Stratigraphy and lithology
| Article # 6_2025 | submitted on 12/09/2024 displayed on website on 02/11/2025 |
| 15 p. | Zhuravlev A.V., Vevel Ya.A., Gruzdev D.A. |
| The Serpukhovian isotope anomaly in inorganic carbon – possible causes and prospects for its application in the stratigraphy of the Timan-Pechora petroleum province | |
| The global Serpukhovian positive C-isotope anomaly is bounded by two narrow negative excursions. The negative excursions are most likely due to increased weathering of organic carbon during regressions, whereas the positive anomaly could be related to an increase in atmospheric carbon dioxide and the concomitant increase in carbon fixation by primary producers. The stratigraphic extent of the isotope anomaly corresponds to the ziegleri conodont zone, which roughly corresponds to the Tarusian, Steshevian and lower part of the Protvian of the regional stratigraphic scheme. On the territory of the Timan-Pechora petroleum province the Serpukhovian isotope anomaly was identified in a number of reference sections and in the core of wells drilled in the Padimey area. The identification of this anomaly in wells Padimey 6 and 4 allowed to clarify its stratigraphic subdivision in the Upper Viséan-Lower Serpukhovian part of the succession and to determine the position of the base of the Serpukhovian stage. Keywords: C-isotope anomaly, Serpukhovian Stage, Padimey area, Timan-Pechora petroleum province. |
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| article citation | Zhuravlev A.V., Vevel Ya.A., Gruzdev D.A. Serpukhovskaya izotopnaya anomaliya po neorganicheskomu uglerodu - veroyatnye prichiny i perspektivy ispol'zovaniya v stratigrafii Timano-Pechorskoy neftegazonosnoy provintsii [The Serpukhovian isotope anomaly in inorganic carbon – possible causes and prospects for its application in the stratigraphy of the Timan-Pechora petroleum province]. Neftegazovaya Geologiya. Teoriya I Praktika, 2025, vol. 20, no. 1, available at: https://www.ngtp.ru/rub/2025/6_2025.html EDN: LZGDXD |
References
Batt L.S., Montañez I.P., Isaacson P., Pope M.C., Butts S.H., Abplanalp J. Multi-carbonate component reconstruction of mid-Сarboniferous (Chesterian) seawater δ13C. Palaeogeography, Palaeoclimatology, Palaeoecology, 2007, vol. 256, p. 298-318. DOI: 10.1016/j.palaeo.2007.02.049
Belyaev A.A., Semenov G.F. Foraminifery serpukhovskogo yarusa Timano-Pechorskoy provintsii [Genetic features of the Serpukhovian carbonate strata of the Pai-Khoi shale zone]. Litologiya karbonatnykh porod severa Urala, Pay-Khoya i Timana, 1988, Tr. IG KomiNTs URO AN SSSR, issue 67, pp. 51-61. (In Russ.).
Chen J., Montañez I.P., Qi Y., Wang X., Wang Q., Lin W. Coupled sedimentary and δ13C records of late Mississippian platform-to-slope successions from South China: Insight into δ13C chemostratigraphy. Palaeogeography, Palaeoclimatology, Palaeoecology, 2016, vol. 448, pp. 162-178.
Danilov V.N. Perspektivy neftegazonosnosti verkhnedevonskikh otlozheniy severnoy chasti Kos'yu-Rogovskoy vpadiny [Prospects for oil and gas potential of the Upper Devonian strata of the northern part of the Kosyu-Rogov depression]. Geologiya nefti i gaza, 1992, no. 8, available at: http://geolib.narod.ru/Journals/OilGasGeo/1992/08/Stat/01/stat01.html (In Russ.).
Durkina A.V. Foraminifery serpukhovskogo yarusa Timano-Pechorskoy provintsii [Foraminifera of the Serpukhovian stage of the Timan-Pechora province]. St. Petersburg: Izd-vo Sankt-Peterburgskoy kartograficheskoy fabriki VSEGEI, 2002, 198 p. (In Russ.).
Fielding C.R., Frank T.D., Isbell J.L. The late Paleozoic ice age - A review of current understanding and synthesis of global climate patterns. Resolving the Late Paleozoic Ice Age in Time and Space: Geological Society of America Special Publ., 2008, vol. 441, pp. 343-354. DOI: 10.1130/2008.2441(24)
Flügel E. Microfacies of Carbonate Rocks. Analysis, Interpretation and Application. Heidelberg-Dordrecht-London-New York: Springer, 2010, 984 p.
Galbraith E.D., Kienast M. The acceleration of oceanic denitrification during deglacial warming. Nature Geoscience, 2013, vol. 7, pp. 579-584. DOI: 10.1038/ngeo1832
Goddéris Y., Donnadieu Y., Carretier S., Aretz M., Dera G., Macouin M., Regard V. Onset and ending of the late Palaeozoic ice age triggered by tectonically paced rock weathering. Nature Geoscience, 2017, vol. 10, pp. 382-386. DOI: 10.1038/NGEO2931
Haq B.U., Schutter S.R. A chronology of Paleozoic sea-level changes. Science, 2008, vol. 3, no. 322, pp. 64-68.
Kostygova P.K. Pechorskiy paleobasseyn v vizeyskom i serpukhovskom vekakh i foraminifery nizhnego vize [Pechora paleobasin in the Visean and Serpukhovian ages and foraminifera of the Lower Visean]. St. Petersburg: Izd-vo Sankt-Peterburgskoy kartograficheskoy fabriki VSEGEI, 2004, 204 p. (In Russ.).
Liu C., Vachard D., Du Y., Munnecke A., Liang T. Foraminiferal Zonation and Carbon Isotope Stratigraphy through the Viséan-Serpukhovian Boundary Interval - New Data from Three Inner-Platform Successions of South China. Available at SSRN, 2022. DOI: 10.2139/ssrn.4063138
Makhlina M.Kh., Alekseev A.S., Goreva N.V., Isakova T.N. Ritmo- i biostratigrafiya karbona Moskovskoy sineklizy [Rhythmo- and biostratigraphy of the Carboniferous of the Moscow syneclise]. Izvestiya VUZov. Geologiya i razvedka, 2001, no. 5, pp. 42-58. (In Russ.).
Pisarzowska A., Becker R.T., Aboussalam Z.S., Szczerba M., Sobień K., Kremer B., Owocki K., Racki G. Middlesex/punctata event in the Rhenish Basin (Padberg section, Sauerland, Germany) - Geochemical clues to the early-middle Frasnian perturbation of global carbon cycle. Global and Planetary Change, 2020, vol. 191, pp. 1-14.
Pisarzowska A., Racki G. Isotopic geochemistry across the Early-Middle Frasnian transition (Late Devonian) on the South Polish carbonate shelf: a reference for the global punctata Event. Chem. Geol., 2012, no. 334, pp. 199-220.
Richards B.C. Current status of the International Carboniferous Time Scale. New Mexico Museum of Natural History and Science Bulletin, 2013, no. 60, pp. 348-353.
Ross C.A., Ross J.R.P. Late Paleozoic Sea Levels and Depositional Sequences. Cushman Foundation for Foraminiferal Research, Special Publication 24, 1987, pp. 137-149.
Valdez Buso V., Milana J.P., di Pasquo M., Paim P.S.G., Philipp R.P., Aquino C.D., Cagliari J., Chemale Junior F., Kneller B. Timing of the Late Palaeozoic glaciation in western Gondwana: New ages and correlations from Paganzo and Paran´a basins. Palaeogeography, Palaeoclimatology, Palaeoecology, 2020, vol. 544, 109624. DOI: 10.1016/j.palaeo.2020.109624
Vevel Ya.A., Ivanova R.M., Gruzdev D.A., Zhuravlev A.V. Vodorosli pogranichnykh otlozheniy vizeyskogo i serpukhovskogo yarusov v razreze na r. Iz"yayu (yug podnyatiya Chernysheva) [Calcareous algae of the Visean-Serpukhovian boundary beds in the Izyayu River section (south of the Chernyshev Uplift)]. Neftegazovaya Geologiya. Teoriya I Praktika, 2023, vol. 18, no. 2, available at: http://www.ngtp.ru/rub/2023/24_2023.html (In Russ.). EDN: ZSZTYM
Yao L., Jiang G., Mii H.-S., Lin Y., Aretz M., Chen J., Qi Y., Lin W., Wang Q., Wang X. Global cooling initiated the Middle-Late Mississippian biodiversity crisis. Global and Planetary Change, 2022, vol. 215, 103852. DOI: 10.1016/j.gloplacha.2022.103852
Zhuravlev A.V. Chislennoe modelirovanie pervichnoy bioproduktivnosti pelagicheskikh ekosistem paleozoya [Numerical modeling of primary bioproductivity of pelagic ecosystems of the Paleozoic]. Vestnik geonauk, 2022, no. 8, pp. 37-42. (In Russ.). DOI: 10.19110/geov.2022.8.4
Zhuravlev A.V. Mestnaya stratigraficheskaya skhema verkhnego devona - nizhnego karbona yugo-zapada Lyzhsko-Kyrtael'skogo vala (vostok Pechorskoy plity) [Stratigraphy of the Upper Devonian - Lower Carboniferous of south-west of Lyzha-Kyrtael swell (Pechora Plate eastward)]. Neftegazovaya Geologiya. Teoriya I Praktika, 2023, vol. 18, no. 1, available at: http://www.ngtp.ru/rub/2023/8_2023.html (In Russ.). EDN: XNYUAF
Zhuravlev A.V., Gerasimova A.I. Stroenie razreza i konodonty karskoy svity (nizhniy karbon) Amderminskogo rayona severnogo Pay-Khoya [The structure of the section and conodonts of the Kara Formation (Lower Carboniferous) of the Amderma region of northern Pai-Khoi]. Vestnik IG Komi NTs UrO RAN, 2016, no. 1, pp. 3-10. (In Russ.). DOI: 10.19110/2221-1381-2016-1-3-10
Zhuravlev A.V., Vevel Y.A., Gruzdev D.A., Erofeevsky A.V. Late Mississippian (early Serpukhovian) carbon isotope record of northern Laurussia: A proposal for the Viséan/Serpukhovian boundary. Revista Mexicana de Ciencias Geológicas, 2023, vol. 40, no. 1, pp. 35-43. DOI: 10.22201/cgeo.20072902e.2023.1.1722
Zhuravlev A.V., Vevel Ya.A. Biostratigrafiya verkhnego devona - nizhney permi Padimeyskoy ploshchadi (severo-vostok Timano-Pechorskoy neftegazonosnoy provintsii) po konodontam i foraminiferam [Biostratigraphy of conodonts and foraminifera of Upper Devonian - Lower Permian of the Padimey Area (north-east of Timan-Pechora petroleum Province) - new data]. Neftegazovaya Geologiya. Teoriya I Praktika, 2022, vol. 17, no. 2, available at: http://www.ngtp.ru/rub/2022/13_2022.html (In Russ.). DOI: 10.17353/2070-5379/13_2022
Belyaev A.A., Semenov G.F. Foraminifery serpukhovskogo yarusa Timano-Pechorskoy provintsii [Genetic features of the Serpukhovian carbonate strata of the Pai-Khoi shale zone]. Litologiya karbonatnykh porod severa Urala, Pay-Khoya i Timana, 1988, Tr. IG KomiNTs URO AN SSSR, issue 67, pp. 51-61. (In Russ.).
Chen J., Montañez I.P., Qi Y., Wang X., Wang Q., Lin W. Coupled sedimentary and δ13C records of late Mississippian platform-to-slope successions from South China: Insight into δ13C chemostratigraphy. Palaeogeography, Palaeoclimatology, Palaeoecology, 2016, vol. 448, pp. 162-178.
Danilov V.N. Perspektivy neftegazonosnosti verkhnedevonskikh otlozheniy severnoy chasti Kos'yu-Rogovskoy vpadiny [Prospects for oil and gas potential of the Upper Devonian strata of the northern part of the Kosyu-Rogov depression]. Geologiya nefti i gaza, 1992, no. 8, available at: http://geolib.narod.ru/Journals/OilGasGeo/1992/08/Stat/01/stat01.html (In Russ.).
Durkina A.V. Foraminifery serpukhovskogo yarusa Timano-Pechorskoy provintsii [Foraminifera of the Serpukhovian stage of the Timan-Pechora province]. St. Petersburg: Izd-vo Sankt-Peterburgskoy kartograficheskoy fabriki VSEGEI, 2002, 198 p. (In Russ.).
Fielding C.R., Frank T.D., Isbell J.L. The late Paleozoic ice age - A review of current understanding and synthesis of global climate patterns. Resolving the Late Paleozoic Ice Age in Time and Space: Geological Society of America Special Publ., 2008, vol. 441, pp. 343-354. DOI: 10.1130/2008.2441(24)
Flügel E. Microfacies of Carbonate Rocks. Analysis, Interpretation and Application. Heidelberg-Dordrecht-London-New York: Springer, 2010, 984 p.
Galbraith E.D., Kienast M. The acceleration of oceanic denitrification during deglacial warming. Nature Geoscience, 2013, vol. 7, pp. 579-584. DOI: 10.1038/ngeo1832
Goddéris Y., Donnadieu Y., Carretier S., Aretz M., Dera G., Macouin M., Regard V. Onset and ending of the late Palaeozoic ice age triggered by tectonically paced rock weathering. Nature Geoscience, 2017, vol. 10, pp. 382-386. DOI: 10.1038/NGEO2931
Haq B.U., Schutter S.R. A chronology of Paleozoic sea-level changes. Science, 2008, vol. 3, no. 322, pp. 64-68.
Kostygova P.K. Pechorskiy paleobasseyn v vizeyskom i serpukhovskom vekakh i foraminifery nizhnego vize [Pechora paleobasin in the Visean and Serpukhovian ages and foraminifera of the Lower Visean]. St. Petersburg: Izd-vo Sankt-Peterburgskoy kartograficheskoy fabriki VSEGEI, 2004, 204 p. (In Russ.).
Liu C., Vachard D., Du Y., Munnecke A., Liang T. Foraminiferal Zonation and Carbon Isotope Stratigraphy through the Viséan-Serpukhovian Boundary Interval - New Data from Three Inner-Platform Successions of South China. Available at SSRN, 2022. DOI: 10.2139/ssrn.4063138
Makhlina M.Kh., Alekseev A.S., Goreva N.V., Isakova T.N. Ritmo- i biostratigrafiya karbona Moskovskoy sineklizy [Rhythmo- and biostratigraphy of the Carboniferous of the Moscow syneclise]. Izvestiya VUZov. Geologiya i razvedka, 2001, no. 5, pp. 42-58. (In Russ.).
Pisarzowska A., Becker R.T., Aboussalam Z.S., Szczerba M., Sobień K., Kremer B., Owocki K., Racki G. Middlesex/punctata event in the Rhenish Basin (Padberg section, Sauerland, Germany) - Geochemical clues to the early-middle Frasnian perturbation of global carbon cycle. Global and Planetary Change, 2020, vol. 191, pp. 1-14.
Pisarzowska A., Racki G. Isotopic geochemistry across the Early-Middle Frasnian transition (Late Devonian) on the South Polish carbonate shelf: a reference for the global punctata Event. Chem. Geol., 2012, no. 334, pp. 199-220.
Richards B.C. Current status of the International Carboniferous Time Scale. New Mexico Museum of Natural History and Science Bulletin, 2013, no. 60, pp. 348-353.
Ross C.A., Ross J.R.P. Late Paleozoic Sea Levels and Depositional Sequences. Cushman Foundation for Foraminiferal Research, Special Publication 24, 1987, pp. 137-149.
Valdez Buso V., Milana J.P., di Pasquo M., Paim P.S.G., Philipp R.P., Aquino C.D., Cagliari J., Chemale Junior F., Kneller B. Timing of the Late Palaeozoic glaciation in western Gondwana: New ages and correlations from Paganzo and Paran´a basins. Palaeogeography, Palaeoclimatology, Palaeoecology, 2020, vol. 544, 109624. DOI: 10.1016/j.palaeo.2020.109624
Vevel Ya.A., Ivanova R.M., Gruzdev D.A., Zhuravlev A.V. Vodorosli pogranichnykh otlozheniy vizeyskogo i serpukhovskogo yarusov v razreze na r. Iz"yayu (yug podnyatiya Chernysheva) [Calcareous algae of the Visean-Serpukhovian boundary beds in the Izyayu River section (south of the Chernyshev Uplift)]. Neftegazovaya Geologiya. Teoriya I Praktika, 2023, vol. 18, no. 2, available at: http://www.ngtp.ru/rub/2023/24_2023.html (In Russ.). EDN: ZSZTYM
Yao L., Jiang G., Mii H.-S., Lin Y., Aretz M., Chen J., Qi Y., Lin W., Wang Q., Wang X. Global cooling initiated the Middle-Late Mississippian biodiversity crisis. Global and Planetary Change, 2022, vol. 215, 103852. DOI: 10.1016/j.gloplacha.2022.103852
Zhuravlev A.V. Chislennoe modelirovanie pervichnoy bioproduktivnosti pelagicheskikh ekosistem paleozoya [Numerical modeling of primary bioproductivity of pelagic ecosystems of the Paleozoic]. Vestnik geonauk, 2022, no. 8, pp. 37-42. (In Russ.). DOI: 10.19110/geov.2022.8.4
Zhuravlev A.V. Mestnaya stratigraficheskaya skhema verkhnego devona - nizhnego karbona yugo-zapada Lyzhsko-Kyrtael'skogo vala (vostok Pechorskoy plity) [Stratigraphy of the Upper Devonian - Lower Carboniferous of south-west of Lyzha-Kyrtael swell (Pechora Plate eastward)]. Neftegazovaya Geologiya. Teoriya I Praktika, 2023, vol. 18, no. 1, available at: http://www.ngtp.ru/rub/2023/8_2023.html (In Russ.). EDN: XNYUAF
Zhuravlev A.V., Gerasimova A.I. Stroenie razreza i konodonty karskoy svity (nizhniy karbon) Amderminskogo rayona severnogo Pay-Khoya [The structure of the section and conodonts of the Kara Formation (Lower Carboniferous) of the Amderma region of northern Pai-Khoi]. Vestnik IG Komi NTs UrO RAN, 2016, no. 1, pp. 3-10. (In Russ.). DOI: 10.19110/2221-1381-2016-1-3-10
Zhuravlev A.V., Vevel Y.A., Gruzdev D.A., Erofeevsky A.V. Late Mississippian (early Serpukhovian) carbon isotope record of northern Laurussia: A proposal for the Viséan/Serpukhovian boundary. Revista Mexicana de Ciencias Geológicas, 2023, vol. 40, no. 1, pp. 35-43. DOI: 10.22201/cgeo.20072902e.2023.1.1722
Zhuravlev A.V., Vevel Ya.A. Biostratigrafiya verkhnego devona - nizhney permi Padimeyskoy ploshchadi (severo-vostok Timano-Pechorskoy neftegazonosnoy provintsii) po konodontam i foraminiferam [Biostratigraphy of conodonts and foraminifera of Upper Devonian - Lower Permian of the Padimey Area (north-east of Timan-Pechora petroleum Province) - new data]. Neftegazovaya Geologiya. Teoriya I Praktika, 2022, vol. 17, no. 2, available at: http://www.ngtp.ru/rub/2022/13_2022.html (In Russ.). DOI: 10.17353/2070-5379/13_2022