Polyphase deformation at the Harder Fjord Fault Zone (North Greenland)

K. PIEPJOHN; W. VON GOSEN

doi:10.1017/S0016756801005660

Abstract

In North Greenland, the E–W-trending Harder Fjord Fault Zone represents a major lineament which cuts through Cambrian to Silurian deep-water sediments of the Franklinian Basin over a distance of 300 km. On both sides of the fault zone, these successions were affected by two stages of folding (F1, F2) during Devonian to Early Carboniferous (Ellesmerian) deformation. No field evidence was found that the Harder Fjord Fault Zone was active prior to Ellesmerian folding. Early movements along the fault zone are indicated by post-Ellesmerian sedimentation of coarse red-beds (Depot Bugt conglomerate) which represent the oldest of the Wandel Sea Basin sediments. They were probably deposited in narrow, fault-controlled (?)Late Carboniferous basins similar to those described from Svalbard. During Late Cretaceous times, 500 m thick fluvial and marine clastic sediments were unconformably deposited over the folded Cambro-Ordovician units. Although no direct field evidence suggests that sedimentation was controlled by displacements along the Harder Fjord Fault Zone, the intrusion of Upper Cretaceous mafic sills and dykes indicates a phase of important crustal extension related to reactivation of the fault zone during this period of time. This stage was followed by post-late Santonian (Eurekan) N–S compression (D3) which affected the Franklinian Basin deposits, Wandel Sea Basin sediments and mafic intrusions. In general, it was concentrated along the Harder Fjord Fault Zone and probably caused the reactivation of pre-existing (?)Carboniferous and younger fault lines. The entire deformation and its timing are comparable with the Eurekan structures found at the Kap Cannon Thrust Zone in northernmost Greenland and are related to intracontinental compression prior to the separation of Svalbard from Greenland.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

von Gosen, W. and Piepjohn, K. 2003. Eurekan transpressive deformation in the Wandel Hav Mobile Belt (northeast Greenland). Tectonics, Vol. 22, Issue. 4,

Piepjohn, Karsten Gosen, Werner von Estrada, Solveig and Tessensohn, Franz 2007. Deciphering superimposed Ellesmerian and Eurekan deformation, Piper Pass area, northern Ellesmere Island (Nunavut). Canadian Journal of Earth Sciences, Vol. 44, Issue. 10, p. 1439.

RØhr, T.S. Andersen, T. and Dypvik, H. 2008. Provenance of Lower Cretaceous sediments in the Wandel Sea Basin, North Greenland. Journal of the Geological Society, Vol. 165, Issue. 3, p. 755.

Tegner, C. Storey, M. Holm, P.M. Thorarinsson, S.B. Zhao, X. Lo, C.-H. and Knudsen, M.F. 2011. Magmatism and Eurekan deformation in the High Arctic Large Igneous Province: 40Ar–39Ar age of Kap Washington Group volcanics, North Greenland. Earth and Planetary Science Letters, Vol. 303, Issue. 3-4, p. 203.

Leever, Karen A. Gabrielsen, Roy H. Faleide, Jan Inge and Braathen, Alvar 2011. A transpressional origin for the West Spitsbergen fold‐and‐thrust belt: Insight from analog modeling. Tectonics, Vol. 30, Issue. 2,

Tegner, C. Storey, M. Holm, P.M. Thorarinsson, S.B. Zhao, X. Lo, C.-H. and Knudsen, M.F. 2011. Erratum to “Magmatism and Eurekan deformation in the High Arctic Large Igneous Province: 40Ar–39Ar age of Kap Washington Group volcanics, North Greenland” [Earth Planet. Sci. Lett. 303 (2011), 203–214]. Earth and Planetary Science Letters, Vol. 311, Issue. 1-2, p. 195.

Thórarinsson, Sigurjón B. Söderlund, Ulf Døssing, Arne Holm, Paul M. Ernst, Richard E. and Tegner, Christian 2015. Rift magmatism on the Eurasia basin margin: U–Pb baddeleyite ages of alkaline dyke swarms in North Greenland. Journal of the Geological Society, Vol. 172, Issue. 6, p. 721.

Guarnieri, Pierpaolo 2015. Pre-break-up palaeostress state along the East Greenland margin. Journal of the Geological Society, Vol. 172, Issue. 6, p. 727.

Piepjohn, Karsten von Gosen, Werner Tessensohn, Franz Reinhardt, Lutz McClelland, William C. Dallmann, Winfried Gaedicke, Christoph and Harrison, J. Christopher 2015. Tectonic map of the Ellesmerian and Eurekan deformation belts on Svalbard, North Greenland, and the Queen Elizabeth Islands (Canadian Arctic). arktos, Vol. 1, Issue. 1,

Rosa, Diogo Majka, Jarosław Thrane, Kristine and Guarnieri, Pierpaolo 2016. Evidence for Timanian-age basement rocks in North Greenland as documented through U-Pb zircon dating of igneous xenoliths from the Midtkap volcanic centers. Precambrian Research, Vol. 275, Issue. , p. 394.

Piepjohn, Karsten von Gosen, Werner and Tessensohn, Franz 2016. The Eurekan deformation in the Arctic: an outline. Journal of the Geological Society, Vol. 173, Issue. 6, p. 1007.

Gion, Austin M. Williams, Simon E. and Müller, R. Dietmar 2017. A reconstruction of the Eurekan Orogeny incorporating deformation constraints. Tectonics, Vol. 36, Issue. 2, p. 304.

Pedersen, Gunver K. Lauridsen, Bodil W. Svennevig, Kristian Bojesen-Koefoed, Jørgen A. Nøhr-Hansen, Henrik and Alsen, Peter 2018. Burial history of a folded Cretaceous succession – A case study from the southern part of Kilen, eastern North Greenland. Cretaceous Research, Vol. 89, Issue. , p. 22.

Estrada, Solveig Tessensohn, Franz and Sonntag, Benita-Lisette 2018. A Timanian island-arc fragment in North Greenland: The Midtkap igneous suite. Journal of Geodynamics, Vol. 118, Issue. , p. 140.

Ruppel, Antonia Damaske, Detlef and Piepjohn, Karsten 2019. Circum-Arctic Structural Events: Tectonic Evolution of the Arctic Margins and Trans-Arctic Links with Adjacent Orogens. p. 349.

von Gosen*, W. Piepjohn*, K. Gilotti*, J.A. McClelland*, W.C. and Reinhardt*, L. 2019. Circum-Arctic Structural Events: Tectonic Evolution of the Arctic Margins and Trans-Arctic Links with Adjacent Orogens. p. 367.

Piepjohn*, Karsten Dallmann*, Winfried K. and Elvevold*, Synnøve 2019. Circum-Arctic Structural Events: Tectonic Evolution of the Arctic Margins and Trans-Arctic Links with Adjacent Orogens. p. 95.

Paech, Hans-Jürgen and Estrada, Solveig 2019. Circum-Arctic Structural Events: Tectonic Evolution of the Arctic Margins and Trans-Arctic Links with Adjacent Orogens. p. 189.

Barnes*, Christopher J. and Schneider, David A. 2019. Circum-Arctic Structural Events: Tectonic Evolution of the Arctic Margins and Trans-Arctic Links with Adjacent Orogens. p. 132.

Beauchamp, B. Alonso-Torres, D. Piepjohn, K. Thériault, P. and Grasby, S.E. 2019. Circum-Arctic Structural Events: Tectonic Evolution of the Arctic Margins and Trans-Arctic Links with Adjacent Orogens. p. 255.

Download full list

Article contents

Polyphase deformation at the Harder Fjord Fault Zone (North Greenland)

Abstract

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Polyphase deformation at the Harder Fjord Fault Zone (North Greenland)

Abstract

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests