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Jan Mayen Microcontinent

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Series: Geological Society, London, Special Publications
Published: 01 January 2017
DOI: 10.1144/SP447.5
EISBN: 978-1-78620-37-00
... the NE extent of the Blosseville Kyst ( Fig. 1 ). The JMMC structure and stratigraphy observed between its eastern and western margins is profoundly segmented. A first-order boundary within the microcontinent is between the Jan Mayen Ridge and the SRC. Updated datasets suggest that the JMMC internal...
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Journal Article
Published: 01 July 2009
Journal of the Geological Society (2009) 166 (4): 601–616.
... the consequences of numerous plate boundary relocations is the formation of a highly extended or even fragmented Jan Mayen microcontinent and subsequent deformation of its margins and surrounding regions. The major Oligocene plate boundary reorganization (and microcontinent formation) might have been precluded...
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Journal Article
Published: 01 August 1987
Journal of the Geological Society (1987) 144 (4): 561–568.
... of seafloor spreading in the Early Eocene shortly before magnetic anomaly 24B (52 Ma). The associated coastal flexure is interpreted as marking the edge of a zone of stretched and thinned continental crust beneath the inner Denmark Strait shelf and Jan Mayen microcontinent; this represents a short-lived...
Journal Article
Journal: GSA Bulletin
Published: 17 March 2023
GSA Bulletin (2023) 135 (11-12): 3183–3200.
...-element, and Sr isotopic compositions for minerals (olivine, clinopyroxene, and plagioclase) from the Jan Mayen microcontinent (Integrated Ocean Drilling Program [IODP] Sites 907 and 985), Reykjanes Ridge (Site 983), Greenland Basin (Site 913), and Knipovich Ridge (Site 911) volcanic samples in the Arctic...
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Series: Geological Society, London, Special Publications
Published: 01 January 2017
DOI: 10.1144/SP447.12
EISBN: 978-1-78620-37-00
... the Irminger and Iceland basins SW and SE of Iceland, respectively, and the Greenland and Lofoten basins NW and NE of the Jan Mayen Fracture Zone (JMFZ) Complex ( Fig. 1 ). In addition, two basins flank the submerged Jan Mayen Microcontinent (JMMC): the eastern one, called the Norway Basin, was formed from...
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Journal Article
Journal: Geology
Published: 01 August 2016
Geology (2016) 44 (8): 595–598.
... in the North Atlantic, which became extinct after the Jan Mayen microcontinent separated from Greenland. In our model for the origin of microcontinents, the locus of plate spreading jumps to the weakened continental margin when the spreading ridge becomes amagmatic and the force required for continued...
FIGURES
Journal Article
Journal: Geosphere
Published: 01 June 2017
Geosphere (2017) 13 (3): 733–770.
...–Cretaceous, and Cenozoic time. The greatest amounts of faulting and block rotation occurred during Cenozoic rifting, which we correlate with development of the continent-ocean transition after ca. 56 Ma and the Jan Mayen microcontinent after ca. 36 Ma. A newly devised macrofaunal-based stratigraphic...
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Series: Geological Society, London, Special Publications
Published: 01 January 2017
DOI: 10.1144/SP447.9
EISBN: 978-1-78620-37-00
... is characterized by numerous plate-boundary relocations that formed the highly or super-extended Jan Mayen microcontinent (JMMC) ( Gaina et al. 2009 ; Gernigon et al. 2015 ). The initial opening occurred along the Aegir Ridge between the JMMC and the mid-Norwegian Møre Margin, and lasted until at least 30 Ma...
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Journal Article
Journal: Geology
Published: 01 December 2015
Geology (2015) 43 (12): 1087–1090.
... evolution such as the occurrence of the Iceland Melt Anomaly and the separation of the Jan Mayen microcontinent. We suggest that this inherited orogenic structure played a major role in the control of North Atlantic tectonic processes. 08 08 2015 10 10 2015 13 10 2015 © 2015 Geological...
FIGURES
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Reconstructed positions of Greenland (grey contours), present-day outline o...
Published: 01 July 2009
Fig. 6. Reconstructed positions of Greenland (grey contours), present-day outline of Jan Mayen microcontinent (grey, dashed lines), and Iceland hotspot (circles and squares) relative to a fixed Eurasian plate (note that the Jan Mayen microcontinent is rotated according to magnetic chrons
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Regional transect between Greenland and Norway across the <span class="search-highlight">Jan</span> <span class="search-highlight">Mayen</span> microco...
Published: 01 September 2010
Fig. 9. Regional transect between Greenland and Norway across the Jan Mayen microcontinent (modified after Mjelde et al . 2008 ). Location of the transect is shown in Figure 1 b. The Jan Mayen microcontinent is located between the two spreading systems, the Kolbeinsey Ridge and the Aegir Ridge.
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Evolution of NE Atlantic plate boundaries and kinematic evolution of the Ja...
Published: 01 July 2009
Fig. 10. Evolution of NE Atlantic plate boundaries and kinematic evolution of the Jan Mayen microcontinent illustrated by a series of tectonic reconstructions in an absolute reference frame. JMMC, Jan Mayen Microcontinent; COT, continent–ocean transition; MOR, mid-ocean ridge; GRN, Greenland; NAM
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( a ) Overview of magnetic data interpretations in the NE Atlantic (+; from...
Published: 01 July 2009
) are shaded transparent light grey; black line indicates continent–ocean boundary (COB). JMMC, Jan Mayen microcontinent; EJMFZ and WJMFZ, east and west Jan Mayen Fracture Zone, respectively. ( b ) Schematic crustal transect A–B and magnetic profile across the Norwegian–Greenland Sea. The profile shows
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( a ) Magnetic anomaly picks (○, present-day positions; •, reconstructed pi...
Published: 01 July 2009
points (i.e. constrained by the North Atlantic triple junction geometry) the confidence ellipses are small (○), whereas for subsets of data points the uncertainty ellipses are larger (dashed line, for rotations derived from magnetic data located in basins north of Jan Mayen microcontinent; dotted line
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Interpreted line-drawings from selected seismic lines and gravity and magne...
Published: 01 July 2009
Fig. 5. Interpreted line-drawings from selected seismic lines and gravity and magnetic profiles across the Jan Mayen microcontinent.
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( a ) Bathymetry, ( b ,  c ) free air and Bouguer gravity anomalies and ( d...
Published: 01 July 2009
Fig. 4. ( a ) Bathymetry, ( b , c ) free air and Bouguer gravity anomalies and ( d ) magnetic anomaly maps of the Jan Mayen microcontinent and surrounding areas.
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Simplified geologic map of the North Atlantic Ocean. Circles show respectiv...
Published: 17 March 2023
histogram (mbsf—meters below seafloor) and age data of igneous rocks recovered from Jan Mayen microcontinent (Sites 907, 985), Reykjanes Ridge (Site 983), Greenland Basin (Site 913), and Knipovich Ridge (Site 911). The age data for Holes 907A, 985B, 983C, and 911C are cited from Koc and Scherer (1996
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Regional location and bathymetric maps of the <span class="search-highlight">microcontinents</span> discussed in ...
Published: 01 September 2010
Fig. 1. Regional location and bathymetric maps of the microcontinents discussed in this paper. ( a ) Seychelles microcontinent and the Laxmi continental sliver in the India Ocean; ( b ) Jan Mayen microcontinent in the Norwegian–Greenland Sea; ( c ) Danakil proto-microcontinent in the Afar–Red Sea
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Total magnetic intensity map merged from Gamma5 ( Verhoef  et al.  1996 ) a...
Published: 29 September 2017
Fig. 3. Total magnetic intensity map merged from Gamma5 ( Verhoef et al. 1996 ) and JAS-05 ( Gernigon et al . 2009 ) of central segment of NE Atlantic, where the Aegir and Kolbeinsey Ridges overlap either side of the Jan Mayen microcontinent (JMMC). SDRs are marked in light purple.
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Bathymetric and topographic maps of <span class="search-highlight">microcontinents</span> and isolated continenta...
Published: 22 March 2018
Figure 1. Bathymetric and topographic maps of microcontinents and isolated continental fragments, with location of selected end members (pink) and failed breakup basins (yellow). A: North Atlantic Ocean: Porcupine Bank (PB), Rockall Bank (RB), Hatton Bank (HB), Faroe-Shetland Basin (FS), and Jan