GLORIA — GEOMAR Library Ocean Research Information Access

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High Heat Flow Anomaly Within the St Paul Fracture Zone: Heat Advection and/or Inherent Thermal Structure? (2023)

Gregory, Emma P. M. ; Villinger, Heinrich ; Singh, Satish C. ; [et al.]

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Publication Date: 2023-07-21

Description: 〈title xmlns:mml="http://www.w3.org/1998/Math/MathML"〉Abstract〈/title〉〈p xmlns:mml="http://www.w3.org/1998/Math/MathML" xml:lang="en"〉Heat flow across oceanic transform faults (TFs) and fracture zones (FZs) has rarely been studied in detail, despite these features representing distinct thermal boundaries within the oceanic lithosphere. Here, we present heat flow measurements across the St Paul fracture zone (SPFZ) in the equatorial Atlantic Ocean, from 48 Ma crust in the south to 71 Ma in the north. To the north of the FZ we find a basal heat flow of 63 mWm〈sup〉−2〈/sup〉, and to the south a basal heat flow of 79 mWm〈sup〉−2〈/sup〉, both in agreement with plate cooling models. However, within the SPFZ we find a heat flow of 83 mWm〈sup〉−2〈/sup〉, greater than the values of the adjacent crust and 10–15 mWm〈sup〉−2〈/sup〉 higher than predicted from conductive cooling models, suggesting that the thermal structure of the FZ has been modified. Evidence from seismic and sub‐bottom profiler data indicate recent active deformation within the SPFZ, potentially driven by lithospheric flexure across the FZ or temporal changes in TF configuration. We propose that this deformation may enable fluid circulation and heat advection within the basement, creating the seafloor heat flow anomaly within the FZ. These findings suggest that FZs may remain important zones predisposed to host deformation and fluid flow in the oceanic lithosphere, despite not being active plate boundaries.〈/p〉

Description: Key Points: A high heat flow anomaly of 10–15 mWm〈sup〉−2〈/sup〉 is observed in the St Paul fracture zone compared to the adjacent oceanic crust. The heat flow anomaly is likely due to tectonically driven fluid flow but thermal rejuvenation at the transform fault could also contribute. Fracture zones may act as high permeability pathways for fluid flow, and form and evolve differently to standard oceanic lithosphere.

Description: Deutsche Forschungsgemeinschaft http://dx.doi.org/10.13039/501100001659

Description: FP7 Ideas: European Research Council http://dx.doi.org/10.13039/100011199

Description: https://doi.pangaea.de/10.1594/PANGAEA.950419

Description: https://doi.pangaea.de/10.1594/PANGAEA.950420

Keywords: ddc:551 ; fracture zone ; heat flow ; oceanic crust ; St Paul ; fluid flow ; lithosphere

Language: English

Type: doc-type:article

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Ocean bottom seismometer and ocean bottom hydrophone seismic refraction and wide angle data from profile P02 of Maria S. Merian cruise MSM69 with links to sgy data files (2019)

Grevemeyer, Ingo ; Singh, Satish C ; Papenberg, Cord

PANGAEA

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Publication Date: 2024-02-02

Description: In December 2017, the St. Paul fracture zone near 18°W was surveyed seismically during Maria S. Merian cruise MSM69. Fourteen ocean-bottom-seismometers and hydrophones sampled seismic shots fired along a 140 km long seismic profile, running within the ~10 km wide valley of the fracture zone, that separates 40 Ma crust in the south with 70 Ma crust in the north.

Keywords: Event label; File content; File format; File name; File size; Maria S. Merian; MSM69; MSM69_100-1; MSM69_101-1; MSM69_87-1; MSM69_88-1; MSM69_89-1; MSM69_90-1; MSM69_91-1; MSM69_92-1; MSM69_93-1; MSM69_94-1; MSM69_95-1; MSM69_96-1; MSM69_97-1; MSM69_98-1; MSM69_99-1; OBH; OBH 72; OBH 85; OBS; OBS 73; OBS 74; OBS 75; OBS 76; OBS 77; OBS 78; OBS 79; OBS 80; OBS 81; OBS 82; OBS 83; OBS 84; Ocean bottom hydrophone; ocean bottom refraction seismology; Ocean bottom seismometer; oceanic crust; P02; SEIS; Seismic; seismic data; St. Paul fracture zone; Uniform resource locator/link to metadata file; Uniform resource locator/link to sgy data file

Type: Dataset

Format: text/tab-separated-values, 61 data points

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DATA PANGAEA

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Ocean bottom seismometer and ocean bottom hydrophone seismic refraction and wide angle data from profile P01 of Maria S. Merian cruise MSM69 with links to sgy data files (2020)

Grevemeyer, Ingo ; Singh, Satish C ; Papenberg, Cord

PANGAEA

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Publication Date: 2024-02-02

Description: During MSM69, in November and December of 2017, an 1100-km-long transect in the equatorial Atlantic Ocean aboard the German research vessel MARIA S. MERIAN. The profiles runs from 12.8°W/2.8°S,for 75 km on the South American plate, crosses the Mid-Atlantic Ridge and terminates at 3.2°W/0.7°S, roughly covering zero-age to approximately 50 Myr old lithosphere of the African plate. The seismic refraction and wide-angle transect was covered with 71 Ocean-Bottom-Seismometers and hydrophones spaced at 10 to 20 km intervals. The profile was shot at an increased interval of 210 s to decrease the shot-induced-level, improving signal-noise-ratio and providing an average shot spacing of 410 m. Seismic data in SEGY format are reduced with 8 km/s and the origin of the time series is at -1 sec.

Keywords: crustal structure; Event label; File content; File format; File name; File size; Maria S. Merian; Mid-Atlantic Ridge; MSM69; MSM69_10-1; MSM69_11-1; MSM69_12-1; MSM69_13-1; MSM69_14-1; MSM69_15-1; MSM69_16-1; MSM69_17-1; MSM69_18-1; MSM69_20-1; MSM69_21-1; MSM69_22-1; MSM69_23-1; MSM69_24-1; MSM69_25-1; MSM69_26-1; MSM69_27-1; MSM69_28-1; MSM69_29-1; MSM69_30-1; MSM69_3-1; MSM69_31-1; MSM69_32-1; MSM69_33-1; MSM69_34-1; MSM69_35-1; MSM69_36-1; MSM69_37-1; MSM69_38-1; MSM69_39-1; MSM69_4-1; MSM69_41-1; MSM69_43-1; MSM69_44-1; MSM69_45-1; MSM69_46-1; MSM69_47-1; MSM69_48-1; MSM69_49-1; MSM69_50-1; MSM69_5-1; MSM69_51-1; MSM69_52-1; MSM69_53-1; MSM69_54-1; MSM69_55-1; MSM69_56-1; MSM69_57-1; MSM69_58-1; MSM69_59-1; MSM69_60-1; MSM69_61-1; MSM69_62-1; MSM69_63-1; MSM69_64-1; MSM69_65-1; MSM69_67-1; MSM69_68-1; MSM69_69-1; MSM69_70-1; MSM69_7-1; MSM69_71-1; MSM69_72-1; MSM69_73-1; MSM69_74-1; MSM69_75-1; MSM69_76-1; MSM69_77-1; MSM69_8-1; MSM69_9-1; OBH; OBH01; OBH05; OBH16; OBH20; OBH31; OBH35; OBH46; OBH48; OBH51; OBH62; OBH63; OBH64; OBH65; OBH66; OBH67; OBH68; OBH69; OBS; OBS02; OBS03; OBS04; OBS06; OBS07; OBS08; OBS09; OBS10; OBS11; OBS12; OBS13; OBS14; OBS15; OBS17; OBS18; OBS19; OBS21; OBS22; OBS23; OBS24; OBS25; OBS26; OBS27; OBS28; OBS29; OBS30; OBS32; OBS33; OBS34; OBS37; OBS38; OBS39; OBS40; OBS41; OBS42; OBS43; OBS44; OBS45; OBS47; OBS49; OBS50; OBS52; OBS53; OBS54; OBS55; OBS56; OBS57; OBS58; OBS59; OBS60; OBS70; OBS71; Ocean bottom hydrophone; Ocean bottom seismometer; Optional event label; P01; SEIS; Seismic; seismic data; Uniform resource locator/link to metadata file; Uniform resource locator/link to sgy data file

Type: Dataset

Format: text/tab-separated-values, 905 data points

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Seismic refraction data from ILAB-SPARC experiment in the equatorial Atlantic Ocean between Romanche Transform Fault and Saint Paul Fracture Zone (2022)

Wang, Zhikai ; Singh, Satish C

PANGAEA

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Publication Date: 2024-04-20

Description: We provide 10 OBS seismic data collected in the equatorial Atlantic during the ILAB-SPARC experiment conducted aboard French R/V 'Pourquoi Pas?' in Fall 2018. The seismic data sample the oceanic lithosphere extending between the Romanche Transform Fault to the Saint Paul Fracture Zone.

Keywords: Binary Object; Binary Object (File Size); Elevation of event; Equatorial Atlantic; Event label; ILAB-SPARC; ILAB-SPARC_OBS16; ILAB-SPARC_OBS17; ILAB-SPARC_OBS18; ILAB-SPARC_OBS19; ILAB-SPARC_OBS20; ILAB-SPARC_OBS21; ILAB-SPARC_OBS22; ILAB-SPARC_OBS23; ILAB-SPARC_OBS24; ILAB-SPARC_OBS25; Latitude of event; Longitude of event; OBS; Ocean bottom seismometer; Pourquoi Pas ? (2005); Seismic refraction data; South Atlantic Ocean; TRANSATLANTICILAB; Trans-Atlantic Imaging of Lithosphere Asthenosphere Boundary

Type: Dataset

Format: text/tab-separated-values, 10 data points

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DATA PANGAEA

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Multibeam bathymetry processed data (Kongsberg EM 122 working area dataset) of RV MARIA S. MERIAN during cruise MSM69, St Paul Fracture Zone, Atlantic Ocean (2023)

Gregory, Emma P M ; Villinger, Heinrich ; Singh, Satish C ; [et al.]

PANGAEA

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Publication Date: 2024-04-20

Description: A geophysical study was undertaken over the St Paul Fracture Zone in the Equatorial Atlantic Ocean in November and December of 2017, during research cruise MSM69 aboard the German vessel RV Maria S. Merian (Grevemeyer et al., 2019). Data acquired included a grid of multibeam bathymetry data of the seafloor topography along and across the fracture zone. Processing steps for the multibeam data included: manual cleaning to remove erroneous points; conversion to depth using sound velocity profiles derived from CTD data acquired during the cruise; and navigation correction for the position of the echosounder on the ship. Tide correction was not applied due to the large water depth. Here, we present gridded multibeam bathymetry data of the eastern St Paul Fracture Zone, located between 1°N – 2.5°N and 19°W – 17°W. This is provided in both GMT NetCDF grid and GeoTIFF formats, with a grid resolution of 100 m (approximately 0.0009°).

Keywords: Bathymetry; Binary Object; Binary Object (File Size); Binary Object (Media Type); Elevation, maximum; Elevation, minimum; Equatorial Atlantic; File content; fracture zones; Horizontal datum; Horizontal datum, projection stored in file; KEM122; KONGSBERG EM122; Latitude, northbound; Latitude, southbound; Longitude, eastbound; Longitude, westbound; Maria S. Merian; MSM69; MSM69_0_Underway-1; Raster cell size; sub-bottom profiles; TRANSATLANTICILAB; Trans-Atlantic Imaging of Lithosphere Asthenosphere Boundary

Type: Dataset

Format: text/tab-separated-values, 22 data points

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Seismic refraction and wide-angle segy-data from profile iLAB-SPARC (north), equatorial Atlantic Ocean near 18°W (2021)

Singh, Satish C ; Growe, Kevin ; Grevemeyer, Ingo

PANGAEA

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Publication Date: 2024-04-20

Description: Seismic refraction and wide-angle data were acquired in the equatorial Atlantic Ocean along the rougly north-south running iLAB-SPARC profile (IS-01) near 18°W. Here we provide the data from 15 ocean-bottom-seismometer (OBS) stations representing the northern part (~300 km) of a seismic line with a total length of 850 km. Data were obtained aboard the French R/V Pourquoi Pas? in 2018. The repository contains two types of files for the OBS data and the MCS data, respectively.

Keywords: Atlantic; Binary Object; Binary Object (File Size); Elevation of event; Event label; File content; fracture zones; ILAB-SPARC; ILAB-SPARC_ilab; ILAB-SPARC_ilsp_p07; ILAB-SPARC_ilsp_p08; ILAB-SPARC_line_01; ILAB-SPARC_OBS01; ILAB-SPARC_OBS02; ILAB-SPARC_OBS03; ILAB-SPARC_OBS04; ILAB-SPARC_OBS05; ILAB-SPARC_OBS06; ILAB-SPARC_OBS07; ILAB-SPARC_OBS08; ILAB-SPARC_OBS09; ILAB-SPARC_OBS10; ILAB-SPARC_OBS11; ILAB-SPARC_OBS12; ILAB-SPARC_OBS13; ILAB-SPARC_OBS14; ILAB-SPARC_OBS15; Latitude of event; Longitude of event; MCS; MultiCorer, small; OBS; Ocean bottom seismometer; Pourquoi Pas ? (2005); seismic attenuation; seismic tomography; seismic data; TRANSATLANTICILAB; Trans-Atlantic Imaging of Lithosphere Asthenosphere Boundary

Type: Dataset

Format: text/tab-separated-values, 26 data points

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DATA PANGAEA

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Sediment echosounder processed data (Atlas Parasound P70 echosounder working area dataset) of RV MARIA S. MERIAN during cruise MSM69, St Paul Fracture Zone, Atlantic Ocean (2023)

Gregory, Emma P M ; Villinger, Heinrich ; Singh, Satish C ; [et al.]

PANGAEA

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Publication Date: 2024-04-20

Description: A geophysical study was undertaken over the St Paul Fracture Zone in the Equatorial Atlantic Ocean in November and December of 2017, during research cruise MSM69 aboard the German vessel RV Maria S. Merian (Grevemeyer et al., 2019). Data acquired included sub-bottom profiler data along a north-south oriented transect crossing the eastern fracture zone, showing the structure of the uppermost sediments. Here we present processed sub-bottom profiler (PARASOUND) data crossing the St Paul Fracture Zone at 17.87°W, comprising eight files in SEGY format. During processing, the data were correlated with the source signature and the amplitude envelope was calculated.

Keywords: Binary Object; Binary Object (File Size); Binary Object (Media Type); Equatorial Atlantic; fracture zones; Maria S. Merian; MSM69; MSM69_105-1; ParaSound; PARASOUND; PS; Start of data file recording, date/time; Start of data file recording, latitude; Start of data file recording, longitude; Stop of data file recording, date/time; Stop of data file recording, latitude; Stop of data file recording, longitude; sub-bottom profiles; TRANSATLANTICILAB; Trans-Atlantic Imaging of Lithosphere Asthenosphere Boundary

Type: Dataset

Format: text/tab-separated-values, 56 data points

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Pre-stack depth and time migrated ocean bottom hydrophone data of the young Juan de Fuca Plate during SONNE cruise SO111 (2020)

Qin, Yanfang ; Singh, Satish C ; Grevemeyer, Ingo ; [et al.]

PANGAEA

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Publication Date: 2024-04-20

Description: The provided data are pre-stack depth (psdm) and pre-stack time (pstm) migrated Ocean Bottom Hydrophone datasets for the lines RFR96-01, RFR96-03, RFR96-05, and RFR96-08. In addition to seismic data, the picks of the shallowest and deepest events are provided.

Keywords: Binary Object; Binary Object (File Size); Event label; HYDROCELL; migration; North Pacific Ocean; picks; pre-stack depth migrated; pre-stack time migrated; Seismic refraction profile; SEISREFR; SO111; SO111_RFR96-01; SO111_RFR96-03; SO111_RFR96-05; SO111_RFR96-08; Sonne

Type: Dataset

Format: text/tab-separated-values, 14 data points

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9

Electronic Resource

WKBJ modelling for smoothly varying 3-D media (1991)

Singh, Satish C. ; Tarantola, Albert

Oxford, UK : Blackwell Publishing Ltd

Geophysical journal international 106 (1991), S. 0

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ISSN: 1365-246X

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Geosciences

Notes: WKBJ theory has been widely used to solve wave equations. When the medium is 1-D, it is possible to obtain an approximate analytical expression for the Green's function of an elastic wave equation in the plane-wave domain using this theory. As the expression is analytical, it is a very efficient way to compute synthetic seismograms. If the medium is also smoothly varying in the lateral directions, the WKBJ theory can be extended to compute the Green's function for 3-D. This can be achieved by dividing the model parameters into two parts: vertically varying and a small lateral deviation from the vertical. In this paper, we derive an approximate analytical expression for the Green's function for such 3-D media. The solution is valid for pre-critical waves and can be used to compute the scattered wavefields in 3-D. Synthetic seismograms have been computed for direct waves in 2-D media and are found to be in agreement with the ray theory results.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1365-246X.1991.tb03902.x

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Electronic Resource

Velocity structure of upper-mantle transition zones beneath central eurasia from seismic inversion using genetic algorithms (1996)

Neves, Fernando A. ; Singh, Satish C. ; Priestley, Keith F.

Oxford, UK : Blackwell Publishing Ltd

Geophysical journal international 125 (1996), S. 0

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ISSN: 1365-246X

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Geosciences

Notes: We present velocity constraints for the upper-mantle transition zones beneath Central Siberia based on observations of the 1982 RIFT Deep Seismic Sounding (DSS) profile. The data consist of seismic recordings of a nuclear explosion in north-western Siberia along a 2600 km long seismic profile extending from the Yamal Peninsula to Lake Baikal. We invert seismic data from the mantle transition zones using a non-linear inversion scheme using a genetic algorithm for optimization and the WKBJ method to compute the synthetic seismograms. A statistical error analysis using a graph-binning technique was performed to provide uncertainty values in the velocity models.Our best model for the upper-mantle velocity discontinuity near 410 km depth has a two-stage velocity-gradient structure, with velocities increasing from 8.70–9.25 km s−1 over a depth range of 400–415 km, a gradient of 0.0433 s−1, and from 9.25–9.60 km s−1 over a depth range of 415–435 km, a gradient of 0.0175 s−1. This derived model is consistent with other seismological observations and mineral-physics models. The model for the velocity discontinuity near 660 km depth is simple, sharp and includes velocities increasing from 10.15 km s−1 at 655 km depth to 10.70 km s−1 at 660 km depth, a gradient of 0.055 s−1.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1365-246X.1996.tb06030.x

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