Geochemical Advances in Arctic Alaska Oil Typing - North Slope Oil Correlation and Charge History
Citation Note: These data were collected as part of a research study published in Marine and Petroleum Geology. Please reference the following paper when citing these data: Botterell, P.J., Houseknecht, D.W., Lillis, P.G, Barbanti, S.M., Dahl, J.E, and Moldowan, J.M., 2021. Geochemical advances in A...
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U.S. Geological Survey
2021
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| Online Access: | https://dx.doi.org/10.5066/p91vs1i8 https://www.sciencebase.gov/catalog/item/5f4f870082ce4c3d12341ef6 |
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ftdatacite:10.5066/p91vs1i8 2023-05-15T14:58:03+02:00 Geochemical Advances in Arctic Alaska Oil Typing - North Slope Oil Correlation and Charge History Botterell, Palma J Croke, Mary Contractor R Houseknecht, David W Lillis, Paul G Barbanti, Silvana M Dahl, Jeremy E Moldowan, Michael J 2021 https://dx.doi.org/10.5066/p91vs1i8 https://www.sciencebase.gov/catalog/item/5f4f870082ce4c3d12341ef6 unknown U.S. Geological Survey https://dx.doi.org/10.1016/j.marpetgeo.2020.104878 Energy Resources dataset Dataset 2021 ftdatacite https://doi.org/10.5066/p91vs1i8 https://doi.org/10.1016/j.marpetgeo.2020.104878 2021-11-05T12:55:41Z Citation Note: These data were collected as part of a research study published in Marine and Petroleum Geology. Please reference the following paper when citing these data: Botterell, P.J., Houseknecht, D.W., Lillis, P.G, Barbanti, S.M., Dahl, J.E, and Moldowan, J.M., 2021. Geochemical advances in Arctic Alaska oil typing ? North Slope oil correlation and charge history. Marine and Petroleum Geology 127, https://doi.org/10.1016/j.marpetgeo.2020.104878. The Arctic Alaska petroleum province is geologically and geochemically complex. Mixed hydrocarbon charge from multiple source rocks and/or levels of thermal maturity is common within an individual oil pool. Biomarker and chemometric statistical analyses were used to correlate twenty-nine oils to five oil families derived from: (1) Triassic Shublik Formation (calcareous organofacies), (2) Triassic Shublik Formation (shaly organofacies), (3) Jurassic Kingak Shale, (4) Cretaceous shale (pebble shale unit and Hue Shale), and (5) Paleogene shale (Canning Formation). Age-diagnostic and source-related oil biomarker parameters establish clear genetic relationships between the normal oil-window components and their putative source designations. However, application of diamondoid analyses reveals mixed-oil accumulations with postmature charge contributions (diamondoid-rich and biomarker-poor) in many oils. Most sampled reservoirs contain a predominant charge derived from a single oil-window source plus a minor contribution from one or more higher maturity source(s). Variations in source organofacies also are recognized in the Shublik, Kingak, and Cretaceous oil families. In some cases, oils from multiple pools within a single field display relatively homogeneous geochemical profiles, suggesting a common source and migration pathway. For example, oil from the significant Pikka discovery is inferred to originate mainly from the calcareous Shublik Formation. In other cases, variability among oils from multiple pools within a single field (e.g., Milne Point, Colville River, and Northstar) likely indicates a more complex source, migration, and charge history. Results may be useful for anticipating the composition of oil charge in stratigraphic traps with low-permeability sandstone reservoirs, where oil gravity and other chemical parameters may influence economic viability. Dataset Arctic north slope Alaska DataCite Metadata Store (German National Library of Science and Technology) Arctic Milne Point ENVELOPE(-100.852,-100.852,73.835,73.835) |
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Open Polar |
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DataCite Metadata Store (German National Library of Science and Technology) |
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ftdatacite |
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unknown |
| topic |
Energy Resources |
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Energy Resources Botterell, Palma J Croke, Mary Contractor R Houseknecht, David W Lillis, Paul G Barbanti, Silvana M Dahl, Jeremy E Moldowan, Michael J Geochemical Advances in Arctic Alaska Oil Typing - North Slope Oil Correlation and Charge History |
| topic_facet |
Energy Resources |
| description |
Citation Note: These data were collected as part of a research study published in Marine and Petroleum Geology. Please reference the following paper when citing these data: Botterell, P.J., Houseknecht, D.W., Lillis, P.G, Barbanti, S.M., Dahl, J.E, and Moldowan, J.M., 2021. Geochemical advances in Arctic Alaska oil typing ? North Slope oil correlation and charge history. Marine and Petroleum Geology 127, https://doi.org/10.1016/j.marpetgeo.2020.104878. The Arctic Alaska petroleum province is geologically and geochemically complex. Mixed hydrocarbon charge from multiple source rocks and/or levels of thermal maturity is common within an individual oil pool. Biomarker and chemometric statistical analyses were used to correlate twenty-nine oils to five oil families derived from: (1) Triassic Shublik Formation (calcareous organofacies), (2) Triassic Shublik Formation (shaly organofacies), (3) Jurassic Kingak Shale, (4) Cretaceous shale (pebble shale unit and Hue Shale), and (5) Paleogene shale (Canning Formation). Age-diagnostic and source-related oil biomarker parameters establish clear genetic relationships between the normal oil-window components and their putative source designations. However, application of diamondoid analyses reveals mixed-oil accumulations with postmature charge contributions (diamondoid-rich and biomarker-poor) in many oils. Most sampled reservoirs contain a predominant charge derived from a single oil-window source plus a minor contribution from one or more higher maturity source(s). Variations in source organofacies also are recognized in the Shublik, Kingak, and Cretaceous oil families. In some cases, oils from multiple pools within a single field display relatively homogeneous geochemical profiles, suggesting a common source and migration pathway. For example, oil from the significant Pikka discovery is inferred to originate mainly from the calcareous Shublik Formation. In other cases, variability among oils from multiple pools within a single field (e.g., Milne Point, Colville River, and Northstar) likely indicates a more complex source, migration, and charge history. Results may be useful for anticipating the composition of oil charge in stratigraphic traps with low-permeability sandstone reservoirs, where oil gravity and other chemical parameters may influence economic viability. |
| format |
Dataset |
| author |
Botterell, Palma J Croke, Mary Contractor R Houseknecht, David W Lillis, Paul G Barbanti, Silvana M Dahl, Jeremy E Moldowan, Michael J |
| author_facet |
Botterell, Palma J Croke, Mary Contractor R Houseknecht, David W Lillis, Paul G Barbanti, Silvana M Dahl, Jeremy E Moldowan, Michael J |
| author_sort |
Botterell, Palma J |
| title |
Geochemical Advances in Arctic Alaska Oil Typing - North Slope Oil Correlation and Charge History |
| title_short |
Geochemical Advances in Arctic Alaska Oil Typing - North Slope Oil Correlation and Charge History |
| title_full |
Geochemical Advances in Arctic Alaska Oil Typing - North Slope Oil Correlation and Charge History |
| title_fullStr |
Geochemical Advances in Arctic Alaska Oil Typing - North Slope Oil Correlation and Charge History |
| title_full_unstemmed |
Geochemical Advances in Arctic Alaska Oil Typing - North Slope Oil Correlation and Charge History |
| title_sort |
geochemical advances in arctic alaska oil typing - north slope oil correlation and charge history |
| publisher |
U.S. Geological Survey |
| publishDate |
2021 |
| url |
https://dx.doi.org/10.5066/p91vs1i8 https://www.sciencebase.gov/catalog/item/5f4f870082ce4c3d12341ef6 |
| long_lat |
ENVELOPE(-100.852,-100.852,73.835,73.835) |
| geographic |
Arctic Milne Point |
| geographic_facet |
Arctic Milne Point |
| genre |
Arctic north slope Alaska |
| genre_facet |
Arctic north slope Alaska |
| op_relation |
https://dx.doi.org/10.1016/j.marpetgeo.2020.104878 |
| op_doi |
https://doi.org/10.5066/p91vs1i8 https://doi.org/10.1016/j.marpetgeo.2020.104878 |
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1766330134798794752 |