Pascal Pelleau scite author profile

Volcanic eruptions are foundational events that shape the 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. We document an on-going magmatic event offshore Mayotte Island (North Mozambique channel), associated with large surface displacements, very low frequency earthquakes and exceptionally deep (25-50 km) seismicity swarms. We present data from the May 2019 MAYOBS1 cruise, which reveal that this event gave birth to a 820m tall, ~ 5 km 3 deepsea volcanic edifice. This is the largest active submarine eruption ever documented. The data indicate that deep 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.

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Structure et évolution récente de l’éventail turbiditique du Zaïre : premiers résultats scientifiques des missions d’exploration Zaïango1 & 2 (marge Congo–Angola)

Savoye

Cochonat

Apprioual

et al. 2000

Comptes Rendus de l'Académie des Sciences - Series IIA - Earth

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Hydrogeology and its effect on slope stability along the coastal aquifer of Nice, France

et al. 2011

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

Feuillet

Jorry

Crawford

et al. 2021

Preprint

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Volcanic eruptions are foundational events that shape the 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. We document an ongoing magmatic event offshore Mayotte Island (North Mozambique channel), associated with large surface displacements, very low frequency earthquakes and exceptionally deep (25-50 km) seismicity swarms. We present data from the May 2019 MAYOBS1 cruise, which reveal that this event gave birth to a 820m tall, ~ 5 km 3 deepsea volcanic edifice. This is the largest active submarine eruption ever documented. The data indicate that deep 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.

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Imaging exhumed lower continental crust in the distal Jequitinhonha basin, Brazil

Loureiro

Schnürle

Klingelhöfer

et al. 2018

Journal of South American Earth Sciences

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Twelve combined wide-angle refraction and coincident multi-channel seismic profiles were acquired in the Jequitinhonha-Camamu-Almada, Jacuípe, and Sergipe-Alagoas basins, NE Brazil, during the SALSA experiment in 2014. Profiles SL11 and SL12 image the Jequitinhonha basin, perpendicularly to the coast, with 15 and 11 four-channel ocean-bottom seismometers, respectively. Profile SL10 runs parallel to the coast, crossing profiles SL11 and SL12, imaging the proximal Jequitinhonha and Almada Please note that this is an author-produced PDF of an article accepted for publication following peer review. The definitive publisher-authenticated version is available on the publisher Web site. basins with 17 ocean-bottom seismometers. Forward modelling, combined with pre-stack depth migration to increase the horizontal resolution of the velocity models, indicates that sediment thickness varies between 3.3 km and 6.2 km in the distal basin. Crustal thickness at the western edge of the profiles is of around 20 km, with velocity gradients indicating a continental origin. It decreases to less than 5 km in the distal basin, with high seismic velocities and gradients, not compatible with normal oceanic crust nor exhumed upper mantle. Typical oceanic crust is never imaged along these about 200 km-long profiles and we propose that the transitional crust in the Jequitinhonha basin is a made of exhumed lower continental crust. Highlights ► The transitional domain in the Jequitinhonha basin is, at least, 150 km wide. ► The transitional crust is composed of exhumed lower continental crust. ► Necking occurs within less than 100 km. ► An anomalous velocity zone is imaged at the base of the crust.

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MicrOBS: A new generation of ocean bottom seismometer

Auffret

Pelleau

Klingelhoëfer

et al. 2004

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Cone penetration testing to assess slope stability in the 1979 Nice landslide area (Ligurian Margin, SE France)

et al. 2015

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In the landslide-prone area near the Nice international airport, southeastern France, an interdisciplinary approach is applied to develop realistic lithological/geometrical profiles and geotechnical/strength sub-seafloor models. Such models are indispensable for slope stability assessments using limit equilibrium or finite element methods.Regression analyses, based on the undrained shear strength (su) of intact gassy sediments are used to generate a sub-seafloor strength model based on 37 short dynamic and eight long static piezocone penetration tests, and laboratory experiments on one Calypso piston and 10 gravity cores. Significant strength variations were detected when comparing measurements from the shelf and the shelf break, with a significant drop in su to 5.5 kPa being interpreted as a weak zone at a depth between 6.5 and 8.5 m below seafloor (mbsf). Here, a 10% reduction of the in situ total unit weight compared to the surrounding sediments is found to coincide with coarse-grained layers that turn into a weak zone and detachment plane for former and present-day gravitational, retrogressive slide events, as seen in 2D chirp profiles. The combination of high-resolution chirp profiles and comprehensive geotechnical information allows us to A C C E P T E D M A N U S C R I P T ACCEPTED MANUSCRIPT2 compute enhanced 2D finite element slope stability analysis with undrained sediment response compared to previous 2D numerical and 3D limit equilibrium assessments.Those models suggest that significant portions (detachment planes at 20 m or even 55 mbsf) of the Quaternary delta and slope apron deposits may be mobilized. Given that factors of safety are equal or less than 1 when further considering the effect of free gas, a high risk for a landslide event of considerable size off Nice international airport is identified. . This decrease in shear strength is related to the compressibility of the gas, structural differences according to the gas concentration (i.e. ACCEPTED MANUSCRIPT Highlights An interdisciplinary approach is used comprisntaining morphological, 2D chirp seismic, sedimentological, geotechnical laboratory and in situ datasets. Dynamic piezocone penetration tests (CPTU) provide a powerful, time-and costefficient in situ technique. A large number of coring, static-and mainly dynamic-CPTU tests are used to develop an area-widea regional sub-seafloor strength model near the Nice airport (southeastern France). Detailed 2D finite element slope stability assessments are performed, according to which a.  A potentially tsunamigenic submarine landslide event with a failure depth of >up to 1050 m could may occur.

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Mayotte seismic crisis: building knowledge in near real-time by combining land and ocean-bottom seismometers, first results

Saurel

Jacques

Aiken

et al. 2021

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Summary The brutal onset of seismicity offshore Mayotte island North of the Mozambique Channel, Indian Ocean, that occurred in May 2018 caught the population, authorities, and scientific community off guard. Around 20 potentially felt earthquakes were recorded in the first 5 days, up to magnitude Mw 5.9. The scientific community had little pre-existing knowledge of the seismic activity in the region due to poor seismic network coverage. During 2018 and 2019, the MAYOBS/REVOSIMA seismology group was progressively built between four French research institutions to improve instrumentation and data sets to monitor what we know now as an on-going exceptional sub-marine basaltic eruption. After the addition of 3 medium-band stations on Mayotte island and 1 on Grande Glorieuse island in early 2019, the data recovered from the Ocean Bottom Seismometers were regularly processed by the group to improve the location of the earthquakes detected daily by the land network. We first built a new local 1D velocity model and established specific data processing procedures. The local 1.66 low VP/VS ratio we estimated is compatible with a volcanic island context. We manually picked about 125,000 P and S phases on land and sea bottom stations to locate more than 5,000 events between February 2019 and May 2020. The earthquakes outline two separate seismic clusters offshore that we named Proximal and Distal. The Proximal cluster, located 10km offshore Mayotte eastern coastlines, is 20 to 50 km deep and has a cylindrical shape. The Distal cluster start 5 km to the east of the Proximal cluster and extends below Mayotte's new volcanic edifice, from 50 km up to 25 km depth. The two clusters appear seismically separated, however our dataset is insufficient to firmly demonstrate this.

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Pascal Pelleau

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

Structure et évolution récente de l’éventail turbiditique du Zaïre : premiers résultats scientifiques des missions d’exploration Zaïango1 & 2 (marge Congo–Angola)

Hydrogeology and its effect on slope stability along the coastal aquifer of Nice, France

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

Imaging exhumed lower continental crust in the distal Jequitinhonha basin, Brazil

MicrOBS: A new generation of ocean bottom seismometer

Cone penetration testing to assess slope stability in the 1979 Nice landslide area (Ligurian Margin, SE France)

Mayotte seismic crisis: building knowledge in near real-time by combining land and ocean-bottom seismometers, first results

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