J.E. Lie scite author profile

In-situ weathered bedrock, saprolite, is locally found in Scandinavia, where it is commonly thought to represent pre-Pleistocene weathering possibly associated with landscape formation. The age of weathering, however, remains loosely constrained, which has an impact on existing geological and landscape evolution models and morphotectonic correlations. Here we provide new geochronological evidence that some of the low-altitude basement landforms on- and offshore southwestern Scandinavia are a rejuvenated geomorphological relic from Mesozoic times. K-Ar dating of authigenic, syn-weathering illite from saprolitic remnants constrains original basement exposure in the Late Triassic (221.3±7.0–206.2±4.2 Ma) through deep weathering in a warm climate and subsequent partial mobilization of the saprolitic mantle into the overlying sediment cascade system. The data support the bulk geomorphological development of west Scandinavia coastal basement rocks during the Mesozoic and later, long-lasting relative tectonic stability. Pleistocene glaciations played an additional geomorphological role, selectively stripping the landscape from the Mesozoic overburden and carving glacial landforms down to Plio–Pleistocene times. Saprolite K-Ar dating offers unprecedented possibilities to study past weathering and landscape evolution processes.

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Lower Paleozoic petroleum from southern Scandinavia: Implications to a Paleozoic petroleum system offshore southern Norway

Pedersen¹,

Karlsen²,

Spjeldnæs³

et al. 2007

Bulletin

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Simple-shear deformation of the Skagerrak lithosphere during the formation of the Oslo Rift

Lie

Husebye²

1994

Tectonophysics

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Tectonic setting of post‐orogenic granites within SW Fennoscandia based on deep seismic and gravity data

Andersson

Lie

Husebye³

1996

Terra Nova

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Within the Svecononvegian Province of SW Scandinavia granite intrusions are abundant. Prominent ones are the Bohus‐Iddefjord and the Flå granites, the so‐ called Bohus‐Flå Granite belt. The age of these granites, consistent at ≅ 900 Ma, coincides with the late extensional stage of the Svecononvegian‐Grenvillian orogen. Gravity observations and deep seismic profiling lines are presented that also cover the Skagerrak Sea. The geophysical data suggest that the Bohus granite continues seaward for at least 80 km and its thickness, offshore, is estimated to be 2–4 km. Where the seismic profiling lines intersect the inferred seaward extension of the Bohus granite, a distinct reflection pattern is observed at ≅ 1.6 s. TWT. This coincides with a gravity modelled thickness of ≅ 4 km. The seismic profiles also show a large Moho offset beneath the modelled granite. It is proposed that this offset is related to Svecononvegian crustal underthrusting and that the granite melt could have formed by anatexis of mid‐crustal rocks downthrusted to greater depths in the vicinity of the seismically observed Moho offset.

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Observations of seismic reflectors in the lower lithosphere beneath the Skagerrak

Lie

Pedersen

Husebye

1990

Nature

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J.E. Lie

The inheritance of a Mesozoic landscape in western Scandinavia

Lower Paleozoic petroleum from southern Scandinavia: Implications to a Paleozoic petroleum system offshore southern Norway

Simple-shear deformation of the Skagerrak lithosphere during the formation of the Oslo Rift

Tectonic setting of post‐orogenic granites within SW Fennoscandia based on deep seismic and gravity data

Observations of seismic reflectors in the lower lithosphere beneath the Skagerrak

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