Identification of deep subaqueous co-seismic scarps through specific coeval sedimentation in Lesser Antilles: implication for seismic hazard

Beck, Christian; Reyss, J. L.; Leclerc, Frédérique; Moréno, Eva; Feuillet, Nathalie; Barrier, L.; Beauducel, François; Boudon, Georges; Clément, Valentin; Deplus, Christine; Gallou, N.; Lebrun, J-F; Friant, Anne Le; Nercessian, Alexandre; Paterne, Martine; Pichot, Thibaud; Vidal, C. Almagro

doi:10.5194/nhess-12-1755-2012

Cited by 23 publications

(34 citation statements)

References 34 publications

(34 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…As homogenite occurrences need the combination of gravity reworking (resuspension) and tsunami effect (especially in case of reflected tsunamis vs. seiche effect in closed basins), this process may also withdraw a bottom relief created simultaneously with the sedimentary reworking, such as the front of a landslide or a coseismic fault scarp. These direct rela- tionships (time and location) between a submarine coseismic scarp and synchronous specific layers have been proposed by Barnes and Pondard (2010) and Beck et al (2012), and have been used (1) to decipher coseismic rupturing from creeping, and (2) to estimate the vertical component of coseismic offsets. Concerning the Sea of Marmara's Central Basin, we have considered the pre-Holocene distribution of the different types of layers (Fig.…”

Section: Impact Of Hmtu On Bottom Morphologymentioning

confidence: 99%

“…For the thickest ones (HmTu A, C, E, H, K) the homogeneous component accounts for about 90 % of the thickness increase in the deeper site. In the Lesser Antilles Arc, Beck et al (2012) described an active normal fault upon which the sea floor is maintained flat and horizontal, being each coseismic offset quite exactly compensated by a coeval silty-sandy homogenite ( Fig. 6 insert, case 2b).…”

Section: Use Of Event-by-event Thickness Differences As Indicators Ofmentioning

confidence: 99%

“…-indirectly, (i) on the basis of correlations with reported seismic events (for historical seismicity) (e.g., Siegenthaler et al, 1987;Piper et al, 1992;Chapron et al, 1999;Goldfinger et al, 2007;Beck et al, 2012) and (ii) when detecting the same paleoevent in a large area independently from local setting (e.g., variable slope dip). This second approach is especially used for deep structures, as subduction, (e.g., Goldfinger et al, 2007;Gracia et al, 2010;Moernaut, 2011;Pouderoux et al, 2012) and also, in some cases, for surface-reaching major faults (e.g., Goldfinger et al, 2007);…”

Section: Introductionmentioning

confidence: 99%

“…This favorable setting recently allowed detailed analyses of fault activity (offsets, slip rates) through adjacent sedimentation (Carrillo et al, 2006(Carrillo et al, , 2008Bull et al, 2006;Barnes and Pondard, 2010;Beck et al, 2012). The here-presented work was dedicated to one of these cases: the deep part of the Sea of Marmara (northwestern Turkey) developed along the North Anatolian Fault.…”

Section: Introductionmentioning

confidence: 99%

“…As the here-used sedimentological tools and approaches have been previously published (Polonia et al, 2004;Sari and Çagatay, 2006;McHugh et al, 2006;Beck et al, , 2012Nakajima and Kanai, 2000;Uçarkuş, 2010;Drab et al, 2012;Eriş et al, 2012;Campos et al, 2013) only results (data and interpretations) implying paleoseismological aspects will be envisaged. Detailed sedimentological aspects may be consulted in the above-mentioned publications.…”

Section: Introductionmentioning

confidence: 99%

See 4 more Smart Citations

Estimation of successive coseismic vertical offsets using coeval sedimentary events – application to the southwestern limit of the Sea of Marmara's Central Basin (North Anatolian Fault)

Beck

Campos

Eriş

et al. 2015

Nat. Hazards Earth Syst. Sci.

Self Cite

View full text Add to dashboard Cite

Abstract. In the deep part of the Sea of Marmara (Turkey), the sedimentation developing upon the North Anatolian Fault is strongly influenced by the associated seismic activity, through gravity reworking (fluidized landslides) and tsunamis. Specific layers (homogenites + turbidites, HmTu), representing individual sedimentary events, have been characterized along three giant piston cores retrieved from the Çinarcik and Central (or Orta) basins. Pre-Holocene, nonmarine sediments, were analyzed, representing the last 12-17 kyr BP (before present). For a 2 kyr long interval, 11 events could be precisely correlated on both sides of the Central Basin's southwestern scarp. For each of them, based on the specific depositional process, the thickness difference between the two sites was considered as a direct estimation of the vertical component of a coeval coseismic offset. The homogenite (upper) component accounts for the major part of the thickness difference (ranging from 36 to 144 cm). These offsets were considered as likely representing dominantly vertical throws, along the transtensional southwestern boundary of the inner, pull-apart Central Basin. In terms of natural hazards, further investigations on this local behavior should rather be directed to tsunami genesis.

show abstract

Section: Impact Of Hmtu On Bottom Morphologymentioning

confidence: 99%

Section: Use Of Event-by-event Thickness Differences As Indicators Ofmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Estimation of successive coseismic vertical offsets using coeval sedimentary events – application to the southwestern limit of the Sea of Marmara's Central Basin (North Anatolian Fault)

Beck

Campos

Eriş

et al. 2015

Nat. Hazards Earth Syst. Sci.

Self Cite

View full text Add to dashboard Cite

show abstract

Acquisition of detrital magnetization in four turbidites

Tanty

Valet

Carlut

et al. 2016

Geochem Geophys Geosyst

View full text Add to dashboard Cite

Turbiditic events are mostly avoided in paleomagnetic studies and therefore their remanence and magnetic properties are poorly described. Turbidites are exempt of bioturbation and potentially provide pertinent information about depositional remanence. We studied four quaternary turbidites of different origins in marine sediment cores. Upward fining of both magnetic and sedimentary fractions indicates that coarser grains reached the bottom first. We observe a progressive shallowing of the magnetic inclinations between the upper and bottom layers of the turbidites that increases with the size of the events and obeys a simple linear scaling law. Measurements of magnetic anisotropy suggest that hydrodynamic conditions prevailing during deposition seem to be dominant for the alignment of the magnetic grains. We suggest that small spherical grains are randomly oriented with zero resultant magnetization in presence of strong turbulent conditions, while the alignment of elongated grains is constrained by the competition between gravity and magnetic forces. A possible scenario is that under turbulent conditions they tend to rest at the bottom with their long axes parallel to the sediment surface and therefore with shallow inclinations, whereas weakly turbulent conditions like during the smallest (26 cm thick) event do not disturb the magnetic alignment and therefore do not generate inclination shallowing.

show abstract

Active subaquatic fault segments in Lake Iznik along the middle strand of the North Anatolian Fault, NW Turkey

Gastineau

Sigoyer

Sabatier

et al. 2021

Preprint

View full text Add to dashboard Cite

Key points:1. Previously unknown faults that belong to the North Anatolian Fault system have been discovered in Lake Iznik through geophysical surveys (from multibeam bathymetry and high-frequency seismic reflection data).2. Assessment of the recent activity of the Iznik Fault, based on multiproxy analysis of sediment cores from each side of the fault.3. Evidence for the timing of the last rupture corresponding to the 1065 CE historical earthquake, which had significantly impacted the city of Iznik.

show abstract

Identification of deep subaqueous co-seismic scarps through specific coeval sedimentation in Lesser Antilles: implication for seismic hazard

Cited by 23 publications

References 34 publications

Estimation of successive coseismic vertical offsets using coeval sedimentary events – application to the southwestern limit of the Sea of Marmara's Central Basin (North Anatolian Fault)

Estimation of successive coseismic vertical offsets using coeval sedimentary events – application to the southwestern limit of the Sea of Marmara's Central Basin (North Anatolian Fault)

Acquisition of detrital magnetization in four turbidites

Active subaquatic fault segments in Lake Iznik along the middle strand of the North Anatolian Fault, NW Turkey

Contact Info

Product

Resources

About