Search

Your search keyword '"Le Saout, Morgane"' showing total 39 results
Start Over Author "Le Saout, Morgane"
39 results on '"Le Saout, Morgane"'

2. Geology of the Alarcon Rise, Southern Gulf of California

Author

Clague, David A, Caress, David W, Dreyer, Brian M, Lundsten, Lonny, Paduan, Jennifer B, Portner, Ryan A, Spelz‐Madero, Ronald, Bowles, Julie A, Castillo, Paterno R, Guardado‐France, Rigoberto, Le Saout, Morgane, Martin, Julie F, Santa Rosa‐del Río, Miguel A, and Zierenberg, Robert A

Subjects
Physical Sciences, Earth Sciences, Geochemistry & Geophysics
Abstract

Meter-scale AUV bathymetric mapping and ROV sampling of the entire 47 km-long Alarcon Rise between the Pescadero and Tamayo transforms show that the shallowest inflated portion of the segment hosts all four active hydrothermal vent fields and the youngest, hottest, and highest effusion rate lava flows. This shallowest inflated part is located ∼1/3 of the way between the Tamayo and Pescadero transforms and is paved by a 16 km2 channelized flow that erupted from 9 km of en echelon fissures and is larger than historic flows on the East Pacific Rise or on the Gorda and Juan de Fuca Ridges. Starting ∼5 km south of the Pescadero transform, 6.5 km of the Alarcon Rise is characterized by faulted ridges and domes of fractionated lavas ranging from basaltic andesite to rhyolite with up to 77.3 wt % SiO2. These are the first known rhyolites from the submarine global mid-ocean ridge system. Silicic lavas range from >11.7 ka, to as young as 1.1 ka. A basalt-to-basaltic andesite sequence and an andesite-to-dacite-to-rhyolite sequence are consistent with crystal fractionation but some intermediate basaltic andesite and andesite formed by mixing basalt with dacite or rhyolite. Magmatism occurred along the bounding Tamayo and Pescadero transforms as extensive channelized flows. The flows erupted from ring faults surrounding uplifted sediment hills inferred to overlie sills. The transforms are transtensional to accommodate magma migration from the adjacent Alarcon Rise.

Published
2018

6. Variations in Volcanism and Tectonics Along the Hotspot‐Influenced Reykjanes Ridge

Author

Le Saout, Morgane, Pałgan, D., Devey, Colin W., Lux, Thorsten S., Petersen, Sven, Thorhallsson, D., Tomkowicz, A., Brix, S., Le Saout, Morgane, Pałgan, D., Devey, Colin W., Lux, Thorsten S., Petersen, Sven, Thorhallsson, D., Tomkowicz, A., and Brix, S.

Abstract

Mapping and sampling four sections of the slow-spreading Reykjanes Ridge provide insight into how tectonic and volcanic activity varies with distance from the Iceland plume. The studied areas are characterized by significant variations in water depth, lava chemistry, crustal thickness, thermal structure, and ridge morphology. For each study area, fault pattern and dimension, tectonic strain, seamount morphology, and density are inferred from 15 m-resolution bathymetry. These observations are combined with geochemical analysis from glass samples and sediment thickness estimations along Remotely Operated Vehicle-dive videos. They reveal that (a) tectonic and volcanic activity along the Reykjanes Ridge, do not systematically vary with distance from the plume center. (b) The tectonic geometry appears directly related to the deepening of the brittle/ductile transition and the maximum change in tectonic strain related to the rapid change in crustal thickness and the transition between axial-high and axial valley (∼59.5°N). (c) Across-axis variations in the fault density and sediment thickness provide similar widths for the neo-volcanic zone except in regions of increased seamount emplacement. (d) The variations in seamount density (especially strong for flat-topped seamounts) are not related to the distance from the plume but appear to be correlated with the interaction between the V-shape ridges (VSR) flanking the ridge and the ridge axis. These observations are more compatible with the buoyant upwelling melting instability hypothesis for VSR formation and suggest that buoyant melting instabilities create many small magma batches which by-pass the normal subaxial magmatic plumbing system, erupting over a wider-than-normal area. Key Points The distance from the plume center is not the only factor controlling tectonic and volcanic activity along the Reykjanes Ridge Fault dimensions are primarily controlled by the variation of crustal thermal structure with distance from th

Published
2023
Full Text
View/download PDF

7. Magmatism at an ultra-slow spreading rift: high-resolution geomorphological studies of a Red Sea Rift segment in Hadarba Deep

Author

Le Saout, Morgane, van der Zwan, Froukje M., Schiebener, Cora K., Augustin, Nico, Le Saout, Morgane, van der Zwan, Froukje M., Schiebener, Cora K., and Augustin, Nico

Abstract

The mid-ocean rift in the Red Sea is one of the youngest rifting systems on Earth. Only recently, state-of-the-art methods and modern deep-sea instruments have been used to explore this young and unique volcanic system. During the first autonomous underwater vehicle surveys of the Red Sea Rift in Spring 2022, we collected multibeam bathymetry, backscatter, sub-bottom profiler data, and water column data over a 9 km long ridge segment in the Hadarba Deep between 22.49°N and 22.56°N to investigate the volcano-tectonic processes of this ultra-slow spreading segment (12 mm/year spreading rate). The high-resolution hydroacoustic data was used to (1) delineate and quantify the geometry of tectonic structures and individual lava flows, (2) define lava flow morphology and eruption style, (3) estimate relative ages of flows and features, and (4) retrace the evolution of the volcanic activity. In addition, the geochemistry of several young lava flows provides information on the relation between the different magma that supply these eruptions. About 90 eruptive units with variable sedimentary cover have been identified within the 43 km 2 mapped region. The oldest lava flows are buried under 3 to 4.2 m of sediment, indicating ages of up to ~30 ka based on average sedimentation rate estimates (~14 cm/ka), while the youngest eruptions are covered by<10 cm of sediment, and are thus younger than 700 years. Three volcanic phases have been identified based on changes in flow morphology and distribution, and tectonic pattern. All three axial phases have an average eruptive frequency of ~100-250 years. The segment displays an overall low tectonic extension (<10% of the total extension) and low vertical offset. Our geomorphological maps, analyses, and statistics reveal a moderately faulted, ultra-slow spreading MOR segment in the Red Sea with a surprisingly large amount of magmatic extension, implying that the segment has been underlined by a large magma supply for at least 15 ka.

Published
2023
Full Text
View/download PDF

10. Habitat variability and faunal zonation at the Ægir Ridge, a canyon-like structure in the deep Norwegian Sea

Author

Brix, Saskia, Kaiser, Stefanie, Lörz, Anne-Nina, Le Saout, Morgane, Schumacher, Mia, Bonk, Frederic, Egilsdottír, Hrönn, Ólafsdóttir, Steinunn Hilma, Tandberg, Anne Helene S., Taylor, James, Tewes, Simon, Xavier, Joana R., Linse, Katrin, Brix, Saskia, Kaiser, Stefanie, Lörz, Anne-Nina, Le Saout, Morgane, Schumacher, Mia, Bonk, Frederic, Egilsdottír, Hrönn, Ólafsdóttir, Steinunn Hilma, Tandberg, Anne Helene S., Taylor, James, Tewes, Simon, Xavier, Joana R., and Linse, Katrin

Abstract

The Ægir Ridge System (ARS) is an ancient extinct spreading axis in the Nordic seas extending from the upper slope east of Iceland (∼550 m depth), as part of its Exclusive Economic Zone (EEZ), to a depth of ∼3,800 m in the Norwegian basin. Geomorphologically a rift valley, the ARS has a canyon-like structure that may promote increased diversity and faunal density. The main objective of this study was to characterize benthic habitats and related macro- and megabenthic communities along the ARS, and the influence of water mass variables and depth on them. During the IceAGE3 expedition (Icelandic marine Animals: Genetics and Ecology) on RV Sonne in June 2020, benthic communities of the ARS were surveyed by means of a remotely-operated vehicle (ROV) and epibenthic sledge (EBS). For this purpose, two working areas were selected, including abyssal stations in the northeast and bathyal stations in the southwest of the ARS. Video and still images of the seabed were usedtoqualitatively describebenthic habitats based on the presence of habitat-forming taxa and the physical environment. Patterns of diversity and community composition of the soft-sediment macrofauna, retrieved from the EBS, were analyzed in a semiquantitative manner. These biological data were complemented by producing high-resolution bathymetric maps using the vessel’s multi-beam echosounder system. As suspected, we were able to identify differences in species composition and number of macro- and megafaunal communities associated with a depth gradient. A biological canyon effect became evident in dense aggregates of megafaunal filter feeders and elevated macrofaunal densities. Analysis of videos and still images from the ROV transects also led to the discovery of a number ofVulnerable Marine Ecosystems (VMEs) dominated by sponges and soft corals characteristic of the Arctic region. Directions for future research encompass a more detailed, quantitative study of the megafauna and more coherent sampling over the

Published
2022

11. Detailed Mapping and Sampling of the Reykjanes Ridge, Cruise No. MSM75, 29 June 2018 - 8 August 2018, Reykjavik - Reykjavik, REYKJANES

Author

Devey, Colin, Brix, Saskia, Barua, Ayushman (Rio), Bodendorfer, Matthias, Cuno, Patrick, Frutos, Immaculata, Huusmann, Hannes, Kurbjuhn, Torge, Le Saout, Morgane, Linse, Katrin, Matthiessen, Torge, Palgan, Dominik, Petersen, Sven, Pieper, Martin, Rothenbeck, Marcel, Steinführer, Anja, Tandberg, Anna Helene, Taylor, James, Thorhallsson, Daniel, Tomkowicz, Adriana, von Bosse, Thorge, Wenzlaff, Emanuel, Devey, Colin, Brix, Saskia, Barua, Ayushman (Rio), Bodendorfer, Matthias, Cuno, Patrick, Frutos, Immaculata, Huusmann, Hannes, Kurbjuhn, Torge, Le Saout, Morgane, Linse, Katrin, Matthiessen, Torge, Palgan, Dominik, Petersen, Sven, Pieper, Martin, Rothenbeck, Marcel, Steinführer, Anja, Tandberg, Anna Helene, Taylor, James, Thorhallsson, Daniel, Tomkowicz, Adriana, von Bosse, Thorge, and Wenzlaff, Emanuel

Abstract

Hotspot-influenced spreading axes are characterized by a shallow axis, thickened crust, and possibly by higher-than-normal eruption frequency, all signs of an excess of magma and heat being supplied to such ridges by the hotspot. Despite this, these ridges are also characterized by an apparently lower-than-average incidence of high-temperature hydrothermal venting, raising questions about their thermal budget. The type example for hotspot-ridge interaction is the Reykjanes Ridge south of Iceland, which shows abnormally shallow bathymetry between the Reykjanes Peninsula at ca. 63°N and the Charlie Gibbs Fracture Zone at 53°N.The seafloor surrounding the present spreading axis is also characterized by V-shaped bathymetric ridges, thoughtto be produced by regions of excess melting migrating along the axis through time. Cruise MSM75aimed to produce geological maps of four key areas along the ridge -one with thickened crust where a V-shaped ridge intersects the present-day axis, one with thickened crust but no on-axis V-shaped ridge anomaly, a third with more normal crustal thickness and an axial valley and a fourth at the only known, but up to present unsampled, Reykjanes hydrothermal site Steinaholl. This geological mapping is to be usedto investigate questions of variations in eruption size or frequency away from Iceland, the interplay between magmatism and tectonism, the axial volcanology of V-shaped ridges and how thick crust is cooled in the apparent paucity of high-temperature vent fields.

Published
2022
Full Text
View/download PDF

12. Faulting and magmatic accretion across the overlapping spreading center between Vance Segment and Axial South Rift, Juan de Fuca Ridge

Author

Le Saout, Morgane, Clague, D. A., Paduan, J. B., Le Saout, Morgane, Clague, D. A., and Paduan, J. B.

Abstract

Plate divergence along mid-ocean ridges is accommodated through faulting and magmatic accretion, and, at overlapping spreading centers (OSC), is distributed across two curvilinear overlapping ridge axes. One-meter resolution bathymetry acquired by autonomous underwater vehicles, combined with distribution and ages of lava flows, is used to: (1) analyze the spatial and temporal distribution of flows, faults, and fissures in the OSC between the distal south rift zone of Axial Seamount and the Vance Segment, (2) locate spreading axes, (3) calculate extension, and (4) determine the proportion of extension accommodated at the surface by faults and fissures versus volcanic extrusion over a period of ∼1300-1450 years. Our study reveals that in the recent history of the ridges, extension over a distance of 14 km across the Axial/Vance OSC was asymmetric in proportion and style: faults and fissures across 1-2 km of the Vance axial valley accommodated ∼3/4 of the spreading, whereas dike-fed eruptions contributed ∼1/4 of the extension and occurred across 4 km of the south rift of Axial Seamount.

Published
2022
Full Text
View/download PDF

13. Habitat variability and faunal zonation at the Ægir Ridge, a canyon-like structure in the deep Norwegian Sea

Author

Brix, Saskia, primary, Kaiser, Stefanie, additional, Lörz, Anne-Nina, additional, Le Saout, Morgane, additional, Schumacher, Mia, additional, Bonk, Frederic, additional, Egilsdottir, Hronn, additional, Olafsdottir, Steinunn Hilma, additional, Tandberg, Anne Helene S., additional, Taylor, James, additional, Tewes, Simon, additional, Xavier, Joana R., additional, and Linse, Katrin, additional

Published
2022
Full Text
View/download PDF

14. The Discovery and Preliminary Geological and Faunal Descriptions of Three New Steinahóll Vent Sites, Reykjanes Ridge, Iceland

Author

Taylor, James, primary, Devey, Colin, additional, Le Saout, Morgane, additional, Petersen, Sven, additional, Kwasnitschka, Tom, additional, Frutos, Inmaculada, additional, Linse, Katrin, additional, Lörz, Anne-Nina, additional, Pałgan, Dominik, additional, Tandberg, Anne H., additional, Svavarsson, Jörundur, additional, Thorhallsson, Daniel, additional, Tomkowicz, Adrianna, additional, Egilsdóttir, Hrönn, additional, Ragnarsson, Stefán Á., additional, Renz, Jasmin, additional, Markhaseva, Elena L., additional, Gollner, Sabine, additional, Paulus, Eva, additional, Kongsrud, Jon, additional, Beermann, Jan, additional, Kocot, Kevin M., additional, Meißner, Karin, additional, Bartholomä, Alexander, additional, Hoffman, Leon, additional, Vannier, Pauline, additional, Marteinsson, Viggó Þ., additional, Rapp, Hans T., additional, Díaz-Agras, Guillermo, additional, Tato, Ramiro, additional, and Brix, Saskia, additional

Published
2021
Full Text
View/download PDF

15. The Discovery and Preliminary Geological and Faunal Descriptions of Three New Steinahóll Vent Sites

Author

Taylor, James, Devey, Colin, Le Saout, Morgane, Petersen, Sven, Kwasnitschka, Tom, Frutos, Inmaculada, Linse, Katrin, Lörz, Anne-Nina, Pałgan, Dominik, Tandberg, Anne Helene Solberg, Svavarsson, Jörundur, Thorhallsson, Daniel, Tomkowicz, Adrianna, Egilsdottir, Hrönn, Ragnarsson, Stefán Á., Renz, Jasmin, Markaseva, Elena A., Gollner, Sabine, Paulus, Eva, Kongsrud, Jon Anders, Beermann, Jan, Kocot, Kevin M., Meißner, Karin, Bartholomä, Alexander, Hoffman, Leon, Vannier, Pauline, Marsteinsson, Viggó, Rapp, Hans Tore, Diaz-Agras, Guillermo, Tato, Ramiro, and Brix, Saskia

Subjects
Marinbiologi: 497 [VDP], Marine biology: 497 [VDP]
Abstract

During RV MS Merian expedition MSM75, an international, multidisciplinary team explored the Reykjanes Ridge from June to August 2018. The first area of study, Steinahóll (150–350 m depth), was chosen based on previous seismic data indicating hydrothermal activity. The sampling strategy included ship- and AUV-mounted multibeam surveys, Remotely Operated Vehicle (ROV), Epibenthic Sledge (EBS), and van Veen grab (vV) deployments. Upon returning to Steinahóll during the final days of MSM75, hydrothermal vent sites were discovered using the ROV Phoca (Kiel, GEOMAR). Here we describe and name three new, distinct hydrothermal vent site vulnerable marine ecosystems (VMEs); Hafgufa, Stökkull, Lyngbakr. The hydrothermal vent sites consisted of multiple anhydrite chimneys with large quantities of bacterial mats visible. The largest of the three sites (Hafgufa) was mapped, and reconstructed in 3D. In total 23,310 individual biological specimens were sampled comprising 41 higher taxa. Unique fauna located in the hydrothermally venting areas included two putative new species of harpacticoid copepod (Tisbe sp. nov. and Amphiascus sp. nov.), as well as the sponge Lycopodina cupressiformis (Carter, 1874). Capitellidae Grube, 1862 and Dorvilleidae Chamberlin, 1919 families dominated hydrothermally influenced samples for polychaetes. Around the hydrothermally influenced sites we observed a notable lack of megafauna, with only a few species being present. While we observed hydrothermal associations, the overall species composition is very similar to that seen at other shallow water vent sites in the north of Iceland, such as the Mohns Ridge vent fields, particularly with peracarid crustaceans. We therefore conclude the community overall reflects the usual “background” fauna of Iceland rather than consisting of “vent endemic” communities as is observed in deeper vent systems, with a few opportunistic species capable of utilizing this specialist environment. publishedVersion

Published
2021

16. The discovery and preliminary geological and faunal descriptions of three new Steinahóll vent sites, Reykjanes Ridge, Iceland

Author

Taylor, James, Devey, Colin, Le Saout, Morgane, Petersen, Sven, Frutos, Inmaculada, Linse, Katrin, Lörz, Anne-Nina, Pałgan, Dominik, Tandberg, Anne H., Svavarsson, Jörundur, Thorhallsson, Daniel, Tomkowicz, Adrianna, Egilsdóttir, Hrönn, Ragnarsson, Stefán Á., Renz, Jasmin, Markhaseva, Elena L., Gollner, Sabine, Paulus, Eva, Kongsrud, Jon, Beermann, Jan, Kocot, Kevin M., Meißner, Karin, Bartholomä, Alexander, Hoffman, Leon, Vannier, Pauline, Marteinsson, Viggó Þ., Rapp, Hans T., Díaz-Agras, Guillermo, Tato, Ramiro, Brix, Saskia, Taylor, James, Devey, Colin, Le Saout, Morgane, Petersen, Sven, Frutos, Inmaculada, Linse, Katrin, Lörz, Anne-Nina, Pałgan, Dominik, Tandberg, Anne H., Svavarsson, Jörundur, Thorhallsson, Daniel, Tomkowicz, Adrianna, Egilsdóttir, Hrönn, Ragnarsson, Stefán Á., Renz, Jasmin, Markhaseva, Elena L., Gollner, Sabine, Paulus, Eva, Kongsrud, Jon, Beermann, Jan, Kocot, Kevin M., Meißner, Karin, Bartholomä, Alexander, Hoffman, Leon, Vannier, Pauline, Marteinsson, Viggó Þ., Rapp, Hans T., Díaz-Agras, Guillermo, Tato, Ramiro, and Brix, Saskia

Abstract

During RV MS Merian expedition MSM75, an international, multidisciplinary team explored the Reykjanes Ridge from June to August 2018. The first area of study, Steinahóll (150–350 m depth), was chosen based on previous seismic data indicating hydrothermal activity. The sampling strategy included ship- and AUV-mounted multibeam surveys, Remotely Operated Vehicle (ROV), Epibenthic Sledge (EBS), and van Veen grab (vV) deployments. Upon returning to Steinahóll during the final days of MSM75, hydrothermal vent sites were discovered using the ROV Phoca (Kiel, GEOMAR). Here we describe and name three new, distinct hydrothermal vent site vulnerable marine ecosystems (VMEs); Hafgufa, Stökkull, Lyngbakr. The hydrothermal vent sites consisted of multiple anhydrite chimneys with large quantities of bacterial mats visible. The largest of the three sites (Hafgufa) was mapped, and reconstructed in 3D. In total 23,310 individual biological specimens were sampled comprising 41 higher taxa. Unique fauna located in the hydrothermally venting areas included two putative new species of harpacticoid copepod (Tisbe sp. nov. and Amphiascus sp. nov.), as well as the sponge Lycopodina cupressiformis (Carter, 1874). Capitellidae Grube, 1862 and Dorvilleidae Chamberlin, 1919 families dominated hydrothermally influenced samples for polychaetes. Around the hydrothermally influenced sites we observed a notable lack of megafauna, with only a few species being present. While we observed hydrothermal associations, the overall species composition is very similar to that seen at other shallow water vent sites in the north of Iceland, such as the Mohns Ridge vent fields, particularly with peracarid crustaceans. We therefore conclude the community overall reflects the usual “background” fauna of Iceland rather than consisting of “vent endemic” communities as is observed in deeper vent systems, with a few opportunistic species capable of utilizing this specialist environment.

Published
2021

17. Depth transects and connectivity along gradients in the North Atlantic and Nordic Seas in the frame of the IceAGE project (Icelandic marine Animals: Genetics and Ecology), Cruise No. SO276 (MerMet17-06), 22.06.2020 - 26.07.2020, Emden (Germany) - Emden (Germany)

Author

Brix, Saskia, Taylor, James, Le Saout, Morgane, Mercado-Salas, Nancy, Kaiser, Stefanie, Lörz, Anne-Nina, Gatzemeier, Nicole, Jeskulke, Karen, Kürzel, Karlotta, Neuhaus, Jenny, Paulus, Eva, Uhlir, Carolin, Korfhage, Severin, Bruhn, Marco, Stein, Tina, Wilsenack, Maik, Siegler, Viola, Schumacher, Mia, Lux, Thorsten, Gärtner, Lisa, Abegg, Friedrich, Pieper, Martin, Bodendorfer, Matthias, Cuno, Patrick, Huusmann, Hannes, Matthiessen, Torge, Bischof, Florian, and Suck, Inken

Published
2020
Full Text
View/download PDF

19. Bathymetric Mapping Of The Seafloor - A German Contribution To Completing The Map By 2030, Cruise No. MSM88/1 + MSM88/2, November 28, 2019 - January 14, 2020, Mindelo (Cabo Verde) - Mindelo (Cabo Verde) - Bridgetown (Barbados)

Author

Devey, Colin W., Wölfl, Anne-Cathrin, Augustin, Nico, Besaw, Mary, Damaske, Daniel, Evora, Dario, Gray, Alexandra, Hübscher, Christian, Le Saout, Morgane, Lux, Thorsten, Schade, Martin, Sobolewski, Linda, and Villinger, Heinrich

Abstract

Despite over 100 years of acoustic seabed mapping, only around 15% of the seafloor has ever been directly mapped and little of the mapping performed has been systematic or over larger areas. The result is that our knowledge of seafloor structure is rudimentary and our understanding of the processes which form them has, in principle, advanced little since the advent of plate tectonics. Societally, the seafloor plays a vital role in humanity’s "life support system", for example providing habitat for marine organisms, stimulating mixing of ocean water as part of the overturning circulation system and increasingly being the site of industrial installations. It is scientifically and societally imperative that we bring the level of knowledge of the surface of our planet up to that of bodies like Moon and Mars that are mapped with a resolution better than 100 m per pixel. It is also essential that the data are made freely available to all to support research and conservation. The aim of this cruise was to map previously uncharted part of the tropical Atlantic using the ship’s multibeam system and to provide the data to global open databases as well as to acquire magnetic gradient data along the same tracks. Magnetic anomalies from so-called Oceanic Core Complexes challenged the conventional view that marine magnetic anomalies arose in the upper, extrusive layer of the oceanic crust, because the crust has been stripped away at these complexes. We therefore collected magnetic data simultaneously to the multibeam data in order to constrain the interpretation of the observed seabed morphology.

Published
2020

20. Quantification of eruption dynamics on the north rift at Axial Seamount, Juan de Fuca Ridge

Author

Le Saout, Morgane, Bohnenstiehl, D. R., Paduan, J. B., Clague, D. A., Le Saout, Morgane, Bohnenstiehl, D. R., Paduan, J. B., and Clague, D. A.

Abstract

Key Points:  AUV mapping along the north rift identifies hummocky mounds with pillows, channelized, and inflated flows formed during the 2015 eruption.  Impulsive sounds formed by lava/seawater interaction track mound growth over a 28 day period with an average extrusion rate of 22-45 m3s-1.  The sounds record the history of flow advancement and inflation from multiple eruptive centers, and is used to infer volcanic activity style. Quantifying eruption dynamics in submarine environments is challenging. During the 2015 eruption of Axial Seamount, the formation of hummocky mounds along the north rift was accompanied by tens‐of‐thousands of impulsive acoustic signals generated by the interaction of lava and seawater. A catalog of these sounds was integrated with detailed seafloor mapping to better understand eruptive processes in time and space. Mounds grew over a period of 28 days with average extrusion rates of 22 to 45 m3s‐1. The most distant mounds, ~ 9.5 to 15.5 km down rift from the caldera, grew primarily over the first few days of the eruption. The focus of eruptive activity then retreated ~5 km toward the caldera where it was sustained. Mounds are constructed as a series of superimposed lobes formed through alternating periods of flow inflation, generating up to 30‐m‐thick hummocks, and periods of flow advancement, with <0.02 ms‐1 average speeds typically observed.

Published
2020
Full Text
View/download PDF

21. Die Mittelozeanischen Rücken

Author

Jorzik, O., Kandarr, J., Klinghammer, P., Spreen, D., Le Saout, Morgane, Jorzik, O., Kandarr, J., Klinghammer, P., Spreen, D., and Le Saout, Morgane

Abstract

Weniger als ein Prozent der längsten Bergkette der Welt sind im Detail erforscht. Dabei finden sich entlang der Mittelozeanischen Rücken faszinierende Ökosysteme, die in völlig lichtloser Umgebung der Ozeane Lebensräume für viele Arten bieten.

Published
2020
Full Text
View/download PDF

23. Hydrothermal Chimney Distribution on the Endeavour Segment, Juan de Fuca Ridge

Author

Clague, David A., Martin, Julie F., Paduan, Jennifer B., Butterfield, David A., Jamieson, John William, Le Saout, Morgane, Caress, David W., Thomas, Hans, Holden, James F., Kelley, Deborah S., Clague, David A., Martin, Julie F., Paduan, Jennifer B., Butterfield, David A., Jamieson, John William, Le Saout, Morgane, Caress, David W., Thomas, Hans, Holden, James F., and Kelley, Deborah S.

Abstract

The Endeavour Segment of the Juan de Fuca Ridge is well known for its abundance of hydrothermal vents and chimneys. One-meter scale multibeam mapping data collected by an autonomous undersea vehicle revealed 572 chimneys along the central 14 km of the segment, although only 47 are named and known to be active. Hydrothermal deposits are restricted to the axial graben and the near-rims of the graben above a seismically mapped axial magma lens. The sparse eruptive activity on the segment during the last 4,300 years has not buried inactive chimneys, as occurs at more magmatically robust mid-ocean ridges.

Published
2020
Full Text
View/download PDF

30. Evolution of Fine‐Scale Segmentation at Intermediate‐Spreading Rate Ridges

Author

Le Saout, Morgane, Clague, D. A., and Paduan, J. B.

Abstract

Mid‐ocean ridge axes are marked by segmentation of the axes and underlying magmatic systems. Fine‐scale segmentation has mainly been studied along fast‐spreading ridges. Here we offer insight into the third‐ and fourth‐order segmentation of intermediate‐spreading ridges and their temporal evolution. The Alarcón Rise and the Endeavour Segment have similar spreading rates (49 and 52.5 mm/year, respectively) but contrasting morphologies that vary from an axial high with a relatively narrow axial summit trough to an axial valley. One‐meter resolution bathymetry acquired by autonomous underwater vehicles, lava geochemistry, and ages from sediment cores is combined with available seismic reflection profiles to analyze variations in (1) geometry and orientation of the axial summit trough or valley, (2) seafloor depth near the axis, and (3) distribution of hydrothermal vents, (4) lava chemistry, and (5) flow ages between contiguous axes. Along both intermediate‐spreading segments, third‐ and fourth‐order discontinuities and associated segments are similar in dimension to what has been observed along fast‐spreading ridges. The Alarcón Rise and the Endeavour Segment also allow the study of the evolution of fine‐scale segmentation over periods of 300 to 4,000 years. Comparison between old and young axes reveals that the evolution of fine‐scale segmentation depends on the intensity of the magmatic activity. High magmatic periods are associated with rapid evolution of third‐order segments, while low magmatic activity periods, dominated by tectonic deformation and/or hydrothermal activity, are associated with little to no change in segmentation.

Published
2019

31. The Origin of the Bathymetrist Seamounts – A Geochemical and Morphological Study

Author

van der Zwan, Froukje M., Long, Xiaojun, Augustin, Nico, Geldmacher, Jörg, Le Saout, Morgane, Wölfl, Anne-Cathrin, Hauff, Folkmar, Hoernle, Kaj, Schade, M., Hübscher, C., Garbe-Schönberg, Dieter, van der Zwan, Froukje M., Long, Xiaojun, Augustin, Nico, Geldmacher, Jörg, Le Saout, Morgane, Wölfl, Anne-Cathrin, Hauff, Folkmar, Hoernle, Kaj, Schade, M., Hübscher, C., and Garbe-Schönberg, Dieter

Published
2019

32. Geology of the Alarcon Rise, Southern Gulf of California

Author

Clague, David A., Caress, David W., Dreyer, Brian M., Lundsten, Lonny, Paduan, Jennifer B., Portner, Ryan A., Spelz-Madero, Ronald, Bowles, Julie A., Castillo, Paterno R., Guardado-France, Rigoberto, Le Saout, Morgane, Martin, Julie F., Santa Rosa-del Río, Miguel A., Zierenberg, Robert A., Clague, David A., Caress, David W., Dreyer, Brian M., Lundsten, Lonny, Paduan, Jennifer B., Portner, Ryan A., Spelz-Madero, Ronald, Bowles, Julie A., Castillo, Paterno R., Guardado-France, Rigoberto, Le Saout, Morgane, Martin, Julie F., Santa Rosa-del Río, Miguel A., and Zierenberg, Robert A.

Abstract

Meter‐scale AUV bathymetric mapping and ROV sampling of the entire 47 km‐long Alarcon Rise between the Pescadero and Tamayo transforms show that the shallowest inflated portion of the segment hosts all four active hydrothermal vent fields and the youngest, hottest, and highest effusion rate lava flows. This shallowest inflated part is located ∼1/3 of the way between the Tamayo and Pescadero transforms and is paved by a 16 km2 channelized flow that erupted from 9 km of en echelon fissures and is larger than historic flows on the East Pacific Rise or on the Gorda and Juan de Fuca Ridges. Starting ∼5 km south of the Pescadero transform, 6.5 km of the Alarcon Rise is characterized by faulted ridges and domes of fractionated lavas ranging from basaltic andesite to rhyolite with up to 77.3 wt % SiO2. These are the first known rhyolites from the submarine global mid‐ocean ridge system. Silicic lavas range from >11.7 ka, to as young as 1.1 ka. A basalt‐to‐basaltic andesite sequence and an andesite‐to‐dacite‐to‐rhyolite sequence are consistent with crystal fractionation but some intermediate basaltic andesite and andesite formed by mixing basalt with dacite or rhyolite. Magmatism occurred along the bounding Tamayo and Pescadero transforms as extensive channelized flows. The flows erupted from ring faults surrounding uplifted sediment hills inferred to overlie sills. The transforms are transtensional to accommodate magma migration from the adjacent Alarcon Rise.

Published
2018
Full Text
View/download PDF

33. Detailed Analysis of Near Tectonic Features Along the East Pacific Rise at 16°N, Near the Mathematician Hot Spot

Author

Le Saout, Morgane, Thibaud, R., Gente, P., Le Saout, Morgane, Thibaud, R., and Gente, P.

Abstract

Spreading processes at the axes of fast spreading ridges are mainly controlled by magmatic activity, whereas tectonic activity dominates further away from the axis. High-resolution near-bottom bathymetry data, photographs, videos, and human observations from submersible surveys are used to develop a detailed tectonic analysis of the 16°N segment of the East Pacific Rise (EPR). These data are used to evaluate how a highly magmatic segment, close to a hot spot, affects the nucleation and evolution of faulting patterns and impacts the evaluation of tectonic strain within 2 km of the spreading axis. Our study shows that (1) the growth of tectonic features differs in response to dike intrusion and tectonic extension, (2) the initiation of brittle extension is strongly controlled by the location of the axial magma lens and the development of layer 2A, and (3) the high magmatic budget and the off-axis magma lens in the west part of the plateau do not significantly impact the initiation of brittle extension along the central portion of the 16°N segment. Within the axial summit region, more than 2% of plate separation at 16°N on the EPR is accommodated by brittle extension, as is observed at other EPR segments. The interaction of the Mathematician hot spot with this EPR segment has no significant influence on the initiation of the tectonic deformation, but it does reduce the development of the brittle deformation.

Published
2018
Full Text
View/download PDF

35. Interaction dorsale-point chaud : relations entre les processus tectoniques et magmatiques à l'axe de la dorsale Est Pacifique, 16°N

Author

Le Saout, Morgane, Domaines Océaniques (LDO), Institut national des sciences de l'Univers (INSU - CNRS)-Université de Brest (UBO)-Observatoire des Sciences de l'Univers-Institut d'écologie et environnement-Centre National de la Recherche Scientifique (CNRS), Université de Bretagne occidentale - Brest, Pascal Gente, and Anne Deschamps

Subjects
Influence of the hotspot, Influence du point chaud, Magmatic and tectonic processes, Processus tectoniques, Dorsale Est-Pacifique, [SDU.STU.GM]Sciences of the Universe [physics]/Earth Sciences/Geomorphology, East Pacific Rise, Morpho-structural analysis, Étude morphostructurale
Abstract

The 16°N segment of the East Pacific Rise (EPR) is the most over-inflated and shallowest of this fast -spreading ridge, in relation with an important magma flux due to the proximity of the Mathematician hotspot. The goal of this thesis is to analyze in detail the magmatic and tectonic processes along this segment in regards to the influence of the hotspot. The study of these processes is based on a morpho-structural and chronological analysis of the segment between 15°36.N and 15°53.N using bathymetric data (1,10 and 40 m resolution) and Nautile dive photos and videos of the French PARISUB (.PAnach Ridge SUBmerssible.) cruise. The characterization of the faults and fissures geometry (e.g., vertical throw, dip, length, depth, width) and their orientation reveled that tectonic processes occur more than 750 m of the ridge axis. Lateral and abyssal grabens formed by fault, less developed than in other EPR segments would be the consequence of a warmer and thinner lithosphere. At the axis, the existence of two parallel and contiguous Axial Summit Troughs (ASTs) over a distance of about 20 km and above a wide magma lens, indicate a wide zone of diking and thus a poor localization of magmatic processes. This poor localization, and the highly segmented and global “en echelon” shift of the ASTs that progressively accommodate the bow shape of the axial dome in the direction of the hotspot, revealed the importance of the Mathematician hotspot influences on spreading processes. This hotspot also influences, although indirectly lava flows morphologies.Indeed, it is at the origin of the formation of a wide sub-horizontal plateau that results in the formation of inflated sheet and pillow flows. That flows covering about one third of the plateau allows us to develop theoretical and conceptual models to investigate lava flow dynamics. Models revealed that inflated sheet and pillow flows may emplace during the same long-live (few hours to 20 days) eruption, with sheet flows erupted at the end.; Le segment 16°N de la dorsale Est-Pacifique (EPR) est le plus large et le moins profond de cette dorsale rapide. Cette morphologie atypique est liée à un apport magmatique accru sous la dorsale dû à la proximité du point chaud des Mathématiciens. Ce travail présente une étude morphostructurale et de chronologie relative détaillée de la zone axiale de ce segment, réalisée à partir de l’analyse de données bathymétriques à 40 m, 10 m et 1 m de résolution, combinée à l’analyse de photos et vidéos de plongées Nautile acquises lors de la campagne PARISUB (PAnache Ridge SUBmersible.). Cette étude permet de discuter des processus tectoniques, de la dynamique des éruptions, ainsi que de l’influence du point chaud sur les processus d’accrétion. Sur les bordures du plateau sommital, ainsi que sur les plaines abyssales adjacentes au dôme, les failles et les grabens abyssaux apparaissent moins développés que le long des autres segments de l’EPR. Cette structuration du plancher serait la conséquence directe d’une lithosphère plus chaude et plus mince. A l’axe, le système éruptif complexe et très segmenté, reflète une faible localisation des intrusions et une grande variabilité spatiale et temporelle de l’activité magmatique. En effet, le fossé sommital est parfois large, d’autre fois étroit, parfois unique et parfois parallèle à un second fossé sur plusieurs kilomètres. Cette variabilité et la disposition de ces segments en échelon, décalés vers le point chaud, traduit l’influence du point chaud sur l’activité magmatique et son organisation. Cette influence est observée également sur la morphologie des coulées, mais cette fois-ci de manière indirecte. En effet, l’apport magmatique accru à l’axe est responsable de la formation d’un plateau sommital subhorizontal atteignant 5 km de large au centre du segment. Les faibles pentes de ce plateau sont à l’origine de la mise en place de coulées d’inflation en nappe et en coussin qui constituent plus d’un tiers des coulées de la zone cartographiée. La morphologie atypique de ces coulées, notamment celles en nappe, a conduit au développement d’un modèle théorique sur la dynamique des éruptions sur un plancher subhorizontal et d’un modèle conceptuel de la mise en place de ces laves. Ces coulées aux faciès contrastés semblent s’être mises en place au cours d’une même éruption qui se serait étalée sur jusqu’à plusieurs dizaines de jours, permettant ainsi une inflation des coulée jusqu’à 30 m de hauteur. Ce type d’éruptions aurait pour origine un apport de magma plus conséquent, qui trouverait sa source dans le point chaud. L’influence du point chaud des Mathématiciens sur les processus d’accrétion est donc observable de l’échelle décimétrique à plurikilométrique.

Published
2015

36. Segmentation and eruptive activity along the East Pacific Rise at 16°N, in relation with the nearby Mathematician hotspot

Author

Le Saout, Morgane, Deschamps, Anne, Soule, Samuel A., Gente, Pascal, Le Saout, Morgane, Deschamps, Anne, Soule, Samuel A., and Gente, Pascal

Abstract

Author Posting. © American Geophysical Union, 2014. This article is posted here by permission of American Geophysical Union for personal use, not for redistribution. The definitive version was published in Geochemistry, Geophysics, Geosystems 15 (2014): 4380–4399, doi:10.1002/2014GC005560., The 16°N segment of the East Pacific Rise is the most overinflated and shallowest of this fast-spreading ridge, in relation with an important magma flux due to the proximity of the Mathematician hotspot. Here, we analyze the detailed morphology of the axial dome and of the Axial Summit Trough (AST), the lava morphology, and the geometry of fissures and faults, in regard to the attributes of the magma chamber beneath and of the nearby hotspot. The data used are 1 m resolution bathymetry combined with seafloor photos and videos. At the dome summit, the AST is highly segmented by 10 third-order and fourth-order discontinuities over a distance of 30 km. Often, two contiguous and synchronous ASTs coexist. Such a configuration implies a wide (1100 m minimum) zone of diking. The existence of contiguous ASTs, their mobility, their general en echelon arrangement accommodating the bow shape of the axial dome toward the hotspot, plus the existence of a second magma lens under the western half of the summit plateau, clearly reflect the influence of the hotspot on the organization of the spreading system. The different ASTs exhibit contrasted widths and depths. We suggest that narrow ASTs reflect an intense volcanic activity that produces eruptions covering the tectonic features and partially filling the ASTs. AST widening and deepening would indicate a decrease in volcanic activity but with continued dike intrusions at the origin of abundant sets of fissures and faults that are not masked by volcanic deposits., This work was supported by a PhD Scholarship of Brittany Region and Université de Bretagne Occidentale (France) and has benefited from funding by the Europôle Mer and Labex-Mer of the European Institute for Marine Studies (IUEM)., 2015-05-26

Published
2015

37. Morphology and dynamics of inflated subaqueous basaltic lava flows

Author

Deschamps, Anne, Grigne, Cecile, Le Saout, Morgane, Soule, Samuel A., Allemand, Pascal, Van Vliet-Lanoe, Brigitte, Floc'h, France, Deschamps, Anne, Grigne, Cecile, Le Saout, Morgane, Soule, Samuel A., Allemand, Pascal, Van Vliet-Lanoe, Brigitte, and Floc'h, France

Abstract

Author Posting. © American Geophysical Union, 2014. This article is posted here by permission of American Geophysical Union for personal use, not for redistribution. The definitive version was published in Geochemistry, Geophysics, Geosystems 15 (2014): 2128–2150, doi:10.1002/2014GC005274., During eruptions onto low slopes, basaltic Pahoehoe lava can form thin lobes that progressively coalesce and inflate to many times their original thickness, due to a steady injection of magma beneath brittle and viscoelastic layers of cooled lava that develop sufficient strength to retain the flow. Inflated lava flows forming tumuli and pressure ridges have been reported in different kinds of environments, such as at contemporary subaerial Hawaiian-type volcanoes in Hawaii, La Réunion and Iceland, in continental environments (states of Oregon, Idaho, Washington), and in the deep sea at Juan de Fuca Ridge, the Galapagos spreading center, and at the East Pacific Rise (this study). These lava have all undergone inflation processes, yet they display highly contrasting morphologies that correlate with their depositional environment, the most striking difference being the presence of water. Lava that have inflated in subaerial environments display inflation structures with morphologies that significantly differ from subaqueous lava emplaced in the deep sea, lakes, and rivers. Their height is 2–3 times smaller and their length being 10–15 times shorter. Based on heat diffusion equation, we demonstrate that more efficient cooling of a lava flow in water leads to the rapid development of thicker (by 25%) cooled layer at the flow surface, which has greater yield strength to counteract its internal hydrostatic pressure than in subaerial environments, thus limiting lava breakouts to form new lobes, hence promoting inflation. Buoyancy also increases the ability of a lava to inflate by 60%. Together, these differences can account for the observed variations in the thickness and extent of subaerial and subaqueous inflated lava flows., This work was funded by the French Agence Nationale de la Recherche, within the program ANR-10-LABX- 19-01 (Labex-Mer), especially for field work in Iceland., 2014-12-4

Published
2014

38. Segmentation and eruptive activity along the East Pacific Rise at 16°N, in relation with the nearby Mathematician hotspot

Author

Le Saout, Morgane, Deschamps, Anne, Soule, Samuel A., Gente, Pascal, Le Saout, Morgane, Deschamps, Anne, Soule, Samuel A., and Gente, Pascal

Abstract

The 16°N segment of the East Pacific Rise is the most overinflated and shallowest of this fast-spreading ridge, in relation with an important magma flux due to the proximity of the Mathematician hotspot. Here, we analyze the detailed morphology of the axial dome and of the Axial Summit Trough (AST), the lava morphology, and the geometry of fissures and faults, in regard to the attributes of the magma chamber beneath and of the nearby hotspot. The data used are 1 m resolution bathymetry combined with seafloor photos and videos. At the dome summit, the AST is highly segmented by 10 third-order and fourth-order discontinuities over a distance of 30 km. Often, two contiguous and synchronous ASTs coexist. Such a configuration implies a wide (1100 m minimum) zone of diking. The existence of contiguous ASTs, their mobility, their general en echelon arrangement accommodating the bow shape of the axial dome toward the hotspot, plus the existence of a second magma lens under the western half of the summit plateau, clearly reflect the influence of the hotspot on the organization of the spreading system. The different ASTs exhibit contrasted widths and depths. We suggest that narrow ASTs reflect an intense volcanic activity that produces eruptions covering the tectonic features and partially filling the ASTs. AST widening and deepening would indicate a decrease in volcanic activity but with continued dike intrusions at the origin of abundant sets of fissures and faults that are not masked by volcanic deposits.

Published
2014

Catalog

Books, media, physical & digital resources
See catalog results