Cherts, spiculites, and collapse breccias ? Porosity generation in upper Permian reservoir rocks, Gohta discovery, Loppa High, south-western Barents Sea

Spiculitic cherts are uncommon reservoir rocks and their porosity evolution is poorly understood compared to sandstones and carbonates. In the Gohta oil and gas discovery on the Loppa High in the south-western Barents Sea, the reservoir is in brecciated, silicified, and dolomitized Permian spiculite...

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Published in:Marine and Petroleum Geology
Main Authors: Matysik, Michal, Stemmerik, Lars, Olaussen, Snorre, Rameil, Niels, Gianotten, Ingrid Piene, Brunstad, Harald
Format: Article in Journal/Newspaper
Language:English
Published: 2021
Subjects:
Silica diagenesis
Silicification
Sponge spicule
Collapse breccia
Porosity
Well log
Northern gondwana shelf
KAPP STAROSTIN FORMATION
MISSISSIPPIAN CHAT
MONTEREY SHALE
NODULAR CHERT
TEMBLOR RANGE
FLUID-FLOW
EVOLUTION
DOLOMITE
FACIES
Barents Sea
Loppa
Online Access:https://curis.ku.dk/portal/da/publications/cherts-spiculites-and-collapse-breccias--porosity-generation-in-upper-permian-reservoir-rocks-gohta-discovery-loppa-high-southwestern-barents-sea(614e0b00-59db-4149-b357-19adfb3b1910).html
https://doi.org/10.1016/j.marpetgeo.2021.105043
id ftcopenhagenunip:oai:pure.atira.dk:publications/614e0b00-59db-4149-b357-19adfb3b1910
record_format openpolar
spelling ftcopenhagenunip:oai:pure.atira.dk:publications/614e0b00-59db-4149-b357-19adfb3b1910 2024-05-19T07:38:09+00:00 Cherts, spiculites, and collapse breccias ? Porosity generation in upper Permian reservoir rocks, Gohta discovery, Loppa High, south-western Barents Sea Matysik, Michal Stemmerik, Lars Olaussen, Snorre Rameil, Niels Gianotten, Ingrid Piene Brunstad, Harald 2021 https://curis.ku.dk/portal/da/publications/cherts-spiculites-and-collapse-breccias--porosity-generation-in-upper-permian-reservoir-rocks-gohta-discovery-loppa-high-southwestern-barents-sea(614e0b00-59db-4149-b357-19adfb3b1910).html https://doi.org/10.1016/j.marpetgeo.2021.105043 eng eng info:eu-repo/semantics/closedAccess Matysik , M , Stemmerik , L , Olaussen , S , Rameil , N , Gianotten , I P & Brunstad , H 2021 , ' Cherts, spiculites, and collapse breccias ? Porosity generation in upper Permian reservoir rocks, Gohta discovery, Loppa High, south-western Barents Sea ' , Marine and Petroleum Geology , vol. 128 , 105043 . https://doi.org/10.1016/j.marpetgeo.2021.105043 Silica diagenesis Silicification Sponge spicule Collapse breccia Porosity Well log Northern gondwana shelf KAPP STAROSTIN FORMATION MISSISSIPPIAN CHAT MONTEREY SHALE NODULAR CHERT TEMBLOR RANGE FLUID-FLOW EVOLUTION DOLOMITE FACIES article 2021 ftcopenhagenunip https://doi.org/10.1016/j.marpetgeo.2021.105043 2024-04-25T00:45:06Z Spiculitic cherts are uncommon reservoir rocks and their porosity evolution is poorly understood compared to sandstones and carbonates. In the Gohta oil and gas discovery on the Loppa High in the south-western Barents Sea, the reservoir is in brecciated, silicified, and dolomitized Permian spiculites below the Permian/Triassic unconformity. It represents the infill of several collapsed cave systems with spiculite clasts in a micritic matrix, separated by intact cave roofs of shale and spiculite facies. The cave collapse was related to dissolution of less resistant (?limestone and ?spiculitic) beds, due to percolation of freshwater during latest Permian ? earliest Triassic emersion. During later transformation of opal-A to opal-CT, associated growth of silica concretions left the margins of spiculite clasts depleted in SiO2 and thus highly porous. Subsequent transformation of opal-CT to quartz resulted in precipitation of texture-preserving quartz and chalcedony cements. The latter show a systematic decrease of ?18O from the first to last precipitated phase, implying crystallization under increasing temperatures during renewed Middle?Late Triassic burial. Later diagenesis includes in situ brecciation and fracturing, dolomitization affecting mainly the micritic matrix of cave-collapse facies, chemical compaction, and calcite cementation. The best reservoir properties are in cave-collapse facies (commonly 10?25% and 0.03?19 mD) where the pore system is dominated by (1) uncemented interspicule pores and central parts of spicule molds within clast margins, and (2) intercrystalline pores between dolomite crystals in the breccia matrix. The primary depositional facies have much lower porosity and permeability (rarely exceeding 10% and 1 mD, respectively). This study shows that porosity in the cave fill most likely formed by local redistribution of silica to form concretions and dissolution of the carbonate matrix to source the growth of dolomite crystals, while prolonged subaerial exposure only played an indirect role ... Article in Journal/Newspaper Barents Sea Loppa University of Copenhagen: Research Marine and Petroleum Geology 128 105043
institution Open Polar
collection University of Copenhagen: Research
op_collection_id ftcopenhagenunip
language English
topic Silica diagenesis
Silicification
Sponge spicule
Collapse breccia
Porosity
Well log
Northern gondwana shelf
KAPP STAROSTIN FORMATION
MISSISSIPPIAN CHAT
MONTEREY SHALE
NODULAR CHERT
TEMBLOR RANGE
FLUID-FLOW
EVOLUTION
DOLOMITE
FACIES
spellingShingle Silica diagenesis
Silicification
Sponge spicule
Collapse breccia
Porosity
Well log
Northern gondwana shelf
KAPP STAROSTIN FORMATION
MISSISSIPPIAN CHAT
MONTEREY SHALE
NODULAR CHERT
TEMBLOR RANGE
FLUID-FLOW
EVOLUTION
DOLOMITE
FACIES
Matysik, Michal
Stemmerik, Lars
Olaussen, Snorre
Rameil, Niels
Gianotten, Ingrid Piene
Brunstad, Harald
Cherts, spiculites, and collapse breccias ? Porosity generation in upper Permian reservoir rocks, Gohta discovery, Loppa High, south-western Barents Sea
topic_facet Silica diagenesis
Silicification
Sponge spicule
Collapse breccia
Porosity
Well log
Northern gondwana shelf
KAPP STAROSTIN FORMATION
MISSISSIPPIAN CHAT
MONTEREY SHALE
NODULAR CHERT
TEMBLOR RANGE
FLUID-FLOW
EVOLUTION
DOLOMITE
FACIES
description Spiculitic cherts are uncommon reservoir rocks and their porosity evolution is poorly understood compared to sandstones and carbonates. In the Gohta oil and gas discovery on the Loppa High in the south-western Barents Sea, the reservoir is in brecciated, silicified, and dolomitized Permian spiculites below the Permian/Triassic unconformity. It represents the infill of several collapsed cave systems with spiculite clasts in a micritic matrix, separated by intact cave roofs of shale and spiculite facies. The cave collapse was related to dissolution of less resistant (?limestone and ?spiculitic) beds, due to percolation of freshwater during latest Permian ? earliest Triassic emersion. During later transformation of opal-A to opal-CT, associated growth of silica concretions left the margins of spiculite clasts depleted in SiO2 and thus highly porous. Subsequent transformation of opal-CT to quartz resulted in precipitation of texture-preserving quartz and chalcedony cements. The latter show a systematic decrease of ?18O from the first to last precipitated phase, implying crystallization under increasing temperatures during renewed Middle?Late Triassic burial. Later diagenesis includes in situ brecciation and fracturing, dolomitization affecting mainly the micritic matrix of cave-collapse facies, chemical compaction, and calcite cementation. The best reservoir properties are in cave-collapse facies (commonly 10?25% and 0.03?19 mD) where the pore system is dominated by (1) uncemented interspicule pores and central parts of spicule molds within clast margins, and (2) intercrystalline pores between dolomite crystals in the breccia matrix. The primary depositional facies have much lower porosity and permeability (rarely exceeding 10% and 1 mD, respectively). This study shows that porosity in the cave fill most likely formed by local redistribution of silica to form concretions and dissolution of the carbonate matrix to source the growth of dolomite crystals, while prolonged subaerial exposure only played an indirect role ...
format Article in Journal/Newspaper
author Matysik, Michal
Stemmerik, Lars
Olaussen, Snorre
Rameil, Niels
Gianotten, Ingrid Piene
Brunstad, Harald
author_facet Matysik, Michal
Stemmerik, Lars
Olaussen, Snorre
Rameil, Niels
Gianotten, Ingrid Piene
Brunstad, Harald
author_sort Matysik, Michal
title Cherts, spiculites, and collapse breccias ? Porosity generation in upper Permian reservoir rocks, Gohta discovery, Loppa High, south-western Barents Sea
title_short Cherts, spiculites, and collapse breccias ? Porosity generation in upper Permian reservoir rocks, Gohta discovery, Loppa High, south-western Barents Sea
title_full Cherts, spiculites, and collapse breccias ? Porosity generation in upper Permian reservoir rocks, Gohta discovery, Loppa High, south-western Barents Sea
title_fullStr Cherts, spiculites, and collapse breccias ? Porosity generation in upper Permian reservoir rocks, Gohta discovery, Loppa High, south-western Barents Sea
title_full_unstemmed Cherts, spiculites, and collapse breccias ? Porosity generation in upper Permian reservoir rocks, Gohta discovery, Loppa High, south-western Barents Sea
title_sort cherts, spiculites, and collapse breccias ? porosity generation in upper permian reservoir rocks, gohta discovery, loppa high, south-western barents sea
publishDate 2021
url https://curis.ku.dk/portal/da/publications/cherts-spiculites-and-collapse-breccias--porosity-generation-in-upper-permian-reservoir-rocks-gohta-discovery-loppa-high-southwestern-barents-sea(614e0b00-59db-4149-b357-19adfb3b1910).html
https://doi.org/10.1016/j.marpetgeo.2021.105043
genre Barents Sea
Loppa
genre_facet Barents Sea
Loppa
op_source Matysik , M , Stemmerik , L , Olaussen , S , Rameil , N , Gianotten , I P & Brunstad , H 2021 , ' Cherts, spiculites, and collapse breccias ? Porosity generation in upper Permian reservoir rocks, Gohta discovery, Loppa High, south-western Barents Sea ' , Marine and Petroleum Geology , vol. 128 , 105043 . https://doi.org/10.1016/j.marpetgeo.2021.105043
op_rights info:eu-repo/semantics/closedAccess
op_doi https://doi.org/10.1016/j.marpetgeo.2021.105043
container_title Marine and Petroleum Geology
container_volume 128
container_start_page 105043
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