1-19 OF 19 RESULTS FOR

Polhem Subplatform

Results shown limited to content with bounding coordinates.
Follow your search
Access your saved searches in your account

Would you like to receive an alert when new items match your search?
Close Modal
Sort by
Journal Article
Journal: Interpretation
Published: 06 April 2018
Interpretation (2018) 6 (2): SD29–SD40.
... to the extraction. We have used industry-based data acquired in a complex geological area and implemented our methods with a case study on the Polhem Subplatform, located in the southwestern Barents Sea north of Norway. For this case study, our methods result in the extraction of two unconformities and twenty-five...
FIGURES | View All (11)
Image
A manually interpreted seismic line of the <span class="search-highlight">Polhem</span> <span class="search-highlight">Subplatform</span> with the Lopp...
Published: 06 April 2018
Figure 2. A manually interpreted seismic line of the Polhem Subplatform with the Loppa High to the northeast and the Tromsø Basin to the southwest. The figure is modified from Glørstad-Clark et al. (2011b) . Megasequences are given distinct colors, and some important sequence boundaries
Image
A manually interpreted seismic image of the <span class="search-highlight">Polhem</span> <span class="search-highlight">Subplatform</span> in the south...
Published: 16 October 2019
Figure 1. A manually interpreted seismic image of the Polhem Subplatform in the southwestern Barents Sea. The Polhem Subplatform is structurally and stratigraphically complex, with stratigraphic sequences that are separated by unconformities and rotated fault blocks offset by major faults
Image
A 2D seismic line of the <span class="search-highlight">Polhem</span> <span class="search-highlight">Subplatform</span> with superimposed cross section...
Published: 06 April 2018
Figure 7. A 2D seismic line of the Polhem Subplatform with superimposed cross sections of 3D semiautomatically extracted unconformities (S1–S3) and faults (F1–F8). As the figure shows 2D cross sections of 3D objects, the apparent continuity of them can be delusive. Each object has a distinct
Image
Stratigraphic framework for the Hammerfest Basin and the <span class="search-highlight">Polhem</span> <span class="search-highlight">Subplatform</span>...
Published: 22 November 2016
Fig. 2. Stratigraphic framework for the Hammerfest Basin and the Polhem Subplatform used in this paper. It should be noted that the lithostratigraphy is valid only for the Hammerfest Basin. Lithostratigraphy and chronostratigraphy from NORLEX ( Worsley et al . 1988 ; Gradstein et al . 2010 ).
Image
Regional map of the southwestern Barents Sea, north of Norway, where the co...
Published: 16 October 2019
Figure 8. Regional map of the southwestern Barents Sea, north of Norway, where the color bar indicates the depth of the Base Cretaceous Unconformity in two-way traveltime (TWT). The map shows annotated structural elements, such as the Loppa High and the Polhem Subplatform, which are locations
Image
Map of the regional structures in the southwestern Barents Sea, north of No...
Published: 06 April 2018
Figure 1. Map of the regional structures in the southwestern Barents Sea, north of Norway. The study area is annotated with a red square and covers parts of the Polhem Subplatform at the left flank of the Loppa High. The map includes topography by NOAA and geological classification by NPD
Image
Uninterpreted and interpreted seismic line running from the Bjarmeland Plat...
Published: 22 November 2016
Fig. 4. Uninterpreted and interpreted seismic line running from the Bjarmeland Platform in the SE, across the Loppa High, Jason Fault Complex and the Polhem Subplatform in the NW. Names of seismic reflections are given along the left margin of the figure. (See Fig. 1 for location and Fig. 2
Image
( a ) Uninterpreted and interpreted seismic line running across the Loppa H...
Published: 22 November 2016
Fig. 5. ( a ) Uninterpreted and interpreted seismic line running across the Loppa High, Jason Fault Complex, Polhem Subplatform and into the Bjørnøya Basin. ( b ) Details from ( a ). ( c ) Details from same area, see Fig. 1 for location. See Fig. 2 for chronostrat. abbreviations. Colour
Image
The porosity inconsistency computed for the Barents Sea wells. Data points ...
Published: 10 October 2023
Figure 9. The porosity inconsistency computed for the Barents Sea wells. Data points are color-coded by the corresponding structure unit. BP, Bjarmeland Platform; FP, Finmark Platform; HFB, Hammerfest Basin; HFC, Hoop Fault Complex; MFC, Måsøy Fault Complex; ND, Norvarg Dome; PSP, Polhem
Image
A 3D view of an intersecting inline and crossline, with three seismic horiz...
Published: 16 October 2019
with the method proposed in this study. The case example covers part of the Polhem Subplatform in the southwestern Barents Sea, as illustrated in Figure  1 , which includes annotated stratigraphic and structural details.
Journal Article
Published: 22 November 2016
Journal of the Geological Society (2017) 174 (2): 242–254.
...Fig. 2. Stratigraphic framework for the Hammerfest Basin and the Polhem Subplatform used in this paper. It should be noted that the lithostratigraphy is valid only for the Hammerfest Basin. Lithostratigraphy and chronostratigraphy from NORLEX ( Worsley et al . 1988 ; Gradstein et al . 2010 ). ...
FIGURES | View All (9)
Image
Overview of the study area showing the main structural elements. The extent...
Published: 22 November 2016
) ( a ) Detailed structural map of the Polhem Subplatform. ( b ) Detailed structural map of the Asterias Fault Complex and associated structures. ( c ) Detailed structural map of the Goliat hydrocarbon field area. Structural element map modified from Norwegian Petroleum Directorate (npd.no). FC, fault complex.
Journal Article
Journal: Geophysics
Published: 16 October 2019
Geophysics (2019) 84 (6): IM77–IM86.
...Figure 1. A manually interpreted seismic image of the Polhem Subplatform in the southwestern Barents Sea. The Polhem Subplatform is structurally and stratigraphically complex, with stratigraphic sequences that are separated by unconformities and rotated fault blocks offset by major faults...
FIGURES | View All (13)
Journal Article
Journal: Interpretation
Published: 19 April 2018
Interpretation (2018) 6 (2): SDi.
.... The author introduces basic concepts, techniques, and a simplified workflow of seismic sedimentology. Bugge et al. present two methods for semiautomatic extraction of 3D faults and unconformities from seismic data. The authors implement the methods with a case study from the Polhem Subplatform...
Journal Article
Journal: Interpretation
Published: 24 June 2024
Interpretation (2024) 12 (3): T289–T301.
... evolution of the northern Polhem Subplatform, SW Barents Sea : Journal of Structural Geology , 124 , 182 – 196 , doi: http://dx.doi.org/10.1016/j.jsg.2019.04.014 . JSGEDY 0191-8141 Keep M. McClay K. R. , 1997 , Analogue modelling of multiphase rift systems : Tectonophysics , 273...
FIGURES | View All (9)
Journal Article
Journal: Geophysics
Published: 10 October 2023
Geophysics (2023) 88 (6): MR333–MR349.
...Figure 9. The porosity inconsistency computed for the Barents Sea wells. Data points are color-coded by the corresponding structure unit. BP, Bjarmeland Platform; FP, Finmark Platform; HFB, Hammerfest Basin; HFC, Hoop Fault Complex; MFC, Måsøy Fault Complex; ND, Norvarg Dome; PSP, Polhem...
FIGURES | View All (13)
Journal Article
Published: 03 November 2023
Journal of the Geological Society (2023) 180 (6): jgs2023-016.
... , A. and Cardozo , N. 2019 . Growth and linkage of a basin-bounding fault system: insights from the Early Cretaceous evolution of the northern Polhem Subplatform, SW Barents Sea . Journal of Structural Geology , 124 , 182 – 196 , https://doi.org/10.1016/j.jsg.2019.04.014 Kane , K.E. , Jackson...
FIGURES | View All (14)
Journal Article
Journal: AAPG Bulletin
Published: 15 January 2021
AAPG Bulletin (2021) 105 (1): 157–188.
... , and N. Cardozo , 2019 , Growth and linkage of a basin-bounding fault system: Insights from the Early Cretaceous evolution of the northern Polhem Subplatform, SW Barents Sea : Journal of Structural Geology , v.  124 , p.  182 – 196 , doi: 10.1016/j.jsg.2019.04.014 . Kattenhorn , S...
FIGURES | View All (15)