Your search keyword '"Cathalot, Cecile"' showing total 141 results

1. Early stages impact of volcanism on sedimentary diagenesis: The case of the newly born volcano, Fani Maoré

Author

Manoux, Marine, Rabouille, Christophe, Dumoulin, Jean-Pascal, Bombled, Bruno, Monvoisin, Gaël, Cheron, Sandrine, Boissier, Audrey, Germain, Yoan, Pastor, Lucie, Rouxel, Olivier, and Cathalot, Cécile

Published

2025

2. Alpha and beta diversities of hydrothermal vent macrofaunal communities along the southwestern Pacific back-arc basins

Author

Poitrimol, Camille, Thiébaut, Éric, Boulart, Cédric, Cathalot, Cécile, Rouxel, Olivier, Jollivet, Didier, Hourdez, Stéphane, and Matabos, Marjolaine

Published

2025

3. Ecology of Bathymodiolus puteoserpentis mussels from the Snake Pit vent field (Mid-Atlantic Ridge)

Author

Veuillot, Alicia, Pradillon, Florence, Michel, Loïc N., Cathalot, Cécile, Cambon, Marie-Anne, and Sarrazin, Jozée

Published

2024

4. Strong geochemical anomalies following active submarine eruption offshore Mayotte

Author

Mastin, Manon, Cathalot, Cécile, Fandino, Olivia, Giunta, Thomas, Donval, Jean-Pierre, Guyader, Vivien, Germain, Yoan, Scalabrin, Carla, Dehez, Sébastien, Jouenne, Stéphane, Gaucher, Eric C., Rouxel, Olivier, and Rinnert, Emmanuel

Published

2023

5. A GC-SSIM-CRDS system: Coupling a gas chromatograph with a Cavity Ring-Down Spectrometer for onboard Twofold analysis of molecular and isotopic compositions of natural gases during ocean-going research expeditions

Author

Brandily, Christophe, LeCuff, Nolwenn, Donval, Jean-Pierre, Guyader, Vivien, De Prunele, Alexis, Cathalot, Cécile, Croguennec, Claire, Caprais, Jean-Claude, and Ruffine, Livio

Published

2021

6. 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

7. Mercury fluxes from hydrothermal venting at mid-ocean ridges constrained by measurements

Author

Heimbürger-Boavida, Lars-Eric, primary, Torres-Rodriguez, Natalia, additional, Yuan, Jingjing, additional, Petersen, Sven, additional, Dufour, Aurélie, additional, Gonzalez-Santana, David, additional, Chavagnac, Valerie, additional, Planquette, Hélène, additional, Horvat, Milena, additional, Amouroux, David, additional, Cathalot, Cecile, additional, Pelleter, Ewan, additional, Sun, Ruoyu, additional, Sonke, Jeroen, additional, and Luther, George, additional

Published

2024

8. Hydrothermal processes at the Pompeii hydrothermal field: insights from the association of a large sulfide deposit and talc-rich hydrothermal mounds (Mid-Atlantic Ridge)

Author

Pelleter, Ewan, Cathalot, Cecile, Rospabé, Mathieu, Giunta, Thomas, Dupré, Stéphanie, Maia, Marcia, Boissier, Audrey, Chéron, Sandrine, Rovere, Mickael, Germain, Yoan, Guyader, Vivien, Donval, Jean-pierre, Pelleter, Ewan, Cathalot, Cecile, Rospabé, Mathieu, Giunta, Thomas, Dupré, Stéphanie, Maia, Marcia, Boissier, Audrey, Chéron, Sandrine, Rovere, Mickael, Germain, Yoan, Guyader, Vivien, and Donval, Jean-pierre

Published

2024

9. A step towards measuring connectivity in the deep-sea: elemental fingerprints of mollusk larval shells discriminate hydrothermal vent sites

Author

Mouchi, Vincent, Pecheyran, Christophe, Claverie, Fanny, Cathalot, Cecile, Matabos, Marjolaine, Germain, Yoan, Rouxel, Olivier, Jollivet, Didier, Broquet, Thomas, Comtet, Thierry, Mouchi, Vincent, Pecheyran, Christophe, Claverie, Fanny, Cathalot, Cecile, Matabos, Marjolaine, Germain, Yoan, Rouxel, Olivier, Jollivet, Didier, Broquet, Thomas, and Comtet, Thierry

Abstract

Deep-sea hydrothermal-vent systems are under investigation for base and precious metal exploitations. The impact of mining will depend critically on the ability of larval dispersal to connect and replenish endemic populations. However, assessing connectivity is extremely challenging, especially in the deep sea. Here, we investigate the potential of elemental fingerprinting of mollusc larval shells to discriminate larval origins between multiple hydrothermal sites in the Southwest Pacific Ocean. The gastropodShinkailepas tollmannirepresents a suitable candidate as it uses capsules to hold larvae before dispersal, which facilitates sampling. Multielemental microchemistry was performed using cutting-edge femtosecond laser ablation Inductively Coupled Plasma Mass Spectrometry analysis to obtain individual measurements on 600 encapsulated larval shells. We used classification methods to discriminate the origin of individuals from 14 hydrothermal sites spanning over 3,500 km, with an overall success rate of 70%. When considering less sites within more restricted areas, reflecting dispersal distances reported by genetic and modelling approaches, the success rate increased up to 86%. We conclude that individual larval shells register site-specific elemental signatures that can be used to assess their origin. These results open new perspectives to get direct estimates on population connectivity from the geochemistry of pre-dispersal shell of recently settled juveniles.

Published

2024

10. 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

11. Sulfate minerals control dissolved rare earth element flux and Nd isotope signature of buoyant hydrothermal plume (EMSO-Azores, 37°N Mid-Atlantic Ridge)

Author

Chavagnac, Valérie, Saleban Ali, Hassan, Jeandel, Catherine, Leleu, Thomas, Destrigneville, Christine, Castillo, Alain, Cotte, Laura, Waeles, Matthieu, Cathalot, Cécile, Laes-Huon, Agathe, Pelleter, Ewan, Nonnotte, Philippe, Sarradin, Pierre-Marie, and Cannat, Mathilde

Published

2018

12. Food-web complexity across hydrothermal vents on the Azores triple junction

Author

Portail, Marie, Brandily, Christophe, Cathalot, Cécile, Colaço, Ana, Gélinas, Yves, Husson, Bérengère, Sarradin, Pierre-Marie, and Sarrazin, Jozée

Published

2018

13. Magma ascent and lava flow field emplacement during the 2018–2021 Fani Maoré deep-submarine eruption insights from lava vesicle textures

Author

Verdurme, Pauline, Gurioli, Lucia, Chevrel, Oryaëlle, Médard, Etienne, Berthod, Carole, Komorowski, Jean-Christophe, Harris, Andrew, Paquet, Fabien, Cathalot, Cécile, Feuillet, Nathalie, Lebas, Elodie, Rinnert, Emmanuel, Donval, Jean-Pierre, Thinon, Isabelle, Deplus, Christine, and Bachèlery, Patrick

Published

2024

14. Early diagenesis in the sediments of the Congo deep-sea fan dominated by massive terrigenous deposits: Part II – Iron–sulfur coupling

Author

Taillefert, Martial, Beckler, Jordon S., Cathalot, Cécile, Michalopoulos, Panagiotis, Corvaisier, Rudolph, Kiriazis, Nicole, Caprais, Jean-Claude, Pastor, Lucie, and Rabouille, Christophe

Published

2017

15. Early diagenesis in the Congo deep-sea fan sediments dominated by massive terrigenous deposits: Part I – Oxygen consumption and organic carbon mineralization using a micro-electrode approach

Author

Pozzato, Lara, Cathalot, Cécile, Berrached, Chabha, Toussaint, Flora, Stetten, Elsa, Caprais, Jean-Claude, Pastor, Lucie, Olu, Karine, and Rabouille, Christophe

Published

2017

16. A step towards measuring connectivity in the deep-sea: elemental fingerprints of mollusk larval shells discriminate hydrothermal vent sites

Author

Mouchi, Vincent, Pecheyran, Christophe, Claverie, Fanny, Cathalot, Cecile, Matabos, Marjolaine, Germain, Yoan, Rouxel, Olivier, Jollivet, Didier, Broquet, Thomas, Comtet, Thierry, Mouchi, Vincent, Pecheyran, Christophe, Claverie, Fanny, Cathalot, Cecile, Matabos, Marjolaine, Germain, Yoan, Rouxel, Olivier, Jollivet, Didier, Broquet, Thomas, and Comtet, Thierry

Abstract

Deep-sea hydrothermal-vent systems are under investigation for base and precious metal exploitations. The impact of mining will depend critically on the ability of larval dispersal to connect and replenish endemic populations. However, assessing connectivity is extremely challenging, especially in the deep sea. Here, we investigate the potential of elemental fingerprinting of mollusc larval shells to discriminate larval origins between multiple hydrothermal sites in the Southwest Pacific Ocean. The gastropodShinkailepas tollmannirepresents a suitable candidate as it uses capsules to hold larvae before dispersal, which facilitates sampling. Multielemental microchemistry was performed using cutting-edge femtosecond laser ablation Inductively Coupled Plasma Mass Spectrometry analysis to obtain individual measurements on 600 encapsulated larval shells. We used classification methods to discriminate the origin of individuals from 14 hydrothermal sites spanning over 3,500 km, with an overall success rate of 70%. When considering less sites within more restricted areas, reflecting dispersal distances reported by genetic and modelling approaches, the success rate increased up to 86%. We conclude that individual larval shells register site-specific elemental signatures that can be used to assess their origin. These results open new perspectives to get direct estimates on population connectivity from the geochemistry of pre-dispersal shell of recently settled juveniles.

Published

2023

17. Comment explorer les systèmes hydrothermaux des grands fonds marins ?

Author

Pelleter, Ewan, Cathalot, Cecile, Pelleter, Ewan, and Cathalot, Cecile

Published

2023

18. Campagne MD242-MAYOBS25 du 11 au 28 septembre 2023, de La Réunion à La Réunion ZEE de Mayotte (France)

Author

Thinon, Isabelle, Lebas, Elodie, Bernachot, Isabelle, Ballu, Valérie, Bazin, Sara, Heumann, Alexandre, Jacques, Eric, Komorowski, Jean-christophe, Lherminier, Pascale, Rad, Setareh, Retailleau, Lise, Rinnert, Emmanuel, Scalabrin, Carla, Paquet, Fabien, Braibant, Gilles, Bruckel, Kalini, Canjamalé, Kevin, Cathalot, Cecile, Dausse, Denis, Donval, Jean-pierre, Dufosse, Margaux, Frey, Mathilde, Griot, Cyprien, Lavayssiere, Aude, Peden, Olivier, Potier, Anthony, Royer, Jean-yves, Sakic, Pierre, Stephant, Sylvain, Tanrin, Jonathan, Verdurme, Pauline, Bein, Aymeric, Dardhalon, Camille, Pierrat, Joséphine, Saurel, Jean-marie, Besançon, Simon, Paillet, Jerome, Genavir, Revosima Teams, Thinon, Isabelle, Lebas, Elodie, Bernachot, Isabelle, Ballu, Valérie, Bazin, Sara, Heumann, Alexandre, Jacques, Eric, Komorowski, Jean-christophe, Lherminier, Pascale, Rad, Setareh, Retailleau, Lise, Rinnert, Emmanuel, Scalabrin, Carla, Paquet, Fabien, Braibant, Gilles, Bruckel, Kalini, Canjamalé, Kevin, Cathalot, Cecile, Dausse, Denis, Donval, Jean-pierre, Dufosse, Margaux, Frey, Mathilde, Griot, Cyprien, Lavayssiere, Aude, Peden, Olivier, Potier, Anthony, Royer, Jean-yves, Sakic, Pierre, Stephant, Sylvain, Tanrin, Jonathan, Verdurme, Pauline, Bein, Aymeric, Dardhalon, Camille, Pierrat, Joséphine, Saurel, Jean-marie, Besançon, Simon, Paillet, Jerome, Genavir, and Revosima Teams

Published

2023

19. Mercury fluxes from hydrothermal venting at mid-ocean ridges constrained by measurements

Author

Torres-rodriguez, Natalia, Yuan, Jingjing, Petersen, Sven, Dufour, Aurélie, González-santana, David, Chavagnac, Valérie, Planquette, Helene, Horvat, Milena, Amouroux, David, Cathalot, Cecile, Pelleter, Ewan, Sun, Ruoyu, Sonke, Jeroen E., Luther, George W., Heimbürger-boavida, Lars-eric, Torres-rodriguez, Natalia, Yuan, Jingjing, Petersen, Sven, Dufour, Aurélie, González-santana, David, Chavagnac, Valérie, Planquette, Helene, Horvat, Milena, Amouroux, David, Cathalot, Cecile, Pelleter, Ewan, Sun, Ruoyu, Sonke, Jeroen E., Luther, George W., and Heimbürger-boavida, Lars-eric

Abstract

Methylmercury is a potent toxin threatening the global population mainly through the consumption of marine fish. Hydrothermal venting directly delivers natural mercury to the ocean, yet its global flux remains poorly constrained. To determine the extent to which anthropogenic inputs have increased oceanic mercury levels, it is crucial to estimate natural mercury levels. Here we combine observations of vent fluids, plume waters, seawater and rock samples to quantify the release of mercury from the Trans-Atlantic Geotraverse hydrothermal vent at the Mid-Atlantic Ridge. The majority (67–95%) of the mercury enriched in the vent fluids (4,966 ± 497 pmol l−1) is rapidly diluted to reach background seawater levels (0.80 pmol l−1). A small Hg fraction (2.6–10%) is scavenged to the Trans-Atlantic Geotraverse mound rocks. Scaling up our findings and previous work, we propose a mercury flux estimate of 1.5–64.7 t per year from mid-ocean ridges. This hydrothermal flux is small in comparison to anthropogenic inputs. This suggests that most of the mercury present in the ocean must be of anthropogenic origin and that the implementation of emissions reduction measures outlined in the Minamata Convention could effectively reduce mercury levels in the global ocean and subsequently in marine fish.

Published

2023

20. Particulate Matter in Mangrove Forests and Seagrass Beds as a Nitrogen Source in Tropical Coastal Ecosystems

Author

Gillis, Lucy G., Bouma, Tjeerd J., Cathalot, Cecile, Ziegler, Alan D., and Herman, Peter M.

Published

2015

21. Mercury released from newly formed volcano influence concentrations in the surrounding ocean

Author

Garcia Arevalo, Isabel, Knoery, Joël, Thomas, Bastien, Torres Rodriguez, Natalia, Heimbürger-Boavida, Lars-Eric, Cathalot, Cecile, Rinnert, Emmanuel, Institut Français de Recherche pour l'Exploitation de la Mer (IFREMER), Institut méditerranéen d'océanologie (MIO), and Institut de Recherche pour le Développement (IRD)-Aix Marseille Université (AMU)-Institut national des sciences de l'Univers (INSU - CNRS)-Université de Toulon (UTLN)-Centre National de la Recherche Scientifique (CNRS)

Subjects

[SDU]Sciences of the Universe [physics]

Abstract

International audience; Volcanic and geothermal areas are important natural sources of mercury, with mercury concentrations in volcanic gases above the atmospheric background. Individual volcanoes exhibit variable degassing features and behavior, leading to considerable uncertainty in global geogenic mercury fluxes estimations. Likewise, studies on mercury emissions from submarine volcanic and hydrothermal sites are scarce. Nevertheless, information on those natural inputs is needed to better estimate the anthropogenic mercury enrichment, and thus for the implementation of the Minamata convention.During Spring 2021, the GEOFLAMME campaign took place at the northern end of the Mozambique channel, where we examined the influence of volcanic inputs from a volcano that had formed less than 2 years ago near Mayotte Island. Water samples were obtained with a trace metal-clean CTD rosette and all-titanium high-pressure samplers using the remotely operated vehicle Victor 6000 on board R/V Pourquoi pas?. Total mercury was measured on board via Cold Vapour Atomic Fluorescence Spectroscopy (CV-AFS) following the EPA method 1631. Exhaled fluid samples from titanium samplers followed the same analytical scheme, but at the shore laboratory.Mercury levels measured from water column showed increased concentrations near the seafloor. Total mercury measured in fluid samples from the different venting sites showed concentrations 3 to 60 times higher than surrounding seawater.Our study provides new insight to the understanding for mercury biogeochemistry, the interactions between magmatism, tectonics and fluids circulation processes, as well as the implications on the physical-chemical properties of the water column. It also improves our knowledge on present-day mercury cycling in the marine environment usingfield-based data. Ongoing work will attempt to quantify seafloor mercury inputs to the vicinity of the Mayotte Island.

Published

2023

22. A step towards measuring connectivity in the deep sea: elemental fingerprints of mollusk larval shells discriminate hydrothermal sites

Author

Mouchi, Vincent, primary, Pecheyran, Christophe, additional, Claverie, Fanny, additional, Cathalot, Cecile, additional, Matabos, Marjolaine, additional, Germain, Yoan, additional, Rouxel, Olivier, additional, Jollivet, Didier, additional, Broquet, Thomas, additional, and Comtet, Thierry, additional

Published

2023

23. Deep cold-water coral ecosystems in the Brittany submarine canyons (Northeast Atlantic) : Hydrodynamics, particle supply, respiration, and carbon cycling

Author

Khripounoff, Alexis, Caprais, Jean-Claude, Le Bruchec, Julie, Rodier, Philippe, Noel, Philippe, and Cathalot, Cécile

Published

2014

24. Integrated Study of New Faunal Assemblages Dominated by Gastropods at Three Vent Fields Along the Mid-Atlantic Ridge: Diversity, Structure, Composition and Trophic Interactions

Author

Sarrazin, Jozee, Cathalot, Cecile, Laes, Agathe, Marticorena, Julien, Michel, Loïc, Matabos, Marjolaine, Sarrazin, Jozee, Cathalot, Cecile, Laes, Agathe, Marticorena, Julien, Michel, Loïc, and Matabos, Marjolaine

Abstract

To date, two main vent faunal assemblages have been described on active sulfide edifices along the northern Mid-Atlantic Ridge (nMAR): one dominated by bathymodiolin mussels in low temperature areas and the other dominated by alvinocaridid shrimp in warmer habitats. In this study, we describe the ecology of new types of assemblage, dominated by gastropods, that are recurrent in several nMAR vent fields, from ~830 m to 3500 m depth. We assessed and compared the composition, abundance, diversity and trophic niche of these assemblages from three vent fields (Menez Gwen, Lucky Strike and Snake Pit) and characterized their habitats in terms of key environmental conditions. These assemblages, first seen during the Momarsat cruise in 2012 at the Lucky Strike vent field, were investigated during several subsequent cruises. They appear to be widespread along the nMAR, forming two distinct assemblages, one dominated by Lepetodrilus atlanticusat the shallowest vent field Menez Gwen, and the other by Peltospira smaragdina at the other investigated fields. Our data seem to indicate that these gastropods dominate an intermediate habitat at MAR vents and may play an important ecological role in these communities.

Published

2022

25. Temporal magmatic evolution of the Fani Maoré submarine eruption 50 km east of Mayotte revealed by in situ sampling and petrological monitoring

Author

Berthod, Carole, Komorowski, Jean-christophe, Gurioli, Lucia, Médard, Etienne, Bachèlery, Patrick, Besson, Pascale, Verdurme, Pauline, Chevrel, Oryaëlle, Di Muro, Andrea, Peltier, Aline, Devidal, Jean-luc, Nowak, Sophie, Thinon, Isabelle, Burckel, Pierre, Hidalgo, Samia, Deplus, Christine, Loubrieu, Benoit, Pierre, Delphine, Bermell, Sylvain, Pitel-roudaut, Mathilde, Réaud, Yvan, Fouchard, Sacha, Bickert, Manon, Le Friant, Anne, Paquet, Fabien, Feuillet, Nathalie, Jorry, Stephan, Fouquet, Yves, Rinnert, Emmanuel, Cathalot, Cecile, Lebas, Elodie, Berthod, Carole, Komorowski, Jean-christophe, Gurioli, Lucia, Médard, Etienne, Bachèlery, Patrick, Besson, Pascale, Verdurme, Pauline, Chevrel, Oryaëlle, Di Muro, Andrea, Peltier, Aline, Devidal, Jean-luc, Nowak, Sophie, Thinon, Isabelle, Burckel, Pierre, Hidalgo, Samia, Deplus, Christine, Loubrieu, Benoit, Pierre, Delphine, Bermell, Sylvain, Pitel-roudaut, Mathilde, Réaud, Yvan, Fouchard, Sacha, Bickert, Manon, Le Friant, Anne, Paquet, Fabien, Feuillet, Nathalie, Jorry, Stephan, Fouquet, Yves, Rinnert, Emmanuel, Cathalot, Cecile, and Lebas, Elodie

Abstract

The “Fani Maoré” eruption off the coasts of Mayotte has been intensively monitored by applying methods similar to those used for subaerial eruptions. Repeated high-resolution bathymetric surveys and dredging, coupled with petrological analyses of time-constrained samples, allowed tracking the evolution of magma over the whole submarine eruptive sequence. Indeed, after one year of direct ascent (Phase 1), basanitic magma switched to a different pathway that sampled a tephriphonolitic subcrustal reservoir (Phase 2). Later, the magma pathway shifted again in the crust resulting in a new eruption site located 6 km northwest of the main edifice (Phase 3). The petrological signature of lava flows reveals both an evolution by fractional crystallization and syn-eruptive mixing with a tephri-phonolitic magma. We demonstrate that high-flux eruption of large volumes of basanitic magma from a deep-seated reservoir can interact with shallower reservoirs and remobilize eruptible magma. This has significant hazards implications with respect to the capacity of such large eruptions to reactivate shallow-seated inactive reservoirs froma transcrustal magmatic system that could be located potentially at a distance from the high-flux eruptive site., L’éruption au large de Mayotte a été intensément surveillée en appliquant des méthodes similaires aux éruptions sub-aériennes. Une étude pétrologique et géochimique des échantillons dragués couplée à de nombreux relevés bathymétriques, nous a permis de suivre l’évolution du magma au cours de l’éruption. Le trajet du magma change après un an de remontée directe (Phase 1), un réservoir magmatique sous-crustal et plus différencié est alors échantillonné (Phase 2). Un mois plus tard, le trajet change à nouveau et engendre une migration du site éruptif à 6 km au nord-ouest de l’édifice principal (Phase 3). La signature pétrologique des coulées de lave révèle à la fois une évolution par cristallisation fractionnée et un mélange syn-eruptif avec un magma téphri-phonolitique. Nous démontrons qu’une éruption à haut débit impliquant de grands volumes de magma basanitique et provenant d’un réservoir profond peut interagir avec des réservoirs plus superficiels et remobiliser le magma éruptible. Ceci a des implications significatives en termes de risques quant à la capacité de ces grandes éruptions à réactiver des réservoirs inactifs peu profonds provenant d’un système magmatique transcrustal et potentiellement situé à distance du site éruptif.

Published

2022

26. Active hydrothermal vents in the Woodlark Basin may act as dispersing centres for hydrothermal fauna

Author

Boulart, Cedric, Rouxel, Olivier, Scalabrin, Carla, Le Meur, Pierre, Pelleter, Ewan, Poitrimol, Camille, Thiebaut, Eric, Matabos, Marjolaine, Castel, Jade, Tran Lu, Adrien Y., Michel, Loic, Cathalot, Cecile, Chéron, Sandrine, Boissier, Audrey, Germain, Yoan, Guyader, Vivien, Arnaud-haond, Sophie, Bonhomme, François, Broquet, Thomas, Cueff-gauchard, Valerie, Le Layec, Victor, L’haridon, Stéphane, Mary, Jean, Le Port, Anne-sophie, Tasiemski, Aurélie, Kuama, Darren C., Hourdez, Stéphane, Jollivet, Didier, Boulart, Cedric, Rouxel, Olivier, Scalabrin, Carla, Le Meur, Pierre, Pelleter, Ewan, Poitrimol, Camille, Thiebaut, Eric, Matabos, Marjolaine, Castel, Jade, Tran Lu, Adrien Y., Michel, Loic, Cathalot, Cecile, Chéron, Sandrine, Boissier, Audrey, Germain, Yoan, Guyader, Vivien, Arnaud-haond, Sophie, Bonhomme, François, Broquet, Thomas, Cueff-gauchard, Valerie, Le Layec, Victor, L’haridon, Stéphane, Mary, Jean, Le Port, Anne-sophie, Tasiemski, Aurélie, Kuama, Darren C., Hourdez, Stéphane, and Jollivet, Didier

Abstract

Here we report the discovery of a high-temperature hydrothermal vent field on the Woodlark Ridge, using ship-borne multibeam echosounding and Remotely Operated Vehicle (ROV) exploration. La Scala Vent Field comprises two main active areas and several inactive zones dominated by variably altered basaltic rocks, indicating that an active and stable hydrothermal circulation has been maintained over a long period of time. The Pandora Site, at a depth of 3380 m, is mainly composed of diffuse vents. The Corto site, at a depth of 3360 m, is characterized by vigorous black smokers (temperature above 360 °C). The striking features of this new vent field are the profusion of stalked barnacles Vulcanolepas sp. nov., the absence of mussels and the scarcity of the gastropod symbiotic fauna. We suggest that La Scala Vent Field may act as a dispersing centre for hydrothermal fauna towards the nearby North Fiji, Lau and Manus basins.

Published

2022

27. Population structure and environmental niches of Rimicaris shrimps from the Mid-Atlantic Ridge

Author

Methou, Pierre, Hernández-ávila, I, Cathalot, Cecile, Cambon-bonavita, Marie-anne, Pradillon, Florence, Methou, Pierre, Hernández-ávila, I, Cathalot, Cecile, Cambon-bonavita, Marie-anne, and Pradillon, Florence

Abstract

Among the endemic and specialized fauna from hydrothermal vents, Rimicaris shrimps constitute one of the most important and emblematic components of these ecosystems. On the Mid-Atlantic Ridge, 2 species belonging to this genus co-occur: R. exoculata and R. chacei that differ in their morphology, trophic regime and abundance. R. exoculata forms large and dense aggregations on active vent chimney walls in close proximity to vent fluid emissions, whereas R. chacei is much less conspicuous, living mostly in scattered groups or solitary further away from the fluids. However, the recent revision of Rimicaris juvenile stages from the Mid-Atlantic Ridge shows that R. chacei abundance would be higher than expected at these early life stages. Here, we describe and compare the population structure of R. exoculata and R. chacei at the Snake Pit and Trans-Atlantic Geotraverse (TAG) vent fields. We show distinct population demographics between the 2 co-occurring shrimp species with a large post-settlement collapse in R. chacei populations suggesting high juvenile mortality for this species. We describe important spatial segregation patterns between the 2 species and their different life stages. Additionally, our results highlight distinct niches for the earliest juvenile stages of both R. exoculata and R. chacei, compared with all other life stages. Finally, we discuss the potential factors, including predation and competitive interactions, that could explain the differences we observed in the population structure of these 2 species.

Published

2022

28. Volcano-tectonic structures of Mayotte’s upper submarine slope: insights from high-resolution bathymetry and in-situ imagery from a deep-towed camera

Author

Puzenat, Valentine, Feuillet, Nathalie, Komorowski, Jean-christophe, Escartín, Javier, Deplus, Christine, Bachèlery, Patrick, Berthod, Carole, Gurioli, Lucia, Scalabrin, Carla, Cathalot, Cecile, Rinnert, Emmanuel, Loubrieu, Benoit, Pierre, Delphine, Pitel-roudaut, Mathilde, Tanguy, Nina, Fouquet, Yves, Jorry, Stephan, Lebas, Elodie, Paquet, Fabien, Thinon, Isabelle, Puzenat, Valentine, Feuillet, Nathalie, Komorowski, Jean-christophe, Escartín, Javier, Deplus, Christine, Bachèlery, Patrick, Berthod, Carole, Gurioli, Lucia, Scalabrin, Carla, Cathalot, Cecile, Rinnert, Emmanuel, Loubrieu, Benoit, Pierre, Delphine, Pitel-roudaut, Mathilde, Tanguy, Nina, Fouquet, Yves, Jorry, Stephan, Lebas, Elodie, Paquet, Fabien, and Thinon, Isabelle

Abstract

Unlike subaerial volcanic activity, deep submarine eruptions are difficult to detect, observe and monitor. The objective of this paper is to describe a large and complex volcanic region, named the Horseshoe area, recently discovered at 1500 m below sea level on the eastern upper submarine slope of Mayotte Island. The area is crucial because, since 2018, it has experienced an exceptionally deep seismic activity associated with the ongoing submarine eruption that formed a new volcanic edifice, Fani Maoré, about 40 km to the east. We present the results of a multiscale study, based on high-resolution bathymetry and in-situ seafloor observations carried out with autonomous underwater vehicles (AUVs) and deep-towed camera systems. In-situ imagery provides ground-truth for the geological interpretation of seafloor textures mapped with the bathymetry. The combination of both datasets allows us to discuss the nature of the volcanic structures and to propose a relative chronology of previous eruptive events in the Horseshoe area. Based on our analyses, we propose the following chronology: (a) the emplacement of a large explosive volcanic cone, the Horseshoe edifice, (b) the later collapse of this edifice that resulted in the formation of an elongated, 2 km wide horseshoe-shaped depression, crosscutting older hummocky lava flows, (c) the development of an E–W eruptive fissure associated with numerous explosive craters, east of the Horseshoe edifice, and (d) late volcanism emanating from the rim of the horseshoe-shaped depression that fed elongated thin lava flows both towards and away from the depression. While all volcanic features mapped at the Horseshoe area were emplaced prior to the 2018 eruption, our study shows that this region has still been volcanically active in the recent past. Our results thus document a complex geological history at small spatial scales involved in the construction of major submarine edifices, and that are controlled by volcano-tectonic processes

Published

2022

29. Influence of the organic matter composition on benthic oxygen demand in the Rhône River prodelta (NW Mediterranean Sea)

Author

Pastor, Lucie, Deflandre, Bruno, Viollier, Eric, Cathalot, Cécile, Metzger, Edouard, Rabouille, Christophe, Escoubeyrou, Karine, Lloret, Emily, Pruski, Audrey M., Vétion, Gilles, Desmalades, Martin, Buscail, Roselyne, and Grémare, Antoine

Published

2011

30. Hydrothermal plumes as hotspots for deep-ocean heterotrophic microbial biomass production

Author

Cathalot, Cecile, Roussel, Erwan, Perhirin, Antoine, Redou Creff, Vanessa, Donval, Jean-pierre, Guyader, Vivien, Roullet, Guillaume, Gula, Jonathan, Tamburini, Christian, Garel, Marc, Godfroy, Anne, Sarradin, Pierre-marie, and Redou

Abstract

Carbon budgets of hydrothermal plumes result from the balance between carbon sinks through plume chemoautotrophic processes and carbon release via microbial respiration. However, the lack of comprehensive analysis of the metabolic processes and biomass production rates hinders an accurate estimate of their contribution to the deep ocean carbon cycle. Here, we use a biogeochemical model to estimate the autotrophic and heterotrophic production rates of microbial communities in hydrothermal plumes and validate it with in situ data. We show how substrate limitation might prevent net chemolithoautotrophic production in hydrothermal plumes. Elevated prokaryotic heterotrophic production rates (up to 0.9 gCm−2y−1) compared to the surrounding seawater could lead to 0.05 GtCy−1 of C-biomass produced through chemoorganotrophy within hydrothermal plumes, similar to the Particulate Organic Carbon (POC) export fluxes reported in the deep ocean. We conclude that hydrothermal plumes must be accounted for as significant deep sources of POC in ocean carbon budgets.

Published

2021

31. Birth of a large volcanic edifice offshore Mayotte via lithosphere-scale dyke intrusion

Author

Feuillet, Nathalie, Jorry, Stephan, Crawford, Wayne C., Deplus, Christine, Thinon, Isabelle, Jacques, Eric, Saurel, Jean Marie, Lemoine, Anne, Paquet, Fabien, Satriano, Claudio, Aiken, Chastity, Foix, Oceane, Kowalski, Philippe, Laurent, Angèle, Rinnert, Emmanuel, Cathalot, Cecile, Donval, Jean-pierre, Guyader, Vivien, Gaillot, Arnaud, Scalabrin, Carla, Moreira, Manuel, Peltier, Aline, Beauducel, François, Grandin, Raphaël, Ballu, Valérie, Daniel, Romuald, Pelleau, Pascal, Gomez, Jérémy, Besançon, Simon, Geli, Louis, Bernard, Pascal, Bachelery, Patrick, Fouquet, Yves, Bertil, Didier, Lemarchand, Arnaud, Van Der Woerd, Jérome, Feuillet, Nathalie, Jorry, Stephan, Crawford, Wayne C., Deplus, Christine, Thinon, Isabelle, Jacques, Eric, Saurel, Jean Marie, Lemoine, Anne, Paquet, Fabien, Satriano, Claudio, Aiken, Chastity, Foix, Oceane, Kowalski, Philippe, Laurent, Angèle, Rinnert, Emmanuel, Cathalot, Cecile, Donval, Jean-pierre, Guyader, Vivien, Gaillot, Arnaud, Scalabrin, Carla, Moreira, Manuel, Peltier, Aline, Beauducel, François, Grandin, Raphaël, Ballu, Valérie, Daniel, Romuald, Pelleau, Pascal, Gomez, Jérémy, Besançon, Simon, Geli, Louis, Bernard, Pascal, Bachelery, Patrick, Fouquet, Yves, Bertil, Didier, Lemarchand, Arnaud, and Van Der Woerd, Jérome

Abstract

Volcanic eruptions shape Earth’s surface and provide a window into deep Earth processes. How the primary asthenospheric melts form, pond and ascend through the lithosphere is, however, still poorly understood. Since 10 May 2018, magmatic activity has occurred offshore eastern Mayotte (North Mozambique channel), associated with large surface displacements, very-low-frequency earthquakes and exceptionally deep earthquake swarms. Here we present geophysical and marine data from the MAYOBS1 cruise, which reveal that by May 2019, this activity formed an 820-m-tall, ~5 km³ volcanic edifice on the seafloor. This is the largest active submarine eruption ever documented. Seismic and deformation data indicate that deep (>55 km depth) magma reservoirs were rapidly drained through dykes that intruded the entire lithosphere and that pre-existing subvertical faults in the mantle were reactivated beneath an ancient caldera structure. We locate the new volcanic edifice at the tip of a 50-km-long ridge composed of many other recent edifices and lava flows. This volcanic ridge is an extensional feature inside a wide transtensional boundary that transfers strain between the East African and Madagascar rifts. We propose that the massive eruption originated from hot asthenosphere at the base of a thick, old, damaged lithosphere.

Published

2021

32. Persephonella atlantica sp. nov.: How to adapt to physico-chemical gradients in high temperature hydrothermal habitats

Author

François, David, Godfroy, Anne, Mathien, Clémentine, Aubé, Johanne, Cathalot, Cecile, Lesongeur, Francoise, L'Haridon, Stephane, Philippon, Xavier, Roussel, Erwan, François, David, Godfroy, Anne, Mathien, Clémentine, Aubé, Johanne, Cathalot, Cecile, Lesongeur, Francoise, L'Haridon, Stephane, Philippon, Xavier, and Roussel, Erwan

Abstract

A novel thermophilic, microaerophilic and anaerobic, hydrogen- sulphur- and thiosulphate-oxidising bacterium, designated MO1340T, was isolated from a deep-sea hydrothermal chimney collected from the Lucky Strike hydrothermal vent field on the Mid-Atlantic Ridge. Cells were short, motile rods of 1.4 - 2.2 µm length and 0.5 - 0.8 µm width. Optimal growth was observed for a NaCl concentration of 2.5 % (w/v) at pH 6.5. As for other members of the genus Persephonella, strain MO1340T was strictly chemolithoautotrophic and could oxidise hydrogen, elemental sulphur or thiosulphate using oxygen as electron acceptor. Anaerobic nitrate reduction using hydrogen could also be performed. Each catabolic reaction had a different optimal growth temperature (65 to 75 °C) and an optimal dissolved oxygen concentration (11.4 to 119.7 µM at 70 °C for aerobic reactions) that varied according to the electron donors utilised. These experimental results are consistent with the distribution of these catabolic substrates along the temperature gradient observed in active hydrothermal systems. They strongly suggest that this adaptive strategy could confer a selective advantage for strain MO1340T in the dynamic part of the ecosystem where hot, reduced hydrothermal fluid mixes with cold, oxygenated seawater. Phylogenetic analysis indicated that strain MO1340T was a member of the genus Persephonella within the order Hydrogenothermales as it shared a 16S rRNA gene sequence similarity <95.5 % and ANI respectively 75.66 % with closest described Persephonella (P. hydrogeniphila 29WT). On the basis of the physiological and genomic properties of the new isolate, the name Persephonella atlantica sp. nov. is proposed. The type strain is MO1340T (=UBOCC-M-3359T =JCM 34026T).

Published

2021

33. Recovery of hydrothermal vent communities in response to an induced disturbance at the Lucky Strike vent field (Mid-Atlantic Ridge)

Author

Marticorena, Julien, Matabos, Marjolaine, Ramirez-llodra, E., Cathalot, Cecile, Laes, Agathe, Leroux, Romain, Hourdez, S., Donval, Jean-pierre, Sarrazin, Jozee, Marticorena, Julien, Matabos, Marjolaine, Ramirez-llodra, E., Cathalot, Cecile, Laes, Agathe, Leroux, Romain, Hourdez, S., Donval, Jean-pierre, and Sarrazin, Jozee

Abstract

So far, the natural recovery of vent communities at large scales has only been evaluated at fast spreading centres, by monitoring faunal recolonisation after volcanic eruptions. However, at slow spreading ridges, opportunities to observe natural disturbances are rare, the overall hydrothermal system being more stable. In this study, we implemented a novel experimental approach by inducing a small-scale disturbance to assess the recovery potential of vent communities along the slow-spreading northern Mid-Atlantic Ridge (nMAR). We followed the recovery patterns of thirteen Bathymodiolus azoricus mussel assemblages colonising an active vent edifice at the Lucky Strike vent field, in relation to environmental conditions and assessed the role of biotic interactions in recolonisation dynamics. Within 2 years after the disturbance, almost all taxonomic richness had recovered, with the exception of a few low occurrence species. However, we observed only a partial recovery of faunal densities and a major change in faunal composition characterised by an increase in abundance of gastropod species, which are hypothesised to be the pioneer colonists of these habitats. Although not significant, our results suggest a potential role of mobile predators in early-colonisation stages. A model of post-disturbance succession for nMAR vent communities from habitat opening to climax assemblages is proposed, also highlighting numerous knowledge gaps. This type of experimental approach, combined with dispersal and connectivity analyses, will contribute to fully assess the resilience of active vent communities after a major disturbance, especially along slow spreading centres targeted for seafloor massive sulphide extraction.

Published

2021

34. Birth of a large volcanic edifice through lithosphere-scale dyking offshore Mayotte (Indian Ocean)

Author

Feuillet, Nathalie, primary, Jorry, Stephan, additional, Crawford, Wayne, additional, Deplus, Christine, additional, Thinon, Isabelle, additional, Jacques, Eric, additional, Saurel, Jean-Marie, additional, Lemoine, Anne, additional, Paquet, Fabien, additional, Satriano, Claudio, additional, Aiken, Chastity, additional, Foix, Océane, additional, Kowalski, Philippe, additional, Laurent, Angèle, additional, Rinnert, Emmanuel., additional, Cathalot, Cecile, additional, Donval, Jean.Pierre, additional, Guyader, Vivien, additional, Gaillot, Arnaud, additional, scalabrin, carla, additional, Moreira, Manuel, additional, Peltier, Aline, additional, Beauducel, François, additional, Grandin, Raphaël, additional, Ballu, Valérie, additional, Daniel, Romuald, additional, Pelleau, Pascal, additional, Besancon, Simon, additional, Geli, Louis, additional, Bernard, Pascal, additional, Bachelery, Patrick, additional, Fouquet, Yves, additional, Bertil, Didier, additional, Lemarchand, Arnaud, additional, and Van der Woerd, Jerôme, additional

Published

2021

35. Benthic alkalinity and dissolved inorganic carbon fluxes in the Rhône River prodelta generated by decoupled aerobic and anaerobic processes

Author

Rassmann, Jens, Eitel, Eryn M., Lansard, Bruno, Cathalot, Cecile, Brandily, Christophe, Taillefert, Martial, and Rabouille, Christophe

Abstract

Estuarine regions are generally considered a major source of atmospheric CO2, as a result of the high organic carbon (OC) mineralization rates in their water column and sediments. Despite this, the intensity of anaerobic respiration processes in the sediments tempered by the reoxidation of reduced metabolites near the sediment–water interface controls the flux of benthic alkalinity. This alkalinity may partially buffer metabolic CO2 generated by benthic OC respiration in sediments. Thus, sediments with high anaerobic respiration rates could contribute less to local acidification than previously thought. In this study, a benthic chamber was deployed in the Rhône River prodelta and the adjacent continental shelf (Gulf of Lion, northwestern Mediterranean) in late summer to assess the fluxes of total alkalinity (TA) and dissolved inorganic carbon (DIC) from the sediment. Concurrently, in situ O2 and pH micro-profiles, voltammetric profiles and pore water composition were measured in surface sediments to identify the main biogeochemical processes controlling the net production of alkalinity in these sediments. Benthic TA and DIC fluxes to the water column, ranging between 14 and 74 and 18 and 78 mmol m−2 d−1, respectively, were up to 8 times higher than dissolved oxygen uptake (DOU) rates (10.4±0.9 mmol m−2 d−1) close to the river mouth, but their intensity decreased offshore, as a result of the decline in OC inputs. In the zone close to the river mouth, pore water redox species indicated that TA and DIC were mainly produced by microbial sulfate and iron reduction. Despite the complete removal of sulfate from pore waters, dissolved sulfide concentrations were low and significant concentrations of FeS were found, indicating the precipitation and burial of iron sulfide minerals with an estimated burial flux of 12.5 mmol m−2 d−1 near the river mouth. By preventing reduced iron and sulfide reoxidation, the precipitation and burial of iron sulfide increases the alkalinity release from the sediments during the spring and summer months. Under these conditions, the sediment provides a net source of alkalinity to the bottom waters which mitigates the effect of the benthic DIC flux on the carbonate chemistry of coastal waters and weakens the partial pressure of CO2 increase in the bottom waters that would occur if only DIC was produced.

Published

2020

36. Processes Driving Iron and Manganese Dispersal From the TAG Hydrothermal Plume (Mid-Atlantic Ridge): Results From a GEOTRACES Process Study

Author

González-santana, David, Planquette, Helene, Cheize, Marie, Whitby, Hannah, Gourain, Arthur, Holmes, Thomas, Guyader, Vivien, Cathalot, Cecile, Pelleter, Ewan, Fouquet, Yves, Sarthou, Geraldine, González-santana, David, Planquette, Helene, Cheize, Marie, Whitby, Hannah, Gourain, Arthur, Holmes, Thomas, Guyader, Vivien, Cathalot, Cecile, Pelleter, Ewan, Fouquet, Yves, and Sarthou, Geraldine

Abstract

Hydrothermal vents are a recognized source of trace elements to the ocean inventory. Nevertheless, the contribution of slow-spreading ridges remains poorly resolved. To address this, high-resolution dissolved (<0.45 μm) iron (dFe) and manganese (dMn) samples were collected during the GEOTRACES HERMINE GApr07 process study at the Mid Atlantic Ridge. Samples were collected at nine stations, from the TAG vent site to 75 km south-southwest following the neutrally buoyant plume. Concentrations of dMn and dFe ranged from 71 ± 6 and 51 ± 2 nmol kg–1 right above the vent site to 0.43 ± 0.01 and 1.56 ± 0.02 nmol kg–1 at the most distal station, respectively. Using a 5-box model coupled with our data, we show that as the plume traveled away from the vent, aggregation processes controlled dFe concentrations in the first 2 km, with an aggregation rate averaging between 8.0 ± 0.6 and 0.11 ± 0.04 nmol L–1 d–1, respectively in the first and second kilometer. Aggregation, likely of small colloidal particles, led to partitioning of the size fractionated Fe pool, as 6% of the dFe was moved into the particulate size fraction. Further away, disaggregation processes became more prevalent, with rates ranging from 0.27 ± 0.02 to 0.008 ± 0.001 nmol L–1 d–1, enriching the dFe pool by 10%. The computed decrease of hydrothermal Fe within the neutrally buoyant plume was likely caused by flocculation of small Fe oxyhydroxide particles. This process resulted in Fe aggregate formation with radii estimated to range between 14 and 20 μm in the first km from TAG. Between 2 and 30 km from the vent site, the radii ranged between 2 and 4 μm.

Published

2020

37. Endogenous versus exogenous factors: What matters for vent mussel communities?

Author

Sarrazin, Jozee, Portail, Marie, Legrand, E., Cathalot, Cecile, Laes, Agathe, Lahaye, Noe, Sarradin, Pierre-marie, Husson, Berengere, Sarrazin, Jozee, Portail, Marie, Legrand, E., Cathalot, Cecile, Laes, Agathe, Lahaye, Noe, Sarradin, Pierre-marie, and Husson, Berengere

Abstract

The factors influencing the structure of hydrothermal communities are not necessarily similar across geographical regions and vent fields. In the present study, we explore the role of environmental conditions on vent community structure at local and regional spatial scales, focusing on the assemblages dominated by the engineer species Bathymodiolus azoricus. Their presence in several vent fields on the northern Mid-Atlantic Ridge (MAR) represents a unique opportunity to compare their associated fauna and to better understand large-scale biodiversity patterns. Two types of factors were considered: exogenous ones such as the presence of biogeographical barriers, depth, and distance between sites, and those linked to the intrinsic characteristics of each field (endogenous factors, e.g. local abiotic conditions). The main goals of our study are to describe and compare the biological and environmental characteristics of mussel assemblages collected from three vent fields – Menez Gwen (MG), Lucky Strike (LS) and Rainbow (RB) – located in the Azores Triple Junction on the MAR. These fields differ in the chemistry of their end-member fluids, their depths as well as their geological settings. We focus on the composition, abundance, and diversity of the macro- and meiofauna associated with the vent mussels. Comparing them between vent fields and among the different edifices of a single vent field (Lucky Strike) allows us to study the influence of exogenous and endogenous factors at local and regional scales. On the local scale, our results show that the pool of species associated with B. azoricus is largely shared between the edifices of LS, which suggest no obstacles to species dispersion across the field. However, differences in relative abundances foster mussel assemblages with varying diversity, probably linked to differences in local abiotic conditions between the various chemistry domains of the field. At larger scale, we observed a “vent field signature” in the communi

Published

2020

38. Spatial Association between Talc-Rich Mineralization and a "Black Smoker"-Type Deposit in a Newly Discovered Inactive Field (MARK Area, Mid-Atlantic Ridge)

Author

Pelleter, Ewan, primary, Fouquet, Yves, additional, Boissier, Audrey, additional, Cheron, Sandrine, additional, Leroy, Laetitia, additional, Germain, Yoan, additional, and Cathalot, Cecile, additional

Published

2020

39. Ecophysiological differences between vesicomyid species and metabolic capabilities of their symbionts influence distribution patterns of the deep‐sea clams

Author

Cruaud, Perrine, Decker, Carole, Olu, Karine, Arnaud-haond, Sophie, Papot, Claire, Le Baut, Jocelyn, Vigneron, Adrien, Khripounoff, Alexis, Gayet, Nicolas, Cathalot, Cecile, Caprais, Jean-claude, Pignet, Patricia, Godfroy, Anne, Cambon Bonavita, Marie-anne, Cruaud, Perrine, Decker, Carole, Olu, Karine, Arnaud-haond, Sophie, Papot, Claire, Le Baut, Jocelyn, Vigneron, Adrien, Khripounoff, Alexis, Gayet, Nicolas, Cathalot, Cecile, Caprais, Jean-claude, Pignet, Patricia, Godfroy, Anne, and Cambon Bonavita, Marie-anne

Abstract

This study provides an analysis of vesicomyid bivalve–symbiont community distribution across cold seep and hydrothermal vent areas in the Guaymas Basin (Gulf of California, Mexico). Using a combination of morphological and molecular approaches including fluorescent in situ hybridization (FISH), and electronic microscopy observations, vesicomyid clam species and their associated symbionts were characterized and results were analyzed in light of geochemical conditions and other on‐site observations. A greater diversity of vesicomyids was found at cold seep areas, where three different species were present (Phreagena soyoae [syn. kilmeri], Archivesica gigas, and Calyptogena pacifica). In contrast, A. gigas was the only species sampled across the hydrothermal vent area. The same haplotype of A. gigas was found in both hydrothermal vent and cold seep areas, highlighting possible contemporary exchanges among neighboring vents and seeps. In either ecosystem, molecular characterization of the symbionts confirmed the specificity between symbionts and hosts and supported the hypothesis of a predominantly vertical transmission. In addition, patterns of clams could reflect potential niche preferences for each species. The occurrence of numerous traces of vesicomyid movements on sediments in the sites colonized by A. gigas seemed to indicate that this species might have a better ability to move. Furthermore, variation in gill sulfur content could reveal a higher plasticity and sulfur storage capacity in A. gigas. Thus, the distribution of vesicomyid species across the chemosynthetic areas of the Guaymas Basin could be explained by differences in biological traits of the vesicomyid species that would allow A. gigas to more easily exploit transient and punctual sources of available sulfide than P. soyoae.

Published

2019

40. On the nature of dissolved copper ligands in the early buoyant plume of hydrothermal vents

Author

Cotte, Laura, Omanovic, Dario, Waeles, Mathieu, Laes, Agathe, Cathalot, Cecile, Sarradin, Pierre-marie, Riso, Ricardo D., Cotte, Laura, Omanovic, Dario, Waeles, Mathieu, Laes, Agathe, Cathalot, Cecile, Sarradin, Pierre-marie, and Riso, Ricardo D.

Abstract

Environmental contextCopper released by deep-sea hydrothermal vents has been recognised to be partly stabilised against precipitation by its complexation with strong Cu binding ligands. Yet, the sources and nature of these compounds in such environments are still not fully understood. This study shows that the Cu ligands detected are hydrothermally sourced and could be mainly inorganic sulfur species. AbstractThe apparent speciation of Cu in the early buoyant plume of two black smokers (Aisics and Y3) from the hydrothermal vent field Lucky Strike (Mid-Atlantic Ridge) was investigated using competitive ligand exchange-adsorptive cathodic stripping voltammetry (CLE-AdCSV). We have assessed the apparent Cu-binding ligand concentration ([L]) and the corresponding conditional stability constant (log K) for 24 samples. At the smoker Aisics, [L] ranged from 18.2 to 2970nM. Log K-CuL ranged from 12.4 to 13.4. At Y3, the binding capacity of natural ligands was from 32.5 to 1020nM, with Log K-CuL ranging from 12.5 to 13.1. Total dissolved Cu ranged from 7.0 to 770nM and from 12.7 to 409nM at Aisics and Y3, respectively. Our results show that the amount of ligand L increases with dissolved Mn (dMn) concentrations, suggesting a hydrothermal origin of the Cu-binding ligands detected. In addition, such high concentrations of Cu-binding ligands can only be explained by an additional abiotic source differing from organic processes. Based on the massive in situ concentrations of free sulfides (up to 300 mu M) and on the striking similarities between our log K-CuL and the log K-Cu(HS) previously published, we infer that the Cu-binding ligands could be predominantly inorganic sulfur species in the early buoyant plume of the two vent sites studied.

Published

2018

41. A comparison of in situ vs. ex situ filtration methods on the assessment of dissolved and particulate metals at hydrothermal vents

Author

Cotte, Laura, Waeles, Matthieu, Pernet-Coudrier, Benoît, Sarradin, Pierre-Marie, Cathalot, Cécile, and Riso, Ricardo D.

Published

2015

42. On the early fate of hydrothermal iron at deep-sea vents: A reassessment after in situ filtration

Author

Waeles, Mathieu, Cotte, Laura, Pernet-coudrier, Benoit, Chavagnac, V., Cathalot, Cecile, Leleu, T., Laes-huon, Agathe, Perhirin, Antoine, Riso, R. D., Sarradin, Pierre-marie, Waeles, Mathieu, Cotte, Laura, Pernet-coudrier, Benoit, Chavagnac, V., Cathalot, Cecile, Leleu, T., Laes-huon, Agathe, Perhirin, Antoine, Riso, R. D., and Sarradin, Pierre-marie

Abstract

Deep-sea hydrothermal venting is now recognized as a major source of iron (Fe), an essential trace element that controls marine productivity. However, the reactions occurring during dispersal from buoyant plumes to neutrally buoyant hydrothermal plumes are still poorly constrained. Here we report for the first time on the dissolved-particulate partition of Fe after in situ filtration at the early stage of mixing at different hydrothermal discharges, i.e., Lucky Strike (37 degrees N), TAG (26 degrees N), and Snakepit (23 degrees N) on the Mid-Atlantic Ridge. We found that hydrothermal iron is almost completely preserved (>90%) in the dissolved fraction, arguing for low iron-bearing sulfide precipitation of iron in basalt-hosted systems with low Fe:H2S ratios. This result can only be explained by a kinetically limited formation of pyrite. The small part of Fe being precipitated as sulfides in the mixing gradient (<10%) is restricted to the inclusion of Fe in minerals of high Cu and Zn content. We also show that secondary venting is a source of Fe-depleted hydrothermal solutions. These results provide new constrains on Fe fluxes from hydrothermal venting.

Published

2017

43. The Congolobe project, a multidisciplinary study of Congo deep-sea fan lobe complex: Overview of methods, strategies, observations and sampling

Author

Rabouille, C., Olu, Karine, Baudin, F., Khripounoff, Alexis, Dennielou, Bernard, Arnaud-haond, Sophie, Babonneau, Nathalie, Bayle, Christophe, Beckler, J., Bessette, Sandrine, Bombled, B., Bourgeois, S., Brandily, Christophe, Caprais, Jean-claude, Cathalot, Cecile, Charlier, K., Corvaisier, R., Croguennec, Chantal, Cruaud, Perrine, Decker, Carole, Droz, L., Gayet, Nicolas, Godfroy, Anne, Hourdez, S., Le Bruchec, J., Saout, Johan, Le Saout, Marie-helene, Lesongeur, Francoise, Martinez, P., Mejanelle, L., Michalopoulos, P., Mouchel, Olivier, Noel, Philippe, Pastor, Lucie, Picot, M., Pignet, Patricia, Pozzato, L., Pruski, A. M., Rabiller, Manuella, Raimonet, M., Ragueneau, O., Reyss, J. L., Rodier, Philippe, Ruesch, Blandine, Ruffine, Livio, Savignac, F., Senyarich, C., Schnyder, J., Sen, Arunima, Stetten, E., Sun, Ming Yi, Taillefert, M., Teixeira, S., Tisnerat-laborde, N., Toffin, Laurent, Tourolle, Julie, Toussaint, F., Vetion, G., Jouanneau, J. M., Bez, M., Rabouille, C., Olu, Karine, Baudin, F., Khripounoff, Alexis, Dennielou, Bernard, Arnaud-haond, Sophie, Babonneau, Nathalie, Bayle, Christophe, Beckler, J., Bessette, Sandrine, Bombled, B., Bourgeois, S., Brandily, Christophe, Caprais, Jean-claude, Cathalot, Cecile, Charlier, K., Corvaisier, R., Croguennec, Chantal, Cruaud, Perrine, Decker, Carole, Droz, L., Gayet, Nicolas, Godfroy, Anne, Hourdez, S., Le Bruchec, J., Saout, Johan, Le Saout, Marie-helene, Lesongeur, Francoise, Martinez, P., Mejanelle, L., Michalopoulos, P., Mouchel, Olivier, Noel, Philippe, Pastor, Lucie, Picot, M., Pignet, Patricia, Pozzato, L., Pruski, A. M., Rabiller, Manuella, Raimonet, M., Ragueneau, O., Reyss, J. L., Rodier, Philippe, Ruesch, Blandine, Ruffine, Livio, Savignac, F., Senyarich, C., Schnyder, J., Sen, Arunima, Stetten, E., Sun, Ming Yi, Taillefert, M., Teixeira, S., Tisnerat-laborde, N., Toffin, Laurent, Tourolle, Julie, Toussaint, F., Vetion, G., Jouanneau, J. M., and Bez, M.

Abstract

The presently active region of the Congo deep-sea fan (around 330 000 km2), called the terminal lobes or lobe complex, covers an area of 2500 km2 at 4700–5100 m water depth and 750–800 km offshore. It is a unique sedimentary area in the world ocean fed by a submarine canyon and a channel-levee system which presently deliver large amounts of organic carbon originating from the Congo River by turbidity currents. This particularity is due to the deep incision of the shelf by the Congo canyon, up to 30 km into the estuary, which funnels the Congo River sediments into the deep-sea. The connection between the river and the canyon is unique for major world rivers. In 2011, two cruises (WACS leg 2 and Congolobe) were conducted to simultaneously investigate the geology, organic and inorganic geochemistry, and micro- and macro-biology of the terminal lobes of the Congo deep-sea fan. Using this multidisciplinary approach, the morpho-sedimentary features of the lobes were characterized along with the origin and reactivity of organic matter, the recycling and burial of biogenic compounds, the diversity and function of bacterial and archaeal communities within the sediment, and the biodiversity and functioning of the faunal assemblages on the seafloor. Six different sites were selected for this study: Four distributed along the active channel from the lobe complex entrance to the outer rim of the sediment deposition zone, and two positioned cross-axis and at increasing distance from the active channel, thus providing a gradient in turbidite particle delivery and sediment age. This paper aims to provide the general context of this multidisciplinary study. It describes the general features of the site and the overall sampling strategy and provides the initial habitat observations to guide the other in-depth investigations presented in this special issue. Detailed bathymetry of each sampling site using 0.1 m to 1 m resolution multibeam obtained with a remotely operated vehicle (ROV)

Published

2017

44. Structure of the Demerara passive-transform margin and associated sedimentary processes. Initial results from the IGUANES cruise

Author

Loncke, L., Maillard, A., Basile, C., Roest, Walter, Bayon, Germain, Gaullier, V., Pattier, France, Mercier De Lépinay, Marion, Grall, Celine, Droz, L., Marsset, Tania, Giresse, P., Caprais, Jean-claude, Cathalot, Cecile, Graindorge, D., Heuret, A., Lebrun, J. F., Bermell, Sylvain, Marcaillou, B., Sotin, C., Hebert, B., Patriat, Martin, Bassetti, M. A., Tallobre, Cedric, Buscail, R., Durrieu De Madron, X., Bourrin, F., Loncke, L., Maillard, A., Basile, C., Roest, Walter, Bayon, Germain, Gaullier, V., Pattier, France, Mercier De Lépinay, Marion, Grall, Celine, Droz, L., Marsset, Tania, Giresse, P., Caprais, Jean-claude, Cathalot, Cecile, Graindorge, D., Heuret, A., Lebrun, J. F., Bermell, Sylvain, Marcaillou, B., Sotin, C., Hebert, B., Patriat, Martin, Bassetti, M. A., Tallobre, Cedric, Buscail, R., Durrieu De Madron, X., and Bourrin, F.

Abstract

he IGUANES cruise took place in May 2013 on the R/V L'Atalante along the Demerara passive transform margin off French Guiana and Surinam. Seismic, multibeam and chirp acquisitions were made. Piston cores were collected for pore geochemistry and sedimentology. A mooring was deployed on the sea-bottom for 10 months (temperature, salinity, turbidity and current measurements). This new dataset highlights the lateral variability of the 350 km-long Guiana–Surinam transform margin due to the presence of a releasing bend between two transform segments. The adjacent Demerara Plateau is affected by a 350 km-long giant slide complex. This complex initiated in Cretaceous times and was regularly reactivated until recent times. Since the Miocene, contourite processes seem to be active due to the onset of the North Atlantic Deep Water (NADW) bottom current. A main NADW water vein flows towards SE, eroding slide headscarps and allowing the deposition of contourite drifts. Numerous depressions looking like comet tails or comet scours record this flow. Some of those were interpreted before the cruise as active pockmarks. Pore geochemistry and core analysis do not show any evidence of present-day gas seepage.

Published

2016

45. Long-Term In Situ Survey of Reactive Iron Concentrations at the EMSO-Azores Observatory

Author

Laes-huon, Agathe, Cathalot, Cecile, Legrand, Julien, Tanguy, Virginie, Sarradin, Pierre-marie, Laes-huon, Agathe, Cathalot, Cecile, Legrand, Julien, Tanguy, Virginie, and Sarradin, Pierre-marie

Abstract

A study of the temporal dynamics of iron concentrations and temperature on a faunal assemblage at the Lucky Strike vent was performed using the Tempo ecological module at the EMSO-Azores deep-sea observatory. The CHEMINI in situ analyzer was implemented on this structure to determine reactive iron concentrations in unfiltered seawater samples along with a temperature probe. Stability tests were performed on the CHEMINI analyzer before deployment (optical module, hyperbaric tests, and deep-sea calibration) for long-term in situ analysis of reactive iron (six months, 2013–2014) at the Tour Eiffel active edifice. Recorded daily, the in situ standard (25 \mu mol.L {}^{-1} ) showed excellent reproducibility (1.07%, n=522 ), confirming satisfactory analytical performance of the CHEMINI analyzer and thus validating the iron concentrations measured by the instrument. Furthermore, the analyzer proved to be reliable and robust over time. The averaged reactive iron concentration for the six-month period remained low ([Fe] =text{7.12}\pm text{2.11} \mu mol.L {}^{-1} , n=519 ), but showed some noticeable variations with temperature. Reactive iron concentrations and temperature were significantly correlated emphasizing reactive iron stabilization over the time of deployment. Period spectra indicated strong tidal influence and relevant frequencies of four to five days for both variables.

Published

2016

46. Long-Term In Situ Survey of Reactive Iron Concentrations at the EMSO-Azores Observatory

Author

Laes-Huon, Agathe, primary, Cathalot, Cecile, additional, Legrand, Julien, additional, Tanguy, Virginie, additional, and Sarradin, Pierre-Marie, additional

Published

2016

47. Aquatic Eddy Correlation: Quantifying the Artificial Flux Caused by Stirring-Sensitive O2 Sensors.

Author

Holtappels, Moritz, Noss, Christian, Hancke, Kasper, Cathalot, Cecile, Mcginnis, Daniel F., Lorke, Andreas, Glud, Ronnie N., Holtappels, Moritz, Noss, Christian, Hancke, Kasper, Cathalot, Cecile, Mcginnis, Daniel F., Lorke, Andreas, and Glud, Ronnie N.

Abstract

In the last decade, the aquatic eddy correlation (EC) technique has proven to be a powerful approach for non-invasive measurements of oxygen fluxes across the sediment water interface. Fundamental to the EC approach is the correlation of turbulent velocity and oxygen concentration fluctuations measured with high frequencies in the same sampling volume. Oxygen concentrations are commonly measured with fast responding electrochemical microsensors. However, due to their own oxygen consumption, electrochemical microsensors are sensitive to changes of the diffusive boundary layer surrounding the probe and thus to changes in the ambient flow velocity. The so-called stirring sensitivity of microsensors constitutes an inherent correlation of flow velocity and oxygen sensing and thus an artificial flux which can confound the benthic flux determination. To assess the artificial flux we measured the correlation between the turbulent flow velocity and the signal of oxygen microsensors in a sealed annular flume without any oxygen sinks and sources. Experiments revealed significant correlations, even for sensors designed to have low stirring sensitivities of ~0.7%. The artificial fluxes depended on ambient flow conditions and, counter intuitively, increased at higher velocities because of the nonlinear contribution of turbulent velocity fluctuations. The measured artificial fluxes ranged from 2 - 70 mmol m-2 d-1 for weak and very strong turbulent flow, respectively. Further, the stirring sensitivity depended on the sensor orientation towards the flow. For a sensor orientation typically used in field studies, the artificial flux could be predicted using a simplified mathematical model. Optical microsensors (optodes) that should not exhibit a stirring sensitivity were tested in parallel and did not show any significant correlation between O2 signals and turbulent flow. In conclusion, EC data obtained with electrochemical sensors can be affected by artificial flux and we recommend u

Published

2015

48. Cold-water coral reefs and adjacent sponge grounds: hotspots of benthic respiration and organic carbon cycling in the deep sea

Author

Cathalot, Cecile, Van Oevelen, Dick, Cox, Tom J.s., Kutti, Tina, Lavaleye, Marc S. S., Duineveld, Gca, Meysman, Filip J. R., Cathalot, Cecile, Van Oevelen, Dick, Cox, Tom J.s., Kutti, Tina, Lavaleye, Marc S. S., Duineveld, Gca, and Meysman, Filip J. R.

Abstract

Cold-water coral reefs and adjacent sponge grounds are distributed widely in the deep ocean, where only a small fraction of the surface productivity reaches the seafloor as detritus. It remains elusive how these hotspots of biodiversity can thrive in such a food-limited environment, as data on energy flow and organic carbon utilization are critically lacking. Here we report in situ community respiration rates for cold-water coral and sponge ecosystems obtained by the non-invasive aquatic Eddy Correlation technique. Oxygen uptake rates over coral reefs and adjacent sponge grounds in the Træna Coral Field (Norway) were 9–20 times higher than those of the surrounding soft sediments. These high respiration rates indicate strong organic matter consumption, and hence suggest a local focusing onto these ecosystems of the downward flux of organic matter that is exported from the surface ocean. Overall, our results show that coral reefs and adjacent sponge grounds are hotspots of carbon processing in the food-limited deep ocean, and that these deep-sea ecosystems play a more prominent role in marine biogeochemical cycles than previously recognized.

Published

2015

49. An Assessment of the Precision and Confidence of Aquatic Eddy Correlation Measurements

Author

Donis, Daphne, Holtappels, Moritz, Noss, Christian, Cathalot, Cecile, Hancke, Kasper, Polsenaere, Pierre, Wenzhoefer, Frank, Lorke, Andreas, Meysman, Filip J. R., Glud, Ronnie N., Mcginnis, Daniel F., Donis, Daphne, Holtappels, Moritz, Noss, Christian, Cathalot, Cecile, Hancke, Kasper, Polsenaere, Pierre, Wenzhoefer, Frank, Lorke, Andreas, Meysman, Filip J. R., Glud, Ronnie N., and Mcginnis, Daniel F.

Abstract

The quantification of benthic fluxes with the aquatic eddy correlation (EC) technique is based on simultaneous measurement of the current velocity and a targeted bottom water parameter (e.g., O2, temperature). High-frequency measurements (64 Hz) are performed at a single point above the seafloor using an acoustic Doppler velocimeter (ADV) and a fast-responding sensor. The advantages of aquatic EC technique are that 1) it is noninvasive, 2) it integrates fluxes over a large area, and 3) it accounts for in situ hydrodynamics. The aquatic EC has gained acceptance as a powerful technique; however, an accurate assessment of the errors introduced by the spatial alignment of velocity and water constituent measurements and by their different response times is still needed. Here, this paper discusses uncertainties and biases in the data treatment based on oxygen EC flux measurements in a large-scale flume facility with well-constrained hydrodynamics. These observations are used to review data processing procedures and to recommend improved deployment methods, thus improving the precision, reliability, and confidence of EC measurements. Specifically, this study demonstrates that 1) the alignment of the time series based on maximum cross correlation improved the precision of EC flux estimations; 2) an oxygen sensor with a response time of <0.4 s facilitates accurate EC fluxes estimates in turbulence regimes corresponding to horizontal velocities < 11 cm s−1; and 3) the smallest possible distance (<1 cm) between the oxygen sensor and the ADV’s sampling volume is important for accurate EC flux estimates, especially when the flow direction is perpendicular to the sensor’s orientation.

Published

2015

50. Origin of an enigmatic regional Mio-Pliocene unconformity on the Demerara plateau

Author

Pattier, France, Loncke, L., Imbert, Patrice, Gaullier, V., Basile, C., Maillard, Alexandre, Roest, Walter, Patriat, Martin, Vendeville, B. C., Marsset, Tania, Bayon, Germain, Cathalot, Cecile, Caprais, Jean-claude, Bermell, Sylvain, Sotin, Christine, Hebert, Bertil, Mercier De Lepinay, Marion, Lebrun, J. F., Marcaillou, B., Heuret, A., Droz, Laurence, Graindorge, David, Poetisi, E., Berrenstein, H., Pattier, France, Loncke, L., Imbert, Patrice, Gaullier, V., Basile, C., Maillard, Alexandre, Roest, Walter, Patriat, Martin, Vendeville, B. C., Marsset, Tania, Bayon, Germain, Cathalot, Cecile, Caprais, Jean-claude, Bermell, Sylvain, Sotin, Christine, Hebert, Bertil, Mercier De Lepinay, Marion, Lebrun, J. F., Marcaillou, B., Heuret, A., Droz, Laurence, Graindorge, David, Poetisi, E., and Berrenstein, H.

Abstract

The Demerara plateau, located offshore French Guiana and Suriname, is part of a passive transform continental margin particularly prone to develop slope instabilities, probably in relation to the presence of a free distal border along its steep continental slope. Slope failure occurred at different periods (Cretaceous to Neogene) and shows an overall retrogressive evolution through time. Upslope these failure headscarp, an enigmatic regional MioPliocene unconformity has been discovered through the interpretation of new academic and industrial datasets. The aim of this work is to describe and understand the origin of this surface. Our analysis shows that this unconformity is made of a series of valleys that cross-cut sedimentary strata. Each one of these valleys has a short lateral extent and is closed along two perpendicular directions, which suggests that it could correspond to a highly meandering system, or to some sub-circular depressions. The infill of these features is equivalent to the regional stratigraphic strata found outside the structures, but in a subdued position. This seems to imply that the structures have originated by a local loss of sediments at their base or by sliding processes. Furthermore, these depressions intersect each other through time, while migrating progressively downslope. We discuss a series of hypotheses that try to explain the onset and evolution of these depressions forming the Mio-Pliocene unconformity (Canyons? Slope failures? Contourite moats? Hydrate pockmarks?). Having established that these structures are depressions formed by collapse, and have many similarities with structures recently described in the literature as pockmarks associated with gas hydrate dissolution, we favor this hypothesis. We propose that these hydrate pockmarks form with a mass failure that was triggered by fluid-overpressure development at the base of the hydrate stability zone.

Published

2015