Hostname: page-component-586b7cd67f-dsjbd Total loading time: 0 Render date: 2024-11-29T00:22:27.677Z Has data issue: false hasContentIssue false

New foraminifers in the Visean/Serpukhovian boundary interval of the Lower Limestone Formation, Midland Valley, Scotland

Published online by Cambridge University Press:  14 July 2015

Pedro Cózar
Affiliation:
Instituto de Geología Económica CSIC-UCM, UEI y Departamento de Paleontología, c. José Antonio Novais 2, Ciudad Universitaria, 28040 Madrid (Spain),
Ian D. Somerville
Affiliation:
UCD School of Geological Sciences, University College Dublin, Belfield, Dublin 4 Ireland,
Iain Burgess
Affiliation:
11 Holmwood Drive, Leeds LS6 4NF, United Kingdom,

Abstract

The biostratigraphy of the upper part of the Mississippian Lower Limestone Formation in the Midland Valley, Scotland is revised using foraminiferal assemblages. This formation was previously assigned exclusively to the upper part of the Brigantian Substage (upper Cf6δ, P2 or latest Visean), whereas the succeeding Limestone Coal Formation (barren of foraminifers and conodonts) was assigned to the Pendleian Substage (lower Cf7, E1 or early Serpukhovian). The foraminifers, in particular those recorded from the Second Hosie and Top Hosie limestones and their lateral equivalents (Anvil and MacDonald limestones), are comparable to Serpukhovian assemblages from the Ukraine and Russia. Consequently, the Visean/Serpukhovian stage boundary is repositioned at the base of the Second Hosie Limestone. This assignment of the Second Hosie Limestone to the Pendleian is reinforced by the first occurrence of the ammonoid Emstites (Cravenoceras), although it occurs 1 m below the Top Hosie Limestone. Pendleian foraminiferal assemblages from northern England, its geographically closest equivalent, are similar but not well enough known for a detailed comparison. A few similarities are found between the foraminiferal assemblages from the Midland Valley and those from southwest Spain and North African basins. Faunas from the Second and Top Hosie limestones and their lateral equivalents allow us to propose an assemblage zone, valid for regional correlations within the British Isles, and the faunas can be potentially used as Serpukhovian markers for western Paleotethyan basins. Two new genera and species are described, Praeplectostaffella anvilensis n. gen. n. sp. and Praeostaffellina macdonaldensis n. gen. n. sp., and two new species, Tubispirodiscus hosiensis n. sp. and Euxinita pendleiensis n. sp.

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

Anonyme. 1963. Décisions du Second Colloque sur la systématique des foraminifères endothyroïdes, organisé par le Comité de Coordination pour la micropaléontologie à Moscou en avril 1962. Voprosy Mikropaleontologii, 7:223227 (In Russian: Translation BRGM n° 4488).Google Scholar
Arthurton, R. S., Johnson, E. W., and Mundy, D. J. C. 1988. Geology of the country around Settle. Memoir for 1: 50, 000 Geological Sheet 60 (England and Wales). British Geological Survey, London, 147 p.Google Scholar
Austin, R., Conil, R., Groessens, E., and Pirlet, H. 1974. Étude biostratigraphique de lencrinite de Tramaka. Bulletin de la Société belge de Géologie, Paleontologie et Hydrologie, 83:113129.Google Scholar
Bisat, W. S. 1930. On Cravenoceras leion sp. nov., the basement goniatite of the Namurian Upper Carboniferous. Transactions of the Leeds Geological Association, 20:2832.Google Scholar
Bisat, W. S. 1950. The junction faunas of the Viséan and Namurian. Transactions of the Leeds Geological Association, 6(3):1026.Google Scholar
Brady, H. B. 1873. On Archaediscus karreri, a new type of Carboniferous Foraminifera. The Annals and Magazine of Natural History, series 4, 12:286290.CrossRefGoogle Scholar
Brady, H. B. 1876. A monograph of Carboniferous and Permian foraminifera (the genus Fusulina excepted). Palaeontological Society, London, 166 p.Google Scholar
Branson, E. B. and Mehl, M. G. 1941. New and little known Carboniferous genera. Journal of Paleontology, 15:97106.Google Scholar
Brazhnikova, N. E. 1962. Quasiendothyra and related forms from the Lower Carboniferous of the Donets Basin and other regions of Ukraine. In Materials on the Upper Paleozoic of the Donbass. Akademiya Nauk Ukrainskoy SSR, Trudy Instituta Geologicheskikh Nauk, Seriya Stratigrafii i Paleontologii, 44:348 (In Russian).Google Scholar
Brazhnikova, N. E., Vakartchuk, G. I., Vdovenko, M. V., Vinnichenko, L. V., Karpova, M. A., Kolomiets, La. I., Potievskaya, P. K., Rostovtseva, L. P., and Shevchenko, G. D. 1967. Microfaunal marker horizons in Carboniferous and Permian Deposits of the Dnepr–Donets Basin. Izdatel'stvo “Naukova Dumka,” Kiev, 224 p. (In Russian) Google Scholar
Brenckle, P. 2005. A compendium of Upper Devonian–Carboniferous type foraminifers from the former Soviet Union. Cushman Foundation for Foraminiferal Research, Special Publication No. 38, Carolina, 153 p.Google Scholar
Brenckle, P. L. and Grelecki, C. J. 1993. Type Archaediscacean foraminifers (Carboniferous) from the former Soviet Union and Great Britain. Cushman Foundation for Foraminiferal Research, Special Publication 30; Carolina, 58 p.Google Scholar
Browne, M. A. D. 1986. The classification of the Lower Carboniferous in Fife and Lothian. Scottish Journal of Geology, 22:422425.Google Scholar
Browne, M. A. D., Dean, M. T., Hall, I. H. S., McAdam, A. D., Monro, S. K., and Chisholm, J. I. 1999. A lithostratigraphical framework for the Carboniferous rocks of the Midland Valley of Scotland. British Geological Survey Research Report, RR/99/07; London, 30 p.Google Scholar
Browne, R. G. and Pohl, E. R. 1973. Stratigraphy and genera of calcareous foraminifera of the Fraileys Facies (Mississippian) of Central Kentucky. Bulletin of American Paleontology, 64:172243.Google Scholar
Burgess, I. C. and Holliday, D. W. 1979. Geology of the country around Brough-under-Stainmore. Memoir for 1: 50, 000 Geological Sheet 31 and parts of Sheets 25 and 30 (England and Wales). British Geological Survey, London. 131 p.Google Scholar
Chernysheva, N. E. 1941. A new foraminiferal genus from the Tournaisian deposits of the Urals. Doklady Akademiya Nauk SSSR, 32:6970.Google Scholar
Chernysheva, N. E. 1948. On Archaediscus and allied forms from the Lower Carboniferous of the USSR. Akademiya Nauk SSSR, Trudy Instituta Geologicheskikh nauk, Geologicheskaya Seriya (19), 62:150158 (In Russian).Google Scholar
Chisholm, J. I., McAdam, A. D., and Brand, P. J. 1989. Lithostratigraphical classification of Upper Devonian and Lower Carboniferous rocks in the Lothians. British Geological Survey Technical Report, WA/89/26, London, 27 p.Google Scholar
Clarke, W. J. 1960. Scottish Carboniferous conodonts. Transactions of the Edinburgh Geological Society, 18:131.Google Scholar
Clayton, G., Coquel, R., Doubinger, J., Gueinn, K. J., Loboziak, S., Owens, B., and Streel, M. 1977. Carboniferous miospores of western Europe: illustration and zonation. Mededelingen Rijks Geologische, 29:119.Google Scholar
Conil, R., Longerstaey, P. J., and Ramsbottom, W. H. C. 1980. Matériaux pour l'étude micropaléontologique du Dinantien de Grande–Bretagne. Mémoires de l'Institut de Géologie de l'Université de Louvain, 30:1187.Google Scholar
Conil, R., Groessens, E., Laloux, M., Poty, E., and Tourneur, F. 1991. Carboniferous guide to foraminifera, corals and conodonts in the Franco–Belgian and Campine basins. Their potential for widespread correlation. Courier Forschungs–Institut Senckenberg, 130:1530.Google Scholar
Cózar, P. 2003. Foraminiferal fauna and zonation from the Early Carboniferous of Guadiato Area (SW Spain): comparison with European and North African foraminiferal zonal schemes and its palaeobiogeographical implications. p. 162177. In Ahr, W. M., Harris, P. M., Morgan, W. A., and Somerville, I. D. (eds.), Permo–Carboniferous carbonate platforms and reefs. SEPM, Special Publication 78, and AAPG, Memoir 83, Tulsa.Google Scholar
Cózar, P. 2004. Foraminiferal and algal evidence for the recognition of the Asbian/Brigantian boundary in the Guadiato Area (Mississippian, southwestern Spain). Revista Española de Micropaleontología, 36:367388.Google Scholar
Cózar, P. and Somerville, I. D. 2004. New algal and foraminiferal assemblages and evidence for recognition of the Asbian–Brigantian boundary in northern England. Proceedings of the Yorkshire Geological Society, 55:4365.Google Scholar
Cózar, P. and Somerville, I. D. 2005. Stratigraphy of upper Viséan carbonate platform rocks in the Carlow district, southeast Ireland. Geological Journal, 40:3564.Google Scholar
Cózar, P. and Somerville, I. D. 2006. Significance of the Bradyinidae and Parajanischewskina n. gen. for biostratigraphic correlations of the late Visean (Mississippian) in western paleotethyan basins. Journal of Foraminiferal Research, 36:262272.CrossRefGoogle Scholar
Cózar, P., Somerville, H. E. A., and Somerville, I. D. 2005. Foraminifera, calcareous algae and rugose corals in Brigantian (late Viséan) limestones in NE Ireland. Proceedings of the Yorkshire Geological Society, 56:287300.Google Scholar
Cózar, P., Somerville, I.D., Mitchell, M., and Medina-Varea, P. 2006a. Correlation of Mississippian (Upper Viséan) foraminiferan, conodont, miospore and ammonoid zonal schemes and correlation with the Asbian-Brigantian boundary in northwest Ireland. Geological Journal, 41:221241.CrossRefGoogle Scholar
Cózar, P., Somerville, I.D, Rodríguez, S., Mas, R., and Medina-Varea, P. 2006b. Development of a late Viséan (Mississippian) mixed carbonate/siliciclastic platform in the Guadalmellato Valley (southwestern Spain). Sedimentary Geology, 183:269295.Google Scholar
Cummings, R. H. 1955. New genera of foraminifera from the British Lower Carboniferous. Journal of the Washington Academy of Sciences, 45:18.Google Scholar
Cummings, R. H. 1957. A problematic new microfossil from the Scottish Lower Carboniferous. Micropaleontology, 3:407409.Google Scholar
Currie, E. D. 1954. Scottish Carboniferous goniatites. Transactions of the Royal Society of Edinburgh, 62:527602.Google Scholar
Cushman, J. A. 1928. Foraminifera: Their classification and economic use. Cushman Laboratory for Foraminiferal Research, Special Publication 1, 401 p.Google Scholar
Davies, A. 1974. The Lower Carboniferous (Dinantian) sequence at Spilmersford, East Lothian, Scotland. Bulletin of the Geological Survey of Great Britain, 45:172.Google Scholar
Davies, A., McAdam, A. D., and Cameron, I. B. 1986. Geology of the Dunbar district. Memoir for 1:50 000 Sheet 33 E and part of Sheet 41. British Geological Survey, London, 65 p.Google Scholar
Dean, M. T. 1987. Carboniferous conodonts from the Lower and Upper Limestone Groups of the Scottish Midland Valley. Unpublished Ph.D. thesis, University of Nottingham, 205 p.Google Scholar
Dunn, D. L. 1966. New Pennsylvanian conodonts from southwestern United States. Journal of Paleontology, 40:12941303.Google Scholar
Fewtrell, M. D., Ramsbottom, W. H. C., and Strank, A. R. E. 1981. Carboniferous. p. 1569. In Jenkins, D. G. and Murray, J. W. (eds.), Stratigraphical Atlas of fossil foraminifera British Micropalaeontological Society Series, Chichester, Ellis Horwood.Google Scholar
Forsyth, I. H., Hall, I. H. S., and McMillan, A. A. 1996. Geology of the Airdrie district. Memoir of the British Geological Survey, Sheet 31W (Scotland). London, 54 p.Google Scholar
Francis, E. H. 1991. Carboniferous. p. 347392. In Craig, G. Y. (ed.), Geology of Scotland. The Geological Society London.Google Scholar
Ganelina, R. A. 1951. Eostaffellins and millerellins of the Visean and Namurian stages of the Lower Carboniferous on the western flank of the Moscow Basin, In Stratigraphy and Microfauna of the Lower Carboniferous of the Western Flank of the Moscow Basin. Trudy, Vsesoyuznogo Neftyanogo Nauchno-Issledovatel'skogo Geologo-Razvedochnogo Instituta (VNIGRI), Novaya Seriya, 56:179210 (In Russian).Google Scholar
George, T., Johnson, G. A. L., Mitchell, M., Prentice, J. E., Ramsbottom, W. H. C., Sevastopulo, G. D., and Wilson, R. B. 1976. A correlation of the Dinantian rocks in the British Isles. Special Report 7 of the Geological Society of London, 87 p.Google Scholar
Gibshman, N. B. 2001. Foraminiferal biostratigraphy of the Serpukhovian Stage stratotype (Zaborie Quarry, Moscow Basin). Newsletter on Carboniferous Stratigraphy, 19:3134.Google Scholar
Golutsov, V. K. 1961. Kulikia—a new genus of Visean calcareous algae. Paleontolologii i Stratigrafii Bielorskoi S.S.R., Akademiya Nauk Bielorkoi S.S.R., Minsk, 3:348353 (In Russian).Google Scholar
Gradstein, F. M, Ogg, J. G., and Smith, A. G. et al. 2004. A Geologic Time Scale 2004. Cambridge University Press, Cambridge. 500 p.Google Scholar
Groves, J. R. 1988. Calcareous foraminifers from the Bashkirian stratotype (Middle Carboniferous, South Urals) and their significance for intercontinental correlations. Journal of Paleontology, 62:368399.Google Scholar
Groves, J. R., Nassichuk, W. W., Lin, Rui, and Pinard, S. 1994. Middle Carboniferous fusulinacean biostratigraphy, Northern Ellesmere Island (Sverdrup Basin, Canadian Arctic Archipelago). Bulletin of the Geological Survey of Canada, 469:155.Google Scholar
Grozdilova, L. P. 1953. Archaediscidae. p. 65123. In Dain, L. G. and Grozdilova, L. P. (eds.), Fossil foraminifers of the USSR, Tournayellidae and Archaediscidae. Trudy Vsesoyuznogo Neftyanogo Nauchno–Issledovatel'skogo Geologorazvedochnogo Instituta (VNIGRI), Novaya Seriya, Publication 74 (In Russian).Google Scholar
Hallett, D. 1971. Foraminifera and algae from the Yoredale “series” (Viséan–Namurian) of Northern England. p. 873901. In Compte Rendu 6 Congrès International de Stratigraphie du Carbonifère, Sheffield, 1967, Volume 3.Google Scholar
Hass, W. H. 1953. Conodonts of the Barnett Formation of Texas. U.S. Geological Survey Professional Paper 243F:6994.Google Scholar
Higgs, K. 1984. Stratigraphic palynology of the Carboniferous rocks of NW Ireland. Geological Survey of Ireland Bulletin, 3:171201.Google Scholar
Higgins, A. C. 1981. The distribution of conodonts in relation to the palaeogeography of late Visean-Namurian time. p. 3751. In Neale, J. W. and Brasier, M. D. (eds.), Microfossils from Recent and Fossil Shelf Seas. British Micropalaeontological Society Series, Ellis Horwood, Chichester.Google Scholar
Higgins, A. C. 1985. The Carboniferous System: Pt. 2—Conodonts of the Silesian Subsystem from Great Britain and Ireland. p. 210227. In Higgins, A. C. and Austin, R. L. (eds.), A stratigraphical index of Conodonts. Ellis Horwood, Chichester.Google Scholar
Higgins, A. C. and Bouckaert, J. 1968. Conodont stratigraphy and palaeontology of the Namurian of Belgium. Memoires Explanation de Cartes Géologique et Minieres de Belgique 10:164.Google Scholar
Holliday, D., Burgess, I. C., and Frost, D. V. 1975. A recorrelation of the Yoredale Limestones (Upper Viséan) of the Alston Block with those of the Northumberland Trough. Proceedings of the Yorkshire Geological Society, 40:319334.Google Scholar
Johnson, G. A. L. and Nudds, J. R. 1996. Carboniferous biostratigraphy of the Rookhope Borehole, Co. Durham. Transactions of the Royal Society of Edinburgh: Earth Sciences, 86:181226.Google Scholar
Johnson, G. A. L., Hodge, B. L., and Fairburn, R. A. 1962. The base of the Namurian of the Millstone Grit in north–eastern England. Proceedings of the Yorkshire Geological Society, 33:341362.Google Scholar
Jones, G. Ll. and Somerville, I. D. 1996. Irish Dinantian biostratigraphy: practical applications. p. 371385. In Strogen, P., Somerville, I. D., and Jones, G. Ll. (eds.), Recent Advances in Lower Carboniferous Geology. Geological Society Special Publication 107, London.Google Scholar
Kireeva, G. D. 1949. Some new fusulinid species from Carboniferous limestones of the central Donbass region. Trudy Geologo–Issledovatelskogo, Byuro Glavuglerazvedki, Ugletekhizdat, 6:2555 (In Russian).Google Scholar
Krainer, K. and Vachard, D. 2002. Late Serpukhovian (Namurian A) microfacies and carbonate microfossils from the Carboniferous of Nötsch (Austria). Facies, 46:126.Google Scholar
Krestovnikov, V. N. and Teodorovich, G. I. 1936. A new species of the genus Archaediscus from the Carboniferous of the South Urals. Byulleten Moskovskogo Obshchestva Ispytatelei Prirody, Otdelenie Geologii, 44:8690 (In Russian).Google Scholar
Laloux, M. 1988. Foraminifères du Viséen Supérieur et du Namurien du Bassin franco–belge. In Stratotypes carbonifères et devoniens en Belgique. Livret—guide. Bulletin de la Société belge de Géologie, 96:205220.Google Scholar
Lipina, O. A. 1948. Foraminifers of the Chernyshinsk suite of the Lower Carboniferous Tournaisian Stage near Moscow. Akademiya Nauk SSSR, Trudy Instituta Geologicheskikh nauk, Geologicheskaya Seriya (No. 19), 62:251259 (In Russian).Google Scholar
Lys, M. 1985. North Africa—Foraminifera. p. 354364. In Wagner, R. H., Winkler Prins, C. F., and Granados, L. F. (eds.), The Carboniferous of the world II: Australia, Indian subcontinent, South Africa, South America and North Africa. IUGS Publication No. 20. Instituto Geológico y Minero de España/Empresa Nacional Adaro de Investigaciones Mineras, S.A, Madrid.Google Scholar
MacGregor, A. G. 1948. Problems of Carboniferous–Permian volcanicity in Scotland. Quarterly Journal of the Geological Society of London, 108:133153.Google Scholar
MacGregor, A. G. 1960. Division of the Carboniferous on Geological Survey Scottish maps. Bulletin of the Geological Survey of Great Britain, 16:127130.Google Scholar
Malakhova, N. P. 1956. Foraminifera from the limestones of the Zhartim River Limestone of the southern Urals. Trudy, Gorno-Geologicheskogo Instituta, Akademiya Nauk SSSR, Ural'skiy Filial, 24(3):2671 (In Russian).Google Scholar
Mamet, B. L., Choubert, G., and Hottinger, G. 1966. Notes sur le Carbonifère du Jebel Ouarkziz. Étude du passage du Viséen au Namurien daprès les foraminifères. Notes du Service Géologique du Maroc, 27(198):721.Google Scholar
Mamet, B. L., Mikhailov, N., and Mortelmans, G. 1970. La stratigraphie du Tournaisien et du Viséen inférieur de Landelies. Comparaison avec les coupes du Tournaisis et du bord Nord du Synclinal de Namur. Mémoires de la Société belge de Géologie, de Paléontologie et d'Hydrologie, Série 8, 9:180.Google Scholar
Mamet, B. L., Madi, A., Bourque, P. A., and Sebbar, A. 1994. Foraminifères carbonifères du Grand Erg occidental, Bassin de Béchar, Algérie. Bulletin de la Société belge de Géologie, 103:5161.Google Scholar
Marfenkova, M. M. 1978. Foraminifers and stratigraphy of the lower and middle Visean of southern Kazakhstan. p. 7899. In Dubatolov, V. N. and Juferev, O. V. (eds.), Devonian and Carboniferous biostratigraphy and paleobiogeography of the Asiatic part of the USSR. Akademiya Nauk SSSR, Sibirskoe Otdelenie, Trudy Instituta Geologii I Geofiziki, publication 386 (In Russian).Google Scholar
Marfenkova, M. M. 1983. Archaediscidae from Visean and Serpukhovian deposits of Kazakhstan. Kazak SSR Fylym Akademiyasynyn, Khabarlary, Izvestiya Akademii Nauk Kazakhskoi SSR, Seriya Geologicheskaya, 3:4252.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., 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.CrossRefGoogle Scholar
Moeller, V. von. 1879. Die Foraminiferen des russischen Kohlenkalks. L'Academie impériale des Sciences, St. Pétersbourg, Mémoires, 27(5):1131.Google Scholar
Moeller, V. von. 1880. Ueber einige foraminiferenführende Gesteine Persiens. Jahrbuch Osterreich Geologische Reichanstalt, Wien, 30:573586.Google Scholar
Nemirovskaya, T. I., Perret, M. G., and Meischner, D. 1994. Lochriea ziegleri and Lochriea senckenbergica—new conodont species from the latest Visean and Serpukhovian in Europe. Courier Forschungs–Institut Senckenberg, 168:311317.Google Scholar
Nemyrovska, T. I. 2005. Late Visean/early Serpukhovian conodont succession from the Triollo section, Palencia (Cantabrian Mountains, Spain). Scripta Geologica, 129:1389.Google Scholar
Nemyrovska, T. I. 2006. Conodonts and GSSPs in the Carboniferous. In Aretz, M. and Herbig, H.-G. (eds.), Carboniferous Conference Cologne. From Platform to Basin, Sept 4–10 2006. Program and Abstracts. Kölner Forum für Geologie und Paläontologie, 15:9394.Google Scholar
Neves, R. and Ioannides, N. 1974. Palynology of the Lower Carboniferous (Dinantian) of the Spilmersford Borehole, East Lothian, Scotland. Bulletin of the Geological Survey of Great Britain, 45:7392.Google Scholar
Neves, R., Gueinn, K. J., Clayton, G., Ioannides, N., and Neville, R. S. W. 1972. A scheme of miospore zones for the British Dinantian. In Comptes Rendus du 7me Congrès International de Stratigraphie et de Géologie du Carbonifère, Krefeld 1971, Volume 1:347353.Google Scholar
Neves, R., Gueinn, K. J., Clayton, G., Ioannides, N., Neville, R. S. W., and Kruszewska, K. 1973. Palynological correlations within the Lower Carboniferous of Scotland and Northern England. Transactions of the Royal Society of Edinburgh, 69:2370.Google Scholar
Nikolaeva, S. V. and Kullmann, J. 2001. Problems in lower Serpukhovian ammonoid biostratigraphy. Newsletter on Carboniferous Stratigraphy, 19:3537.Google Scholar
Nikolaeva, S. V., Gibshman, N. B., Kulagina, E. I., Barskov, I. S., and Pazukhin, V. N. 2002. Correlation of the Visean–Serpukhovian boundary in its type region (Moscow Basin) and the South Urals and a proposal of boundary markers (ammonoids, foraminifers, conodonts). Newsletter on Carboniferous Stratigraphy, 20:1621.Google Scholar
Owens, B., Neves, R., Gueinn, K. J., Mishell, D. R. F., Sabry, H. S. M. Z., and Williams, J. E. 1977. Palynological division of the Namurian in northern England and Scotland. Proceedings of the Yorkshire Geological Society, 41:381398.Google Scholar
Paterson, I. B. and Hall, I. H. S. 1986. Lithostratigraphy of the late Devonian and early Carboniferous rocks in the Midland Valley of Scotland. Reports of the British Geological Survey, 18(3):114.Google Scholar
Pirlet, H. and Conil, R. 1977. L'évolution des Archaediscidae viséens: Bulletin de la Sociéte belge de Géologie, Paléontologie et d'Hydrologie, pour 1973, 82(2):241299.Google Scholar
Poletaev, V. I., Brazhnikova, N. E., Vasilyuk, N. P., and Vdovenko, M. V. 1991. Local zones and major Lower Carboniferous biostratigraphic boundaries of the Donets Basin (Donbass). Courier Forschungs-institut Senckenberg, 130:4750.Google Scholar
Poty, E., Devuyst, F.-X., and Hance, L., 2006. Upper Devonian and Mississippian foraminiferal and rugose coral zonations of Belgium and northern France: A tool for Eurasian correlations. Geological Magazine, 143:829857.Google Scholar
Ramsbottom, W. H. C. 1973. Trangressions and regressions in the Dinantian: a new synthesis of British Dinantian stratigraphy. Proceedings of the Yorkshire Geological Society, 39:567607.Google Scholar
Ramsbottom, W. H. C. 1981. Field guide to the boundary stratotypes of the Carboniferous stages in Britain. IUGS Subcommission on Carboniferous Stratigraphy. 110 p.Google Scholar
Rauzer-Chernousova, D. M. 1948a. Materials on the foraminiferal fauna of the Carboniferous deposits of central Kazakhstan. Akademiya Nauk SSSR, Trudy Instituta Geologicheskikh Nauk, Geologicheskaya Seriya (No. 21), 66:125 (In Russian).Google Scholar
Rauzer-Chernousova, D. M. 1948b. Some new foraminifers from the Syzran region. Akademiya Nauk SSSR, Trudy Instituta Geologicheskikh Nauk, Geologicheskaya Seriya (No. 19), 62:239240 (In Russian).Google Scholar
Rauzer-Chernousova, D. M. 1948c. Some new species of foraminifers from Lower Carboniferous deposits of the Moscow Basin. Akademiya Nauk SSSR, Trudy Instituta Geologicheskikh nauk, Geologicheskaya Seriya (No. 19), 62:227238 (In Russian).Google Scholar
Rauzer-Chernousova, D. M. 1985. Systematic of the family Staffellidae. Voprosy Mikropaleontologii, 27:523 (In Russian).Google Scholar
Rauzer-Chernousova, D. M., Belyaev, G., and Reitlinger, E. 1936. Upper Paleozoic foraminifers of the Pechora region. Akademiya Nauk SSSR, Trudy Iolyarnoy Komissii, 28:159232 (In Russian).Google Scholar
Rauzer-Chernousova, D. M., Belyaev, G., and Reitlinger, E. 1940. On the foraminifers from Carboniferous deposits of Samara Bend. Trudy Neftyanogo Geologo–Razvedochnogo Instituta, Leningrad and Moscow, Novaya Seriya, 7:1188 (In Russian).Google Scholar
Rauzer-Chernousova, D. M., Gryzlova, N. D., Kireeva, G. D., Leontovich, G. E., Safonova, T. P., and Chernova, E. I. 1951. Middle Carboniferous fusulinids of the Russian Platform and adjacent regions, a handbook and guide. Akademiya nauk SSSR, Institut Geologischeskikh Nauk, Ministerstvo Neftyanoy Promyshlennosti SSSR, 380 p. (In Russian).Google Scholar
Rauser-Chernoussova, D. M., Bensh, F. R., Vdovenko, M. V., Gibshman, N. B., Leven, E. Ya., Lipina, O. A., Reitlinger, E. A., Solovieva, M. N., and Chediya, I. O. 1996. On the systematics of Paleozoic foraminifera (Endothyroida, Fusulinoida). Rossiyskaya Akademiya Nauk, Geologicheskiy Insitut, Moskva ‘Nauka’, 207 p. (In Russian).Google Scholar
Read, W. A., Browne, M. A. E., Stephenson, D., and Upton, B. G. J. 2002. Carboniferous. p. 252292. In Trewin, N. H. (ed.), The Geology of Scotland (fourth edition). Geological Society of London.Google Scholar
Reitlinger, E. A. 1949. Smaller foraminifers in the lower part of the Middle Carboniferous of the Middle Urals and Kama River region. Izvestiya Akademii Nauk SSSR, Seriya Geologicheskaya, 6:149164 (In Russian).Google Scholar
Reitlinger, E. A. 1956. Lasiodiscidae, new family. Akademiya Nauk SSSR, Otdelenie Geologo-Geograficheskikh Nauk, Geologicheskiy Institut, Voprosy Mikropaleontologii, 1:6978 (In Russian).Google Scholar
Rhodes, F. H. T., Austin, R. L., and Druce, E. C. 1969. British Avonian (Carboniferous) conodont faunas and their value in local and intercontinental correlation. Bulletin of the British Museum (Natural History), Geology, Supplement 5:1313.Google Scholar
Richards, B. C. 2007. The Viséan/Serpukhovian boundary—an overview and progress report. In Wang, Y., Zhang, H., and Wang, X. (eds.), Abstracts of the XVI International Congress on the Carboniferous and Permian. Journal of Stratigraphy 31:99.Google Scholar
Richards, B. C. and Group, Task. 2003. Progress report from the Task Group to establish a GSSP close to the existing Viséan–Serpukhovian boundary. Newsletter on Carboniferous Stratigraphy, 21:610.Google Scholar
Richards, B. C. and Group, Task. 2005. The Viséan–Serpukhovian boundary: A summary of progress made on research goals established at the XV–ICCP Carboniferous Workshop in Utrecht. Newsletter on Carboniferous Stratigraphy, 23:78.Google Scholar
Riley, N. J. 1993. Dinantian (Lower Carboniferous) biostratigraphy and chronostratigraphy in the British Isles. Journal of the Geological Society, London, 150:427–46.Google Scholar
Roundy, P. V. 1926. Pt. II, The Micro-fauna in Mississippian formations of San Saba County, Texas. U.S. Geological Survey Professional Paper, 146:523.Google Scholar
Rozovskaya, S. E. 1963. The earliest fusulinids and their ancestors. Akademiya Nauk SSSR, Trudy Paleontologicheskogo Instituta, 97:1128 (In Russian).Google Scholar
Sebbar, A., Préat, A., and Mamet, B. L. 2000. Microfaciès et biozonation de la rampe mixte carbonifère du bassin de Tindouf, Algérie. Bulletin du Centre de Recherches Elf Exploration et Production, 22:203239.Google Scholar
Skompski, S., Alekseev, A., Meischner, D., Nemirovskaya, T., Perret, M. F., and Varker, W. J. 1995. Conodont distribution across the Viséan/Namurian boundary. Courier Forschungs-institut Senckenberg, 188:177209.Google Scholar
Smith, A. H. V. and Butterworth, M. A. 1967. Miospores in the coal seams of the Carboniferous of Great Britain. Special Papers in Palaeontology, 1:1324.Google Scholar
Somerville, I. D. and Cózar, P. 2005. Late Asbian to Brigantian (Mississippian) foraminifera from southeast Ireland: Comparison with Northern England assemblages. Journal of Micropalaeontology, 24:131142.Google Scholar
Sossipatrova, G. P. 1962. Foraminifers from Upper Paleozoic deposits of Taimyr. Nauchno-Issledovatel'skii Institut Geologii Arktiki (NIIGA), 30:3572.Google Scholar
Strank, A. R. E. 1981. Foraminiferal biostratigraphy of the Holkerian, Asbian and Brigantian stages of the British Lower Carboniferous. Unpublished Ph.D. thesis, University of Manchester, 423 p.Google Scholar
Strank, A. R. E. 1983. New stratigraphically significant foraminifera from the Dinantian of Great Britain. Palaeontology, 26:435442.Google Scholar
Vachard, D. 1981. Téthys et Gondwana au Paléozoïque supérieur. Les données afghanes—biostratigraphie, micropaléontologie, paléogéographie. Documents et travaux de l'Institut géologique Albert de Lapparent (IGAL), Paris, pour 1980, 2:1463.Google Scholar
Vachard, D. 1988. Pour une classification raisonnée et raisonable des Archaediscidae (Foraminifera, Carbonifère Inférieur-Moyen). Revue de Paleobiologie, Volume Spéc. 2: Benthos '86, Third International Symposium on Benthic Foraminifera, Genève, 103123.Google Scholar
Vdovenko, M. V. 2001. Atlas of foraminifera from the Upper Visean and Lower Serpukhovian (Lower Carboniferous) of the Donets Basin (Ukraine). Abhandlungen und Berichte für Naturkunde, 23:93178.Google Scholar
Vdovenko, M. V., Aisenverg, D. Y., Nehiroskaya, T. I., and Poletaev, V. I. 1990. An overview of Lower Carboniferous Biozones of the Russian Platform. Journal of Foraminiferal Research, 20:184194.Google Scholar
Vissarionova, A. I. 1948. Primitive fusulinids from the Lower Carboniferous of the European part of the USSR. Trudy Instituta Geologicheskikh nauk, Geologicheskaya Seriya (No. 19), 62:216226 (In Russian).Google Scholar
Wilson, R. B. 1962. A review of evidence for a “Nebraskan” fauna in the Scottish Carboniferous. Palaeontology, 4:507519.Google Scholar
Wilson, R. B. 1966. A study of the Neilson Shell Bed, a Scottish Lower Carboniferous marine shale. Bulletin of the Geological Survey of Great Britain, 24:105130.Google Scholar
Wilson, R. B. 1989. A study of Dinantian marine macrofossils of Central Scotland. Transactions of the Royal Society of Edinburgh: Earth Sciences, 80:91126.Google Scholar
Wolterstorff, W. 1899. Das Untercarbon von Magdeburg-Neustadt und seine Fauna. Jahrbuch der Königlich Preußischen Geologischen Landesanstalt und Bergakademie, 19 (for 1898):364.Google Scholar
Zeller, D. E. N. 1953. Endothyroid Foraminifera and ancestral fusulinids from the type Chesteran (Upper Mississippian). Journal of Paleontology, 27:183199.Google Scholar