Insights into the crustal structure of the transition between Nares Strait and Baffin Bay

The crustal structure and continental margin between southern Nares Strait and northern Baffin Bay were studied based on seismic refraction and gravity data acquired in 2010. We present the resulting P wave velocity, density and geological models of the crustal structure of a profile, which extends...

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Bibliographic Details
Published inTectonophysics Vol. 691; pp. 31 - 47
Main Authors Altenbernd, Tabea, Jokat, Wilfried, Heyde, Ingo, Damm, Volkmar
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 22.11.2016
Elsevier BV
Subjects
Baffin Bay
Continental crust
Continental margins
COT
Crustal structure
Data acquisition
Earth mantle
Fracture zones
Fractures
Gravitation
Gravity
Gravity data
Magma
Margin
Nares Strait
Oceanic crust
Oceans
Seismic refraction
Seismic velocities
Seismic wave velocities
Seismology
Serpentinization
Transition zone
Upper mantle
Velocity
Wave velocity
Baffin Bay
Nares Strait
COT
Nares Strait
Baffin Bay
Crustal structure
Seismic refraction
Margin
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Summary:The crustal structure and continental margin between southern Nares Strait and northern Baffin Bay were studied based on seismic refraction and gravity data acquired in 2010. We present the resulting P wave velocity, density and geological models of the crustal structure of a profile, which extends from the Greenlandic margin of the Nares Strait into the deep basin of central northern Baffin Bay. For the first time, the crustal structure of the continent-ocean transition of the very northern part of Baffin Bay could be imaged. We divide the profile into three parts: continental, thin oceanic, and transitional crust. On top of the three-layered continental crust, a low-velocity zone characterizes the lowermost layer of the three-layered Thule Supergroup underneath Steensby Basin. The 4.3–6.3km thick oceanic crust in the southern part of the profile can be divided into a northern and southern section, more or less separated by a fracture zone. The oceanic crust adjacent to the continent-ocean transition is composed of 3 layers and characterized by oceanic layer 3 velocities of 6.7–7.3km/s. Toward the south only two oceanic crustal layers are necessary to model the travel time curves. Here, the lower oceanic crust has lower seismic velocities (6.4–6.8km/s) than in the north. Rather low velocities of 7.7km/s characterize the upper mantle underneath the oceanic crust, which we interpret as an indication for the presence of upper mantle serpentinization. In the continent-ocean transition zone, the velocities are lower than in the adjacent continental and oceanic crustal units. There are no signs for massive magmatism or the existence of a transform margin in our study area. •Seismic refraction data were acquired in northern Baffin Bay and Nares Strait.•The crustal structure of the region was examined.•A non-volcanic margin is present in the Smith Sound area.•Northern Baffin Bay is underlain by partly thin oceanic crust.
ISSN:0040-1951
1879-3266
DOI:10.1016/j.tecto.2016.04.001