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HERMES - Hotspot Ecosystem Research on the Margins of European Seas
CESAM Responsible researcher - Marina R. Cunha Programme - 6º Programa-Quadro da União Europeia, FP6-2003-Global-2, Thematic Priority 6.3 Execution dates - 2005-04-01 - 2009-03-31 (48 Months) Funding Entity - European Commission Funding for CESAM - 113197 € Total Funding - 15000000 € Proponent Institution - NERC-NOCS, UK Participating Institutions Universidade de Aveiro IFREMER, France; NIOZ, The Netherlands; Univ. Barcelona, Spain; HCMR, Greece; IFM-GEOMAR, Germany; CNR-ISMAR, Italy; AWI, Germany; Univ. Tromso, Norway; NUIG, Ireland; UERL, Germany; Univ Gent, Belgium; CSIC, Spain; CoNISMA- ULR Ancona, Italy; MPG, Germany, CNRS, France; IH, Portugal; IUB, Germany; RCOM, Bremen; Univ Wales, UK; IMR, Norway; Univ Goeteborgs, Sweden; Univ Southampton, UK; OGS, Italy; Univ. Birmingham, UK; NIOO-CEME, The Netherlands; Univ. Aberdeen, UK; Univ. Liverpool, UK; IMST, Turkey; SAMS, UK; GeoEcoMar, Romania; IOC; Univ Pierre et Marie Curie, France; Univ. Bretagne Occidentale, France; Univ. Mohammed V, Morocco; COSS, UK; VBPR, Norway; Parentesis SL, Spain; MEDIAN SPC, Spain; MMCD, Germany; Olex AS, Norway; ArchimediX, Germany; Proteus, France; JY SAS, France; Project Description HERMES is designed to gain new insights into the biodiversity, structure, function and dynamics of ecosystems along Europe's deep-ocean margin. It represents the first major attempt to understand European deep-water ecosystems and their environment in an integrated way by bringing together expertise in biodiversity, geology, sedimentology, physical oceanography, microbiology and biogeochemistry, so that the generic relationship between biodiversity and ecosystem functioning can be understood. Study sites will extend from the Arctic to the Black Sea and include open slopes, where landslides and deep-ocean circulation affect ecosystem development, and biodiversity hotspots, such as cold seeps, cold-water coral mounds, canyons and anoxic environments, where the geosphere and hydrosphere influence the biosphere through escape of fluids, presence of gas hydrates and deep-water currents. These important systems require urgent study because of their possible biological fragility, unique genetic resources, global relevance to carbon cycling and possible susceptibility to global change and man-made disturbances. Past changes, including catastrophic events, will be assessed using sediment archives. We will make estimates of the flow rates of methane from the geosphere and calculate how much is utilised by benthic communities, leaving the residual contribution to reach the atmosphere as a greenhouse gas. HERMES will enable forecasting of biodiversity change in relation to natural and man-made environmental changes by developing the first comprehensive pan-European margin Geographic Information System. This will provide a framework for integrating science, environmental modelling and socio-economic indicators in ecosystem management. The results will underpin the development of a comprehensive European Ocean and Seas Integrated Governance Policy enabling risk assessment, management, conservation and rehabilitation options for margin ecosystems to be identified. Project webpage http://www.eu-hermes.net CESAM members on this project Ana Hilário Researcher Ascensão dos Anjos Alves Ravara Researcher Clara F. Rodrigues Researcher Luciana Génio Researcher PI UA

HERMES - Hotspot Ecosystem Research on the Margins of European Seas

CESAM Responsible researcher - Marina R. Cunha
Programme - 6º Programa-Quadro da União Europeia, FP6-2003-Global-2, Thematic Priority 6.3
Execution dates - 2005-04-01 - 2009-03-31 (48 Months)
Funding Entity - European Commission
Funding for CESAM - 113197 €
Total Funding - 15000000 €
Proponent Institution - NERC-NOCS, UK
Participating Institutions
Universidade de Aveiro
IFREMER, France; NIOZ, The Netherlands; Univ. Barcelona, Spain; HCMR, Greece; IFM-GEOMAR, Germany; CNR-ISMAR, Italy; AWI, Germany; Univ. Tromso, Norway; NUIG, Ireland; UERL, Germany; Univ Gent, Belgium; CSIC, Spain; CoNISMA- ULR Ancona, Italy; MPG, Germany, CNRS, France; IH, Portugal; IUB, Germany; RCOM, Bremen; Univ Wales, UK; IMR, Norway; Univ Goeteborgs, Sweden; Univ Southampton, UK; OGS, Italy; Univ. Birmingham, UK; NIOO-CEME, The Netherlands; Univ. Aberdeen, UK; Univ. Liverpool, UK; IMST, Turkey; SAMS, UK; GeoEcoMar, Romania; IOC; Univ Pierre et Marie Curie, France; Univ. Bretagne Occidentale, France; Univ. Mohammed V, Morocco; COSS, UK; VBPR, Norway; Parentesis SL, Spain; MEDIAN SPC, Spain; MMCD, Germany; Olex AS, Norway; ArchimediX, Germany; Proteus, France; JY SAS, France;

Project Description

HERMES is designed to gain new insights into the biodiversity, structure, function and dynamics of ecosystems along Europe's deep-ocean margin. It represents the first major attempt to understand European deep-water ecosystems and their environment in an integrated way by bringing together expertise in biodiversity, geology, sedimentology, physical oceanography, microbiology and biogeochemistry, so that the generic relationship between biodiversity and ecosystem functioning can be understood. Study sites will extend from the Arctic to the Black Sea and include open slopes, where landslides and deep-ocean circulation affect ecosystem development, and biodiversity hotspots, such as cold seeps, cold-water coral mounds, canyons and anoxic environments, where the geosphere and hydrosphere influence the biosphere through escape of fluids, presence of gas hydrates and deep-water currents. These important systems require urgent study because of their possible biological fragility, unique genetic resources, global relevance to carbon cycling and possible susceptibility to global change and man-made disturbances. Past changes, including catastrophic events, will be assessed using sediment archives. We will make estimates of the flow rates of methane from the geosphere and calculate how much is utilised by benthic communities, leaving the residual contribution to reach the atmosphere as a greenhouse gas. HERMES will enable forecasting of biodiversity change in relation to natural and man-made environmental changes by developing the first comprehensive pan-European margin Geographic Information System. This will provide a framework for integrating science, environmental modelling and socio-economic indicators in ecosystem management. The results will underpin the development of a comprehensive European Ocean and Seas Integrated Governance Policy enabling risk assessment, management, conservation and rehabilitation options for margin ecosystems to be identified.

Project webpage
http://www.eu-hermes.net

CESAM members on this project

Ana Hilário
Researcher

Ascensão dos Anjos Alves Ravara
Researcher

Clara F. Rodrigues
Researcher

Luciana Génio
Researcher

PI UA