Hostname: page-component-78c5997874-8bhkd Total loading time: 0 Render date: 2024-11-02T22:33:14.478Z Has data issue: false hasContentIssue false

Late Moscovian fusulinids from the “N” Formation (Donets Basin, Ukraine)

Published online by Cambridge University Press:  20 May 2016

Rimma R. Khodjanyazova
Affiliation:
Department of Geosciences, Boise State University, Boise, ID 83725, USA,
Vladimir I. Davydov
Affiliation:
Department of Geosciences, Boise State University, Boise, ID 83725, USA,

Abstract

A fusulinoidean taxonomic study of the Gurkovo and Kalinovo sections allows us to refine the biostratigraphy of the poorly studied Myachkovian (upper Moscovian) strata of the “N” Formation in the Donets Basin. Three fusulinid biozones, Hemifusulina graciosa–Fusiella spatiosa, Fusulina cylindrica–Fusulinella pseudobocki, and Fusulinella ? kumpani, are proposed in the interval from the top of Limestone M10 to the base of N3, and they are correlated with coeval strata in the historical type area of the Moscow Basin. A total of 33 fusulinid species and subspecies belonging to eight genera are described, including three new species: Hemifusulina gurkovensis n. sp., Beedeina innaeformis n. sp., and Fusulina sosninae n. sp. The main evolutionary trend in fusulinoidean morphology in the late Moscovian is the appearance of massive secondary deposits in the limestone of the “N” Formation.

Specific temporal and distributional patterns of the Middle Pennsylvanian fusulinoidean assemblages indicate variations in sea level stand. Variations are cyclic, with periods ∼600,000–1,000,000 years. A Hemifusulina-association indicates the beginning of transgression; the late transgression–high sea level stand is designated by the Beedeina–Neostaffella–Ozawainella–Taitzehoella assemblage which is successively replaced by the most diverse Fusulinella-dominant association, which occupied a progressively shallowing sea.

The similarity of fusulinoidean assemblages in the Moscow and Donets Basins and their cognate evolution trends reveal a connection between both regions at least during Podolskian–Myachkovian time.

Type
Research Article
Copyright
Copyright © The Paleontological Society 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Aisenverg, D. E., Lagutina, V. V., Levenstein, M. L., and Popov, V. S. 1975. Field excursion guide book for the Donets Basin. Nauka, Moscow, 360p. (In Russian)Google Scholar
Alekseev, A. S. and Goreva, N. V. 2006. Kasimovian and Gzhelian (Upper Pennsylvanian) conodont zonation in Russia. Newsletter on Carboniferous Stratigraphy, 24:4043.Google Scholar
Bogush, O. I. 1963. Foraminifery i stratrigraphiya srednego i verhnego karbona vostochnoy chasti Alayskogo Khrebta. Izdatelstvo Akademii Nauk SSSR, Moscow, 132p. (In Russian)Google Scholar
Brazhnikova, N. E. 1939. Do vivchennya foraminifer Tsentralnogo raionu Donbasa. Vidavnitstvo Akademii Nauk URSR, Geologichnuy Zhurnal, 6:252265. (In Ukrainian)Google Scholar
Cleal, C. J. 2008. Palaeofloristics of Middle Pennsylvanian medullosaleans in Variscan Euramerica. Palaeogeography, Palaeoclimatology, Palaeoecology, 268:164180.CrossRefGoogle Scholar
Colani, M. 1924. Nouvelle contribution à l'étude des fusulinidés de l'Extre∘me-Orient. Mémoires du Service Géologique de l'Indochine, 11:1191.Google Scholar
Dalmatskaya, I. I. 1961. Stratigrafiya i foraminifery srednekamennougol'nykh otlozhenyi Gorkovskogo i Ul'yanovskogo Povolzhya, p. 754. InShatskiy, N. S. and Menner, V. V.(eds.), Regional'naya stratigrafiya SSSR, 5, Izdatelstvo Akademii Nauk SSSR, Moscow. (In Russian)Google Scholar
Davydov, V. I. 1997. Middle/Upper Carboniferous boundary: the problem of definition and correlation, p. 113122. InPodemski, M., Dybova-Jachowicz, S., Jaworowski, K., Jureczka, J., Wagner, R., (eds.), Proceeding of the XIII International Congress on the Carboniferous and Permian, 28 August–2 September, 1995 Krakov, Poland. Prace Panstwowego Instytutu Geologicznego, Warszawa.Google Scholar
Davydov, V. I., Crowley, J. L., Schmitz, M. D., and Poletaev, V. I. 2010. High-precision U-Pb zircon age calibration of the global Carboniferous time scale and Milankovitch band cyclicity in the Donets Basin, eastern Ukraine. Geochemistry, Geophysics, Geosystems, 11:122.Google Scholar
Davydov, V. I. and Khodjanyazova, R. 2009. Moscovian–Kasimovian transition in Donets Basin: fusulinid taxonomy, biostratigraphy correlation and paleobiogeography, p. 193196. InPuchkov, V. N., Type sections of the Carboniferous in Russia and potential stratotypes: Proceedings of the International Conference, Institute of Geology, Bashkirian Academy of Sciences, Ufa, Russia.Google Scholar
Davydov, V. I. and Leven, E. Y. 2003. Correlation of Upper Carboniferous (Pennsylvanian) and Lower Permian (Cisuralian) marine deposits of the Peri-Tethys, Peri-Tethys Program. Palaeogeography, Palaeoclimatology, Palaeoecology, 196:3957.Google Scholar
Eros, J. M., Montanez, I. P., Osleger, D. A., Davydov, V. I., Nemirovska, T. I., Poletaev, V. I., and Zhykalyak, M. V. 2012. Sequence stratigraphy and onlap history of the Donets Basin, Ukraine: insight into Carboniferous icehouse dynamics. Palaeogeography, Palaeoclimatology, Palaeoecology, 313–314:125.Google Scholar
Ehrenberg, C. G. 1842. Mikrogeologie. Leopold Voss, Leipzig, 374p.Google Scholar
Fischer de Waldheim, G. 1829. Les Céphalopodes fossiles de Moscou et de ses environs, en montrant ces objets en nature : Bulletin de la Société Impériale des Naturalistes de Moscow, 1:300362.Google Scholar
Fisunenko, O. P. 2000. K probleme moskovskogo yarusa. Izdatelstvo “Alma mater”, Lugansk, 65p.Google Scholar
Fohrer, B., Nemirovska, T. I., Samankassou, E., and Ueno, K. 2007. The Pennsylvanian (Moscovian) Izvarino section, Donets Basin, Ukraine: a multidisciplinary study on microfacies, biostratigraphy (conodonts, foraminifers, and ostracodes), and paleoecology. Journal of Paleontology, 81:185.Google Scholar
Galloway, J. J. 1933. A Manual of Foraminifera. The Principia Press, Bloomington, Indiana, U.S.A., 483p.Google Scholar
Goreva, N. V., Alekseev, A. S., Isakova, T. N., and Kossovaya, O. L. 2009. “Podtrititsitovye” sloi Donskoy Luki i nizhnyaya granitsa kasimovskogo yarusa. “Sub-Triticites” beds in the Don River basin and the Kasimovian's lower boundary, Stratigrafiya, Geologicheskaya Korrelyatsiya, 17:4969.Google Scholar
Groves, J. R. 1988. Calcareous foraminifers from the Bashkirian stratotype (Middle Carboniferous, South Urals) and their significance for intercontinental correlations and the evolution of the Fusulinidae. Journal of Paleontology, 62:368399.CrossRefGoogle Scholar
Grozdilova, L. P. and Lebedeva, N. S. 1950. Nekotorye vidy shtaffell srednekammenougol'nykh otlozheniy zapadnogo sklona Urala. Trudy Vsesoyuznogo Neftyanogo Nauchno-Issledovatel'skogo Geologo-Razvedochnogo Instituta (VNIGRI), novaya seriya, Mikrofauna Neftyanykh Mestorozhdeniy SSSR, Sbornik 3, 50:545. (In Russian)Google Scholar
Heckel, P. H. 2008. Pennsylvanian cyclothems in midcontinent North America as far-field effects of waxing and waning of Gondwana ice sheets, p. 275289. InFielding, C. R., Frank, T. D., Isbell, J. L.(eds.), Resolving the Late Paleozoic Ice Age in Time and Space. Geological Society of America Special Paper 441.Google Scholar
Heckel, P. H., Alekseev, A. S., Barrick, J. E., Boardman, D. R., Goreva, N. V., Nemirovska, T. I., Ueno, K., Villa, E., and Work, D. M. 2007. Cyclothem (“digital”) correlation and biostratigraphy across the global Moscovian–Kasimovian-Gzhelian stage boundary interval (Middle–Upper Pennsylvanian) in North America and eastern Europe, Geology, 35:607610.Google Scholar
Hills, L. V., Henderson, C. M., and Bamber, E. W., (eds.). 2002. Carboniferous and Permian of the World: XIV ICCP proceedings. Memoir–Canadian Society of Petroleum Geologists, 19:1947.Google Scholar
Izart, A., Briand, C., Vaslet, D., Vachard, D., Coquel, R., and Maslo, A. 1996. Stratigraphy and sequence stratigraphy of the Moscovian in the Donets Basin. Tectonophysics, 268:189209.Google Scholar
Izart, A., Nindre, Y. L., Stephenson, R., Vaslet, D., and Stovba, S. 2003. Quantification of the control of sequences by tectonics and eustacy in the Dniepr-Donets Basin and on the Russian Platform during Carboniferous and Permian. Bulletin de la Societe Geologique de France, 174:93100.Google Scholar
Kabanov, P. 2003. The upper Moscovian and basal Kasimovian (Upper Carboniferous) of central European Russia: facies, subaerial exposures, and depositional model. Facies, 49:243270.CrossRefGoogle Scholar
Kabanov, P. B., Alekseev, A. S., Baranova, D. V., Gorjunova, R. V., Lazarev, S. S., and Malkov, V. G. 2006. Biotic changes in a eustatic cyclothem: Domodedovo Formation (Moscovian, Carboniferous) of Peski quarries, Moscow region, Paleontological Journal, 40:351368.CrossRefGoogle Scholar
Kabanov, P. B., Alekseeva, T. V., Alekseeva, V. A., Alekseev, A. O., and Gubin, S. V. 2010. Paleosols in late Moscovian (Carboniferous) marine carbonates of the East European craton revealing “Great calcimagnesian plain” paleolandscapes. Journal of Sedimentary Research, 80:195215.Google Scholar
Kagarmanov, A. K. and Donakova, L. M. 1990. Decisions of the Regional Stratigraphic Conference on the middle and upper Paleozoic of the Russian Platform. Carboniferous System, Leningrad, p. 340. (In Russian)Google Scholar
Khodjanyazova, R., Davydov, V. I., and Schmitz, M. D. 2011. Fusulinid biozonation as a proxy of Milankovitch cyclicity: the record from Moscovian-Kasimovian transition in Donets Basin (Ukraine), p. 80. InHakansson, E. and Trotter, J. A.(eds.), Records 2011/20. The XVII International Congress on the Carboniferous and Permian, Programme and abstracts. Government of Western Australia and Department of Mines and Petroleum.Google Scholar
Kireeva, G. D. 1950. Novye vidy fusulinid iz izvestnyakov svit C 31 i C 32 Donetskogo basseyna. Moscow-Kharkov, Izdatelstvo Ugletekhizdat, p. 193218. (In Russian)Google Scholar
Lee, J. S. 1927. Fusulinidae of North China. Paleontologica Sinica, series B, 4:1171.Google Scholar
Lee, J. S. 1937. Foraminifera from the Donets Basin and their stratigraphic significance. Bulletin of the Geological Society of China, 16:57107.Google Scholar
Lee, J. S., Chen, S., and Chu, S. 1930. The Huanglung Limestone and its fauna. Memoirs of the National Research Institute of Geology, 9:85172.Google Scholar
Leven, E. J. 1998. Stratigraphy and fusulinids of the Moscovian (Middle Carboniferous) in the southwestern Darvaz. Rivista Italiana di Paleontologia e Stratigrafia, 104:342.Google Scholar
Leven, E. J., Davydov, V. I., and Gorgij, M. N. 2006. Pennsylvanian stratigraphy and fusulinids of Central and Eastern Iran. Palaeontologia Electronica, 9:133.Google Scholar
Makarov, I. A. 1985. Description of the stratigraphic cross-sections of the Upper Carboniferous of the Donets Basin. Ukrainian Geological Ministry, PGO Donbas Geology, Artemovsk GPE. (In Russian)Google Scholar
Makhlina, M. K., Alekseev, A. S., Goreva, N. V., Goryunova, R. V., Isakova, T. N., Kossovaya, O. L., Lazarev, S. S., Lebedev, O. A., and Shkolin, A. A. 2001. Sredniy karbon Moskovskoy sineklizy (yuzhnaya chast'); v 2 tomakh, tom 1, Stratigrafiya. Izdatelstvo Rossiyskoy Akademii Nauk, Moscow, 244p. (In Russian)Google Scholar
Manukalova, M. F. 1950. Opisanie nekotorykh novykh vidov fuzulinid iz srednego karbona Donetskogo Basseyna, p. 175192. InMaterialy po Stratigrafii i Paleontologii Donetskogo Basseyna. Geologo-issledovatel'skie Raboty, Ministerstvo Ugol'noy Promyshlennosti SSSR, Glavnoe Upravlenie po Razvedkam Uglya, Ugletekhizdat, Moskva. (In Russian)Google Scholar
Miklukho-Maclay, A. D. 1959. O stratigraficheskom znachenii, sistematike i filogenii shtaffelloobraznykh foraminifer. Doklady Akademii Nauk SSSR, 125:628631. (In Russian)Google Scholar
Menning, M., Alekseev, A. S., Chuvashov, B. I., Davydov, V. I., Devuyst, F.-X., Forke, H. C., Grunt, T. A., Hance, L., Heckel, P. H., Izokh, N. G., Jin, Y.-G., Jones, P. J., Kotlyar, G. V., Kozur, H. W., Nemyrovska, T. I., Schneider, J. W., Wang, X.-D., Weddige, K., Weyer, D., and Work, D. M. 2006. Global time scale and regional stratigraphic reference scales of central and west Europe, east Europe, Tethys, south China, and North America as used in the Devonian-Carboniferous-Permian Correlation Chart 2003 (DCP 2003). Palaeogeography, Palaeoclimatology, Palaeoecology, 240:318372.Google Scholar
Moeller, V. von. 1878. Spiral-coiled foraminifers from the Carboniferous limestone of Russia. Materialy dlya geologii Rossii, 8, Sankt-Petersburg, 207p. (In Russian)Google Scholar
Nemyrovska, T. I., Perret-Mirouse, M.-F., and Alekseev, A. S. 1999. On Moscovian (Late Carboniferous) conodonts of the Donets Basin, Ukraine. Neues Jahrbuch fur Geologie und Palaontologie, Abhandlungen, 214:169194.Google Scholar
Pogrebnyak, V. A. 1975. Kharakternye foraminifery gazonosnyh otlozheniy srednego i nizov verkhnego karbona severnyh okrain Donbassa i ih stratigraficheskoe znachenie, p. 4069. InI. Yu. Lapkin, Glushenko, N. V., Ivanov, V. K., Il'yukhina, A. V., Migacheva, E. E., Movshovich, E. V., Sterlin, B. P., Pogrebnyak, V. A., Podoba, B. G., Feshchenko, N. I., Shevyakova, E. N., and Shumilina, T. I.(eds.), Stratigrafiya verkhnego paleozoya i nizhnego mezozoya Dneprovo-Donetskoy vpadiny. Izdatel'stvo Nedra, Moscow. (In Russian)Google Scholar
Putrja, F. S. 1939. Materialy k stratigrafiiverkhnego karbona vostochnoy okrainy Donetskogo basseyna. Azovo-Chernomorskoe Geologicheskoe Upravlenie, Materialy po Geologii i Poleznym Iskopaemym, Sbornik 10:97156. (In Russian)Google Scholar
Putrja, F. S. 1940. Foraminifery i stratigrafiya verkhnekamennougol'nykh otlozheniy vostochnoy chasti Donetskogo basseyna. Azovo-Chernomorskoe Geologicheskoe Upravlenie, Materialy po Geologii i Poleznym Iskopaemym, Sbornik, 11:1146. (In Russian)Google Scholar
Putrja, F. S. 1948. Pseudotriticitinae—novoye podsemeystvo. Trudy L'vovskogo Geologicheskogo Obshchestva pri Gosudarstvennom Universitete im. Ivana Franko, Paleontologicheskaya seriya, 1948, Vypusk 1:97101. (In Russian)Google Scholar
Putrja, F. S. 1956. Stratigrafiya i foraminifery srednekamennougol'nykh otlozheniy vostochnogo Donbassa. Trudy Vsesoyuznogo Neftyanogo Nauchno-Issledovatel'skogo Geologo-Razvedochnogo Instituta (VNIGRI), novaya seriya, 98 (Mikrofauna SSSR, Sbornik 8:333519. (In Russian)Google Scholar
Rauser-Chernousova, D. M. 1953. Periodichnost' v razvitii foraminifer verkhnego paleozoya i ee znachenie dlya raschleneniya I sopostavleniya razrezov. Materialy paleontologicheskogo soveshchaniya po paleozoyu, 1951. Izdatelstvo Akademiya Nauk SSSR, Moskva, p. 139160. (In Russian)Google Scholar
Rauser-Chernousova, D. M., Belyaev, G., and Reitlinger, E. A. 1936. Upper Paleozoic foraminifera of the Petschoria-lands. Akademiya Nauk SSSR, Trudy Polyarnoy Komissii, 28:159232. (In Russian)Google Scholar
Rauser-Chernousova, D. M., G. D. Kireeva, G. E. Leontovich, N. D. Gryzlova, T. P. Safonova, and E. I. Chernova. 1951. Srednekamennougol'nye Fuzulinidy Russkoy Platformy i Sopredel'nykh Oblastey. Akademiya Nauk SSSR, Institut Geologicheskikh Nauk, Ministerstvo Neftyanoy Promyshlennosti SSSR, Izdatelstvo Akademii Nauk, Moskva, 380p. (In Russian)Google Scholar
Rauser-Chernousova, D. M. and Kulik, E. L. 1949. Ob otnoshenii fusulinid k fatsiyam i o periodichnosti ikh razvitiya, Izvestiya Akademii Nauk SSSR, seriya geologicheskaya, 6:131138. (In Russian)Google Scholar
Rauser-Chernousova, D. M. and Reitlinger, E. A. 1962. O formoobrazovanii foraminifer, Voprosy micropaleontologii, 6:330, Izdatelstvo Akademii Nauk SSSR, Moscow. (In Russian)Google Scholar
Reitlinger, E. A. 1961. Stratigrafiya srednekamennougol'nykh otlozheniy razresa skv. N 1 Krasnoy Polyany v Srednem Zavolzh'e, p. 218260. InShatskiy, N. S. and Menner, V. V.(eds.), Regionalnaya stratigrafiya SSSR, 5, Izdatel'stvo Akademii Nauk SSSR, Moscow. (In Russian)Google Scholar
Rozovskaya, S. E. 1941. On some Middle Carboniferous species of Fusulinidae of the Moscow Depression. Doklady Akademii nauk SSSR, 31:190192.Google Scholar
Rumjanzeva, Z. S. 1974. Stratigrafiya i Foraminifery Srednego Karbona Tsentral'nykh Kyzylkumov. Ministerstvo Geologii Uzbekskoy SSR, Sredneaziatskiy Nauchno-Issledovatel'skiy Institut Geologii i Mineral'nogo Syr'ya (SAIGIMS), Izdatel'stvo FAN, Uzbekskoy SSR, Tashkent, 179p. (In Russian)Google Scholar
Schellwien, E. 1908. Monographie der Fusulinen. Teil 1: Die Fusulinen des russisch-arktischen Meeresgebietes. Paleontographica, 55:145194.Google Scholar
Schlykova, G. N. 1948. Upper Carboniferous fusulinids of Samara Bend. Trudy Vsesoyuznogo Neftyanogo Nauchno-issledovatelskogo Geologorazvedochnogo Instituta (VNIGRI) novaya seriya, 31 (1):109135, Izdatelstvo Gostoptekhizdat, Moscow and Leningrad. (In Russian)Google Scholar
Sheng, J. C. 1951. Taitzehoella, a new genus of fusulinid. Bulletin of the Geological Society of China, 31:7985.Google Scholar
Sheng, J. C. 1958. Fusulinids from the Penchi Series of the Taitzeho Valley, Liaoning. Palaeontologia Sinica, new series B, 7 (whole number 143):1119.Google Scholar
Skinner, J. W. 1931. Primitive fusulinids of the Mid-continent region. Journal of Paleontology, 5:253259.Google Scholar
Solovieva, M. N. 1986. Zonal'naya fuzulinidovaya shkala moskovskogo yarusa po materialam pereizucheniya stratotipov vnutriyarusnykh podrazdeleniy. Akademiya Nauk SSSR, Voprosy Mikropaleontologii, 28:323. (In Russian)Google Scholar
Staff, H. Von and Wedekind, R. 1910. Der oberkarbone Foraminiferensapropelit Spitzbergens. Bulletin of the Geological Institution of the University of Upsala, 10:81123.Google Scholar
Stephenson, R. A., Chekunov, A., Ilchenko, T., Kaluzhna, L., Baranova, Ye., Starostenko, V., Krasovskiy, S., Kozlenko, V., Kuprienko, S., Gordienko, V., Kutas, R., Pashkevich, I., Orlik, M., Kivshik, M. K., Stovba, S. M., Turchanenko, M. T., Savchenko, V. I., Krivchenkov, B. S., Narkiewicz, M., Dadlez, R., Pokorski, J., and Guterch, A. 1993. Continental rift development in Precambrian and Phanerozoic Europe: Europrobe and the Dnieper-Donets rift and Polish trough basins. Sedimentary Geology, 86:159175.Google Scholar
Stephenson, R. A., Stovba, S. M., and Starostenko, V. I. 2001. Pripyat-Dniepr-Donets Basin: implications for rift geodynamics and northern Peri-Tethyan tectonic history, p. 369406. InZiegler, P. A., Cavazza, W., Robertson, A. H. F. and Crasquin-Soleau, S.(eds.), Peri-Tethyan rift/wrench basins and passive margins, Peri-Tethys Memoir, 6. Memoirs du Museum d' Histoire Naturelle 186, Paris.Google Scholar
Stovba, S. M. and Stephenson, R. A. 1999. The Donbas Foldbelt: its relationship with the uninverted Donets segment of the Dniepr-Donets Basin, Ukraine. Tectonophysics, 313:5983.Google Scholar
Thompson, M. L. 1935. The fusulinid genus Staffella in America. Journal of Paleontology, 9:111120.Google Scholar
Thompson, M. L. 1936. Pennsylvanian Fusulinids from Ohio. Journal of Paleontology, 10:673683.Google Scholar
Thompson, M. L. and Foster, C. L. 1937. Middle Permian fusulinids from Szechuan, China. Journal of Paleontology, 11:126144.Google Scholar
Van Ginkel, A. C. 1965. Carboniferous fusulinids from the Cantabrian Mountains (Spain). Leidse Geologische Mededelingen, 34:1225.Google Scholar
Van Wees, J.-D., Stephenson, R. A., Stovba, S. M., and Shiminovsky, V. A. 1996. Tectonic variation in the Dniepr-Donets Basin from automated modeling of backstripped subsidence curves. Tectonophysics, 268:257280.Google Scholar
Villa, E. and Task Group. 2008. Progress Report of the Task Group to establish the Moscovian–Kasimovian and Kasimovian–Gzhelian boundaries. Newsletter on Carboniferous Stratigraphy, 26:1213.Google Scholar
Wagner, R. H. 1969. Proposal for the recognition of a new “Cantabrian” stage at the base of the Stephanian Series. C. R., 6e Congrès Carbonifère, Sheffield 1967, 1:139150.Google Scholar