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Continental Rifted Margins 2. Gwenn Peron-PinvidicЧитать онлайн книгу.

Continental Rifted Margins 2 - Gwenn Peron-Pinvidic


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development of a compressive field in the northern margin, related to the Alpine orogeny during the Cenozoic (Thinon et al. 2001; Tugend et al. 2014). Compression led to the reactivation and inversion of structures formed during the rifting, as well as the development of new compressional structures, including thrusts, reverse faults and folds (e.g. Murillas et al. 1990; Druet et al. 2018).

      Crustal hyper-thinning, extensional discrepancy, crustal embrittlement, development of detachment faulting, mantle serpentinization and exhumation are all defining characteristics of individual magma-poor margins observed at other margins worldwide (e.g. Reston 2009; Turner and Wilson 2009; Autin et al. 2010; Zalán et al. 2011; Ball et al. 2013; Gillard et al. 2015; Osmundsen et al. 2016) that were first observed and described at either the WIM or at the neighboring Biscay margin. de Charpal et al. (1978) recognized tilted fault blocks above the S detachment, and similar detachment faults at the crust-mantle boundary (CMB) were subsequently identified at the SIAP (see section 1.2.2, “H” detachment, Figure 1.4; Hoffmann and Reston 1992; Krawczyk et al. 1996). Exhumed mantle was first recovered, by dredging then by drilling, at the DGM (Boillot et al. 1980; Boillot and Winterer 1988), and first shown to be an expanse ~100 km wide at the SIAP (Pickup et al. 1996). Le Pichon and Barbier (1987) and subsequently Sibuet (1992) pointed out extensional discrepancy in the Biscay and Galicia margins (Figure 1.5). Serpentine undercrust was proposed (Boillot et al. 1989) and modeled for the first time within the Galicia Margin (Pérez-Gussinyé and Reston 2001). It was also there where seismic velocities were first of sufficient resolution to both map out the degree of serpentinization and relate the causal fluid ingress to slip along the overlying crustal faults (Bayrakci et al. 2016). Furthermore, the most current models of continental breakup (see section 1.4) have been designed from observation at the Galicia Margin, namely: crustal DDS (Davis and Kusznir 2004, pp. 92–136), polyphase faulting (Reston et al. 2007) and sequential faulting (Ranero and Pérez-Gussinyé 2010).

      The WIM is sediment-starved and magma-poor (Boillot and Winterer 1988), allowing for optimal geophysical imaging of the margin’s structures, and have thus been studied since the early stages of deep offshore scientific exploration.

      First geophysical and drilling data: early reflection data across the GM were the Galice-Portugal profiles, collected in 1975 and 1980 by the Institut Français du Pétrole (Mauffret and Montadert 1987). These data were used as the basis for the first dedicated drilling leg on the margin, ODP Leg 103 (Boillot and Winterer 1988). In the late 1980s, these data were supplemented by the Lusigal profiles, which also covered the SIAP (Krawczyk et al. 1996). The widely spaced Iberian Atlantic Margin (IAM) profiles, acquired in 1993, included the IAM-9 across the SIAP, and IAM-5 across the TAP (Figures 1.1 and 1.2) and wide-angle/refraction profiles. In 1997, the Iberia Seismic Experiment collected reflection profiles on both the GM and the SIAP during the UK’s Discovery 215 cruise (Whitmarsh et al. 2000), which also collected wide-angle data using a fleet of ocean bottom seismometers (OBSs). The Discovery and Lusigal reflection profiles supported two ODP legs on the SIAP margin (149 and 173 – Sawyer et al. 1994; Whitmarsh et al. 1998; Whitmarsh et al. 2000).

      The Galicia 3D volume: enhancing the data available at the GM, a 3D volume of seismic reflection data was acquired in 2013 and provides spectacular new observations of the 3D structure of the DGM (Figures 1.1 and 1.3). These 3D data provide exceptional images of the edge of the hyper-extended crust down to 14 s TWT around the ODP Sites 638, 639 and 641, as well as images of the exhumed mantle around Site 637, at a resolution level never achieved before along this margin. Wide-angle data within the 3D volume were recorded by 72 OBS and hydrophones along a 2D profile (Davy et al. 2018), which were subsequently distributed into four irregular lines of 18 instruments for 3D inversion (Bayrakci et al. 2016). Together with the 2D data and the ODP drilling results, the 3D volume provides one of the best existing databases at rifted margins worldwide.

Schematic illustration of structure of the deep Galicia margin.
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