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1. Diversity, spatial distribution and evolution of inactive and weakly active hydrothermal deposits in the TAG hydrothermal field

Author

Pelleter, Ewan-Loiz, primary, Principaud, Mélanie, additional, Alix, Anne-Sophie, additional, Boissier, Audrey, additional, Cheron, Sandrine, additional, Besson, Florian, additional, Altorffer, Vincent, additional, Guérin, Charline, additional, Gaillot, Arnaud, additional, Pierre, Delphine, additional, Rospabé, Mathieu, additional, Giunta, Thomas, additional, Grenet, Léa, additional, Cathalot, Cecile, additional, Cambon, Marie-Anne, additional, and Fouquet, Yves, additional

Published
2024
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2. Diversity, spatial distribution and evolution of inactive and weakly active hydrothermal deposits in the TAG hydrothermal field

Author

Pelleter, Ewan, Principaud, Melanie, Alix, Anne-sophie, Boissier, Audrey, Cheron, Sandrine, Besson, Florian, Altorffer, Vincent, Guérin, Charline, Gaillot, Arnaud, Pierre, Delphine, Rospabé, Mathieu, Giunta, Thomas, Grenet, Lea, Cathalot, Cecile, Cambon, Marie-anne, Fouquet, Yves, Pelleter, Ewan, Principaud, Melanie, Alix, Anne-sophie, Boissier, Audrey, Cheron, Sandrine, Besson, Florian, Altorffer, Vincent, Guérin, Charline, Gaillot, Arnaud, Pierre, Delphine, Rospabé, Mathieu, Giunta, Thomas, Grenet, Lea, Cathalot, Cecile, Cambon, Marie-anne, and Fouquet, Yves

Abstract

Introduction: Although, there is an increasing focus on inactive or extinct seafloor massive sulfide (SMS) deposits driven by the possibility of marine mining, only few studies have been devoted to them so far. The Trans-Atlantic Geotraverse (TAG) hydrothermal field is probably one of the best-studied hydrothermal systems even if the relict SMS deposits known since the mid-1980s have not been thoroughly explored. Objectives: The main objective of this study was to describe the characteristics of these so-called inactive sites. Methods: During four different expeditions, we acquired high-resolution acoustic data and performed numerous human occupied vehicle (HOV) dive operations including extensive rock sampling and in-situ temperature measurements. Results and Discussion: We discovered thirteen new hydrothermal mounds including six large (i.e. > 5,000 m2) deposits making the TAG hydrothermal field one of the largest accumulation of hydrothermal materials (21.1 Mt) known on the seafloor. However, copper and zinc grades of the largest SMS deposits remain low (i.e. < 1.4 wt%) even compared to on-land volcanogenic massive sulfide deposits. Additionally, eight areas of diffuse hydrothermal fluid flow were identified challenging the presumed inactivity of these SMS deposits and, for the first time, emphasizing the importance of low temperature (LT) hydrothermal activity in whole the TAG field. Inactive and weakly active SMS deposits exhibit a large diversity of surface mineralization (e.g. sulfides, Fe-Mn mineralization, jasper) illustrating complexity of hydrothermal activities but also different ageing history. Several mounds no longer have visible sulfide chimneys and are covered by a widespread layer of manganese and iron oxyhydroxides attesting the longevity of diffuse fluid flow at specific locations even long after last high-temperature (HT) hydrothermal activity has ceased. This contrasts with SMS deposits that are devoid of extensive LT precipitates but character

Published
2024
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3. Multidisciplinary investigation on cold seeps with vigorous gas emissions in the Sea of Marmara (MarsiteCruise): Strategy for site detection and sampling and first scientific outcome

Author

Ruffine, Livio, Ondreas, Hélène, Blanc-Valleron, Marie-Madeleine, Teichert, Barbara M.A., Scalabrin, Carla, Rinnert, Emmanuel, Birot, Dominique, Croguennec, Claire, Ponzevera, Emmanuel, Pierre, Catherine, Donval, Jean-Pierre, Alix, Anne-Sophie, Germain, Yoan, Bignon, Laurent, Etoubleau, Joel, Caprais, Jean-Claude, Knoery, Joel, Lesongeur, Françoise, Thomas, Bastien, Roubi, Angélique, Legoix, Ludovic Nicolas, Burnard, Pete, Chevalier, Nicolas, Lu, Hailong, Dupré, Stéphanie, Fontanier, Christophe, Dissard, Delphine, Olgun, Nazli, Yang, Hailin, Strauss, Harald, Özaksoy, Volkan, Perchoc, Jonathan, Podeur, Christian, Tarditi, Corinne, Özbeki, Eyyüp, Guyader, Vivien, Marty, Bernard, Madre, David, Pitel-Roudaut, Mathilde, Grall, Céline, Embriaco, Davide, Polonia, Alina, Gasperini, Lucas, Çağatay, M. Namik, Henry, Pierre, and Géli, Louis

Published
2018
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4. Biogeochemical Dynamics of the Giant Pockmark Regab

Author

De Prunelé, Alexis, primary, Olu, Karine, additional, Ruffine, Livio, additional, Ondréas, Hélène, additional, Caprais, Jean-Claude, additional, Bayon, Germain, additional, Alix, Anne-Sophie, additional, Bruchec, Julie Le, additional, and Géli, Louis, additional

Published
2018
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5. Extending the dataset of fluid geochemistry of the Menez Gwen, Lucky Strike, Rainbow, TAG and Snake Pit hydrothermal vent fields: Investigation of temporal stability and organic contribution

Author

Konn, Cecile, Donval, Jean-pierre, Guyader, Vivien, Germain, Yoan, Alix, Anne-sophie, Roussel, Erwan, Rouxel, Olivier, Konn, Cecile, Donval, Jean-pierre, Guyader, Vivien, Germain, Yoan, Alix, Anne-sophie, Roussel, Erwan, and Rouxel, Olivier

Abstract

The Menez Gwen, Lucky Strike, Rainbow, TAG (Transatlantic Geotraverse) and Snake Pit hydrothermal vent fields on the Mid-Atlantic Ridge were revisited and resampled for geochemical investigation during the BIOBAZ 2013 and BICOSE 2014 research cruises. Geochemical analysis of the major and minor elements of the hydrothermal fluid and concentrations of gases extends and complements the existing dataset. Our results are consistent with values previously reported and fall within the range of the analytical error. This indicates that the hydrothermal vent field system has remained relatively stable over the last few decades. However, some differences were observed and (i) suggested a recent eruption at Menez Gwen, (ii) supported the occurrence of low-temperature serpentinisation in this same site, (iii) supported a change in the reaction zone or axial magma chamber (AMC) depth at Lucky Strike, (iv) an increase of the temperature at depth at Snake Pit and (v) supported the hypothesis of large seawater entrainment through the TAG hydrothermal mound. Besides, it is possible that small temporal and spatial scale processes may control a significant part of the geochemistry, owing to the fact that some variations in the data could not be interpreted. However, our investigation of the organic geochemistry represents a pioneering addition to research for Menez Gwen, Snake Pit and TAG and a much more comprehensive study for Lucky Strike and Rainbow. Concentrations for a wide variety of semi volatile organic compounds (SVOCs) were obtained for the first time at all sites. Our results showed that a great part of the total organic carbon (TOC) could not be allocated by the total SVOCs studied here, suggesting that other processes/sources of organic carbon remain to be identified. The TAG organic geochemistry seemed entirely based on thermogenic processes whereas mixed processes may occur at the other vent field. The presence of n-alkanes suggested the contribution of a low-temperatu

Published
2022
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6. Geological and biological diversity of seeps in the Sea of Marmara

Author

Alix Anne-Sophie, Scalabrin Carla, Ruffine Livio, Garrocq Clément, Dupré Stéphanie, Olu Karine, Ondréas Hélène, Institut Français de Recherche pour l'Exploitation de la Mer (IFREMER), Centre National de la Recherche Scientifique (CNRS), European programme 'MARsite', under the call ENV.2012.6.4-2: 'Long-term monitoring experiment in geologically active regions of Europe proneto natural hazards: the Supersite concept', 'Laboratoire d'Excellence' LabexMER through the project MicroGaMa [ANR-10-LABX-19], French government under the program 'Investissements d'Avenir'French National Research Agency (ANR), 'Laboratoire d'Excellence' LabexMER through the project MISS Marmara [ANR-10-LABX-19], and ANR-10-LABX-0019,LabexMER,LabexMER Marine Excellence Research: a changing ocean(2010)

Subjects
Sea of Marmara, 010504 meteorology & atmospheric sciences, North Anatolian Fault, Aquatic Science, Structural basin, 010502 geochemistry & geophysics, Oceanography, 01 natural sciences, Vesicomyidae, Water column, 14. Life underwater, 0105 earth and related environmental sciences, Chemosynthesis, Fluids, biology, 15. Life on land, biology.organism_classification, Seafloor spreading, Cold seep, Cold seeps, Petroleum seep, [SDV.MP]Life Sciences [q-bio]/Microbiology and Parasitology, Seismogenic faults, Chemosynthetic fauna, Methane, Geology
Abstract

International audience; The Sea of Marmara hosts part of the North Anatolian Fault as an active submarine strike-slip fault. This area has suffered numerous earthquakes and presents a major seismic risk. Although the Sea of Marmara has been studied for many years, the link between geological morphostructures, the nature of fluids and biological communities is still rarely described. During the Marsite cruise (November 2014), dives with Remotely Operated Vehicle (ROV) VICTOR 6000 focused on detailed seafloor explorations of four different areas: the Central and Western highs and the Tekirdag and cinarcik basins. Based on 130 h of in situ videos, high-resolution seafloor mapping of seeps was conducted, emphasizing their significant geological and biological diversity from one seeping site to another, from one basin/high to another. Gas bubbles (CH4, CO2), shimmering water (brine, marine and fresh water) and oil, escape from the seafloor into the water column with low to strong fluxes. Black patches of reduced sediments, authigenic carbonate crusts and chimneys compose the seep environments with various types of bacterial mats and chemosynthetic fauna. Several venting sites discovered during previous cruises are still active 7-12 years later. The seeps are mostly, but not only, focalized along the Main Marmara Fault (MMF), at the southern border of the Tekirdag Basin and along the Western High. Fluid emission is also occurring at secondary faults and at their intersection with the MMF. Our study emphasizes the location of seeps at the foot of slopes, gully outlets and crossroads. Sedimentary features, such as mass wastings, stratigraphic discontinuities or canyons, also interact with fluid emissions. The observed fauna is dominated by Bathymodiolinae, Vesicomyidae, Lucinidaelike empty shells and tubiculous worms resembling Ampharetidae polychatea. Most of the symbiont-bearing taxa encountered and previously sampled in the Marmara Sea, are characterized by thiotrophic symbioses. Vesicomyids and Idas sp. mussels are present at gas seeps, but also in areas where crude oil escapes from the seafloor. Moreover, other taxa unusually encountered at cold seeps such as large-sized amphipod and vagile worms were observed in the cinarcik Basin. Idas-like mussels were observed in the western part of the Sea of Marmara, in the Tekirdag Basin and possibly on the Western High active seep sites. There, the sampled fluids had high methane content (reaching 65 mu mol/l) but not as high as on the Central High (363 timo1/1) and cinarcik Basin (228 mu mol/l) where no mussels were observed in the video records. Bottom waters oxygen levels in the Sea of Marmara showed a west to east decreasing gradient (57-8.5 mu mol/l). These oxygen conditions, which fall under the limit of Oxygen Minimum Zones (OMZ

Published
2020
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9. Geological and biological diversity of seeps in the Sea of Marmara

Author

Ondreas, Helene, Olu, Karine, Dupre, Stephanie, Scalabrin, Carla, Alix, Anne-sophie, Garrocq, Clément, Ruffine, Livio, Ondreas, Helene, Olu, Karine, Dupre, Stephanie, Scalabrin, Carla, Alix, Anne-sophie, Garrocq, Clément, and Ruffine, Livio

Abstract

The Sea of Marmara hosts part of the North Anatolian Fault as an active submarine strike-slip fault. This area has suffered numerous earthquakes and presents a major seismic risk. Although the Sea of Marmara has been studied for many years, the link between geological morphostructures, the nature of fluids and biological communities is still rarely described. During the Marsite cruise (November 2014), dives with Remotely Operated Vehicle (ROV) VICTOR 6000 focused on detailed seafloor explorations of four different areas: the Central and Western highs and the Tekirdağ and Çinarcik basins. Based on 130 h of in situ videos, high-resolution seafloor mapping of seeps was conducted, emphasizing their significant geological and biological diversity from one seeping site to another, from one basin/high to another. Gas bubbles (CH4, CO2), shimmering water (brine, marine and fresh water) and oil, escape from the seafloor into the water column with low to strong fluxes. Black patches of reduced sediments, authigenic carbonate crusts and chimneys compose the seep environments with various types of bacterial mats and chemosynthetic fauna. Several venting sites discovered during previous cruises are still active 7–12 years later. The seeps are mostly, but not only, focalized along the Main Marmara Fault (MMF), at the southern border of the Tekirdağ Basin and along the Western High. Fluid emission is also occurring at secondary faults and at their intersection with the MMF. Our study emphasizes the location of seeps at the foot of slopes, gully outlets and crossroads. Sedimentary features, such as mass wastings, stratigraphic discontinuities or canyons, also interact with fluid emissions. The observed fauna is dominated by Bathymodiolinae, Vesicomyidae, Lucinidae-like empty shells and tubiculous worms resembling Ampharetidae polychatea. Most of the symbiont-bearing taxa encountered and previously sampled in the Marmara Sea, are characterized by thiotrophic symbioses. Vesicomyids a

Published
2020
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10. Volcanic and hydrothermal processes in submarine calderas: the Kulo Lasi example (SW Pacific)

Author

Fouquet, Yves, Pelleter, Ewan, Konn, Cecile, Chazot, Gilles, Dupre, Stephanie, Alix, Anne-sophie, Cheron, Sandrine, Donval, Jean-pierre, Guyader, Vivien, Etoubleau, Joel, Charlou, Jean-luc, Labanieh, Shasa, Scalabrin, Carla, Fouquet, Yves, Pelleter, Ewan, Konn, Cecile, Chazot, Gilles, Dupre, Stephanie, Alix, Anne-sophie, Cheron, Sandrine, Donval, Jean-pierre, Guyader, Vivien, Etoubleau, Joel, Charlou, Jean-luc, Labanieh, Shasa, and Scalabrin, Carla

Abstract

The study area is located at the transition between the northern end of the Tonga Trench and the North Fiji fracture zone, where tectonic movements are reputed to be the fastest in the world. To the southeast of Futuna Island, a broad area of volcanism occurs within a region characterized by a change in the tectonic fabric between a NE-SW oriented volcanic graben and the N-S oriented Alofi ridge. In 2010, the active volcano Kulo Lasi, which represents the most recent volcanic episode in the Futuna area, was discovered in the center of this extensive volcanic zone. Kulo Lasi is a 20 km diameter shield volcano that rises 400 m above the seafloor. It is composed of basaltic to trachy-andesitic lava with no obvious geochemical affinity with the Tonga subduction that occurs 500 km to the east. The central caldera is 5 km in diameter and 300 m deep and is located at a water depth of 1500 m. Diving operations with the submersible Nautile and high-resolution AUV mapping, have revealed the presence of numerous active and inactive hydrothermal fields on the floor and the walls of the caldera. Four tectono-volcanic stages can be distinguished at Kulo Lasi caldera. In stage 1, the shield volcano is built. Annular reverse faults develop at the summit and control circulation of water/rock-dominated hydrothermal fluids and high-temperature alteration of rocks along the nascent normal faults. Mixing of hydrothermal fluids with seawater is favored along normal superficial faults, leading to the formation of low-temperature Fe/Mn mineralization at the summit of the volcano. During stage 2, the caldera collapse, gradually revealing outcrops of the altered and mineralized zones formed during Stage 1. As the magma chamber cools and collapses, less heat is available. As a result, medium to low-temperature (<100 °C) Fe/Si deposits form on the floor of the caldera. In stage 3, refilling and ascent of the magma chamber at depth promote the uplift of a central resurgent dome devoid of recent

Published
2018
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11. Extensive hydrothermal activity revealed by multi-tracer survey in the Wallis and Futuna region (SW Pacific)

Author

Konn, Cecile, Fourre, E., Jean-baptiste, P., Donval, Jean-pierre, Guyader, Vivien, Birot, Dominique, Alix, Anne-sophie, Gaillot, Arnaud, Perez, Florian, Dapoigny, A., Pelleter, Ewan, Resing, J. A., Charlou, Jean-luc, Fouquet, Yves, Konn, Cecile, Fourre, E., Jean-baptiste, P., Donval, Jean-pierre, Guyader, Vivien, Birot, Dominique, Alix, Anne-sophie, Gaillot, Arnaud, Perez, Florian, Dapoigny, A., Pelleter, Ewan, Resing, J. A., Charlou, Jean-luc, and Fouquet, Yves

Abstract

The study area is close to the Wallis and Futuna Islands in the French EEZ. It exists on the western boundary of the fastest tectonic area in the world at the junction of the Lau and North-Fiji basins. At this place, the unstable back-arc accommodates the plate motion in three ways: (i) the north Fiji transform fault, (ii) numerous unstable spreading ridges, and (iii) large areas of recent volcanic activity. This instability creates bountiful opportunity for hydrothermal discharge to occur. Based on geochemical (CH4, TDM, 3He) and geophysical (nephelometry) tracer surveys: (1) no hydrothermal activity could be found on the Futuna Spreading Center (FSC) which sets the western limit of hydrothermal activity; (2) four distinct hydrothermal active areas were identified: Kulo Lasi Caldera, Amanaki Volcano, Fatu Kapa and Tasi Tulo areas; (3) extensive and diverse hydrothermal manifestations were observed and especially a 2D distribution of the sources. At Kulo Lasi, our data and especially tracer ratios (CH4/3He ~ 50×106 and CH4/TDM ~ 4.5) reveal a transient CH4 input, with elevated levels of CH4 measured in 2010, that had vanished in 2011 (Futuna 2), most likely caused by an eruptive magmatic event. By contrast at Amanaki, vertical tracer profiles and tracer ratios point to typical seawater / basalt interactions. Fatu Kapa is characterized by a substantial spatial variability of the hydrothermal water column anomalies, most likely due to widespread focused and diffuse hydrothermal discharge in the area. In the Tasi Tulo zone, the hydrothermal signal is characterized by a total lack of turbidity, although other tracer anomalies are in the same range as in nearby Fatu Kapa. The background data set revealed the presence of a Mn and 3He chronic plume due to the extensive and cumulative venting over the entire area. To that respect, we believe that the joined domain composed of our active area and the nearby active area discovered in the East by Lupton et al. (2012) highly co

Published
2016
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12. Réseau de surveillance benthique – Région Bretagne. Approche sectorielle subtidale : Identification et caractérisation des habitats benthiques du secteur Trégor-Goëlo

Author

Ehrhold, Axel, Chevalier, Claire, Alix, Anne-sophie, Autret, Elodie, Caisey, Xavier, Drussel, Benjamin, Gaffet, Jean-dominique, Hamon, Dominique, Houlgatte, Eric, Pluquet, Fabrice, Biscara, Laurie, Choisnet, Justine, and Bajjouk, Touria

Subjects
bedload transpor, Bréhat, cartographie d’habitats, sonar latéral, benthic macrofauna, crépidule, Rebent, Trégor-Goëlo, sidescan sonar, Bréhat archipelago, macrofaune benthique, communities, peuplements, morphologie, sediment, maërl, morphology, marine habitat mapping, crepidula bed, maerl, dynamique sédimentaire, sédiments
Abstract

In 2000 Ifremer launched and coordinated the development of a monitoring strategy for the REBENT network (REseau BENThique) in order to assess the aftermath of the “Erika” oil spill which took place in December 1999. Its aim is to provide consistent baseline knowledge on coastal benthic habitats, as well as to develop a monitoring tool that detects changes at various spatial and temporal scales. Sector-based seabed habitat mapping in shallow water (< 50 m deep), is currently being conducted throughout Brittany's coastal waters using a combination of geoacoustic marine systems together with ground-truthing using biological grab sampling and seabed observations. Due to the extended area, the overlap of soft and rocky bottoms, and contrasting hydrological conditions, the region of Tregor-Goelo is characterized by a mosaic of seabed habitats which host highly diversified fauna and flora. Six major soft-bottom macrofaunal communities were identified from 19 sampling stations. Detailed mapping of their distribution was achieved by means of morphosedimentary analyses based on a combination of remote sensing geoacoustic systems (multibeam echosounder and sidescan sonar), grab samplings and video observations. If at a regional scale, the description of benthic populations in the western Channel was made by Cabioch in 1968, the coastal area of Tregor-Goelo did not have so far been mapped for benthic habitats., Le REBENT (REseau BENThique), initié en 2000 à la suite de la catastrophe de l’Erika, a pour objectif de suivre les habitats benthiques côtiers et de détecter les changements à différentes échelles de temps et d’espace. L’approche sectorielle, opérée dans les petits fonds (< 50 m) des côtes bretonnes, combine des moyens de prospection acoustique, afin de délimiter les principaux types de substrats, avec des prélèvements et des observations biologiques pour caractériser les peuplements macrobenthiques. Du fait de l’étendue de la zone, de l’imbrication prononcée des fonds meubles et rocheux et de conditions hydrologiques contrastées, le secteur Trégor-Goëlo offre une mosaïque d’habitats particulièrement riches et diversifiés, tant en ce qui concerne la flore que la faune. Six unités majeures de peuplements ont été identifiées en substrats meubles, à partir des 19 stations biologiques échantillonnées. La cartographie détaillée de leur distribution a été rendue possible grâce aux travaux morphosédimentaires préalables s’appuyant sur la mise en oeuvre d’outils acoustiques (sondeur multifaisceaux et sonar à balayage latéral) et de validations terrain sous la forme de prélèvements sédimentaires et d’observations vidéo. Si à l’échelle régionale, la carte des peuplements benthiques de la Manche occidentale avait été réalisée par Cabioch en 1968, la zone côtière du Trégor-Goëlo n’avait, jusqu’à présent, fait l’objet d’aucune cartographie de ses peuplements benthiques.

Published
2013

14. Haliotis, nouvel outil pour l’étude des habitats benthiques dans les très petits fonds

Author

Axel Ehrhold, Cordier, Celine, Pluquet, Fabrice, Alix, Anne-Sophie, Monpert, Coralie, Autret, Elodie, and Hamon, Dominique

Abstract

Les besoins d'inventaires et de suivis des habitats benthiques côtiers, de même que la nécessité de mieux comprendre leur fonctionnement, conduisent depuis plusieurs années à mettre en place des actions à différentes échelles d'observation spatiales et temporelles sur l’ensemble des façades métropolitaines. L’application du Réseau Benthique au pilote breton en est une parfaite illustration. Le Rebent a ainsi soutenu dès 2001 le projet d’une embarcation spécialisée, destinée à relayer dans la frange littorale les moyens acoustiques mis en oeuvre sur les navires côtiers plus au large, et capable d’assurer une investigation des fonds sur de grandes superficies, avec un fort pouvoir de résolution. Ce projet de vedette porté par l’Ifremer a été rendu possible avec le soutien de la Région Bretagne. Le laboratoire Écologie Benthique a entrepris fin 2007, de tester, avec l’appui de la Fondation Total, cette nouvelle plate-forme d'acquisition sur une diversité d'habitats, en particulier sur des habitats remarquables et sensibles abritant une forte biodiversité : herbiers de phanérogames, bancs de maërl ou champs de grandes algues. Depuis juin 2008, plusieurs secteurs du littoral breton (Trégor, Rade de Brest/Camaret, Baie de Morlaix, Molène) ont fait l’objet de reconnaissances spécifiques avec cette vedette. Ce poster illustre les capacités d’Haliotis à décrire la nature et la morphologie des fonds, en préalable à leur étude biologique.

Published
2010

15. Réseau de surveillance benthique. Région Bretagne. Approche sectorielle subtidale : Identification et caractérisation des habitats benthiques du secteur Quiberon

Author

Ehrhold, Axel, Hamon, Dominique, Chevalier, Claire, Gaffet, Jean-dominique, Caisey, Xavier, Blanchet, Aline, and Alix, Anne-sophie

Subjects
cartographie d’habitats, sonar latéral, benthic macrofauna, Rebent, Quiberon bay, sidescan sonar, bedload transport, baie de Quiberon, macrofaune benthique, communities, peuplements, figures sédimentaires, bedforms, mapping, dynamique sédimentaire
Abstract

In 2000 Ifremer launched and coordinated the development of a monitoring strategy for the REBENT network (REseau BENThique) in order to assess the aftermath of the “Erika” oil spill which took place in December 1999. Its aim is to provide consistent baseline knowledge on coastal benthic habitats, as well as to develop a monitoring tool that detects changes at various spatial and temporal scales Sector-based seabed habitat mapping in shallow water (< 50 m deep), is currently being conducted throughout Brittany's coastal waters using a combination of geoacoustic marine systems together with ground-truthing using biological grab sampling and seabed observations. The study area in the bay of Quiberon is characterised by a large array of sedimentological facies, mainly composed of sands and muds which, according to particle size, host different benthic communities : • a fine to medium slightly muddy sand Abra alba-Aponuphis bilineata community, • a sandy mud Abra alba-Ampharete finmarchica community, • a sandy mud to muddy sand Maldane glebifex community. The entrance into the bay is made through the Teignouse strait, which is subject to complex hydrodynamics that create a patchwork of strongly displaced fine and gravelly sand sediments. Here several population units, covering a small surface area, were identified. Included in the main characteristic species were Callista Chione, Travisia forbesii or Branchiostoma lanceolatum., Le REBENT (REseau BENThique), initié en 2000 à la suite de la catastrophe de l’Erika, a pour objectif de suivre les habitats benthiques côtiers et de détecter les changements à différentes échelles de temps et d’espace. L’approche sectorielle, opérée dans les petits fonds (< 50 m) des côtes bretonnes, combine des moyens de prospection acoustique, afin de délimiter les principaux types de substrats, avec des prélèvements et des observations biologiques pour caractériser les peuplements macrobenthiques. Le secteur étudié en baie de Quiberon se réfère pour l’essentiel à un vaste ensemble sédimentaire, composé de sables et de vases, qui, selon le degré d’envasement, abrite notamment : • un peuplement de sable fin à moyen, légèrement envasé, à Abra alba-Aponuphis bilineata, • un peuplement de vase sableuse à Abra alba-Ampharete finmarchica, • un peuplement de vase sableuse-sable vaseux à Maldane glebifex. L’entrée de la baie, communiquant avec le large par le passage de la Teignouse, est soumise à un hydrodynamisme complexe qui conditionne un important mosaïquage de sédiments fins et sablo-graveleux fortement remaniés. Plusieurs unités de peuplements, de faible superficie, y ont été identifiées avec, parmi les principales espèces caractéristiques, Callista Chione, Travisia forbesii ou encore Branchiostoma lanceolatum.

Published
2010

16. Reconnaissance cartographique de bancs de maërl distribués sur le littoral breton

Author

Hamon, Dominique, Axel Ehrhold, Houlgatte, Eric, Kerdoncuff, Julien, Gaffet, Jean-Dominique, Caisey, Xavier, Alix, Anne-Sophie, and Oger-Jeanneret, Helene

Abstract

Poster présenté aux Journées REBENT Brest les 13 et 14/10/2011 (2ème atelier de restitution Rebent Bretagne. Dans le cadre du programme de surveillance DCE, et en lien avec le projet REBENT, il a été entrepris en 2008-2009 de cartographier et de caractériser les principaux bancs de maërl distribués dans 9 masses d'eaux autour de la Bretagne, et faisant l'objet pour la plupart d'un suivi annuel de leur biodiversité, assuré par l'IUEM (LEMAR).

Published
2010

17. Haliotis, nouvel outil pour l’étude des habitats benthiques dans les très petits fonds

Author

Ehrhold, Axel, Cordier, Celine, Pluquet, Fabrice, Alix, Anne-sophie, Monpert, Coralie, Autret, Elodie, Hamon, Dominique, Ehrhold, Axel, Cordier, Celine, Pluquet, Fabrice, Alix, Anne-sophie, Monpert, Coralie, Autret, Elodie, and Hamon, Dominique

Abstract

Les besoins d'inventaires et de suivis des habitats benthiques côtiers, de même que la nécessité de mieux comprendre leur fonctionnement, conduisent depuis plusieurs années à mettre en place des actions à différentes échelles d'observation spatiales et temporelles sur l’ensemble des façades métropolitaines. L’application du Réseau Benthique au pilote breton en est une parfaite illustration. Le Rebent a ainsi soutenu dès 2001 le projet d’une embarcation spécialisée, destinée à relayer dans la frange littorale les moyens acoustiques mis en oeuvre sur les navires côtiers plus au large, et capable d’assurer une investigation des fonds sur de grandes superficies, avec un fort pouvoir de résolution. Ce projet de vedette porté par l’Ifremer a été rendu possible avec le soutien de la Région Bretagne. Le laboratoire Écologie Benthique a entrepris fin 2007, de tester, avec l’appui de la Fondation Total, cette nouvelle plate-forme d'acquisition sur une diversité d'habitats, en particulier sur des habitats remarquables et sensibles abritant une forte biodiversité : herbiers de phanérogames, bancs de maërl ou champs de grandes algues. Depuis juin 2008, plusieurs secteurs du littoral breton (Trégor, Rade de Brest/Camaret, Baie de Morlaix, Molène) ont fait l’objet de reconnaissances spécifiques avec cette vedette. Ce poster illustre les capacités d’Haliotis à décrire la nature et la morphologie des fonds, en préalable à leur étude biologique.

Published
2010

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