首页|The crustal structure in the Northwest Atlantic region from receiver function inversion - Implications for basin dynamics and magmatism

The crustal structure in the Northwest Atlantic region from receiver function inversion - Implications for basin dynamics and magmatism

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  • NSTL
  • Elsevier
The Labrador Sea and Baffin Bay form an extinct Palaeogene oceanic spreading system, divided by a major continental transform, the Davis Strait, with the whole region defined as the Northwest Atlantic. The Davis Strait hosts the Ungava Fault Zone and is the central structural element of the Davis Strait Large Igneous Province (DSIP) that formed broadly coeval with continental breakup to its north and south. While constraints on the crustal structure in this region primarily exist in the offshore, crustal models are limited onshore, which makes an interpretation of regional structures as well as the extent, and therefore origin of the DSIP extremely difficult to ascertain. Here, we have collected all available teleseismic data from the Northwest Atlantic margins and applied a receiver function inversion to retrieve station-wise velocity models of the crust and uppermost mantle. We integrate the outcomes with published controlled-source seismic data and regional crustal models to make inferences about the crustal structure and evolution of the Northwest Atlantic. In particular, we focused on constraining the spatial extent and origin of high velocity lower crust (HVLC), and determining whether it is generically related to the Davis Strait Igneous Province, syn-rift exhumed and serpentinised mantle, or preexisting lower crustal bodies such as metamorphosed lower crust or older serpentinised mantle rocks. The new results allow us to better spatially constrain the DSIP and show the possible spatial extent of igneous-type HVLC across Southwest Greenland, Northwest Greenland and Southeast Baffin Bay. Similarly, we are able to relate some HVLC bodies to possible fossil collision/subduction zones/terrane boundaries, and in some instances to exhumed and serpentinised mantle.

Composition and structure of the continental crustSeismologyReceiver functionsJoint inversionCrustal imagingRiftingMagmatismEAST GREENLAND CALEDONIDESTRANS-HUDSON OROGENLABRADOR-SEACONTINENTAL-MARGINSEISMIC-REFRACTIONWEST GREENLANDDAVIS STRAITNAGSSUGTOQIDIAN OROGENNORTHERN LABRADORMAKKOVIK PROVINCE

Schiffer, Christian、Jess, Scott、Rondenay, Stephane、Peace, Alexander L.

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Uppsala Univ

Univ Calgary

Univ Bergen

McMaster Univ

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2022

10.1016/j.tecto.2022.229235

Tectonophysics

Tectonophysics

EISCI
ISSN:0040-1951
年,卷(期):2022.825
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