protocols and communications for open access data. In this way, the project will ensure the developed best practices are truly global, inclusive and transparent. Through the targeted technologies, diverse partner base and cooperation with concurrent projects, TechOceanS will contribute to the growth of scientific knowledge, the transfer of marine technology and other key components of the Blue Economy as described in international accords such as the UN’s Sustainable Development Goals, the G7 Future of the Seas and Oceans Working Group, the Paris Climate Agreement, the UN Decade of Ocean Science for Sustainable Development and the EU Marine Strategy Framework Directive. Dr Patricia López-García, one of the TechOceanS project managers, said “In addition to the work carried out within the project, TechOceanS will form mutually beneficial links with a number of other projects over its lifetime, such as Nautilos, EuroSEA, Blue-Cloud, iAtlantic, AtlantECO, Euro-Argo ERIC, MISSION ATLANTIC and others. Through these synergies, we are excited to contribute to a brighter future for our world’s seas.” The TechOceanS launch meeting will be held on Tuesday 10 November 2020. The first priorities for the project will include targeting key enabling innovations and establishing cross-cutting research activities to accelerate the development of targeted technologies and forming plans with target dates for their testing demonstration and roll out. For more information, follow @TechOceanS on Twitter, join the LinkedIn group TechOceanS and (from December 2020) check out the project website at www.techoceans.eu. TechOceanS (“Technologies for Ocean Sensing”) is a research and innovation action funded under the European Union’s Framework Programme for Research and Innovation, Horizon 2020, grant No. 101000858. The project will run for four years from 2020 to 2024, with a total budget of €8.9 million. The multi-stakeholder, multi-disciplinary TechOceanS team represents leading organisations in ocean science, technology, policy and industry in Europe. The project is coordinated by the National Oceanographic Centre (NOC) in the UK. The 13 European partners represent a total of 8 countries: Cyprus (Cyprus Subsea Consulting and Service), France (SU), Germany (AWI, GEOMAR), Greece (Idryma Technologies), Ireland (DCU, Intrigo, AquaTT), Italy (SZN), Spain (PLOCAN) and the United Kingdom (NOC, UoS, Chelsea Technologies). ERINN Innovation is leading Work Package 12 From Innovation to Knowledge Transfer and Exploitation to Impact and is participating in Work Package 2 Dissemination, Communication, IP Protection and Stakeholder Engagement, Work Package 7 Data and Knowledge Management.
- Project News
- Innovation and Knowledge
- Marine
October 23, 2020
Water JPI Knowledge Hub on CEC outputs released
The protection of our environment and natural resources is very important in today’s society. A major focus is on climate change, mitigation and adaptation – a core issue of which is the availability, quantity and quality of our water resources. However, millions of people who receive high quality safe drinking water every day are at risk from, amongst other factors, animal and human wastes, pesticides, emerging contaminants, risks from “established” contaminants, aged water supply infrastructures, and sub-optimal water management. Ever more chemical constituents are used in modern society – population growth has fuelled the use of sanitary, household and personal care products, advanced medicines and therapies, and intensified food production. Over 4000 new substances are being added daily to the Chemical Abstracts Service (CAS) alone. In particular, contaminants of emerging concern (CECs), contaminants which are not commonly monitored but are suspected to have adverse ecological and human health effects, can end up in wastewater by application and use. Existing water treatment plants do not remove all CECs from wastewater, and can change the chemical structures of others, which are then released into the environment. A substantial step forward is required to revise current legislation, which should introduce proactive measures to account for these escalating contaminants and ensure a sustainable water cycle with water suitable for reuse, for the benefit of the environment and for water users. Leading national experts have been brought together by the Water Joint Programming Initiative (Water JPI) to collaborate in a Knowledge Hub focused on Contaminants of Emerging Concern (KHCEC). The KHCEC seeks to “address knowledge gaps as well as to consolidate knowledge regarding the behaviour of emerging contaminants in the environment…..and their long-term impact on the health and lives of ecosystems and citizens”. To that end, the hub has just published a “Stakeholder Brief” providing an overview of current knowledge of CECs, detection methods and treatment options, with key messages to address these issues going forward. It is hoped that the brief will stimulate debate among water stakeholders and encourage multi-stakeholder collaboration to bring about change. In addition to the brief, the hub will release infographics via social media channels in the coming weeks to invite conversations with citizens on the issue. “It is crucial to act as a knowledge broker in order to tackle this challenge, informing policymakers and other stakeholders of the latest science-based findings, including new knowledge and innovations” said Dominique Darmendrail, Water JPI Coordinator from the French Research Funding Agency, ANR. As the KHCEC work progresses into its next phase, this newly developed resource and the latest updates from the group are available on the Water JPI website (www.waterjpi.eu/implementation/thematic-activities/water-jpi-knowledge-hub-1/water-jpi-knowledge-hub-on-contaminants-of-emerging-concern). For more information, please visit the Water JPI website (www.waterjpi.eu), the Water JPI twitter page (@WaterJPI). ERINN Innovation was involved in the work of the KHCEC as facilitator to support the Seed Group and the Scientific Coordinator, and ensure the KHCEC’s objectives were reached.
- Project News
- Marine
October 23, 2020
IATiP innovation interviews now live
The Irish Aquaculture Technology and Innovation Platform (IATiP) is an active, multi-stakeholder platform that facilitates the exchange of information, supports knowledge transfer and stimulates collective action within the Irish aquaculture sector. It is intended that the platform will facilitate sustainable development, assure conditions for growth and promote innovation within the industry. IATiP acts as the Irish ‘Mirror Platform’ of the European Aquaculture Technology and Innovation Platform (EATiP). They have recently launched a series of online interviews with researchers and experts in the aquaculture industry. The interviews can all be viewed here: https://iatip.ie/resources/interviews/ ERINN Innovation are supporting the IATiP Secretariat and manage the website.
- Horizon Europe
- Project News
- Marine
September 28, 2020
Mission Atlantic project launched to map and assess sustainable development of the Atlantic Ocean
International ocean experts from Europe, Brazil, South Africa, Canada and the USA have joined forces to map and assess the current and future risks from climate change, natural hazards and human activities to Atlantic ecosystems. Funded by a €11.5M grant from the European Union’s Horizon 2020 programme, MISSION ATLANTIC will be the first initiative to develop and systematically apply Integrated Ecosystem Assessments (IEAs) at Atlantic basin scale. This unique IEA approach engages scientists, marine stakeholders, and resource managers, integrating all components of the ecosystem, including human activity, into the decision-making process. In this way, managers and policy makers informed by science, can balance the need for environmental protection with secure, sustainable development, thereby ensuring a positive future for the Atlantic Ocean and its peoples. Patrizio Mariani, MISSION ATLANTIC Project Coordinator, said “In an era of rapid transformations affecting our societies and our lives, we are asked to provide the scientific knowledge necessary to face future challenges and to guarantee a sustainable future for the next generations. By studying the complex Atlantic Ocean ecosystems, MISSION ATLANTIC will contribute to a better and more sustainable future for life on Earth.” Using high-resolution ocean models, artificial neural networks, risk assessment methods and advanced statistical approaches, MISSION ATLANTIC will accurately assess pressures imposed on Atlantic marine ecosystems, identifying the parts most at risk from natural hazards and the consequences of human activities. The team will combine existing data from global ocean monitoring programmes with new observations collected using advanced marine robots and acoustic sensors. A truly multidisciplinary approach, these tools will be used to explore plankton and fish distribution in unknown waters, including sub-Arctic and Tropical regions in the Atlantic Ocean. In addition to expanding scientific knowledge of the Atlantic Ocean, MISSION ATLANTIC will focus on improving education and professional development opportunities in countries bordering the North, South and Tropical Atlantic Ocean. Regional stakeholder platforms will act as “science to governance” interfaces in these areas, enabling local communities to engage with their representatives and stimulate effective policies. Through co-creation of management recommendations, MISSION ATLANTIC, will contribute to the commitments outlined in the Belém Statement on Atlantic Ocean Research and Innovation Cooperation between the European Union, Brazil and South Africa, and as part of the UN Decade of Ocean Science (2021-2030), supporting society in achieving a sustainable ocean. Michael St. John, MISSION ATLANTIC Policy lead and Belém Panel Chair, said “In support of the Belém statement, MISSION ATLANTIC will be a catalyst in linking research activities in the South Atlantic and Southern Ocean with those in the North Atlantic. It will identify and strengthen synergies between the Atlantic Research Agenda, AIR Centre; Joint Programming Initiatives, as well as the Strategic Forum for International Science and Technology Cooperation, the European Union’s Earth Observation and Monitoring programme – Copernicus, and the Benguela Current Commission. Through its activities, MISSION ATLANTIC will optimise the use and sharing of research infrastructures and, via the development of state-of-the-art data methodologies, enhance access to and management of data on the stressors and services provided by Atlantic ecosystems. Finally, and critically, the project will provide the knowledge and tools necessary to sustainably manage Atlantic ecosystem services as they are impacted upon by climate change and human activities.” More information coming soon on www.missionatlantic.eu | Follow us on twitter: @MISSIONATLANTIC Image caption: Tourism, maritime transport, and small-scale fisheries are among the human activities to be assessed in MISSION ATLANTIC’s IEA approach, which will ultimately enable local communities to engage with ocean governance policies and ensure a positive future for the Atlantic Ocean and its peoples. [Image taken in Buzios, Brazil © Patrizio Mariani] MISSION ATLANTIC (“Towards the Sustainable Development of the Atlantic Ocean: Mapping and Assessing the present and future status of Atlantic marine ecosystems under the influence of climate change and exploitation”) is a research and innovation action funded under the European Union’s Framework Programme for Research and Innovation, Horizon 2020, grant No. 862428. The project will run for five years from 2020 to 2025, with a total budget of €11.5 million. The 32 strong multi-stakeholder, multi-disciplinary MISSION ATLANTIC team represents leading organisations in ocean science, policy and industry based in Europe (Belgium, Denmark, France, Germany, Iceland, Ireland, Norway, Portugal, Spain, Sweden and United Kingdom), South America (Brazil), South Africa and North America (Canada and USA). The project is coordinated by Danmarks Tekniske Universitet (DTU) in Denmark. ERINN is supporting Work Package 9 in MISSION ATLANTIC, Societal Engagement and Communication. The 27 European partners represent a total of 11 countries: Spain (AZTI, PLOCAN, IEO), Norway (IMR, MROB), France (CLS, IFREMER), Belgium (SSBE, VLIZ), United Kingdom (MBA, PML, STRATH, USTAN, NOC, UPL), Denmark (DTU, ICES), Sweden (WMU, SU), Germany (UH, UBH), Portugal (AIRC, UPO, IMAR), Ireland (Intrigo, Marine Institute) and Iceland (MFRI). UFSC and USP are partners in Brazil and UCT and SANBI in South Africa and MUN in Canada. Associated government research partners include the U.S. National Oceanic and Atmospheric Administration (NOAA) and Fisheries and Oceans Canada (DFO).
- Project News
- Marine
January 17, 2020
SEALIVE project kick-started in the fight to save our planet from plastic pollution
A pioneering new project funded by the European Union will bring advanced bio-based plastic solutions to the market, providing viable alternatives to single-use plastics. ‘Strategies of circular economy and advanced biobased solutions to keep our lands and seas alive from plastics contamination’, or SEALIVE, aims to reduce plastic waste and contamination in our environment by boosting the use of biomaterials and contributing to the circular economy with cohesive bio-plastic strategies. Eight end-applications including food packaging, cutlery and fishing nets will be upscaled, demonstrated and validated by the 24 project partners across six different regions spanning from Europe to South America. SEALIVE will combine its advanced bioplastic solutions with cutting-edge processing technology and develop sustainable business models for their use. By improving current bio-based formulas as well as developing new solutions made from aquatic biomass and organic waste, SEALIVE’s products will avoid traditional plastic ending up as waste. The new solutions will have increased durability so they last longer, better design enabling more efficient recycling and increased biodegradability so they break down after their use. The team of over 50 applied scientists, and business people from all stages of the plastics value chain came together at a kick-off meeting in Valencia, Spain, to initiate the project’s activities and discuss plans for the next four years to ensure SEALIVE meets its ambitious objectives. Project Coordinator Miriam Gallur from ITENE highlighted during this event, held on 13-14 November 2019, that: “SEALIVE will have far-reaching impacts, not only reducing pollution on land and in seas, but also offering unexploited opportunities for circular economy solutions.” Supporting the European Commission’s Plastics Strategy (COM/2018/028 final), SEALIVE results will contribute to a greater understanding of the technical, economic and social barriers of current bio-based applications. It will also build a strong reference framework for policy makers to advance legislation and further investment in this area. Recommendations for new standards from the SEALIVE project will aid the adoption of viable circular strategies in the fight to save our planet from plastic pollution. More information coming soon on www.sealive.eu Follow us on Twitter @EU_SEALIVE Contact Project Coordination Miriam Gallur (miriam.gallur@itene.com) and Marian Garcia Fernandez (marian.garcia@itene.com) or Communications Officer Annette Wilson (info@erinn.eu). The SEALIVE project will run from 2019 – 2023 with an overall budget of €10.5 million. “SEALIVE – Strategies of circular Economy and Advanced bio-based solutions to keep our Lands and seas alIVE from plastics contamination” is funded by the European Union Horizon 2020 funding programme. ERINN Innovation are leading WP8: Communication, Dissemination, Knowledge Transfer and Exploitation of Project Results.
- Project News
- Marine
December 11, 2019
New EMFF project “BIOGEARS” launched to develop biobased ropes for aquaculture
BIOGEARS is a new innovative project funded by the European Union under the European Maritime and Fisheries Fund that is set to develop biobased gear solutions for the creation of an eco-friendly offshore aquaculture sector using a multitrophic approach and new biobased value chains. The project aims to provide the European aquaculture sector with innovative products and a value chain to challenge the existing gap of biobased ropes for offshore aquaculture, nowadays manufactured with 100% non-recyclable plastics. BIOGEARS will foster an eco-friendly aquaculture industry with the results of the project creating a biobased value chain under the EU Bioeconomy Strategy framework. BIOGEARS uses an Integrated Multi-Trophic Aquaculture (IMTA) approach by integrating seaweed with mussel production, which aims to increase aquaculture marketable products. The current use of biobased plastic (produced from biomass renewable resources that can biodegrade in different environmental conditions) only represents about one percent of the 335 million tonnes of plastic produced annually. The BIOGEARS project will develop biobased ropes that though durable and fit-for-purpose, still biodegrade in a shorter time and can be sustainably managed by local composting facilities. The project therefore follows the principles of the EU’s Bioeconomy Strategy and supports forthcoming policy on marine litter and plastic use. It is important to balance the functionality and biodegradation behaviour of the biobased ropes in order to develop the right biobased formulation for the aquaculture sector. The research, prototype development and pilot tests taking place in BIOGEARS will aim to reduce the current technological gaps and extend the current potential use in the sector. As part of the project a BLUE LAB will be created to enhance cooperation between all partners of the project and enable them to track innovation related to the application of their new biobased materials to develop aquaculture ropes. It will be supported by knowledge transfer activities throughout the project to ensure that results and new biobased products will reach relevant end users and transform the aquaculture sector. At the kick-off meeting on 11 December 2019 in AZTI offices in Derio, Spain, we heard from the Project Coordinator Leire Arantzamendi that BIOGEARS hopes to boost more eco-friendly mussel and seaweed production. She said “We will generate three rope prototypes with a highly reduced carbon footprint along the whole value chain. The aim is to develop these as marketable products, whilst minimising the potential of aquaculture to generate marine litter or release plastic to the sea.” As the only project within the EMFF-BlueEconomy-2018 (Blue Labs) call that has a geographical focus on the Atlantic Basin BIOGEARS therefore represents an exciting research area for this region. More information coming soon on www.biogears.eu Follow us on twitter: @BIOGEARS_EU Or contact Project coordinator Leire Arantzamendi (larantzamendi@azti.es), or Communications Officer Jane Maher (info@erinn.eu) The BIOGEARS project will run from 2019 – 2022 with an EU contribution of €945,000, funded by the European Union EASME EMFF programme under the EMFF-0102018 Blue Labs call. ERINN Innovation are leading WP7: Dissemination, communication and outreach activities, and are involved in WP6: Measures for the transferability of project activities and results.
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ERINN Innovation is a value-driven company owned by the staff who support research and innovation to have impact.
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ERINN Innovation Ltd
Company Number: 600883 (Ireland)
Directors
David Murphy (IE/UK)
Laura Richardson (IE)
Marieke Reuver (NL)
Michael Papapetrou (GR/IE)
Reid Hole (NO)
