TY - JOUR
T1 - Stratigraphic framework for Zechstein carbonates on the Utsira High, Norwegian North Sea
AU - Stemmerik, Lars
AU - Blinkenberg, Kasper H.
AU - Gianotten, Ingrid P.
AU - Hodgskiss, Malcolm S.W.
AU - Lepland, Aivo
AU - Paiste, Päärn
AU - Polonio, Israel
AU - Roberts, Nicholas M.W.
AU - Rameil, Niels
N1 - Publisher Copyright:
© 2023 The Authors. Journal of Petroleum Geology © 2023 Scientific Press Ltd.
PY - 2023/7
Y1 - 2023/7
N2 - The preserved Zechstein succession on the Utsira High in the NE part of the Norwegian North Sea is 25-100 m thick and is dominated by shelf carbonates. Internal subdivision of the succession is based on the recognition of key surfaces in petrophysical logs and cores, and suggests that the carbonates mainly consist of ZS2 and ZS3 deposits and that younger ZS4 and ZS5 deposits are only locally preserved. The carbonates have undergone early, syn-depositional dolomitization followed by later dolomite recrystallization and calcitization. Calcitization, interpreted as dedolomitization, is restricted to the upper part of the ZS3 carbonate unit and based on U/Pb dating took place during the Triassic, with a later phase of recrystallization linked to mid-Jurassic uplift. Both dedolomitization and dolomite recrystallization relate to fresh-water infiltration with the resetting of δO18 values prior to the Late Jurassic drowning of the Utsira High. The reservoir quality of the carbonates is directly linked to post-depositional meteoric diagenesis, and the best reservoir properties are recorded in intervals dominated by recrystallized dolomites in ZS2 and lower ZS3 carbonates. Dedolomitization significantly reduced porosity in the upper ZS3 carbonates.
AB - The preserved Zechstein succession on the Utsira High in the NE part of the Norwegian North Sea is 25-100 m thick and is dominated by shelf carbonates. Internal subdivision of the succession is based on the recognition of key surfaces in petrophysical logs and cores, and suggests that the carbonates mainly consist of ZS2 and ZS3 deposits and that younger ZS4 and ZS5 deposits are only locally preserved. The carbonates have undergone early, syn-depositional dolomitization followed by later dolomite recrystallization and calcitization. Calcitization, interpreted as dedolomitization, is restricted to the upper part of the ZS3 carbonate unit and based on U/Pb dating took place during the Triassic, with a later phase of recrystallization linked to mid-Jurassic uplift. Both dedolomitization and dolomite recrystallization relate to fresh-water infiltration with the resetting of δO18 values prior to the Late Jurassic drowning of the Utsira High. The reservoir quality of the carbonates is directly linked to post-depositional meteoric diagenesis, and the best reservoir properties are recorded in intervals dominated by recrystallized dolomites in ZS2 and lower ZS3 carbonates. Dedolomitization significantly reduced porosity in the upper ZS3 carbonates.
KW - carbonate-evaporite systems
KW - dedolomitization
KW - Norwegian North Sea.
KW - reservoir potential
KW - U/Pb geochronology
KW - Upper Permian
KW - Utsira High
KW - Zechstein Supergroup
UR - http://www.scopus.com/inward/record.url?scp=85165443846&partnerID=8YFLogxK
U2 - 10.1111/jpg.12838
DO - 10.1111/jpg.12838
M3 - Article
AN - SCOPUS:85165443846
SN - 0141-6421
VL - 46
SP - 257
EP - 274
JO - Journal of Petroleum Geology
JF - Journal of Petroleum Geology
IS - 3
ER -