Hostname: page-component-8448b6f56d-c4f8m Total loading time: 0 Render date: 2024-04-23T15:31:00.287Z Has data issue: false hasContentIssue false
  • English
  • Français

Middle Devonian parathuramminid and earlandiid foraminifers from shallow marine carbonates of the Carnic Alps (Austria)

Published online by Cambridge University Press:  22 March 2018

Daniel Vachard ,
Karl Krainer  and
Alexander Mörtl
Daniel Vachard
Affiliation:
1 rue des Tilleuls, 59152France 〈Daniel.Vachard@univ-lille1.fr〉 or 〈Daniel.Vachard@free.fr〉
Karl Krainer
Affiliation:
Institute of Geology, University of Innsbruck, Innrain 52, A-6020 InnsbruckAustria 〈Karl.Krainer@uibk.ac.at〉, 〈Alexander.Moertl@student.uibk.ac.at〉
Alexander Mörtl
Affiliation:
Institute of Geology, University of Innsbruck, Innrain 52, A-6020 InnsbruckAustria 〈Karl.Krainer@uibk.ac.at〉, 〈Alexander.Moertl@student.uibk.ac.at〉
Get access Rights & Permissions [Opens in a new window]

Abstract

The Devonian of the Carnic Alps (Austria) is developed in different facies. The shallow marine facies is up to 1200 m thick. The Feldkogel Limestone of the Polinik Formation, >330 m thick, was dated as Eifelian–Late Devonian. The Feldkogel Limestone at Mount Polinik is developed in a peritidal facies composed of subtidal, intertidal, and supratidal deposits. Subtidal sediments are represented by dark gray Amphipora limestone and intertidal deposits by laminated and partly bioturbated grainstone and packstone, ostracode wackestone to packstone, and locally intercalated intraclast breccias documenting tidal channel fills. Laminated microbial mats (stromatolites) formed in a supratidal depositional environment. Grainstone and packstone contain abundant unilocular parathuramminid foraminifers. This latter group encompasses a diversified assemblage of ivanovellids, parathuramminids, uralinellids, and irregularinoids; some earlandiids are also present. They are dated herein as late Eifelian–early Givetian. These foraminifers provide a more precise systematics of these taxa, which often have not been studied for more than half a century. The taxonomic problems of their assignment to foraminifers, pseudo-foraminifers, calcitarcha, thaumatoporellaceans, volvocaleans, or other algae are also discussed. Several taxa are emendated: Parathuramminida, Parathuramminoidea, Irregularinoidea, Eovolutinidae, Ivanovellidae, Parathuramminidae, Uralinellidae, Ivanovella, Elenella, Neoarchaesphaera, Parathurammina, Bykovaella, Uralinella, and Paracaligella. The new taxa are: Ivanovella reitlingerae n. sp., Elenella polinikensis n. sp., Uralinella sabirovi n. sp., and Radiosphaerella poyarkovi n. sp.

Type
Articles
Information
Journal of Paleontology , Volume 92 , Issue 3 , May 2018 , pp. 336 - 372
Copyright
Copyright © 2018, 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

Afanasieva, M.S., and Amon, E.O., 2011, Devonian radiolarians of Russia: Paleontological Journal, v. 45, p. 13131352.Google Scholar
Aizenverg, D.E., and Brazhnikova, N.E., 1964, Donetz basin analogues of Etroeungt strata: 5e Congrès International de Géographie et de Géologie du Carbonifère, 9-12 Septembre 1963, Compte Rendu, v. 1, p. 263272.Google Scholar
Altıner, D., 1991, Microfossil biostratigraphy (mainly foraminifers) of the Jurassic–Lower Cretaceous carbonate successions in northwestern Anatolia, Turkey: Geologica Romana, v. 27, p. 167213.Google Scholar
Anfimov, A.L., 2008, Devonian biogeography of the foraminifers of the Urals: Novosti Paleontologii i Stratigrafii, v. 49, p. 7881. [in Russian]Google Scholar
Anfimov, A.L., 2011, Evolution of the Devonian foraminifers of the Urals, in Bogdanova, T.N., ed., Tempi of evolution of organic word and biostratigraphy: Materialy, v. 58, p. 1618. sessii paleontologicheskogo obscchestva, Sankt-Petersburg. [in Russian]Google Scholar
Anfimov, A.L., 2012, New Emsian foraminifers from the Karpinsky Horizon Limestones Severouralsk Bauxite Mine: Paleontological Journal, v. 46, p. 445452.Google Scholar
Antropov, C.A., 1950, New Upper Devonian foraminiferal species of some areas of the eastern Russian Platform: Akademiya Nauk SSSR, Izvestiya Kazanskogo Filiala, Geologicheskii Institut, v. 1, p. 2132. [in Russian]Google Scholar
Antropov, C.A., 1959, Devonian foraminifers of Tataria: Akademiya Nauk SSSR, Izvestiya Kazanskogo Filiala, Geologicheskii Institut, v. 7, p. 1133. [in Russian]Google Scholar
Antropov, C.A., 1970, On the systematics, phylogeny and stratigraphic range of the parathuramminids: Akademiya Nauk SSSR, Kazanskii Filial, Trudy Geologicheskogo Instituta, v. 26, p. 138150. [in Russian]Google Scholar
Arnaud-Vanneau, A., 1980, Micropaléontologie, paléoécologie et sédimentologie d'une plate-forme carbonatée de la marge passive de la Téthys: l’Urgonien du Vercors septentrional et de la Chartreuse (Alpes occidentales): Géologie Alpine, Mémoire, v. 11, Second volume, p. 269874.Google Scholar
Bandel, K., 1972, Paläoökologie und Paläogeographie im Devon und Unterkarbon der Zentralen Karnischen Alpen: Palaeontographica, Abteilung A, v. 141, p. 1117.Google Scholar
Berkyova, S., and Munnecke, A., 2010, “Calcispheres” as a source of lime mud and peloids—evidence from the early Middle Devonian of the Prague Basin, the Czech Republic: Bulletin of Geosciences, v. 85, p. 585602.Google Scholar
Birina, L.M., 1948, New species of calcareous algae and foraminifers from the Devonian and Carboniferous boundary beds: Sovetskaya Geologiya, v. 28, p. 154159. [in Russian]Google Scholar
Blumenstengel, H., 1961, Foraminiferen aus dem Thüringer Oberdevon: Geologie, v. 10, p. 316335.Google Scholar
Bogush, O.I., and Yuferev, O.V., 1962, Foraminifers and stratigraphy of the Carboniferous deposits of Kara-Tau and Talassky Ala-Tau: Akademiya Nauk SSSR, Sibirskoe Otdelenie, Trudy Instituta Geologii i Geofiziki, 234 p. [in Russian]Google Scholar
Bogush, O.I., and Yuferev, O.V., 1970, Foraminifers, in Obut, A.M., ed., The Carboniferous of Omolon and southwestern part of Kolyma massifs: Akademiya Nauk SSSR, Sibirskoe Otdelenie, Trudy Instituta Geologii i Geokhimii, v. 60, p. 1108. [in Russian]Google Scholar
Bogush, O.I., and Yuferev, O.V., 1990, Characterization and correlation of the Devonian-Carboniferous boundary beds in Siberia and NW USSR based on the foraminifers: Akademiya Nauk SSSR, Sibirskoe Otdelenie, Trudy Instituta Geologii i Geofiziki, v. 770, p. 11118. [in Russian]Google Scholar
Bogush, O.I., Buchmina, L.S., and Domnikova, E.I., 1970, On the boundary beds from Devonian to Carboniferous in the Eltsovsk synclinorium based on microfaunal studies, in Problems related to the microfaunal studies in Siberia, Far-East, and other regions: Akademiya Nauk SSSR, Sibirskoe Otdelenie, Trudy Instituta Geologii i Geofiziki, v. 71, p. 4959. [in Russian]Google Scholar
Bogush, O.I., Bochkarev, V.S., and Yuferev, O.V., 1975, The Paleozoic of southern Western Siberia Plain: Akademiya Nauk SSSR, Sibirskoe Otdelenie, Trudy Instituta Geologii i Geofiziki, v. 297, p. 144. [in Russian]Google Scholar
Bogush, O.I., Zarodozhnyi, V.M., and Ivanova, E.F., 1988, Catalogue of foraminiferal types; Devonian and Carboniferous foraminifers: Akademiya Nauk SSSR, Sibirskoe Otdelenie, Trudy Instituta Geologii i Geofiziki, p. 140. [in Russian]Google Scholar
Bosak, T., Lahr, D.J.G., Pruss, S.B., Macdonald, F.A., Dalton, L., and Matys, E., 2011, Agglutinated tests in post-Sturtian cap carbonates of Namibia and Mongolia: Earth and Planetary Science Letters, v. 308, p. 2940.Google Scholar
Bosak, T., Lahr, D.J.G., Pruss, S.B., Macdonald, F.A., Dalton, L., and Matys, E., 2012, Possible early foraminiferans in post-Sturtian (716–635 Ma) cap carbonates: Geology, v. 40, p. 6770.Google Scholar
Brady, H.B., 1878, On the reticularian and radiolarian Rhizopoda (Foraminifera and Polycystina) on the North Polar Expedition of 1875–76: Annals and Magazine of Natural History, series 5, v. 1, p. 425440.Google Scholar
Brady, H.B., 1879, Notes on some reticularian Rhizopoda of the Challenger Expedition. Part III. 1. Classification. 2. Further notes on new species. 3. Note on Biloculina mud: Quarterly Journal of Microscopical Science, new series, v. 21, p. 3171.Google Scholar
Brazhnikova, N.E., and Rostovceva, L.F., 1966, Foraminifera, in Aizenverg, D.E., and Brazhnikova, N.E., eds., The Fauna of the Lowest Part of Tournaisian (zone C1 ta) in the Donetz Basin: Akademyia Nauk Ukrainskoi SSR, Institut Geologicheskikh Nauk, p. 942. [in Russian]Google Scholar
Brazhnikova, N.E., and Vdovenko, M.V., 1971, Foraminifers, in Atlas of Tournaisian fauna of Donetz basin; description of new species: Kiev, Izdatelstvo “Naukova Dumka”, p. 2164. [in Russian]Google Scholar
Brazhnikova, N.E., and Vdovenko, M.V., 1973, Early Visean foraminifers of Ukraine: Kiev, Vidavintsvo “Naukova Dumka”, 296 p. [in Ukrainian]Google Scholar
Brunner, P., 1975, Estudio estratigráfico del Devónico en el área de El Bisani, Caborca, Sonora: Revista Instituto Mexicano del Petróleo, v. 7, p. 1645.Google Scholar
Brunner, P., 1976, Litología y bioestratigrafía del Misisípico en el área de El Bisani, Sonora: Revista Instituto Mexicano del Petróleo, v. 8, p. 741.Google Scholar
Bykova, E.V., 1952, Devonian foraminifers from Russian Platform and Preurals: Trudy VNIGRI, 60, Mikrofauna USSR, v. 5, p. 564. [in Russian]Google Scholar
Bykova, E.V., and Polenova, E.N., 1955, Foraminifers and radiolaria from the Volga-Ural area and the central Devonian Field and the stratigraphical importance of both groups: Trudy VNIGRI, v. 87, p. 1141. [in Russian, French translation, CEDP n° 1603, BRGM, 154 p.]Google Scholar
Cavalier-Smith, T., 2002, The phagotrophic origin of eukaryotes and phylogenetic classification of Protozoa: International Journal of Systematic and Evolutionary Microbiology, v. 52, p. 297354.Google Scholar
Cavalier-Smith, T., 2003, Protists phylogeny and the high-level classification of Protozoa: European Journal of Protistology, v. 39, p. 338348.CrossRefGoogle Scholar
Cetean, C.G., Bălc, R., Kaminski, M.A., and Filipescu, S., 2011, Integrated biostratigraphy and palaeoenvironments of an upper Santonian-upper Campanian succession from the southern part of the Eastern Carpathians, Romania: Cretaceous Research, v. 32, p. 575590.Google Scholar
Chamney, T.P., 1976, Foraminiferal morphogroup symbol for paleoenvironmental interpretation of drill cutting samples. Arctic America: Maritime Sediments, Special Publication, v. 1B, p. 585624.Google Scholar
Chernykh, V.V., 1967, New Upper Silurian foraminifers of the Urals: Paleontologicheskii Zhurnal, v. 1967, p. 3743. [in Russian; translated in Paleontological Journal, 1967, p. 311–317]Google Scholar
Chuvashov, B.I., 1965, Foraminifera and algae from upper Devonian deposits of western slope of the central and southern Urals: Akademiya Nauk SSSR, Trudy Instituta Geologii, Uralskii Filial, v. 74, p. 1153. [in Russian]Google Scholar
Chuvashov, B.I., 2008, Devonian foraminifers of Eurasia: assemblage studies and biostratigraphical potential: Novosti Paleontologii i Stratigrafii, v. 49, p. 179184. [in Russian]Google Scholar
Chuvashov, B.I., and Anfimov, A.L., 2005, Foraminifer zonal scale of the Devonian system—the state-of-art of study and correlative potential, in Yolkin, E.A., Izokh, N.G., Obut, O.T., and Kipriyanova, T.P., eds., Contributions of International Conference “Devonian terrestrial and marine environments: from continent to shelf”: IGCP 499 Project/SDS joint field meeting, Novosibirsk July 25–August 9, 2005, p. 41–44. [in Russian]Google Scholar
Chuvashov, B.I., and Yuferev, O.V., 1981, New genus of Devonian foraminifer, in Dubatolov, V.N., ed., Paleozoic of the western Siberian Plain and its mountainous borderland: Akademiya Nauk SSSR, Sibirskoe Otdelnic, Trudy Instituta Geologii i Geofiziki, p. 5254. [in Russian]Google Scholar
Chuvashov, B.I., Anfimov, A.L., Soroka, E.I., and Yaroslavtseva, N.S., 2012, Devonian non-carbonate at Saf’yanovka deposit (Middle Ural): Litosfera, v. 5, p. 114125.Google Scholar
Coccioni, R., Galeotti, S., and Gravili, M., 1995, Latest Albian–earliest Turonian deep-water agglutinated foraminifera in the Botaccione section (Gubbio, Italy)—Biostratigraphic and palaeoecologic implications: Revista Española de Paleontología, N° homenaje al Dr. Guillermo Colom, p. 135152.Google Scholar
Coen, M., Bultynck, P., and Pel, J., 1974, Excursion E, in International Symposium on Belgian micropaleontological limits from Emsian to Visean, Namur 1974: Brussels, Geological Survey of Belgium, p. 1–20.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 Géologique de l’Université de Louvain, v. 30 (dated 1979), p. 1115.Google Scholar
Conkin, J.E., and Conkin, B.M., 1964, Devonian Foraminifera: Part I. The Louisiana Limestone of Missouri and Illinois: Bulletin of American Paleontology, v. 47, p. 49105.Google Scholar
Crespin, I., 1958, Permian Foraminifera of Australia: Commonwealth of Australia, Department of National Development, Bureau of Mineral Resources, Geology and Geophysics, v. 48, p. 1207.Google Scholar
Cummings, R.H., 1955, Nodosinella Brady, 1876 and associated upper Paleozoic genera: Micropaleontology, v. 1, p. 221238.Google Scholar
Cushman, J.A., 1927, An outline of a re-classification of the foraminifera: Contributions Cushman Foundation for Foraminiferal Research, v. 3, p. 1105.Google Scholar
d’Orbigny, A., 1826, Tableau méthodique de la classe des Céphalopodes: Annales des Sciences Naturelles, v. 7, p. 245314.Google Scholar
Da Silva, A.C., and Boulvain, F., 2004, From paleosols to carbonate mounds: facies and environments of the middle Frasnian platform in Belgium: Geological Quarterly, v. 48, p. 253266.Google Scholar
Dil, N., 1976, Assemblages caractéristiques de Foraminifères du Dévonien supérieur et du Dinantien de Turquie (bassin carbonifère de Zonguldak): Annales de la Société géologique de Belgique, v. 99, p. 373400.Google Scholar
Dubreuil, M., and Vachard, D., 1979, Sur l’âge givétien de la formation de Chalonnes (Bassin d’Ancenis, sud-est du Massif Armoricain) et ses conséquences: Comptes Rendus Académie des Sciences Paris, v. 289, p. 241244.Google Scholar
Dunn, P.H., 1942, Silurian Foraminifera of the Mississippian Basin: Journal of Paleontology, v. 16, p. 317342.Google Scholar
Ebner, F., Vozárová, A., Kovács, S., Kräutner, H.-G., Krstic, B., Szederkényi, T., Jamicic, D., Balen, D, Belak, M., and Trajanova, M., 2010, Devonian–Carboniferous pre-flysch and flysch environments in the Circum–Pannonian Region, in Ebner, F., Vozárová, A., Haas, J., Kovács, S., Sudar, M, Bielik, M, and Péró, C., eds., Variscan and Alpine terranes of the Circum–Pannonian Region: Bratislava, Slovac Academy of Sciences, Geological Institute, p. 1349.Google Scholar
Eisenack, A., 1969, Einige ordovizische und silurische Foraminiferen des baltischen Gebietes: Paläontologische Zeitschrift, v. 43, p. 199204.CrossRefGoogle Scholar
Ektova, L.K., 1968, Tip Protozoa, Class Sarcodina, Subclass Foraminifera, Order Astrorhizida, in Markovskyi, B.P., ed., Novye vidy drevnykh rasteniy i vespozvonochnykh SSSR, 2 (part 1): Moscow, Izdatelstvo “Nedra”, p. 9799. [in Russian]Google Scholar
Elliott, G.F., 1958, Fossil microproblematica from the Middle East: Micropaleontology, v. 4, p. 419428.Google Scholar
Ferrari, A., and Vai, G.B., 1966, Ricerche stratigrafiche e paleoecologiche al Monte Zermula: Giornale di Geologia, v. 2 (1965), p. 289406.Google Scholar
Flügel, E., 2004, Microfacies of Carbonate Rocks: Analysis, Interpretation and Application: Berlin, Springer Verlag, 976 p.Google Scholar
Flügel, E., and Hötzl, H., 1971, Foraminiferen, Calcisphaeren und Kalkalgen aus dem Schwelmer Kalk (Givet) von Letmathe im Sauerland: Neues Jahrbuch für Geologie und Paläontologie, Abhandlungen, v. 137, p. 358395.Google Scholar
Frisch, W., and Neubauer, F., 1989, Pre-Alpine terranes and tectonic zoning in the Eastern Alps: Geological Society of America, Special Publication, v. 230, p. 91100.Google Scholar
Gagiev, M.Kh., and Bogush, O.I., 1990, Famennian–Tournaisian key-sections of southwestern part of the Prekolyma (northeastern USSR), in Elkin, E.A., ed., New data on paleontology and biostratigraphy of the Asian part of the SSSR: Novosibirsk “Nauka”, Sibirskoe Otdelenie, p. 119132. [in Russian]Google Scholar
Gaillot, J., and Vachard, D., 2007, The Khuff Formation (Middle East) and time-equivalents in Turkey and South China: biostratigraphy from Capitanian to Changhsingian times (Permian), new foraminiferal taxa, and palaeogeographical implications: Coloquios de Paleontología, v. 57, p. 37223.Google Scholar
Golubic, S., Radoicic, R., and Lee, S-.J., 2006, Decastronema kotori gen. nov., comb nov.; a mat-forming cyanobacterium on Cretaceous carbonate platforms and its modern counterparts: Carnets de Géologie/Notebooks on Geology, Article 2006/02, p. 117.Google Scholar
Grechishnikova, I.A., and Levitskii, E.S., 2011, The Famennian–Lower Carboniferous reference-section Geran-Kalasi (Nakhichevan Autonomous region, Azerbaijan): Stratigraphy and Geological Correlation, v. 19, p. 2446.Google Scholar
Grozdilova, L.P., 1973, Foraminifers in the study of the Tournaisian sections of the Bashkiria Mountains, in Posner, V.M., ed., Foraminifers in the study of the Tournaisian sections of the southern Urals: Trudy VNIGRI, Leningrad, v. 346, p. 68101. [in Russian]Google Scholar
Grozdilova, L.P., and Lebedeva, N.S., 1954, Foraminifers of the Early Carboniferous and Bashkirian stage of the Middle Carboniferous of the Kolvo-Visher Basin: Trudy VNIGRI, 81, Mikrofauna SSSR, v. 7, p. 4203. [in Russian]Google Scholar
Grozdilova, L.P., Lebedeva, N.S., Lipina, O.A., Malakhova, N.P., Mikhailova, Z.P., Chermnykh, V.A., Postoyalko, M.V., Simonova, Z.G., Sinitsyna, Z.A., and Shcherbakova, M.V., 1975, Foraminifera, in Stepanov, D.L., Krylova, A.K., Grozdilova, L.P., Pozner, V.M., and Sultanaev, A.A., eds., Paleontological atlas of the Carboniferous deposits from the Urals: Izdateltsvo “Nedra”, Trudy VSEGEI, Leningrad, v. 383, p. 2764. [in Russian]Google Scholar
Guilbault, J.P., Krautter, M., Conway, K.W., and Vaughn Barrie, J., 2006, Modern Foraminifera attached to hexactinellid sponge meshwork on the West Canadian Shelf: comparison with Jurassic counterparts from Europe: Palaeontologia Electronica, 9.1.3A. http://palaeo-electronica.org/2006_1/sponge/issue1_06.htm.Google Scholar
Gutschick, R.C., and Treckman, J.F., 1959, Arenaceous foraminifera from the Rockford Limestone of northern Indiana: Journal of Paleontology, v. 23, p. 229250.Google Scholar
Gutschick, R.C., Weiner, J.L., and Young, L., 1961, Lower Mississippian arenaceous foraminifera from Oklahoma, Texas and Montana: Journal of Paleontology, v. 35, p. 11931221.Google Scholar
Haeckel, E., 1894, Systematische Phylogenie: Entwurf eines natürlichen Systems der Organismen auf Grund ihrer Stammesgeschichte. Theil 1. Systematische Phylogenie der Protisten und Pflanzen: Berlin, Georg Reimer, 400 p.Google Scholar
Häusler, R., 1883, On the Jurassic varieties of Thurammina papillata, Brady: Annals and Magazine of Natural History, series 5, v. 11, p. 262266.Google Scholar
Henjes, J., and Assmy, P., 2008, Particle availability controls agglutination in pelagic tintinnids in the Southern Ocean: Protist, v. 159, p. 239250.Google Scholar
Herbig, H.G., and Mamet, B., 2006, A muddy to clear carbonate ramp, latest Devonian, Velbert Anticline (Rheinisches Schiefergebirge, Germany): Geologica et Palaeontologica, v. 40, p. 125.Google Scholar
Holcová, K., 2004, Foraminifers from the Lower/Middle Devonian boundary beds of the Barrandian area, Czech Republic, and their paleoecology: Journal of Foraminiferal Research, v. 34, p. 214231.Google Scholar
Holcová, K., and Slavík, L., 2013, The morphogroups of small agglutinated foraminifera from the Devonian carbonate complex of the Prague Synform (Barrandian area, Czech Republic): Palaeogeography, Palaeoclimatology, Palaeoecology, v. 386, p. 210224.Google Scholar
Howchin, W., 1888, Additions to the knowledge of the Carboniferous foraminifera: Journal of the Royal Microscopical Society of London, v. 1888, p. 533542.CrossRefGoogle Scholar
Hüsken, T.C., and Eiserhardt, K.H., 1997, Morphology, ultrastructure and interpretation of Palaeozoic mazuelloids (phosphatic mikroplankton incertae sedis), in Fatka, O., and Servais, T., eds., Acritarcha in Praha, 1996: Acta Universitatis Carolinae, Geologica, v. 40, p. 445455.Google Scholar
ICZN, 1999, International Code of Zoological Nomenclature: London, The Natural History Museum, 306 p.Google Scholar
Ireland, H.A., 1939, Devonian and Silurian Foraminifera from Oklahoma: Journal of Paleontology, v. 13, p. 190202.Google Scholar
Ireland, H.A., 1956, Upper Pennsylvanian arenaceous foraminifers of Kansas: Journal of Paleontology, v. 30, p. 831864.Google Scholar
Jones, R.W., 1999, Forties Field (North Sea) revisited; a demonstration of the value of historical micropalaeontontological data, in Jones, R.W., and Simmons, M.D., eds., Biostratigraphy in Production and Development Geology: Geological Society, London, Special Publication, v. 152, p. 185200.Google Scholar
Jones, R.W., and Charnock, M.A., 1985, Morphogroups of agglutinated foraminifera, their life positions and feeding and potential applicability in (paleo)ecological studies: Revue de Paléobiologie, v. 4, p. 311320.Google Scholar
Jones, R.W., Pickering, K.T., BouDagher-Fadel, M., and Matthews, S., 2005, Preliminary observations on the micropalaeontological characterisation of submarine fan/channel sub-environments, Ainsa system, south-central Pyrenees, Spain, in Powell, A.J., and Riding, J.B., eds., Recent Developments in Applied Biostratigraphy: The Micropalaeontological Society, Special Publication, v. 1, p. 5568.Google Scholar
Kalvoda, J., 2001, Upper Devonian–Lower Carboniferous foraminiferal paleobiogeography and Perigondwana terranes at the Baltica-Gondwana interface: Geologica Carpathica, v. 52, p. 205215.Google Scholar
Kalvoda, J., 2002, Late Devonian–Early Carboniferous foraminiferal fauna: zonations, evolutionary events, paleobiogeography and tectonic implications: Folia, v. 39, 213 p.Google Scholar
Kalvoda, J., and Bábek, O., 2010, The margins of Laurussia in Central and Southeast Europe and Southwest Asia: Gondwana Research, v. 17, p. 526545.Google Scholar
Kaminski, M.A., Boersma, A., Tyszka, J., and Holbourn, A, 1995, Response of deep-water agglutinated foraminifera to dysoxic conditions in the California borderland basins, in Kaminski, M.A., Geroch, S., and Gasinski, M.A., eds., Proceedings of the Fourth International Workshop on Agglutinated Foraminifera: Grzybowski Foundation Special Publication, 3, p. 131–140.Google Scholar
Kazennov, A.I., Bogush, O.I., and Benediktova, R.N., 1975, Tournaisian stage of the Gorlovsk coalfield, in Dubatolov, V.N., and Yuferev, O.V., eds., Paleontology, stratigraphy and paleobiogeography from Devonian and Carboniferous of Siberia: Novosibirsk, Izdaleltsvo “Nauka”, p. 1025, 51–58. [in Russian]Google Scholar
Kaźmierczak, J., 1973, Tolypammina vagans (Foraminiferida) as inhabitant of the Oxfordian siliceous sponges: Acta Palaeontologica Polonica, v. 28, p. 95115.Google Scholar
Kaźmierczak, J., 1975, Colonial Volvocales (Chlorophyta) from the Upper Devonian of Poland and their paleoenvironmental significance: Acta Palaeontologica Polonica, v. 20, p. 7385.Google Scholar
Kaźmierczak, J., 1976, Volvocacean nature of Paleozoic non-radiosphaerid calcispheres and parathuramminid “Foraminifera”: Acta Palaeontologica Polonica, v. 21, p. 245258.Google Scholar
Kaźmierczak, J., and Kremer, B., 2005, Early post-mortem calcified Devonian acritarchs as a source of calcispheric structures: Facies, v. 51, p. 554565.Google Scholar
Kender, S., Kaminski, M.A., and Jones, R.W., 2008a, Oligocene deep-water agglutinated foraminifera from the Congo Fan, offshore Angola: palaeoenvironments and assemblage distributions, in Kaminski, M.A., and Coccioni, R. eds., Proceedings of the Seventh International Workshop on Agglutinated Foraminifera: Grzybowski Foundation Special Publication, 13, p. 107–156.Google Scholar
Kender, S., Kaminski, M.A., and Jones, R.W., 2008b, Early to middle Miocene foraminifera from the deep-sea Congo Fan, offshore Angola: Micropaleontology, v. 54, p. 477568.Google Scholar
Kotlyar, O.E., 1982, New Foraminifera from Late Devonian deposits of Ukraine: Paleontologischeskii Zhurnal, v. 16, p. 914. [English translation in Paleontological Journal, p. 6–11]Google Scholar
Kozur, H., 1984, Muellerisphaerida, eine neue Ordnung von Mikrofossilien unbekannter systematischer Stellung aus dem Silur und Unterdevon von Ungarn: Geologisch-Paläontologische Mitteilungen Innsbruck, v. 13, p. 125148.Google Scholar
Kremer, B., 2005, Mazzuelloids: product of post-mortem phosphatization of acanthomorphic acritarchs: Palaios, v. 20, p. 2736.Google Scholar
Kreutzer, L.H., 1990, Mikrofazies, Stratigraphie und Paläogeographie des Zentralkarnischen Hauptkammes zwischen Seewarte und Cellon: Jahrbuch der Geologischen Bundesanstalt, v. 133, p. 275343.Google Scholar
Kreutzer, L.H., 1992a, Photo-Atlas of the Variscan carbonate sequences in the Carnic Alps (Austria/Italy): Abhandlungen der Geologischen Bundesanstalt, v. 47, p. 1129.Google Scholar
Kreutzer, L.H., 1992b, Palinspastische Entzerrung und Neugliederung des Devons in den Zentralkarnischen Alpen Aufgrund von neuen Untersuchungen: Jahrbuch der Geologischen Bundesanstalt, v. 135, p. 261272.Google Scholar
Kröck, D., 2016, Stratigraphische une paläoökologische untersuchungen zur benthischen Mikrofauna der Eifel: Masterarbeit am Steinmann-Institut für Geologie, Paläontologie und Mineralogie der Rheinischen Friedrich-Wilhelms-Universität Bonn, 80 p.Google Scholar
Kulagina, E.I., 2013, Taxonomic diversity of foraminifers of the Devonian-Carboniferous boundary interval in the South Urals: Bulletin of Geosciences, v. 88, p. 265282.Google Scholar
Langer, M.R., 1995, Oxygen and carbon isotopic composition of Recent larger and smaller foraminifera from the Madang Lagoon (Papua New Guinea): Marine Micropaleontology, v. 26, p. 215221.Google Scholar
Langer, W., 1969, Foraminifera aus dem Alt-Paläozoikum der Karnischen Alpen: Carinthia II, v. 79, p. 3460.Google Scholar
Langer, W., 1991, Beiträge zur Mikropaläontologie des Devons im Rheinischen Schiefergebirge: Geologisches Jahrbuch, v. A128, p. 3565.Google Scholar
Langer, W., 1997, Neue oder wenig bekannte Mikrofossilien aus dem europäischen Devon: Neues Jahrbuch Geologie, Mikropaläontologie, Abhandlungen, v. 205, p. 129144.Google Scholar
Lavrusevich, V.I., Lavrusevich, A.I., and Saltovskaya, V.D., 1979, On the characteristics of the Zeravshan-Gissar oblast: Doklady Akademii Nauk Tadzhikiskoi SSSR, v. 22, p. 321324. [in Russian]Google Scholar
Lecompte, M., 1952, Les stromatoporoïdes du Dévonien moyen et supérieur du bassin de Dinant, 2e partie: Institut Royal des Sciences Naturelles, Mémoires, v. 117, p. 1359.Google Scholar
Lin, J.X., 1984, Protozoa. in Yichan Institute of Geology and Mineral Resources, ed., Biostratigraphy of the Yangtze Gorge area (Late Paleozoic Era): Beijing, Geological Publishing House, p. 110177. [in Chinese]Google Scholar
Lin, J.X, and Hao, Y.C. , 1982, Late Middle Devonian foraminifera from the central Guangxi and southern Hunan: Acta Geologica Sinica, v. 56, p. 9196. [in Chinese]Google Scholar
Lin, J.X., Li, L.X., and Sun, Q.Y., 1990, Late Paleozoic Foraminifers in South China: Beijing, Science Publication House, 297 p. [in Chinese]Google Scholar
Lipina, O.A, 1950, Late Devonian foraminifers from the Russian Platform: Akademiya Nauk SSSR, Trudy Instituta Geologicheskikh Nauk, 119, geologiskaya seriya, v. 43, p. 110133. [in Russian]Google Scholar
Lipina, O.A, 1955, Upper Devonian and Tournaisian foraminifers from the Volga-Ural area and from the western slope of central Urals: Akademiya Nauk SSSR, Trudy Instituta Geologii, 163, geologichevskaya seriya, v. 70, p. 196. [in Russian; French translation: BRGM n° 1640]Google Scholar
Lipina, O.A., 1960, Stratigraphy of Tournaisian Stage and Devonian and Carboniferous boundary interval of the eastern part of Russian Platform and wertern slope of the Urals: Akademiya Nauk SSSR, Trudy Geologicheskogo Instituta, v. 14, p. 3135.Google Scholar
Loeblich, A.R., and Tappan, H., 1961, Suprageneric classification of the Rhizopodea: Journal of Paleontology, v. 35, p. 245330.Google Scholar
Loeblich, A.R., and Tappan, H., 1964, Sarcodina, chiefly “Thecamoebians” and Foraminiferida, in Moore, R.C., ed., Treatise of Invertebrate Paleontology, Part C, Protista 2: Boulder, Colorado and Lawrence, Kansas, The Geological Society of America and the University of Kansas Press, 2 volumes, p. C1C900.Google Scholar
Loeblich, A.R., and Tappan, H., 1982, Classification of the Foraminiferida, in Broadhead, T.W., ed., Foraminifera, notes for a short course organized, by M.A. Buzas and B.K. Sen Gupta, University of Tennessee, Department of Geological Sciences: Studies in Geology, v. 6, p. 2236.Google Scholar
Loeblich, A.R., and Tappan, H., 1984, Suprageneric classification of the Foraminiferida (Protozoa): Micropaleontology, v. 30, p. 170.CrossRefGoogle Scholar
Loeblich, A.R., and Tappan, H., 1986, Some new and redefined genera and families of Textulariina, Fusulinina, Involutinina and Miliolina (Foraminiferida): Journal of Foraminiferal Research, v. 16, p. 334346.Google Scholar
Loeblich, A.R., and Tappan, H., 1987, Foraminiferal Genera and Their Classification: New York, Van Nostrand Reinhold Company Publisher, v. 1, 182 p.Google Scholar
Machel, H.G., and Hunter, G., 1994, Facies models for Middle to Late Devonian shallow-marine carbonates, with comparisons to modern reefs: a guide for facies analysis: Facies, v. 30, p. 155176.Google Scholar
Makarenko, S.N., and Savina, N.I., 2013, New data on Devonian stratigraphy of the central part of the Nyurolka depression (Tomsk region), in Krasnov, V.I., ed., Regional stratigraphy of the Late Precambrian and Paleozoic of Siberia: Proceedings of Scientific Papers, Sibirskiy NauchnIsslevo-Vatelskiy Instituta Geologii, Geofiziki i Mineralskogo Syrya, Novosibirsk, p. 124–132. [in Russian)]Google Scholar
Malakhova, N.P., 1963, New genus of Lower Devonian foraminifer from the Urals: Paleontologischeskii Zhurnal, v. 1963, p. 141144. [in Russian]Google Scholar
Malakhova, N.P., 1969, Fauna of the metalliferous series of the pyritic oucrops of the southern Urals: Akademiya Nauk SSSR, Uralskii Filial, Trudy Instituta Geolologii i Geokhimii, v. 81, p. 184. [in Russian]Google Scholar
Mamet, B., 1973, Microfaciès viséens du Boulonnais (Nord, France): Revue de Micropaléontologie, v. 16, p. 101124.Google Scholar
Mamet, B., 1976, An atlas of microfacies in Carboniferous carbonates of the Canadian Cordillera: Geological Survey Canada, v. 255, 131 p.Google Scholar
Mamet, B., and Boulvain, F., 1992, Microflore des monticules micritiques frasniens “F2j” de Belgique: Revue de Micropaléontologie, v. 35, p. 283302.Google Scholar
Mamet, B., and Préat, A., 2005, Microfaciès d’une lentille biohermale à la limite Eifélien/Givétien (Wellin, bord sud du synclinorium de Dinant): Geologica Belgica, v. 8, p. 85111.Google Scholar
Mamet, B., and Préat, A., 2007, Eifelian–Givetian stromatoporoid-coral reefs, Belgium, in Vennin, E., Aretz, M., Boulvain, F., and Munnecke, A., eds., Facies from Palaeozoic reefs and bioaccumulations: Mémoires du Muséum National d’Histoire Naturelle, v. 195, p. 191193.Google Scholar
Mamet, B., and Préat, A., 2009, Algues et microfossiles problématiques du Dévonien moyen du “Fondry des Chiens” (bord sud du synclinorium de Dinant, Belgique): implications paléobathymétriques: Revue de Micropaléontologie, v. 52, p. 249263.Google Scholar
Mamet, B., and Préat, A., 2013 , Essai de description d’algues nouvelles paléozoïques: Geologica Belgica, v. 16, p. 3548.Google Scholar
Mamet, B., Préat, A., and Lehmami, M., 1999, Algues calcaires marines du Dévonien marocain (Meseta): Revue de Micropaléontologie, v. 42, p. 301314.Google Scholar
Mancin, N., 2001, Agglutinated foraminifera from the Epiligurian succession (Middle Eocene/Lower Miocene, Northern Apennines, Italy): scanning electron microscpoic characterization and paleoenvironmental implications: Journal of Foraminiferal Research, v. 31, p. 294308.Google Scholar
Marfenkova, M.M., 1991, Marine Carboniferous from Kazakhstan: Akademiya Nauk Kazakhskoi SSR, Institut Geologicheskikh Nauk, Alma-Ata, “Zylym”: 197 p.+150 p. [in Russian]Google Scholar
May, A., 1992, Die Kalkalgen-Flora des Ober-Eifeliums and Unter-Givetiums (Devon) des nordwestlichen Sauerlandes (Rheinisches Schiefergebirge): Palaeontographica, v. 228, p. 128.Google Scholar
Menner, V.V., and Reitlinger, E.A., 1971, Provincial particularities of Middle and Late Devonian foraminifers from the North Siberian Platform: Voprosy Mikropaleontologii, v. 14, p. 2538. [in Russian]Google Scholar
Mikhalevich, V.I., 1980, Systematics and evolution of foraminifera in the light of new data on their cytology and ultrastructure: Akademiya Nauk SSSR, Trudy Zoologicheskogo Instituta, v. 94, p. 4261. [in Russian]Google Scholar
Mikhalevich, V.I., 2003, System of the four foraminiferal subclasses with the agglutinated shell wall (Ammodiscana, Miliamminana, Hormosiniana, Textulariana) (Foraminifera): Rossiiskaya Akademiya Nauk, Izvestiya Zoologicheskogo Instituta, v. 7, p. 550.Google Scholar
Miklukho-Maklay, A.D., 1958, A new family of Foraminifera, Tuberitinidae M.-Maclay fam. nov.: Voprosy Mikropaleontologii, v. 2, p. 130135. [in Russian]Google Scholar
Miklukho-Maklay, A.D., 1963, Late Paleozoic of Central Asia: Leningrad, Izdateltsvo Leningradskogo Universiteta, 328 p. [in Russian]Google Scholar
Miklukho-Maklay, A.D., 1965, Some Middle Paleozoic foraminifers of central Asia: Ezhegodnik Vsesoyuznogo Paleontologicheskogo Obshchestva, v. 17 (1957–1964), p. 3045. [in Russian]Google Scholar
Milon, Y., 1928, Recherches sur les calcaires paléozoïques et le Briovérien de Bretagne: Thèse Rennes, Imprimerie Oberthur, 151 p.Google Scholar
Moreman, W.L., 1930, Arenaceous Foraminifera from Ordovician and Silurian limestones of Oklahoma: Journal of Paleontology, v. 4, p. 4259.Google Scholar
Mörtl, A., 2014, Der Amphiporenkalk im Devon der Karnischen Alpen [Bachelor thesis]: Innsbruck, University of Innsbruck, Institute of Geology, 42 p.Google Scholar
Munk, C., 1994, Agglutinierte Foraminiferen aus Schwammriffkalken des Oxfordium und Kimmeridgium der Nördlichen Frankenalb (Bayern): Abhandlungen der geologischen Bundesantalt, v. 50, p. 353368.Google Scholar
Munnecke, A., and Servais, T., 2008, Paleozoic calcareous plankton: evidence from the Silurian of Gotland: Lethaia, v. 41, p. 185194, DOI 10.1111/j.1502-3931.2008.00113.x.Google Scholar
Murray, J.W., 1991, Ecology and palaeoecology of benthic foraminifera: Hulow, Longman Publisher, 397 p.Google Scholar
Murray, J.W., Alve, E., and Jones, B.W., 2011, A new look at modern agglutinated benthic foraminiferal morphogroups: their value in palaeoecological interpretation: Palaeogeography, Palaeoclimatology, Palaeoecology, v. 309, p. 229241.Google Scholar
Nagy, J., 1992, Environmental significance of foraminiferal morphogroups in Jurassic North Sea deltas: Palaeogeography, Palaeoclimatology, Palaeoecology, v. 95, p. 111134.Google Scholar
Nagy, J., Gradstein, F.M., Kaminski, M.A., and Holbourn, A.E., 1995, Foraminiferal morphogroups, paleoenvironments and new taxa from the Jurassic to Cretaceous strata of Thakkhola, Nepal, in Kaminski, M.A., Geroch, S., and Gasinski, M.A., eds., Proceedings of the Fourth International Workshop on Agglutinated Foraminifera: Grzybowski Foundation Special Publication, v. 3, p. 181–209.Google Scholar
Nestell, G.P., and Nestell, M.K., 2006, Middle Permian (Late Guadalupian) foraminifers from Dark Canyon, Guadalupe Mountains, New Mexico: Micropaleontology, v. 52, p. 150.Google Scholar
Nestell, G.P., and Tolmacheva, T.Y., 2004, Early Ordovician foraminifers from the Lava River Section, northwestern Russia: Micropaleontology, v. 50, p. 253280.Google Scholar
Nestell, G.P., Heredia, S., Mestre, A., Beresi, M., and González, M., 2011, The oldest Ordovician foraminifers (Oepikodus evae conodont Zone, Floian) from South America (Les plus vieux foraminifères (Zone à conodontes Oepikodus evae, Floien) d’Amérique du Sud): Geobios, v. 44, p. 601608.Google Scholar
Neumann, M., Pozaryska, K., and Vachard, D., 1975, Remarques sur les microfaciès du Dévonien de Lublin (Pologne): Revue de Micropaléontologie, v. 18, p. 3852.Google Scholar
Nguyên, D.T., 1986, Foraminifera and algae from the Permian of Kampuchea, in Fontaine, H. The Permian of Southeast Asia: CCOP Technical Bulletin, v. 18, p. 116137.Google Scholar
Özkan, R., 2011, Frasnian (Late Devonian) foraminiferal biostratigraphy from Taurides, southern Turkey: Stratigraphy, v. 8, p. 281292.Google Scholar
Özkan, R., and Vachard, D., 2015, A new early Frasnian (Late Devonian) foraminifer from eastern Taurides (Turkey): evolutionary and paleobiogeographic implications: Revue de Micropaléontologie, v. 58, p. 267282.Google Scholar
Pel, J., 1975, Etude sédimentologique et stratigraphique du Givétien; Synclinorium de Dinant, de Givet à Liège: Extrait de la Collection des Publications de la Faculté des Sciences Appliquées de l’Université de Liège, v. 53, p. 61113.Google Scholar
Perret, M.F., and Vachard, D., 1977, Algues et pseudo-algues des calcaires serpoukhoviens d’Ardengost (Hautes-Pyrénées): Annales de Paléontologie (Invertébrés), v. 63, p. 85156.Google Scholar
Petrova, L.G., 1977, Foraminifers of the family Parathuramminidae from the Lower Eifelian of the eastern slope of the Middle and northern Ural Mountains, in New paleontological material from the Ural Mountains: Akademiya Nauk SSSR, Uralskii Nauchnyi Tsentr, Sverdlovsk, p. 3–11. [in Russian]Google Scholar
Petrova, L.G., 1981, Middle Devonian Foraminifers from the eastern slope of the Urals, in Dubatolov, V.N., ed., Paleozoic of western Siberia Plain and its mountainous border: Akademiya Nauk SSSR, Sibirskoe Otdelenie, Trudy Instituta Geologii i Geofiziki, v. 482, p. 81101. [in Russian]Google Scholar
Petrova, L.G., and Pronina, T.V., 1980, Silurian and Lower Devonian foraminifers from the eastern slope of the northern and central Urals, in Dubatolov, V.N., and Yuferev, O.V., eds., Devonian and Carboniferous of the Asian part of USSR: Akademiya Nauk SSSR, Sibirskoe Otdelenie, Trudy Instituta Geologii i Geofiziki, v. 433, p. 4362. [in Russian]Google Scholar
Pia, J. von, 1937, Die wichtigsten Kalkalgen des Jungpaläozoikums und ihre geologische Bedeutung: Compte Rendu du 2e Congrès Avancement Etudes de Stratigraphie du Carbonifère, Heerlen, 1935, v. 2, p. 765856.Google Scholar
Plummer, H.J., 1930, Calcareous foraminifera in the Brownwood shale near Bridgeport, Texas: Bulletin University of Texas, Austin, v. 3019, p. 521.Google Scholar
Pohler, S.M.L., Bandel, K., Kido, E., Pondrelli, M., Suttner, T.J., Schönlaub, H.P., and Mörtl, A., 2015, Polinik Formation, in Corradini, C., and Suttner, T.J., eds., The Pre-Variscan sequence of the Carnic Alps (Austria and Italy): Abhandlungen der Geologischen Bundesanstalt, v. 69, p. 8184.Google Scholar
Pokorny, V., 1951, The Middle Devonian foraminifera of Celechovice, Czechoslovakia: Vestnik Kráslovske Ceske Spolecnosti Nauk, Trída matematicko-prirodovedécka, v. 9, p. 129.Google Scholar
Porter, S.M., 2004, Closing the phosphatization window: testing for the influence of taphonomic megabias on the pattern of small shelly fossil decline: Palaios, v. 19, p. 178183.Google Scholar
Poyarkov, B.V., 1969, Stratigraphy and foraminifers from the Devonian deposits of Tian Shan: Akademiya Nauk Kirgizskoi SSR, Institut Geologii, Upravlennie Geologii Kirgizskoi SSR, Izdatelstvo “Ilim”, Frunze, 186 p. [in Russian]Google Scholar
Poyarkov, B.V., 1977, Biogeography of the Devonian Foraminifera, in Dubatolov, V.N., and Yuferev, O.V., eds., Divisions, paleobiogeographic subdivisions and biostratigraphy: Akademiya Nauk SSSR, Sibirskoe Otdelenie, Trudy Instituta Geologii i Geofiziki, “Nauka,”, v. 347, p. 828. [in Russian]Google Scholar
Poyarkov, B.V., 1979, Development and diffusion of the Devonian foraminifers: Akademiya Nauk SSSR, Dalnevostochnyi Nauchnyi Tsentr, Dalnevostochnyi Geologicheskii Insitut, Izdateltsvo “Nauka,” Moscow, 172 p. [in Russian]Google Scholar
Pratt, B.R. , 2010, Peritidal Carbonates, in James, N.R., and Dalrymple, R.W., eds., Facies Models 4: St. John’s, Newfoundland, Geological Association of Canada, p. 401420.Google Scholar
Préat, A., and Kasimi, R., 1995, Sédimentation de rampe mixte silico-carbonatée des couches de transition eiféliennes-givétiennes franco-belges. Première partie: microfaciès et modèle sédimentaire: Bulletin Centres Recherches Exploration-Production Elf-Aquitaine, v. 19, p. 329375.Google Scholar
Préat, A., and Mamet, B., 1989, Sédimentation de la plate-forme carbonatée givétienne franco-belge: Bulletin Centres Recherches Exploration-Production Elf-Aquitaine, v. 13, p. 4786.Google Scholar
Préat, A., Blockmans, S., Capette, L., Dumoulin, V., and Mamet, B., 2007, Microfaciès d’une lentille biohermale à la limite Eifélien/Givétien (“Fondry des Chiens”, Nismes, bord sud du synclinorium de Dinant): Geologica Belgica, v. 10, p. 325.Google Scholar
Preece, R.C., Kaminski, M.A., and Dignes, T.W., 1999, Miocene benthonic foraminiferal morphogroups in an oxygen minimum zone, offshore Cabinda, in Cameron, N.R., Bate, R.H., and Clure, V.S., eds., The Oil and Gas Habitats of the South Atlantic: Geological Society, London, Special Publications, v. 153, p. 267282.Google Scholar
Pronina, T.V., 1960, New foraminiferal species of the lower Givetian deposits from the central and southern Urals: Paleontologicheskii Zhurnal, v. 1960, p. 4552. [in Russian; French translation IFP no. 6425]Google Scholar
Pronina, T.V., 1963, Silurian foraminifers and some associated microorganisms from Ufa Amphitheatre: Paleontologicheskii Zhurnal, 1963, p. 313. [in Russian]Google Scholar
Pronina, T.V., 1968, The genus Earlandia and some related Silurian foraminifers of the Urals: Paleontologicheskii Zhurnal, 1968, p. 3846. [in Russian; English translation p. 471–480]Google Scholar
Pronina, T.V., 1969, New Silurian and Devonian foraminifers of the Urals: Paleontologicheskii Zhurnal, v. 1969, p. 313. [in Russian]Google Scholar
Pronina, T.V., 1970, Some Silurian and Devonian foraminifers from the Urals, in Materials for the paleontology of the Urals: Akademiya Nauk SSSR, Uralskyi Filial, p. 106115. [in Russian]Google Scholar
Purkin, M.M., Poyarkov, B.V., and Rozhanets, V.M., 1961, Stratigraphy and new species of foraminifers from Tournaisian deposits of the Borkoldy Range (Tian Shan): Izvestiya Akademii Nauk Kirgizskoy SSR, Izvestya, seriya estestvvennykh i tekhnicheskikh Nauk, v. 3, p. 1536. [in Russian]Google Scholar
Racki, G., and Soboń-Podgórska, J., 1993, Givetian and Frasnian calcareous microbiotas of the Holy Cross Mountains: Acta Palaeontologica Polonica, v. 37, p. 255289.Google Scholar
Rauzer-Chernousova, D.M., and Fursenko, A.B., 1959, Protozoa, in Orlov, Y.A., ed., Fundamentals of Paleontology, Part 1: Akademiya Nauk SSSR, Izdatelstvo, Moscow, p. 1482. [in Russian]Google Scholar
Reitlinger, E.A., 1954, Devonian foraminifers of some sections of the western Russian Platform: Trudy Vsesoyuznogo Neftyanogo Nauchno-Issledovatelskogo Geologorazvedochnogo Instituta (VNIGRI), Paleontologicheskiy Sbornik, 1954, p. 5281. [in Russian]Google Scholar
Reitlinger, E.A., 1957, Spheres from Devonian deposits of Russian Platform: Doklady Akademiya Nauk SSSR, v. 115, p. 774776. [in Russian]Google Scholar
Reitlinger, E.A., 1959, Order Endothyrida, in Rauzer-Chernousova, D.M., and Fursenko, A.V., eds. Protozoa, in Orlov, Y.A., ed., Fundamentals of Paleontology, part 1: Moscow, Akademiya Nauk SSSR, Izdatelstvo, p. 190201. [in Russian].Google Scholar
Reitlinger, E.A., 1962, Foraminifer description, in Varsanofeva, V.A., and Reitlinger, E.A., eds., On the characteristics of the Late Devonian–Tournaisian beds from Little Pechora, Byulleten Moskovskogo Obshchestva Ispyatelei Prirody, new series, 67 Otdelenie Geologiya, v. 37, p. 5260. [in Russian]Google Scholar
Reolid, M., and Molina, J.M., 2010, Serpulid-Frutexites assemblage from shadow-cryptic environments in Jurassic marine caves, Betic Cordillera, Southern Spain: Palaios, v. 25, p. 468474.Google Scholar
Reolid, M., Nagy, J., Rodríguez-Tovar, F.J., and Olóriz, F., 2008, Foraminiferal assemblages as palaeoenvironmental bioindicators in Late Jurassic epicontinental platforms: relation with trophic conditions: Acta Palaeontologica Polonica, v. 53, p. 705722.Google Scholar
Ross, C.A., and Ross, J.R.P., 1991, Paleozoic Foraminifera: BioSystems, v. 25, p. 3951.Google Scholar
Sabirov, A.A., 1974, The genus Uralinella (Foraminifera): Paleontologicheskii Zhurnal, 1974, p. 141145. [in Russian]Google Scholar
Sabirov, A.A., 1978, New Devonian foraminifers of central Tajikistan: Paleontologicheskii Zhurnal, 1978, p. 1319. [in Russian]Google Scholar
Sabirov, A.A., 1982a, On the classification of bisphers and cribrosphaeroids: Izvestiya Akademii Nauk Tadzhiskoi SSR, Otdelenie Fiziko-Matematicheskikh, Khimicheskikh i Geologicheskikh, v. 2, p. 8794. [in Russian]Google Scholar
Sabirov, A.A., 1982b, On the classification of parathuramminins: Izvestiya Akademii Nauk Tadzhiskoi SSR, Otdelenie Fiziko-Matematicheskikh, Khimicheskikh i Geologicheskikh, v. 3, p. 6267. [in Russian]Google Scholar
Sabirov, A.A., 1984, Lower Devonian foraminifers from Urmistan section (northern slope of the Zeravshan Range): Akademiya Nauk Tadzhiskoi SSR, Institut Geologii, Tadzhiskoe Otdelenii Vsessoyuznogo Paleontologicheskogo Obchestva, Dushanbe, 1984, p. 513. [in Russian]Google Scholar
Sabirov, A.A., 1986, New genus of foraminifers in the family Parathuraminidae: Paleontologicheskii Zhurnal, 1986, p. 101102. [in Russian]Google Scholar
Sabirov, A.A., 1987a, New foraminiferal species of the Late Silurian and Devonian of Tajikistan: Paleontologicheskii Zhurnal, 1987, p. 2329. [in Russian]Google Scholar
Sabirov, A.A., 1987b, On systematics and taxonomic range of parathuramminids (foraminifers): Voprosy Mikropaleontologii, v. 29, p. 6070. [in Russian]Google Scholar
Sabirov, A.A., 2013, The foraminiferal scale of Devonian system of Tajikistan: Izvestiya Akademiya Nauk Respubliki Tadjikistan, Otdelenie Fiziko-Matematicheskikh, Khimichekikh, Geologicheskikh i Thekhnicheskikh Nauk, v. 4, p. 113121. [in Russian]Google Scholar
Saltovskaya, V.D., 1974, Stratigraphy of the Carboniferous deposits of the Zeravshano-Gissar mountainous area: Dushanbe, Akademiya Nauk Tadzhikskoi SSR, Institut Geologii, Izvatelstvo “Donizh”, 144 p. [in Russian]Google Scholar
Saltovskaya, V.D., 1981, Silurian and Devonian foraminifers from the Zeravshano-Gissar Range: Voprosy Mikropaleontologii, v. 24, p. 105115. [in Russian]Google Scholar
Sanz-Lopez, J., Vachard, D., and Perret, M.F., 2005, Foraminifers and algae from the reworked late Viséan limestones of the Bellver Formation, eastern Pyrenees, Spain: Annales de la Société Géologique du Nord, v. 12 (2è sér.), p. 4761.Google Scholar
Schlagintweit, F., Hladil, J., Nose, M., and Salerno, C., 2013, Palaeozoic record of Thaumatoporella Pia, 1927 (incertae sedis)?: Geologica Croatica, v. 66, p. 155182.Google Scholar
Schönlaub, H.P., 1979, Das Paläozoikum in Österreich: Abhandlungen der geologischen Bundesanstalt, v. 33, p. 1124.Google Scholar
Schönlaub, H.P., 1980, Carnic Alps. Field Trip A, in Schönlaub, H.P., ed., Second European Conodont Symposium, ECOS II, Guidebook, Abstracts: Abhandlungen der geologischen Bundesanstalt, 35, p. 5–57.Google Scholar
Schönlaub, H.P., 1985a, Geologische Karte der Republik Österreich 1:50.000, Blatt 197, Kötschach: Wien, Geologische Bundesanstalt.Google Scholar
Schönlaub, H.P., 1985b, Das Paläozoikum der Karnischen Alpen: Arbeitstagung der Geologischen Bundesanstalt, 1985, Kötschach-Mauthen, Gailtal, p. 3452.Google Scholar
Schönlaub, H.P., and Heinhisch, H., 1993, The classic fossiliferous units of the Eastern and Southern Alps, in von Raumer, J.F., and Neubauer, F., eds., Pre-Mesozoic Geology in the Alps: Berlin, Springer, p. 395422.Google Scholar
Schönlaub, H.P., and Histon, K., 2000, The Palaeozoic Evolution of the Southern Alps: Mitteilungen der Österreichischen Geologischen Gesellschaft, v. 92 (Aspects of Geology in Austria), p. 15–34.Google Scholar
Sen Gupta, B.K., 2002, Modern Foraminifera: New York, Kluwer Academic Publications, 371 p.Google Scholar
Shilo, N.A., Bouckaert, J., Afanasjeva, G.A., Bless, M.J.M., Conil, R., Erlanger, O.A., Gagiev, M.H., Lazarev, S.S., Onoprienko, Y.I., Poty, E., Razina, T.P., Simakov, K.V., Smirnova, L.V., Streel, M., and Swennen, R., 1984, Sedimentological and paleontological atlas of the late Famennian and Tournaisian deposits in the Omolon region (NE-USSR): Annales de la Société géologique de Belgique, v. 107, p. 137247.Google Scholar
Shinn, E.A., 1983, Tidal Flat, in Scholle, P.A., Bebout, D.G., and Moore, C.H., eds., Carbonate Depositional Environments: AAPG Memoir, v. 33, p. 171210.Google Scholar
Skompski, S., Conil, R., Laloux, M., and Lys, M., 1989, Etude micropaléontologique des calcaires du Viséen terminal et du Namurien dans le bassin carbonifère de Lublin à l'Est de la Pologne: Bulletin de la Société belge de Géologie, v. 98, p. 453472.Google Scholar
Stephens, N.P., and Sumner, D.Y., 2003, Famennian microbial reef facies, Napier and Oscar Ranges, Canning Basin, western Australia: Sedimentology, v. 50, p. 12831302.Google Scholar
Strank, A.R.E., 1983, New stratigraphically significant Foraminifera from the Dinantian of Great Britain: Palaeontology, v. 26, p. 435442.Google Scholar
Suleimanov, I.S., 1945, New species of Tournaisian smaller foraminifers from the petroliferous area of Ishimbaev: Doklady Akademiya Nauk SSSR, v. 48, p. 124127. [in Russian]Google Scholar
Tappan, H., and Loeblich, A.R. Jr., 1968, Lorica composition of modern and fossil Tintinnida (Ciliate Protozoa), systematics, geologic distribution, and some new Tertiary taxa: Journal of Paleontology, v. 42, p. 13781394.Google Scholar
Timokhina, I.G., and Klets, A.G., 2002, New data on the distribution of the Upper Devonian foraminifers in the calcareous central areas of of western Siberian Plain: Novosti Paleontologii i Stratigrafii, v. 5, p. 137143. [in Russian]Google Scholar
Timokhina, I.G., Klets, A.G., and Bochkarev, V.S., 2002, Famennian foraminifers of western Siberian Plain: Novosti Paleontologii i Stratigrafii, v. 5, p. 123135. [in Russian]Google Scholar
Tong, D.T., Dang, T.H., Nguyen, D.H., Nguyen, D.K., Nguyen, H.H., Nguyen, T.D., Ta, H.P., Pham, K.N., and Doan, N.T., 1988, Devonian Stratigraphy and Coelenterata of Vietnam, vol. 1: Stratigraphy, Akademiya Nauk SSSR, Sibirskoe Otdelenie, Institut Geologii i Geofiziki, Novosibirsk Nauka Sibirskoe, p. 1184.Google Scholar
Toomey, D.F., and Mamet, B.L., 1979, Devonian Protozoa, in House, M.R., Scrutton, C.T., and Bassett M.G., eds., The Devonian System: Special Papers in Paleontology, v. 23, p. 189192.Google Scholar
Toomey, D.F., Mountjoy, E.W., and MacKenzie, W.S., 1970, Upper Devonian (Frasnian) algae and foraminifera from the Ancient Wall carbonate complex, Jasper National Park, Alberta, Canada: Canadian Journal of Earth Sciences, v. 7, p. 946981.Google Scholar
Trifonova, E., 1992, Taxonomy of Bulgarian Triassic foraminifera. I. Families Psammosphaeridae to Nodosinellidae: Geologica Balcanica, v. 22, p. 350.Google Scholar
Tsyganko, V.S., 2008, Subsurface of Middle Devonian on the Polar Urals western slope: Litosfera, v. 2, p. 6779.Google Scholar
Tyszka, J., 1994, Response of Middle Jurassic benthic foraminiferal morphogroups to dysoxic/anoxic conditions in the Pieniny Klippen Basin, Polish Carpathians: Palaeogeography, Palaeoclimatology, Palaeoecology, v. 110, p. 5581.Google Scholar
Vachard, D., 1974a, Remarques sur les Foraminifères des calcaires griottes sensu lato (Frasnien inférieur–Tournaisien inférieur) du versant méridional de la Montagne Noire (Aude-Hérault): Comptes Rendus Sommaires de la Société géologique de France, 1973, p. 116118.Google Scholar
Vachard, D., 1974b, Contribution à l'étude stratigraphique et micropaléontologique (algues et foraminifères) du Dévonien–Carbonifère inférieur de la partie orientale du versant méridional de la Montagne Noire (Hérault, France) [Ph.D. dissertation]: Paris, University of Paris VI, 2 volumes, 408 p.Google Scholar
Vachard, D., 1976, Problématique des micro-organismes du Paléozoïque supérieur: 4è Réunion Annuelle des Sciences de la Terre, Paris, p. 385.Google Scholar
Vachard, D., 1977, Etude stratigraphique et micropaléontologique (algues et foraminifères) du Viséen de la Montagne Noire (Hérault, France): Mémoires Institut Géologique Université Louvain, v. 29, p. 111195.Google Scholar
Vachard, D., 1991, Parathuramminides et moravamminides (Microproblematica) de l’Emsien supérieur de la Formation Moniello (Cordillères Cantabriques, Espagne): Revue de Paléobiologie, v. 10, p. 255299.Google Scholar
Vachard, D. , 1993, Algues, pseudo-algues et microfaciès carbonatés du Dévonien du domaine Ligérien (Massif Armoricain, France): Palaeontographica B, v. 229, p. 53113.Google Scholar
Vachard, D., 1994, Foraminifères et moravamminides du Givétien et du Frasnien du domaine Ligérien (Massif Armoricain, France): Palaeontographica A, v. 231, p. 192.Google Scholar
Vachard, D., 2016a, Macroevolution and biostratigraphy of the Paleozoic foraminifers, in Montenari, M., ed., Stratigraphy and Timescales: Amsterdam, Elsevier, p. 257323.Google Scholar
Vachard, D., 2016b, Permian smaller foraminifers; taxonomy, biostratigraphy and biogeography, in Lucas, S.G., and Shen, S.Z., eds., The Permian Timescale: Geological Society London, Special Publications, 450. http://doi.org/10.1144/SP450.1.Google Scholar
Vachard, D., and Clément, B., 1994, L’Hastarien (ex-Tournaisien inférieur et moyen) à algues et foraminifères de la Zone Pélagonienne (Attique, Grèce): Revue de Micropaléontologie, v. 37, p. 289319.Google Scholar
Vachard, D., and Cózar, P., 2004, Insolentitheca emend., Protoinsolentitheca n. gen., and Caligellidae emend., permanent cysts of Palaeozoic foraminifera?: Rivista Italiana di Paleontologia e Strafigrafia, v. 110, p. 591603.Google Scholar
Vachard, D., and Cózar, P., 2010, An attempt of classification of the Palaeozoic incertae sedis Algospongia: Revista Española de Micropaleontología, v. 42, p. 129241.Google Scholar
Vachard, D., and Mouravieff, N., 1994, Nouvelles faunes des Semitextulariinae (Foraminifères) dans le Frasnien franco-belge: Livre jubilaire Conil, Mémoires Institut Géologique Université Louvain, v. 35, p. 213219.Google Scholar
Vachard, D., Zahraoui, M., and Cattaneo, G., 1994, Parathuramminines et Moravamminides (Foraminifères?) du Givétien du Maroc Central: Revue de Paléobiologie, v. 14, p. 119.Google Scholar
Vachard, D., Pille, L., and Gaillot, J., 2010, Palaeozoic Foraminifera: systematics, palaeoecology and responses to the global changes (Les foraminifères paléozoïques: systématique, paléoécologie et réponses aux changements globaux): Revue de Micropaléontologie, v. 53, p. 209254.Google Scholar
Vachard, D., Haig, D.W., and Mory, A.J., 2014, Lower Carboniferous (middle Visean) foraminifers and algae from an interior sea, Southern Carnarvon Basin, Australia: Geobios, v. 47, p. 5774.Google Scholar
Vachard, D., Clausen, S., Palafox, J.J., Buitrón, B.E., Devaere, L., Hayart, V., and Régnier, S., 2017, Lower Ordovician microfacies and microfossils from Cerro San Pedro (San Pedro de la Cueva, Sonora, Mexico), as a westernmost outcrop of the newly defined Nuia Subprovince: Facies, v. 63. https://doi.org/10.1007/s10347-017-0497-9.Google Scholar
Vai, G.B., 1991, Palaeozoic strike-slip rift pulses and palaeogeography in the circum-Mediterranean Tethyan realm: Palaeogeography, Palaeoclimatology, Palaeoecology, v. 87, p. 223252.Google Scholar
Vai, G.B., 1998, Field trip through the Southern Alps: an introduction with geologic settings, palaeogeography and Palaeozoic stratigraphy, in Southern Alps field trip guidebook. Seventh international conodont symposium held in Europe: Giornale di Geologia, s. 3, v. 60, p. 138.Google Scholar
Van Den Akker, T.J.H.A., Kaminski, M.A., Gradstein, F., and Wood, J., 2000, Campanian to Palaeocene biostratigraphy and palaeoenvironments in the Foula Sub-basin, west of the Shetland Islands, UK: Journal of Micropalaeontology, v. 19, p. 2343.Google Scholar
Vdovenko, M.V., 1977, Late Visean foraminifera from Donbass: Akademiya Nauk Ukrainskoi SSR, Institut Geologicheskikh Nauk, 136 p. [in Russian; unpublished; partly published in Vdovenko, 2001]Google Scholar
Vdovenko, M.V., 2001, Atlas of Foraminifera from the Upper Viséan and Lower Serpukhovian (Lower Carboniferous) of the Donets Basin (Ukraine): Abhandlungen und Berichte für Naturkunde, v. 23, p. 93178.Google Scholar
Vdovenko, M.V., Rauzer-Chernousova, D.M., Reitlinger, E.A., and Sabirov, A.A., 1993, Reference-book on the systematics of Paleozoic smaller foraminifers: Rossiiskaya Akademiya Nauk, Komissiya po Mikropaleontologii, “Nauka,”, 128 p. [in Russian]Google Scholar
Veevers, J.J., 1970, Upper Devonian and Lower Carboniferous algae and stromatolites from the Bonaparte Gulf Basin northwestern Australia: Commonwealth of Australia, Bureau Mineral Resources Geology and Geophysics Bulletin, v. 116, p. 173188.Google Scholar
Versteegh, G.J.M., Servais, T., Streng, M., Munnecke, A., and Vachard, D., 2009, A discussion and proposal concerning the use of the term calcispheres: Palaeontology, v. 52, p. 343348.Google Scholar
Vishnevskaya, V.S., and Sedaeva, K.M., 2002a, A revision of some foraminiferal taxa of the Order Parathuramminida and discussion of foraminiferal and radiolarian evolution: Paleontological Journal, v. 36, p. 581590. [in Russian]Google Scholar
Vishnevskaya, V.S., and Sedaeva, K.M., 2002b, On the zonal divisions of the deposits of the Devonian-Carboniferous boundary based on parathuramminids (foraminiferal or foraminifera-radiolarian scale?), in Chuvashov, B.I., and Amon, E.O., eds., Stratigraphy and paleogeography of Carboniferous of Eurasia: Rossiiskaya Institute of Geology and Geochemistry, Akademiya Nauk, Mezhvedomstvennyi Stratigrafichevskii Komitet Rossii, Institut Geologii i Geokhimii, UrO RAN, p. 53–60. [in Russian]Google Scholar
Vissarionova, A.Ya., 1950, Foraminiferal fauna from the Devonian deposits of Bashkiria: Byulleten “Bashkiraya Nefti,” Bashgeolgoizdat, v. 1, p. 3336. [in Russian]Google Scholar
Wang, K.-L., 1987, On the Devonian-Carboniferous boundary based on foraminiferal fauna from South China: Acta Micropaleontologica Sinica, v. 4, p. 161178.Google Scholar
Williamson, W.C., 1880, On the organisation of the fossil plants of the coal measures, pt X, including an examination of the supposed radiolarians of the Carboniferous rocks: Philosophical Transactions of the Royal Society, London (1880), v. 171, p. 493539.Google Scholar
Wilson, J.L., 1975, Carbonate Facies in Geologic History: New York, Springer Verlag, 471 p.Google Scholar
Winchester-Seeto, T.M., and McIlroy, D., 2006, Lower Cambrian melanosclerites and foraminiferal linings from the Lontova Formation, St. Petersburg, Russia: Review of Palaeobotany and Palynology, v. 139, p. 7179.Google Scholar
Wray, J.L., 1967, Upper Devonian calcareous algae from the Canning Basin, Western Australia: Colorado School of Mines, Professional Contributions, v. 3, p. 176.Google Scholar
Yuferev, O.V., 1979, Divisions of the Devonian-Carboniferous boundary deposits based on foraminifers in the Perevalny Creek Basin (the Omolon Massif), 14e Pacific Science Congress, Field Excursion Guidebook tour 9, supplement 4, Magadan, p. 525.Google Scholar
Zadorozhnyi, V.M., 1981, Importance of the foraminifers of selected Frasnian deposits in the petroliferous Paleozoic of the southeastern part of the Western Siberian Plate, in Dubatolov, V.N., ed., Paleozoic of the western Siberian plain and its mountainous periphery: Akademiya Nauk SSSR, Sibirskoe Otdelenie, Trudy Instituta Geologii i Geofiziki, v. 482, p. 110114. [in Russian]Google Scholar
Zadorozhnyi, V.M., 1985, Diffusion of foraminifers in the Devonian type sections of the periphery of Kuznetsk Basin: Akademiya Nauk SSSR, Trudy Instituta Geologii i Geofiziki, Sibirskoe Otdelenie, v. 619, p. 119141. [in Russian]Google Scholar
Zadorozhnyi, V.M., 1987, Devonian foraminifers and biostratigraphy of the western Siberian Plate and its folded borderland: Akademiya Nauk SSSR, Trudy Instituta Geologii i Geofiziki, Sibirskoe Otdelenie, v. 680, p. 1126. [in Russian]Google Scholar
Zadorozhnyi, V.M., and Yuferev, O.V., 1981, New Devonian foraminifers of the family Parathuramminidae, in Dubatolov, V.N., ed., Paleozoic deposits of the western Siberian Plain and its mountainous borderland: Akademiya Nauk SSSR, Sibirskoe Otdelenie, Trudy Instituta Geologii i Geofiziki, v. 482, p. 5461, 122, 129–130. [in Russian]Google Scholar
Zadorozhnyi, V.M., and Yuferev, O.V., 1984, Phylum Protozoa, Class Sarcodina, Subclass Foraminifera, in Kanygin, A.V., ed., Paleozoic of southeastern part of the western Siberian Plate Akademiya Nauk SSR, Sibirskoe Otdelenie, Trudy Instituta Geologii i Geofiziki, v. 568, p. 70113. [in Russian]Google Scholar
Zhuravlev, A.Yu., and Wood, R., 2008, Eve of biomineralization: Controls on skeletal mineralogy: Geology, v. 36, p. 923926.Google Scholar
Zukalova, V., 1981, Prehled mikorofosilií v givetskych a frasnskych rifovych vápencich vápencích na Morave: Zemni Plyn a Nafta, v. 26, p. 561570, 793–821.Google Scholar
Zukalova, V., 1984, Biostratigrafie devonu ve vrtu Ostravice NP-824 jizne od Ostravy: Acta Universalis Carolinae, Geologica, v. 3, p. 219236.Google Scholar