Factpages Norwegian Offshore Directorate
Factpages Norwegian Offshore Directorate
sodir.no          Norsk
23.11.2024 - 01:30
Time of last synchronization with Norwegian Offshore Directorate's internal systems

TEMPELFJORDEN GP

Export: PDF icon PDF
  • General information

    General information
    Attribute Value
    Lithostrat. unit
    The lithostratigraphic unit's official name.
    TEMPELFJORDEN GP
    NPDID lithostrat. unit
    Norwegian Offshore Directorate's unique id for lithostratigraphic units.
    167
    Level
    Indicates the lithostratigraphic unit's level. Legal values: GROUP, FORMATION, MEMBER.
    GROUP
  • Level below

    Level below
    Lithostrat. unit
  • Description

    Tempelfjorden Group

    Name
    Cutbill & Challinor (1965) introduced the term Tempelfjorden Group for a suite of spiculites, spiculitic chert, silicified limestones and fine-grained siliciclastics of mid- to late Permian age. The type area is in the innermost part of Isfjorden in central Spitsbergen. The Tempelfjorden Group is a well-established lithostratigraphic unit; its overall facies development and depositional evolution have been described by Steel & Worsley (1984) and Ezaki et al. (1994).
    Offshore reference areas
    The southern Loppa High – Hammerfest Basin, the Bjarmeland Platform and the eastern Finnmark Platform illustrate the quite significant variations in the group’s development offshore (Fig 9.51) . The group is thickly developed along the southern margins of the Loppa High where it has been penetrated by wells 7121/1-1 R and 7120/1-1 R2 . The upper parts of the group were penetrated by 7120/9-2 (from 4956 m to TD at 5072.6 m, (Fig 9.52) . in the central Hammerfest Basin, while thickest – but sedimentologically atypical - developments are seen in wells 7120/12-2 (4558-3657 m) and 7120/12-4 (2118-1366 m) on the basin’s southern margins (Fig 9.51) .
    Thickness
    The group thickens from 509 m in well 7121/1-1 R and 591 m in well 7120/1-1 R2 on the southern Loppa High, to 752 m in well 7120/12-4 and 901 m in well 7120/12-2 along the southern margins of the Hammerfest Basin (Fig 9.51) . This is appreciably thicker than the maximum of 460 m observed on land areas of Svalbard. Thinner developments are seen eastwards on the Bjarmeland Platform - 425 m in well 7124/3-1 and 226 m in well 7226/11-1 along the southern margins of the platform. On the eastern Finnmark Platform it forms a distinctive wedge-shaped unit thinning from approximately 180 m in well 7228/9-1 S (Fig 9.51) , on the northern shelf margins to 135 m in wells 7128/4-1 and 7128/6-1 and to less than 30 m further updip in the subcrop areas demonstrated by IKU shallow cores.
    The Tempelfjorden Group usually thins over local structural highs - exposures on Bjørnøya on the Stappen High show an extremely condensed (115 m thick) development of the group and highly condensed exposures on the margins of the Sørkapp-Hornsund High are only a few metres thick, thinning to zero over the crest of the structure (Hellem & Worsley 1978). It is not certain whether the group was initially deposited over the crest of the Loppa High, but the succession also thins and is then truncated upflank there, reflecting repeated uplift in the Permian to early Triassic; a roughly similar situation is seen in the inner parts of the Finnmark Platform, although thinning there reflects maximum onlap of the adjacent craton rather than active tectonism.
    Lithology
    The Tempelfjorden Group is characterised by dark to light grey spiculites, spiculitic cherts, silicified skeletal limestones and fine-grained siliciclastics including marls, calcareous claystones, shales and silt/sandstones in the offshore areas. In the southwestern Hammerfest Basin ( 7120/12-4 and 7120/12-2 ) the group contains a significant proportion of coarse siliciclastics. Elsewhere in the Norwegian Barents Sea, spiculites and silicified skeletal carbonates dominate. The carbonates contain a fauna dominated by brachiopods, sponges, bryozoans and crinoids. The condensed development of the Miseryfjellet Formation on the Stappen High contains herringbone cross-bedded sandstones and highly condensed silicified skeletal limestones.
    Lateral extent and variation
    The group is thickest in the western part of the study area. It forms distinctive wedge-shaped units with maximum thickness in the basins. On the eastern Finnmark Platform, the lower part of the group onlaps the inner Finnmark Platform and subcrops the Quaternary further updip. Lithologies are uniform in the eastern part of the study area and are dominated by chert and chert-rich limestone, while coarse siliciclastic domination in the southern Hammerfest Basin suggests emergent local provenance areas. Sediments assigned to the Tempelfjorden Group generally overlie the Bjarmeland Group (except in wells 7120/12-2 and 7120/12-4 where they directly overlie the Gipsdalen Group ). There is a sharp contact between Artinskian light grey, skeletal limestones below and the overlying dark-grey to black, silicified and spiculitic fine-grained deposits. The boundary represents a major drowning event in the Barents Sea region, and an ongoing change towards cooler climatic conditions (Stemmerik 1997).
    Age
    The Tempelfjorden Group is dated as late Artinskian to ?Tatarian in the onshore areas (Nakrem 1991; Mangerud 1994). Palynological data from cores 7128/12-U-01 and 7129/10-U-01 indicate a ?Kungurian to Kazanian (-?Tatarian) age for the group updip onthe Finnmark Platform (Mangerud 1994; Bugge et al. 1995). Palynomorphs from exploration wells indicate a general mid- to late Permian age for the group without permitting a more detailed internal zonation.
    Depositional environments
    The Tempelfjorden Group represents deposition in cool-water, temperate shelf and basinal environments. The majority of the group was deposited in distal marine, low-energy (below wave base), moderate to deep shelf to basinal environments characterised by a rich siliceous sponge fauna. The group was deposited during an overall transgression accompanied by retrogradation of the coastline. The main accumulations of spiculites appear to be related to transgressive periods when favourable environmental conditions for sponges prevailed over most of the shelf. Cool-water, bryozoan carbonates formed along the margins and formed low-relief platforms during sea level highstand. Wells in the southernmost Hammerfest Basin are characterised by significant coarse siliciclastic influx from the nearby Baltic Shield.
    Formations assigned to the group
    Two new formations are assigned to the Tempelfjorden Group herein: their names are selected from fish common to the Barents Sea. The generally underlying Røye Formation is characterised by generally fine-grained highly silicified mudstones and limestones, while the generally overlying Ørret Formation comprises mudstones and some coarser siliciclastics, all of which show much less silicification than the sediments of the Røye Formation . Some wells, especially on the southern margins of the Loppa High or the Hammerfest Basin’s southern margins are interpreted to display either only Røye Formation ( 7121/1-1 R ) or intercalations of both units ( 7120/1-1 R2 , 7120/12-2 & 7120/12-4 , (Fig 9.51) .
    Source
    • Larssen, G. B., Elvebakk, G., Henriksen, L. B., Kristensen, S. E., Nilsson, I., Samuelsberg, T. J., Svånå, T. A., Stemmerik, L. and Worsley, D. 2002: Upper Palaeozoic lithostratigraphy of the Southern Norwegian Barents Sea. NPD-Bulletin No. 9, 69 pp.
  • Wellbores penetrating

    Wellbores penetrating
    Wellbore name
    Wellbore completion date
    Top depth [m]
    Bottom depth [m]
    15.11.1985
    2403
    2569
    26.12.1985
    2403
    2610
    21.07.1986
    2403
    2997
    07.10.2013
    2281
    2542
    03.08.2014
    2314
    2520
    07.05.2017
    2242
    2527
    20.10.1984
    4956
    5072
    11.09.1981
    3657
    4558
    16.04.1984
    1366
    2118
    23.08.1986
    2993
    3502
    08.01.2006
    2595
    2726
    20.10.1987
    3475
    3900
    26.02.1994
    1569
    1704
    08.11.1991
    1623
    1745
    08.01.2016
    2055
    2231
    07.04.2019
    3405
    3528
    01.12.2020
    1565
    1570
    02.08.2016
    2195
    2400
    25.09.2011
    3666
    3931
    11.04.1988
    3877
    4103
    07.05.1990
    3884
    4065
    15.12.1993
    3879
    3970
    19.07.2021
    3711
    3880
    03.09.1987
    3398
    3482
    28.05.2021
    2519
    3094
  • Wellbores with cores

    Wellbores with cores
    Wellbore name
    Wellbore completion date
    Core length [m]
    07.10.2013
    50
    03.08.2014
    105
    07.05.2017
    152
    11.09.1981
    28
    16.04.1984
    25
    23.08.1986
    2
    26.02.1994
    2
    08.11.1991
    59
    08.01.2016
    41
    03.09.1987
    1