6533b7d5fe1ef96bd1265325
RESEARCH PRODUCT
The essentials of marine biotechnology
Ana RotterMichéle BarbierFrancesco BertoniFrancesco BertoniAtle M. BonesM. Leonor CancelaM. Leonor CancelaJens CarlssonMaria F. CarvalhoMarta CegłowskaJerónimo Chirivella-martorellMeltem Conk DalayMercedes CuetoThanos DailianisIrem DenizAna R. Díaz-marreroDragana DrakulovicArita DubnikaChristine EdwardsHjörleifur EinarssonAyşegül ErdoğanOrhan Tufan EroldoǧanDavid EzraStefano FaziRichard J. FitzgeraldLaura M. GarganSusana P. GaudêncioMarija Gligora UdovičNadica Ivošević DenardisRósa JónsdóttirMarija KataržytėKatja KlunJonne KottaLeila KtariZrinka LjubešićLada Lukić-bilelaManolis MandalakisAlexia Massa-gallucciInga MatijošytėHanna Mazur-marzecMohamed MehiriMohamed MehiriSøren Laurentius NielsenLucie NovoveskáDonata OverlingėGiuseppe PeraleGiuseppe PeraleGiuseppe PeralePraveen RamasamyCéline ReboursThorsten ReinschFernando ReyesBaruch RinkevichJohan RobbensEric RöttingerEric RöttingerVita RudovicaJerica SabotičIvo SafarikIvo SafarikSiret TalveDeniz TasdemirDeniz TasdemirXenia Theodotou SchneiderOlivier P. ThomasAnna Toruńska-sitarzGiovanna Cristina VareseMarlen I. Vasquezsubject
0301 basic medicine[SDV.BIO]Life Sciences [q-bio]/Biotechnologylcsh:QH1-199.5Stakeholder engagementOceanographyResponsible research and innovation (RRI)challangesNatural-productsResponsible research and innovation0302 clinical medicineMarine bioeconomyIn-silico predictionlcsh:SciencevalorizationMarine biodiversityWater Science and TechnologybiodiversityHeavy-metal detoxificationBioprospectingGlobal and Planetary ChangeBioprospectingLead-like moleculesconservationBiological SciencesSustainabilityMarine natural products[SDE]Environmental SciencesSolid-phase microextractionDeep-sea sedimentsNatural Sciencesmarine biotechnologymarine bioeconomyMarine conservationmarine biotechnology valorization biodiversity conservation challangesOcean EngineeringAquatic Sciencelcsh:General. Including nature conservation geographical distributionBioactive compoundsBlue growthWaste-water treatment03 medical and health sciencesbioprospecting ; blue growth ; marine biodiversity ; marine natural products ; sustainability ; ethics ; responsible research and innovation (RRI) ; marine bioeconomy14. Life underwaterRecreation[SDU.STU.OC]Sciences of the Universe [physics]/Earth Sciences/OceanographyEthicsResponsible Research and Innovationbusiness.industrySecondary metabolitesParticulate organic-carbonBiotechnology030104 developmental biology13. Climate actionAgricultureSustainabilitymarine biotechnology ; Blue growth ; Marine Biodiversity ; marine natural product ; sustainability ; Ethics ; Responsible research & innovationlcsh:Qbusiness030217 neurology & neurosurgeryTourismdescription
Coastal countries have traditionally relied on the existing marine resources (e.g., fishing, food, transport, recreation, and tourism) as well as tried to support new economic endeavors (ocean energy, desalination for water supply, and seabed mining). Modern societies and lifestyle resulted in an increased demand for dietary diversity, better health and well-being, new biomedicines, natural cosmeceuticals, environmental conservation, and sustainable energy sources. These societal needs stimulated the interest of researchers on the diverse and underexplored marine environments as promising and sustainable sources of biomolecules and biomass, and they are addressed by the emerging field of marine (blue) biotechnology. Blue biotechnology provides opportunities for a wide range of initiatives of commercial interest for the pharmaceutical, biomedical, cosmetic, nutraceutical, food, feed, agricultural, and related industries. This article synthesizes the essence, opportunities, responsibilities, and challenges encountered in marine biotechnology and outlines the attainment and valorization of directly derived or bio-inspired products from marine organisms. First, the concept of bioeconomy is introduced. Then, the diversity of marine bioresources including an overview of the most prominent marine organisms and their potential for biotechnological uses are described. This is followed by introducing methodologies for exploration of these resources and the main use case scenarios in energy, food and feed, agronomy, bioremediation and climate change, cosmeceuticals, bio-inspired materials, healthcare, and well-being sectors. The key aspects in the fields of legislation and funding are provided, with the emphasis on the importance of communication and stakeholder engagement at all levels of biotechnology development. Finally, vital overarching concepts, such as the quadruple helix and Responsible Research and Innovation principle are highlighted as important to follow within the marine biotechnology field. The authors of this review are collaborating under the European Commission-funded Cooperation in Science and Technology (COST) Action Ocean4Biotech – European transdisciplinary networking platform for marine biotechnology and focus the study on the European state of affairs.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2021-03-16 |