I have more than 10 years of experience in studies of invertebrate species, particular focus on oyster species with the perspective of aquaculture and environmental research. I have experience in invertebrate hatchery techniques, from broodstock conditioning to reproduction, larval and post-larval culture, as well as in farming techniques in lagoons, estuaries and marine environments. Experience in monitoring natural populations of invertebrate species, with the aim to preserve the stock or in the context of restocking activities.
Director of Shellfish Harvest / Coastal Restoration Business Development, Running Tide Technologies, USA/Iceland
Ostrea edulis, Crassostrea gigas, Crassostrea angulata, Other Bivalve Species Aquaculture, Ecosystem Service Quantification, Oyster Habitat Restoration, Seed Production, Site Selection, Oyster Supplier (Grow-out, Hatchery)
Exploring business partnerships and affiliations to deploy our cutting restoration technologies and ecosystem services for scalable and mobile seed and nursery operations - shellfish restoration application.
I'am currently employed as a Science Officer with the Shellfish Centre Wales based at Bangor University. I have worked with native oyster population dynamics for more than 20 years. My particular expertise is the passive / benign approach to bivalve restoration. I have extensive experience in establishing, monitoring and augmenting both subtidal and intertidal native oyster, pearl oyster and horse mussel populations. I' am a predictive population modeler of invasive bivalve species, with Magallana gigas and Pinctada radiata species of interest. I'am currently working on the DAERA funded; Native Oysters Northern Ireland project (NONI) and the Ulster Wildlife Trust Blue Carbon Habitats project. I, am also connected with the Zoological Society of London "Wild Oysters" restoration hub at the Conwy Estuary Wales.
Ostrea edulis, Other Bivalve Species Aquaculture, Seed Production, Oyster Supplier (Grow-out, Wild Fishery)
We have been growing Ostrea edulis for years now in Croatia to be sold as fresh to the restaurants and directly to final customers. We are very interested in keeping our growing location disease free and to work on projects that will improve the biology and technology of growing flat oysters. At the moment we collect our spat from the wild on collectors but would like to get access to a hatchery or to build our own in the near future.
I have almost 30 years of experience in studies of marine bivalves, both from the perspective of their aquaculture and from their use in environmental research. I have extensive experience in bivalve culture techniques from broodstock, larval culture and seed, as well as in the assessment of physiological rates that integrate the energy balance in order to estimate their energy potential or SFG (scope for growth). I have also been interested in the nutritional requirements and digestive biochemistry of different species of bivalves, mainly during growing, in order to develop alternative diets. I have been involved in pollution and toxicological studies using bivalves as biomonitors and species model. Actually, I am promoting, together with almost 20 scientists from different disciplines, the recovery of the environmental quality of the Mar Menor lagoon (SE Spain), severely affected by eutrophication, by the restoration of the flat oyster beds.
Our goal at OSH is to provide disease free O. edulis spat of the highest quality for habitat restoration and grow out purposes. We utilise high intensity influent and effluent sterilisation as well as a number of RASs and novel spawning and setting systems to achieve high levels of biosecurity.
Breeding flat oysters for Bonamia resistance in Denmark
I have worked with spatting ponds for 8 years and have found it works really good for flat oyster production and spat on shell for bottom culture production I am interested in spatting ponds and bottom culture and ways to improve that Restauration is in my view bottomculture without harvest, so my experience would translate very well for that.
Ostrea edulis Biosecurity, Disease, Historical Ecology, Invasive Species, Monitoring, Oyster Habitat Restoration, Public Outreach, Seed Production, Site Selection
All Dutch native oyster retoration projects, in one way or the other
As one of the initiators of native oyster restoration in Dutch waters, I am currently functioning as an informal network coordinator, operating between the various restoration projects and related organisations. With the purpose of stimulating cooperation and exchange of information, in order to speed up the learning curve we have to go through. As member of the NORA Advisory Board I also attempt to stimulate cross-border cooperation and information exchange at a European level.
Orasay Edulis is based on the island of Barra in the Western Isles of Scotland. We take seed from disease free hatcheries and grow them using the latest aquaculture methods to get the best growth and survival. The waters around Barra do not have a population of edulis. We know this because neither divers nor dredgers have found live stock; there are no old shells turning up on our shores; our local Pacific oyster farm sees no settlement of edulis on either shells or on equipment. All of the above is very important for biosecurity reasons. We recently (July 2020) took in 100,000 O. edulis seed from Morecambe bay hatchery and have been growing them in suspended culture. Growth and survival has been good to date. We are happy to discuss supply of stock to meet your project's needs.
Atlantic Shellfish Ltd. has been breeding O. edulis since 1969, by using 22 breeding ponds in Cork Harbour, capable of producing 100 tonnes / year of marketable oysters. The ponds are used to produce spat, which are then grown and fattened in the North Channel of the harbour. The company mainly supplies the restaurant market, with fully grown, well graded oysters, packed to the customers need. Atlantic Shellfish also is running the Loch Ryan wild native oyster fishery in South West Scotland, which has a sustainable, natural production of O. edulis which is free from Bonamia. These are mostly harvested for the restaurant market also. The company has depuration tanks in London, and is able to supply the UK market overnight with O. edulis and C. gigas, along with exports from Heathrow.
Assistant Professor, DEPT OF ANIMAL PRODUCTION, FISHERIES & AQUACULTURE, Greece
Ostrea edulis, Other Bivalve Species Aquaculture, Invasive Species, Monitoring, Seed Production, Site Selection
John A. Theodorou is a Shellfish Biologist (MSc University of Wales at Bangor, UK) specialized in Aquaculture and the Fisheries Product Quality Management & Marketing (Hull University, UK). His Ph.D. thesis referred to the Risk Analysis of the Mediterranean mussel farming (Ph.D. Gent University, Belgium). He has 20 years of hands-on experience in mussel farming and contributed to over 30 industrial and academic projects. As an expert, he contributed to the development of the FAO-GFCM Shellfish Demonstrative Centre in the Black Sea (2018). He coordinates 3 ongoing projects related to the: effects of the pearl oysters (i) and ascidians (ii) in shellfish activities and the (iii) use of aquaculture techniques for population recovery of the endangered Pinna nobilis. He is served as Assistant Professor in the School of Animal Production, Fisheries & Aquaculture, Patras University, Greece. He published 22 research papers and contributed to 13 book chapters of concerned actions.
Researcher, Instituto Español de Oceanografía, Spain
Ostrea edulis, Crassostrea gigas, Other Bivalve Species Aquaculture, Seed Production
The Mar Menor Oyster Project
I have more than 15 years of research experience in bivalve aquaculture (oysters, clams and razor clams). I have worked as researcher in academia and also as Research and Development engineer in private hatcheries. My research focus on the development of hatchery and nursery rearing for bivalves; embryological and larval development of bivalves; the impact of microbiology on hatchery culture of bivalves; nutritional and biochemical studies of diferent phases of bivalve culture; and bivalve selective breeding.
PhD researcher, University of Portsmouth, United Kingdom
Ostrea edulis, Other Bivalve Species Aquaculture, Biosecurity, Disease, Genetics, Invasive Species, Oyster Habitat Restoration, Seed Production, Oyster Supplier (Hatchery)
Solent Oyster Restoration Project
I am a marine biologist, specialised in Marine Ecology, currently PhD student at the Institute of Marine Sciences of Portsmouth (University of Portsmouth, UK). My research involves the hatchery production of the native oyster O.edulis as spat-on-shell for restoration in the Solent. I am investigating the genetic implications surrounding the employment of locally adapted broodstock from disease-affected areas, for the hatchery production of native oyster seed for restoration purposes, monitoring the genetic diversity and potential disease-resistance during the whole production process. I am also investigating the mechanisms of competitive exclusion of C. fornicata, assessing the factors responsible for the inhibition of O. edulis natural recruitment in the Solent. During my most recent work experience, I've been running an aquarium based experiment to investigate the role of microplastics as pathogen vectors. All my previous experiences include projects related to the biodiversity and conservation fields of study.
A marine biologist with long history in oyster restoration and wild fisheries management. He developed and run a successful restoration project in Swansea Bay (Wales) which has reported early indications of spill over and recruitment. An advisor to UK Government agencies he has recently produced a number of advice documents and strategy reports. He is currently involved in restoration projects in Wales and Cornwall and has advised on a number of similar projects across the UK. Most recently he has developed a commercial oyster farm in Pembrokeshire which grows Ostrea edulis for restoration alongside a commercial crop of Crassostrea gigas to support the activity. The next step is development of spatting ponds to produce cost-effective native oyster seed.
MASTS Reader / Associate Professor, Hariot-Watt University, UK
Ostrea edulis, Other Bivalve Species Biosecurity, Disease, Ecosystem Service Quantification, Invasive Species, Monitoring, Oyster Habitat Restoration, Public Outreach, Seed Production, Site Selection
Dornoch Environmental Enhancement Project
Societal benefits, restoration, ecology, biodiversity & monitoring of: 1. Shellfish reefs, 2. Marine Protected Areas 3. Priority habitats of nature conservation importance, The win-win between biodiversity conservation, ecosystem function and marine development Biodiversity mapping and management in Marine Spatial Planning Sustainable development and habitat use by species of high biodiversity conservation importance
Scientific Officer, Blue Marine Foundation / University of Portsmouth / University of Southampton, United Kingdom
Ostrea edulis, Crassostrea gigas Aquaculture, Biosecurity, Disease, Invasive Species, Monitoring, Oyster Habitat Restoration, Public Outreach, Seed Production, Site Selection
Solent Oyster Restoration Project / The Wild Oysters Project
Primarily focused on providing a strong scientific foundation for the Solent Oyster Restoration Project, my intrests are broad as there are many issues to consider within our system. My previous research has involved invasive species, restoration aquaculture systems, disease and associated biodiversity. More recently we have been working on scaling up reef restoration and I have been encouraging the movement towards integrated ecosystem restoration (Oysters, Saltmarsh, Seagrass and Kelp). Outreach, communication and engement with a range of audiences is also something that I keen to develop across Europe following our successful activities in the UK.
My conversation priority is the interconnected restoration of coastal habitats, particularly oyster reefs, seagrass and saltmarsh. My research is focused on the ecology of these species and habitats, and thier interactions with environmental pressures such as climate change, microplastics, disease, invasive species and excessive nutrients (eutrophication). I am also intersted in host-pathogen interactions in filter-feeders, and genetic adaptations and diversity of the native oyster. In 2017 I founded the UK and Ireland Native Oyster Restoration Network in collaboration with the Zoological Society of London, which aims to catalyse a national approach to oyster habitat restoration via action, communication and providing evidence for policy change. I'm an advisory board member for the European Native Oyster Restoration Alliance and a founding member of the Solent Oyster Restoration Project team, led by Blue Marine Foundation, for which I act as an technical and scientific advisor alongside active restoration practice.
Senior researcher, IVL Swedish Environmental Research Institute, Sweden
Ostrea edulis, Crassostrea gigas Aquaculture, Biosecurity, Ecosystem Service Quantification, Invasive Species, Monitoring, Seed Production
Sustainable use of bivalve populations with special emphasis on management of native and non-native bivalves and aquaculture. More specifically in aquaculture: semi-intensive and extensive seed production of oysters and mussels and developmen of new protocols and techniques for grow out. restoration efforts. More specifically in management: interactions between native and non-native species, ecosystem services, management of invasive species and monitoring of native species. Strong focus on applied aspects and research-industry collaboration.
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