Along‐Strike Variations in Structure of the Continent‐Ocean Transition at the Northeastern Nova Scotia Margin From Wide‐Angle Seismic Observations

Lau, K. W. Helen; Nedimović, M. R.; Louden, K. E.

doi:10.1029/2018jb016894

Cited by 4 publications

(9 citation statements)

References 38 publications

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“…(2018) identify a similar COT zone except with no mantle exhumation (Figure 2a). This along‐margin structural complexity of the COT at the northeastern Nova Scotian margin is further supported by OCTOPUS, a margin‐parallel OBS profile that runs along the COT, crosses both the SMART‐1 and OETR‐2009 profiles and displays highly variable short‐wavelength (∼50 km) crystalline basement structures (Lau et al., 2019). In both the SMART‐1 and OETR‐2009 models, thinner than normal oceanic crust is imaged and interpreted as juxtaposed with the COT crust, but the more detailed information about the onset of seafloor spreading and the role of magmatism in the breakup has not yet been captured due to data and/or imaging limitations.…”

Section: Introductionmentioning

confidence: 84%

“…Lau et al. (2019) analyzed a margin‐parallel seismic profile that crosses our seismic profile at 267 km distance. Around the intersection point, the margin‐parallel profile reveals a northeast‐dipping reflector from the basement top down to 14 km depth.…”

Section: Interpretation and Discussionmentioning

confidence: 99%

“…Beneath the valley, reflector sequences are observed at large depths, among which some isolated reflectors are extremely bright. Lau et al (2019) analyzed a margin-parallel seismic profile that crosses our seismic profile at 267 km distance. Around the intersection point, the margin-parallel profile reveals a northeast-dipping reflector from the basement top down to 14 km depth.…”

Section: Domain IIImentioning

confidence: 99%

“… Study area and seismic profiles. (a) Bathymetry map of the northeastern Nova Scotian continental margin with the location of the OETR‐2009 (Lau et al., 2018), OCTOPUS (Lau et al., 2019), and SMART 1 and 2 (Funck et al., 2004; Wu et al., 2006) wide‐angle seismic profiles. The numbers alongside the OETR‐2009 profile indicate along‐profile distance from the landward end, as used in the data analysis.…”

Section: Introductionmentioning

confidence: 99%

“…The dependence on a priori information is minor because we make no assumptions regarding the Moho or other intrabasement boundaries, and the resolution is high as the models are discretized using fine grids (Van Avendonk et al, 2006;Zelt et al, 2003). (Lau et al, 2018), OCTOPUS (Lau et al, 2019), and SMART 1 and 2 (Funck et al, 2004;Wu et al, 2006) wide-angle seismic profiles. The numbers alongside the OETR-2009 profile indicate along-profile distance from the landward end, as used in the data analysis.…”

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confidence: 99%

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New Insights Into the Rift to Drift Transition Across the Northeastern Nova Scotian Margin From Wide‐Angle Seismic Waveform Inversion and Reflection Imaging

et al. 2021

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Sparse wide‐angle seismic profiling supported by coincident reflection imaging has been instrumental for advancing our knowledge about rifted margins. Nevertheless, features of critical importance for understanding rifting processes have been poorly resolved. We derive a high‐resolution velocity model by applying full waveform inversion to the dense OETR‐2009 wide‐angle seismic profile crossing the northeastern Nova Scotian margin. We then create a coincident reflection image by prestack depth migrating the multichannel seismic data. This allows for the first detailed interpretation of the structures related to the final stages of continental breakup and incipient oceanic accretion at the Eastern North America Margin. Our interpretation includes a hyperextended continental domain overlying partially serpentinized mantle, followed by a 10‐km‐wide domain consisting of a continental block surrounded by layered and bright reflectors indicative of magmatic extrusions. A major fault, representing the continent‐ocean boundary, marks a sharp seaward transition to a 16‐km‐wide domain characterized by smoother basement with chaotic reflectors, where no continental materials are present and a 3‐km‐thick embryonic oceanic crust overlying partially serpentinized mantle is created by the breakup magmatism. Further seaward, thin oceanic crust overlies the serpentinized mantle suggesting magma‐poor oceanic spreading with variable magma supply as determined from variable basement topography, 2–4 km thick volcanic layer, and magnetic anomalies. Our results demonstrate that magmatism played an important role in the lithospheric breakup of the area crossed by the OETR‐2009 profile. Considering that the northeastern Nova Scotian margin has been classified as amagmatic, large margin‐parallel variations in magma supply likely characterize a single rift segment.

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Section: Introductionmentioning

confidence: 84%

Section: Interpretation and Discussionmentioning

confidence: 99%

Section: Domain IIImentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

mentioning

confidence: 99%

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New Insights Into the Rift to Drift Transition Across the Northeastern Nova Scotian Margin From Wide‐Angle Seismic Waveform Inversion and Reflection Imaging

et al. 2021

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Crustal structure and lateral variations in the Gulf of Mexico conjugate margins: From rifting to break-up

Izquierdo‐Llavall

Ringenbach

Sapin

et al. 2022

Marine and Petroleum Geology

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3D Crustal Architecture and Along‐Strike Variation in the Mid‐Northern South China Sea Rifted Margin

Hao,

Mei,

Ranero

et al. 2024

JGR Solid Earth

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Rifted margins often show apparent along‐strike variations at the continent‐ocean transition (COT) region, typically occurring gradually over hundreds‐to‐thousands of km between the “magma‐rich” and “magma‐poor” endmembers. In contrast, comparatively smaller‐scale lateral variabilities of rifting structure and faulting style in hyper‐thinned continental crust are not yet well described. The South China Sea (SCS) was recently defined as the archetype of a new “intermediate‐type” margin with neither excess magmatism nor mantle exhumation. However, along‐strike crustal variations along this new type of margin are still little explored. Based on previously unpublished 2D grid of seismic reflection lines and overlapping 3D seismic volumes, we have investigated the crustal structure, faulting style, and the lower crustal reflectivity along ∼400 km of the mid‐northern SCS margin. Our new maps of crystalline‐crust thickness and top basement show that the SCS extension developed in two segments with contrasting tectonic styles separated by a narrow boundary. The eastern domain, resembling a wide‐rift model, displays low‐angle detachment faults and high‐velocity lower crust mainly associated with syn‐rift magmatism indicating weak crustal rheology. The neighboring western domain, resembling a narrow rift model, displays steep crustal‐scale faults indicating comparatively strong rheology. The change from wide to narrow rift—or weak to strong rheology—occurs abruptly, which appears at odds with the current conventional wisdom of mostly gradual transitions over a long distance between rift models. We speculate that the inherited heterogeneity in mantle composition and 3D melt focusing effect may drive this abrupt along‐strike variability in the mid‐northern SCS.

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Along‐Strike Variations in Structure of the Continent‐Ocean Transition at the Northeastern Nova Scotia Margin From Wide‐Angle Seismic Observations

Cited by 4 publications

References 38 publications

New Insights Into the Rift to Drift Transition Across the Northeastern Nova Scotian Margin From Wide‐Angle Seismic Waveform Inversion and Reflection Imaging

New Insights Into the Rift to Drift Transition Across the Northeastern Nova Scotian Margin From Wide‐Angle Seismic Waveform Inversion and Reflection Imaging

Crustal structure and lateral variations in the Gulf of Mexico conjugate margins: From rifting to break-up

3D Crustal Architecture and Along‐Strike Variation in the Mid‐Northern South China Sea Rifted Margin

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