Hostname: page-component-cd9895bd7-fscjk Total loading time: 0 Render date: 2025-01-02T12:59:12.140Z Has data issue: false hasContentIssue false
  • English
  • Français

Faunal dynamics and evolution of Ordovician conodonts on the Baltic side of the Tornquist Sea

Published online by Cambridge University Press:  10 December 2024

Jerzy DZIK Open the ORCID record for Jerzy DZIK [Opens in a new window]
Jerzy DZIK*
Affiliation:
Institute of Paleobiology, Polish Academy of Sciences, Twarda 51/55, 00-818, Warszawa, Poland. Faculty of Biology, Institute of Evolutionary Biology, Biological and Chemical Research Centre, University of Warsaw, 02-089, Żwirki i Wigury 101, Warszawa, Poland.
*
Email: dzik@twarda.pan.pl
Get access Rights & Permissions [Opens in a new window]

Abstract

Continental drift of Baltica from the Tremadocian subpolar latitudes to subtropical latitudes in the Katian was the main factor controlling the succession of the Ordovician Baltic conodont communities. These faunas were gradually enriched during the Floian as a result of immigrations from the regions experiencing warmer climate. Reinterpretation of quantitative data in terms of population approach to fossil assemblages shows how some of these immigrants evolved anagenetically in place, changing their contribution to the secondary productivity of the ecosystem. The composition of the fauna became surprisingly uniform, at least since the numerical domination by the presumably indigenous Baltoniodus lineage was established during the Dapingian. Baltoniodus was supplemented by another indigenous lineage of Trapezognathus-Lenodus-Eoplacognathus, which continued its subordinate occurrence during the Darriwilian. The early Sandbian transgression resulted in immigration of the Amorphognathus lineage that emerged allopatrically in an unknown region but then began evolving anagenetically until the end of the Ordovician. Conodonts with coniform apparatus elements added complexity to the general picture of immigrations and disappearances, but only the lineage of Protopanderodus rectus seems to have differentiated geographically its contribution to the biological productivity. Several brief cooling and warming episodes did not result in any long-term transformations of the conodont communities. Most intriguing was the immigration of the Yaoxianognathus lineage that probably gave rise to all of the post-Ordovician ozarkodinids. By that time, Yaoxianognathus had its close relative in the tropical North American Midcontinent, but the source area was probably in the Darriwilian of the Argentinian part of Gondwana. Forms with thin P1 elements of basal cone walls, like Scabbardella or Hamarodus, are indicators of glacial Gondwanan influences. The lineage of Sagittodontina, associated with these in the Małopolska microcontinent (with Gondwanan affinities), was subordinate in Baltica until it had been influenced by the Hirnantian glaciation that ended the Baltic conodont fauna.

Keywords

Balticaconcept of speciesGondwanamethodologyoral apparatusespalaeobiogeographypalaeobiologyphylogeny
Type
Spontaneous Article
Information
Earth and Environmental Science Transactions of The Royal Society of Edinburgh , First View , pp. 1 - 38
Check for updates
Copyright
Copyright © The Author(s), 2024. Published by Cambridge University Press on behalf of The Royal Society of Edinburgh

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

9. References

Agematsu, S., Sashida, K., Salyapongse, S. & Sardsud, A. 2008. Early Ordovician conodonts from Tarutao Island, Southern Peninsular Thailand. Palaeontology 51, 1435–53.CrossRefGoogle Scholar
Albanesi, G. L. 1998. Taxonomía de conodontes de las secuencias Ordovícicas del cerro Potrerillo, Precordillera Central de San Juan, R. Argentina. Actas de la Academia Nacional de Ciencias, Córdoba 12, 101253.Google Scholar
Albanesi, G. L. & Barnes, C. R. 2000. Subspeciation within a punctuated equilibrium evolutionary event: phylogenetic history of the lower-middle Ordovician Paroistodus originalis-P. horridus complex (Conodonta). Journal of Paleontology 74, 492502.Google Scholar
Albanesi, G. L., Carrera, M. G., Cañas, F. L. & Saltzman, M. 2006. A proposed global boundary stratotype section and point for the base of the Middle Ordovician Series: the Niquivil section, Precordillera of San Juan, Argentina. Episodes 29, 115. doi: 10.18814/epiiugs/2006/v29i1/001CrossRefGoogle Scholar
Albanesi, G. L., Monaldi, C. R., Barnes, C. R., Zeballo, F. J. & Ortega, G. 2023. An endemic conodont fauna of Darriwilian (Middle Ordovician) age from the Santa Gertrudis Formation, southwestern Gondwanan margin and its paleobiogeographic relationships. Marine Micropaleontology 181, 102241.CrossRefGoogle Scholar
Aldridge, R. J., Murdock, D. J. E., Gabbott, S. E. & Theron, J. N. 2013. A 17-element conodont apparatus from the Soom Shale Lagerstätte (Upper Ordovician), South Africa. Palaeontology 56, 261–76.CrossRefGoogle Scholar
An, T. X. 1981. Recent progress in Cambrian and Ordovician conodont biostratigraphy of China. Geological Society of America Special Paper 187, 209–26.Google Scholar
Andres, D. 1988. Struktur, Apparate und Phylogenie primitive Conodonten. Palaeontographica A 200, 105–52.Google Scholar
Armstrong, H. A. 1997. Conodonts from the Ordovician Shinnel Formation, Southern Uplands, Scotland. Palaeontology 40, 763–97.Google Scholar
Bagnoli, G., Barnes, C. R. & Stevens, R. K. 1987. Tremadocian conodonts from Broom Point and Green Point, western Newfoundland. Bollettino della Società Paleontologica Italiana 35, 145–58.Google Scholar
Bagnoli, G., Faúndez, E. I. & Stouge, S. 2015. Stenodontus Chen & Gong, 1986: an invalid name for Cambrian-Ordovician conodonts. Bollettino della Societa Paleontologica Italiana 54, 7172.Google Scholar
Bagnoli, G. & Stouge, S. 1996. Changes in conodont provincialism and biofacies during the Lower Ordovician in Öland, Sweden. Palaeopelagos 6, 1929.Google Scholar
Bagnoli, G. & Stouge, S. 1997. Lower Ordovician (Billingenian–Kunda) conodont zonation and provinces based on sections from Horns Udde, north Öland, Sweden. Bollettino della Societa Paleontologica Italiana 35, 109–63.Google Scholar
Bagnoli, G. & Stouge, S. 2014. Upper Furongian (Cambrian) conodonts from the Degerhamn quarry road section, southern Öland, Sweden. Geologiska Föreningens i Stockholm Förhandlingar 136, 436–58.Google Scholar
Bagnoli, G., Stouge, S. & Tongiorgi, M. 1988. Acritarchs and conodonts from the Cambro-Ordovician Furuhall (Köpingsklint) section (Öland, Sweden). Rivista Italiana di Paleontologia e Stratigrafia 94, 163248.Google Scholar
Barmuta, J., Barmuta, M., Papiernik, B. & Golonka, J. 2017. Dwuwymiarowa rekonstrukcja morfologii basenu ordowicko – sylurskiego wzdłuż linii Gałajny-2 – Kałuszyn-2. In Golonka, J. & Bębenek, S. (eds) Opracowanie map zasięgu, biostratygrafia utworów dolnego paleozoiku oraz analiza ewolucji tektonicznej przykrawędziowej strefy Platformy Wschodnioeuropejskiej dla oceny rozmieszczenia niekonwencjonalnych złóż węglowodorów, 356–62. Cieszyn: Arka.Google Scholar
Barnes, C. R. & Fåhraeus, L. E. 1975. Provinces, communities, and the proposed nektobenthic habitat of Ordovician conodontophorids. Lethaia 8, 133–49.CrossRefGoogle Scholar
Barnes, C. R. & Poplawski, M. L. S. 1973. Lower and Middle Ordovician conodonts from the Mystic Formation, Quebec. Journal of Paleontology 47, 760–90.Google Scholar
Bassler, R. S. 1925. Classification and stratigraphic use of the conodonts. Geological Society of America Bulletin 36, 218–20.Google Scholar
Bednarczyk, W. 1979. Upper Cambrian to Lower Ordovician conodonts of Łeba Elevation, NW Poland, and their stratigraphic significance. Acta Geologica Polonica 29, 409–42.Google Scholar
Ber, A. 2005. Polish pleistocene stratigraphy – a review of interglacial stratotypes. Geologie en Mijnbouw 84, 6176.CrossRefGoogle Scholar
Bergström, S. M. 1962. Conodonts from the Ludibundus Limestone (Middle Ordovician) of the Tvären area (SE Sweden). Arkiv för Geologi och Mineralogi 3, 161.Google Scholar
Bergström, S. M. 1971. Conodont biostratigraphy of the Middle and Upper Ordovician of Europe and eastern North America. Geological Society of America Memoir 127, 83157.CrossRefGoogle Scholar
Bergström, S. M. 1979. Whiterockian (Ordovician) conodonts from the Hølonda Limestone of the Trondheim Region, Norwegian Caledonides. Norsk Geologisk Tidsskrift 59, 295307.Google Scholar
Bergström, S. M. 1983. Biogeography, evolutionary relationships, and biostratigraphic significance of Ordovician platform conodonts. Fossils and Strata 15, 3558.CrossRefGoogle Scholar
Bergström, S. M. 1988. On Pander's Ordovician conodonts: distribution and significance of the Prioniodus elegans fauna in Baltoscandia. Senckenbergiana lethaea 69, 217–51.Google Scholar
Bergström, S. M. 1990. Relations between conodont provincialism and the changing palaeogeography during the Early Palaeozoic. Geological Society Memoir 12, 105–21.CrossRefGoogle Scholar
Bergström, S. M. 1997. Conodonts of Laurentian affinities from the Middle Ordovician Svartsætra limestone in the Trondheim region, Central Norwegian Caledonides. Norges geologiske undersøkelse Bulletin 432, 5969.Google Scholar
Bergström, S. M. 2007. Middle and Upper Ordovician conodonts from the Fågelsång GSSP, Scania, southern Sweden. Geologiska Föreningens i Stockholm Förhandlingar 129, 7782.Google Scholar
Bergström, S. M. & Bergström, J. 1996. The Ordovician-Silurian boundary successions in Östergötland and Västergötland, S. Sweden. Geologiska Föreningens i Stockholm Förhandlingar 118, 2542.Google Scholar
Bergström, S. M., Calner, M., Lehnert, O. & Noor, A. 2011. A new upper Middle Ordovician–Lower Silurian drillcore standard succession from Borenshult in Östergötland, southern Sweden: 1. Stratigraphical review with regional comparisons. Geologiska Föreningens i Stockholm Förhandlingar 133, 149–71.Google Scholar
Bergström, S. M. & Carnes, J. B. 1976. Conodont biostratigraphy and paleoecology of Holston Formation (Middle Ordovician) and associated strata in eastern Tennessee. Geological Association of Canada, Special Paper 15, 2757.Google Scholar
Bergström, S. M., Chen, X., Gutiérrez-Marco, J. C. & Dronov, A. 2009. The new chronostratigraphic classification of the Ordovician System and its relations to major regional series and stages and to δ13C chemostratigraphy. Lethaia 42, 97107.CrossRefGoogle Scholar
Bergström, S. M. & Ferretti, A. 2017. Conodonts in Ordovician biostratigraphy. Lethaia 50, 424–39.CrossRefGoogle Scholar
Bergström, S. M. & Leslie, S. A. 2010. The Ordovician zone index conodont Amorphognathus ordovicicus Branson & Mehl, 1933 from its type locality and the evolution of the genus Amorphognathus Branson & Mehl, 1933. Journal of Micropalaeontology 29, 7380.CrossRefGoogle Scholar
Bergström, S. M. & Löfgren, A. 2009. The base of the global Dapingian Stage (Ordovician) in Baltoscandia: conodonts, graptolites and unconformities. Earth and Environmental Science Transactions of the Royal Society of Edinburgh 99, 189212.CrossRefGoogle Scholar
Bergström, S. M. & Massa, D. 1991. Stratigraphic and biogeographic significance of Upper Ordovician conodonts from northwestern Libya. Third Symposium on the Geology of Libya 4, 1323–42.Google Scholar
Bergström, S. M., Saltzman, M. M. & Schmitz, B. 2006. First record of the Hirnantian (Upper Ordovician) δ 13C excursion in the North American Midcontinent and its regional implications. Geological Magazine 143, 657–78.CrossRefGoogle Scholar
Bergström, S. M. & Sweet, W. C. 1966. Conodonts from the Lexington Limestone (Middle Ordovician) of Kentucky and its lateral equivalents in Ohio and Indiana. Bulletins of American Paleontology 50, 271441.Google Scholar
Branson, E. B. & Branson, C. C. 1947. Lower Silurian conodonts from Kentucky. Journal of Paleontology 21, 549–56.Google Scholar
Branson, E. B. & Mehl, M. G. 1933. Conodont Studies. Missouri University Studies 8, 1349.Google Scholar
Branson, E. R. & Mehl, M. G. 1944. Conodonts. In Shimer, H. W. & Shrock, R. R. (eds) Index fossils of North America, 235–46. New York: Wiley.Google Scholar
Burrett, C. F. 1979. Tasmanognathus: a new Ordovician conodontophorid genus from Tasmania. Geologica et Palaeontologica 13, 3138.Google Scholar
Carlorosi, J., Heredia, S. & Aceñolaza, G. 2013. Middle Ordovician (early Dapingian) conodonts in the Central Andean Basin of NW Argentina. Alcheringa 37, 113.CrossRefGoogle Scholar
Chen, M.-J., Chen, J.-T. & Zhang, J.-H. 1983. Ordovician conodont sequence in Nanjing Hill. Journal of Nanjing University (Natural Science) 1983, 129–39.Google Scholar
Chen, M.-J. & Zhang, J.-H. 1984. Middle Ordovician conodonts from Tangshan, Nanjing. Acta Micropalaeontologica Sinica 1, 120–37.Google Scholar
Clark, D. L., Sweet, W. C., Bergström, S. M., Klapper, G., Austin, R. L., Rhodes, F. H. T., Müller, K. J., Ziegler, W., Lindström, M., Miller, J. F. & Harris, A. 1981. Treatise on invertebrate paleontology, part W, Miscellanea, supplement 2, Conodonta. Lawrence, Kansas: Geological Society of America and University of Kansas Press, 202 pp.Google Scholar
Cooper, B. J. 1981. Early Ordovician conodonts from the Horn Valley Siltstone, central Australia. Palaeontology 24, 147–83.Google Scholar
Dietl, G. P., Kidwell, S. M., Brenner, M., Burney, D. A., Flessa, K. W., Jackson, S. T. & Koch, P. L. 2015. Conservation paleobiology: leveraging knowledge of the past to inform conservation and restoration. Annual Review of Earth and Planetary Sciences 43, 79103.CrossRefGoogle Scholar
Dronov, A. 2005. Ordovician of St. Petersburg region. In Dronov, A., Tolmacheva, T., Raevskaya, E., & Nestell, M. (eds) Cambrian and Ordovician of St. Petersburg region. Guidebook of the pre-conference field trip. 6th Baltic Stratigraphical Conference IGCP 503 Meeting August 23–25. St. Petersburg: St. Petersburg State University & A.P. Karpinsky All-Russian Research Geological Institute, 59.Google Scholar
Drygant, D. M. 1974. Novyie sredneordovikskiye konodonty severo-zapadnoi Volyni. Paleontologicheskii sbornik 11, 5458.Google Scholar
Dzik, J. 1976. Remarks on the evolution of Ordovician conodonts. Acta Palaeontologica Polonica 21, 395455.Google Scholar
Dzik, J. 1978. Conodont biostratigraphy and paleogeographical relations of the Ordovician Mójcza Limestone (Holy Cross Mts., Poland). Acta Palaeontologica Polonica 23, 5172.Google Scholar
Dzik, J. 1979. Some terebratulid populations from the Lower Kimmeridgian of Poland and their relations to the biotic environment. Acta Palaeontologica Polonica 24, 473–92.Google Scholar
Dzik, J. 1983. Relationships between Baltic and North American Midcontinent Ordovician conodont faunas. Fossils and Strata 15, 5985.CrossRefGoogle Scholar
Dzik, J. 1990. Conodont evolution in high latitudes of the Ordovician. Courier Forschungsinstitut Senckenberg 117, 128.Google Scholar
Dzik, J. 1994. Conodonts of the Mójcza Limestone. Palaeontologia Polonica 53, 43128.Google Scholar
Dzik, J. 1997. Emergence and succession of Carboniferous conodont and ammonoid communities in the Polish part of the Variscan sea. Acta Palaeontologica Polonica 42, 57170.Google Scholar
Dzik, J. 1999. Evolution of the Late Ordovician high-latitude conodonts and dating of Gondwana glaciations. Bolletino della Societa Paleontologica Italiana 37, 237–53.Google Scholar
Dzik, J. 2000. The origin of the mineral skeleton in chordates. Evolutionary Biology 31, 105–54.Google Scholar
Dzik, J. 2008. Evolution of morphogenesis in 360-million-year-old conodont chordates calibrated in days. Evolution & Development 10, 769–77.CrossRefGoogle ScholarPubMed
Dzik, J. 2009. Conodont affinity of the enigmatic Carboniferous chordate Conopiscius. Lethaia 42, 3138.CrossRefGoogle Scholar
Dzik, J. 2015. Evolutionary roots of the conodonts with increased number of elements in the apparatus. Earth and Environmental Science Transactions of the Royal Society of Edinburgh 106, 2953.CrossRefGoogle Scholar
Dzik, J. 2020. Ordovician conodonts and the Tornquist Lineament. Palaeogeography Palaeoclimatology Palaeoecology 549, 109–57.CrossRefGoogle Scholar
Dzik, J. & Drygant, D. 1986. The apparatus of panderodontid conodonts. Lethaia 19, 133–41.CrossRefGoogle Scholar
Dzik, J. & Moskalenko, T. A. 2016. Problematic scale-like fossils from the Ordovician of Siberia with possible affinities to vertebrates. Neues Jahrbuch für Geologie und Paläontologie, Abhandlungen 279, 251–60.CrossRefGoogle Scholar
Dzik, J. & Trammer, J. 1980. Gradual evolution of conodontophorids in the Polish Triassic. Acta Palaeontologica Polonica 25, 5589.Google Scholar
Edward, O., Korte, C., Ullmann, C. V., Colmenar, J., Thibault, N., Bagnoli, G., Stouge, S. & Rasmussen, C. M. O. 2022. A Baltic perspective on the Early to early Late Ordovician δ13C and δ18O records and its paleoenvironmental significance. Paleoceanography and Paleoclimatology 37, e2021PA004309. doi: 10.1029/2021PA004309CrossRefGoogle Scholar
Ethington, R. L. 1959. Conodonts of the Ordovician Galena Formation. Journal of Paleontology 33, 257–92.Google Scholar
Ethington, R. L. & Clark, D. L. 1964. Conodonts from the El Paso Formation (Ordovician) of Texas and Arizona. Journal of Paleontology 38, 685704.Google Scholar
Ethington, R. L. & Clark, D. L. 1981. Lower and middle Ordovician conodonts from the Ibex area Western Millard County, Utah. Provo, Utah: Department of Geology Brigham Young University, 155 pp.Google Scholar
Ethington, R. L. & Clark, D. L. 1982. Lower and Middle Ordovician conodonts from the Ibex area, western Millard County, Utah. Brigham Young University, Geological Studies 28, 1160.Google Scholar
Fåhraeus, L. E. 1966. Lower Viruan (Middle Ordovician) conodonts from the Gullhögen quarry, southern central Sweden. Sveriges Geologiska Undersökning, Series C 610, 140.Google Scholar
Fåhraeus, L. E. 1982. Recognition and redescription of Pander's (1856) Scolopodus (form-) species – constituents of multi-element taxa (Conodontophorida, Ordovician). Geologica et Palaeontologica 16, 1928.Google Scholar
Fåhraeus, L. E. & Hunter, D. R. 1985. Simple-cone conodont taxa from the Cobbs Arm Limestone (Middle Ordovician), New World Island, Newfoundland. Canadian Journal of Earth Sciences 22, 1171–82.CrossRefGoogle Scholar
Ferretti, A. 1998. Late Ordovician conodonts from the Prague Basin, Bohemia. Palaeontologia Polonica 58, 123–39.Google Scholar
Ferretti, A. & Barnes, C. R. 1997. Upper Ordovician conodonts from the Kalkbank limestone of Thuringia, Germany. Palaeontology 40, 1542.Google Scholar
Ferretti, A. & Bergström, S. M. 2022. Middle-Upper Ordovician conodonts from the Ffairfach and Golden Grove groups in South Wales, United Kingdom. Historical Biology 34, 462–85.CrossRefGoogle Scholar
Ferretti, A., Bergström, S. M. & Barnes, C. R. 2014a. Katian (Upper Ordovician) conodonts from Wales. Palaeontology 57, 801–31.CrossRefGoogle Scholar
Ferretti, A., Messori, A. & Bergström, S. M. 2014b. Composition and significance of the Katian (Upper Ordovician) conodont fauna of the Vaux Limestone (Calcaire des Vaux) in Normandy, France. Estonian Journal of Earth Sciences 63, 214–19.Google Scholar
Furnish, W. M. 1938. Conodonts from the Prairie du Chien (Lower Ordovician) beds of the upper Mississippi Valley. Journal of Paleontology 12, 318–40.Google Scholar
Goldman, D., Sadler, P. M., Leslie, S. A., Melchin, M. J., Agterberg, F. P. & Gradstein, F. M. 2020. Chapter 20 – the Ordovician period. Geologic Time Scale 2, 631–94.Google Scholar
Golonka, J., Porębski, S. J., Barmuta, J., Papiernik, B., Bębenek, S., Barmuta, M., Botor, D., Pietsch, K. & Słomka, T. 2019. Palaeozoic palaeogeography of the East European Craton (Poland) in the framework of global plate tectonics. Annales Societatis Geologorum Poloniae 89, 381403.Google Scholar
Graves, R. W. & Ellison, S. 1941. Ordovician conodonts of the Marathon Basin, Texas. University of Missouri, School of Mines and Metallurgy, Technical Series Bulletin 14, 126.Google Scholar
Gutiérrez-Marco, J. C., Albanesi, G. L., Sarmiento, G. N. & Carlotto, V. 2008. An Early Ordovician (Floian) conodont fauna from the Eastern Cordillera of Peru (Central Andean Basin). Geologica Acta 6, 147–60.Google Scholar
Hadding, A. 1913. Undre Dicellograptusskiffern i Skåne jämte några därmed ekvivalenta bildningar. Lunds Universitets Årsskrift, N.F., Afd 2, 191.Google Scholar
Hall, A. & van Boeckel, M. 2020. Origin of the Baltic Sea basin by Pleistocene glacial erosion. Geologiska Föreningens i Stockholm Förhandlingar 142, 237–52.Google Scholar
Hamar, G. 1966. The Middle Ordovician of the Oslo Region, Norway. 22. Preliminary report on conodonts from the Oslo-Asker and Ringerike District. Norsk Geologisk Tidsskrift 46, 1783.Google Scholar
Hass, W. H. 1959. Conodonts from the Chappel Limestone of Texas. US Geological Survey Professional Paper 294-J, 365–99.Google Scholar
Heinsalu, H., Kaljo, D., Kurvits, T. & Viira, V. 2003. The stratotype of the Orasoja member (Tremadocian, Northeast Estonia): lithology, mineralogy, and biostratigraphy. Proceedings of the Estonian Academy of Sciences: Geology 52, 135–54.Google Scholar
Henningsmoen, G. 1948. The Tretaspis Series of the Kullatorp core. Bulletin of the Geological Institution of the University of Uppsala 32, 374432.Google Scholar
Heredia, S. & Mestre, A. 2019. The Middle Ordovician conodonts Eoplacognathus robustus Bergström and E. Lindstroemi (Hamar): taxonomy and apparatus reconstruction. Andean Geology 46, 556–66.CrossRefGoogle Scholar
Hints, L., Hints, O., Kaljo, D., Kiipli, T., Männik, P., Nõlvak, J. & Pärnaste, H. 2010. Hirnantian (latest Ordovician) bio- and chemostratigraphy of the Stirnas-18 core, western Latvia. Estonian Journal of Earth Sciences 59, 124.CrossRefGoogle Scholar
Hints, O., Viira, V. & Nõlvak, J. 2012. Darriwilian (Middle Ordovician) conodont biostratigraphy in NW Estonia. Estonian Journal of Earth Sciences 61, 210–26.CrossRefGoogle Scholar
Hoffman, A. 1979. Community paleoecology as an epiphenomenal science. Paleobiology 5, 357–79.CrossRefGoogle Scholar
Holmer, L. 1983. Lower Viruan disconformity surfaces in central Sweden. Geologiska Föreningens i Stockholm Förhandlingar 105, 2942.CrossRefGoogle Scholar
Hubbel, S. P. 2005. Neutral theory in community ecology and the hypothesis of functional equivalence. Functional Ecology 19, 166–72.CrossRefGoogle Scholar
Ji, Z. & Barnes, C. R. 1990. Apparatus reconstructions of Lower Ordovician conodonts from the Midcontinent province. Courier Forschungsinstitut Senckenberg 118, 333–51.Google Scholar
Ji, Z. & Barnes, C. R. 1994. Lower Ordovician conodonts of the St. George Group, Port au Port Peninsula, western Newfoundland, Canada. Palaeontographica Canadiana 11, 1149.Google Scholar
Johnston, D. I. & Barnes, C. R. 2000. Early and Middle Ordovician (Arenig) conodonts from St. Pauls Inlet and Martin Point, Cow Head Group, western Newfoundland, Canada. 2. Systematic paleontology. Geologica et Palaeontologica 34, 1187.Google Scholar
Kaljo, D., Borovko, N., Heinsalu, H., Khasanovich, K., Mens, K., Popov, L., Sergeeva, S., Sobolevskaya, R. & Viira, V. 1986. The Cambrian–Ordovician boundary in the Baltic Lagoda Clint area (north Estonia and Leningrad region, USSR). Eesti NSV Teaduste Akadeemia Toimetised. Geoloogia 35, 97108.Google Scholar
Kaljo, D., Hints, L., Männik, P. & Nõlvak, J. 2008. The succession of Hirnantian events based on data from Baltica: brachiopods, chitinozoans, conodonts, and carbon isotopes. Estonian Journal of Earth Sciences 57, 197218.CrossRefGoogle Scholar
Kennedy, D. J. 1980. A restudy of conodonts described by Branson. & Mehl, 1933, from the Jefferson City Formation, Lower Ordovician, Missouri. Geologica et Palaeontologica 14, 4576.Google Scholar
Kennedy, D. J., Barnes, C. R. & Uyeno, T. T. 1979. A Middle Ordovician conodont faunule from the Tetagouche Group, Camel Back Mountain, New Brunswick. Canadian Journal of Earth Sciences 16, 540–51.CrossRefGoogle Scholar
Khodalevich, A. N. & Chernikh, V. V. 1973. Novoe podsemeystvo Belodellinae (konodonty). Trudy Sverdlovskogo Gornogo Instituta 93, 4247.Google Scholar
Kidwell, S. M. & Flessa, K. W. 1996. The quality of the fossil record: populations, species, and communities. Annual Review of Ecology and Systematics 24, 433–64.Google Scholar
Kozlu, H., Göncüoğlu, M. C., Sarmiento, G. N. & Gül, M. A. 2002. Mid-Ordovician (Late Darriwilian) conodonts from the southern-central Taurides, Turkey: geological implications. Turkish Journal of Earth Sciences 11, 113–26.Google Scholar
Kranz, P. M. 1977. A model for estimating standing crop in ancient communities. Paleobiology 3, 415–21.CrossRefGoogle Scholar
Kröger, B., Hints, L., Lehnert, O., Männik, P. & Joachimski, M. 2014. The early Katian (Late Ordovician) reefs near Saku, northern Estonia and the age of the Saku Member, Vasalemma Formation. Estonian Journal of Earth Sciences 63, 271–76.Google Scholar
Kröger, B., Penny, A., Shen, Y. & Munnecke, A. 2020. Algae, calcitarchs and the Late Ordovician Baltic limestone facies of the Baltic Basin. Facies 66, 114.CrossRefGoogle Scholar
Lamont, A. & Lindström, M. 1957. Arenigian and Llandeilian cherts identified in the Southern Uplands of Scotland by means of conodonts, etc. Transactions of the Edinburgh Geological Society 17, 6070.CrossRefGoogle Scholar
Landing, E. 1976. Early Ordovician (Arenigian) conodont and graptolites biostratigraphy of the taconic allochton, Eastern New York. Journal of Paleontology 50, 614–46.Google Scholar
Lee, H. Y. 1975. Conodonten aus dem unteren und mittleren Ordovizium von Nordkorea. Palaeontographica Abteilung A 150, 161–86.Google Scholar
Lehnert, O. 1993. Bioestratigrafía de los conodontes Arenigianos de La Formación San Juan en la localidad de Niquivil (Precordillera Sanjuanina, Argentina) y su correlación intercontinental. Revista Española de Paleontologia 8, 153–64.Google Scholar
Lehnert, O. 1995. Ordovizische Conodonten aus der Präkordillere westargentiniens: ihre Bedeutung für Stratigraphie und Paläogeographie. Erlangen geologische Abhandlungen 125, 1193.Google Scholar
Lehnert, D., Keller, M. & Bordonaro, D. 1998. Early Ordovician conodonts from the southern Cuyania terrane (Mendoza Province, Argentina). Palaeontologia Polonica 58, 4765.Google Scholar
Leslie, S. A. 1997. Apparatus architecture of Belodina (Conodonta): interpretations based on fused clusters of Belodina compressa (Branson and Mehl, 1933) from the Middle Ordovician (Turinian) Plattin Limestone of Missouri and Iowa. Journal of Paleontology 71, 921–26.CrossRefGoogle Scholar
Leslie, S. A. 2000. Mohawkian (Upper Ordovician) conodonts of eastern North America and Baltoscandia. Journal of Paleontology 74, 1122–47.2.0.CO;2>CrossRefGoogle Scholar
Leslie, S. A. & Lehnert, O. 2005. Middle Ordovician (Chazyan) sea-level changes and the evolution of the Ordovician conodont genus Cahabagnathus Bergstrom, 1983. Journal of Paleontology 79, 1131–42.CrossRefGoogle Scholar
Lindskog, A., Eriksson, M. E., Rasmussen, J. A., Dronov, A. & Rasmussen, C. M. O. 2020. Middle Ordovician carbonate facies development, conodont biostratigraphy and faunal diversity patterns at the Lynna River, northwestern Russia. Estonian Journal of Earth Sciences 69, 3761.CrossRefGoogle Scholar
Lindström, M. 1955a. Conodonts from the lowermost Ordovician strata of south-central Sweden. Geologiska Föreningens i Stockholm Förhandlingar 76, 517604.CrossRefGoogle Scholar
Lindström, M. 1955b. The conodonts described by A. R. Hadding, 1913. Journal of Paleontology 29, 105–11.Google Scholar
Lindström, M. 1964. Conodonts. Amsterdam: Elsevier, 196 pp.Google Scholar
Lindström, M. 1970. A suprageneric taxonomy of the conodonts. Lethaia 3, 427–45.CrossRefGoogle Scholar
Lindström, M. 1971. Lower Ordovician conodonts of Europe. Geological Society of America, Memoir 127, 2161.CrossRefGoogle Scholar
Lindström, M. 1977. Genus Amorphognathus Branson & Mehl. In Ziegler, W. (ed.) Catalogue of conodonts III, 2152. E. Stuttgart: Schweizerbart'sche Verlagsbuchhandlung.Google Scholar
Löfgren, A. 1978. Arenigian and Llanvirnian conodonts from Jämtland, Northern Sweden. Fossils and Strata 13, 1129.CrossRefGoogle Scholar
Löfgren, A. 1985. Early Ordovician conodont biozonation at Finngrundet, south Bothnian Bay, Sweden. Bulletin of the Geological Institutions of the University of Uppsala 10, 115–28.Google Scholar
Löfgren, A. 1990. Non-platform elements of the Ordovician conodont genus Polonodus. Paläontologische Zeitschrift 64, 245–59.CrossRefGoogle Scholar
Löfgren, A. 1993. Arenig conodont successions from central Sweden. Geologiska Föreningens i Stockholm Förhandlingar 129, 193207.CrossRefGoogle Scholar
Löfgren, A. 1994. Arenig (Lower Ordovician) conodonts and biozonation in the eastern Siljan District, central Sweden. Journal of Paleontology 68, 1350–68.CrossRefGoogle Scholar
Löfgren, A. 1995. The middle Lanna/Volkhov Stage (middle Arenig) of Sweden and its conodont fauna. Geological Magazine 132, 693711.CrossRefGoogle Scholar
Löfgren, A. 1997a. Conodont faunas from the upper Tremadoc at Brattefors, south-central Sweden, and reconstruction of the Paltodus apparatus. Geologiska Föreningens i Stockholm Förhandlingar 129, 113–16.Google Scholar
Löfgren, A. 1997b. Reinterpretation of the Lower Ordovician conodont apparatus Paroistodus. Palaeontology 40, 913–29.Google Scholar
Löfgren, A. 1998. Apparatus structure of the Ordovician conodonts Decoriconus peselephantis (Lindström 1955). Paläontologische Zeitschrift 72, 337–50.CrossRefGoogle Scholar
Löfgren, A. 1999a. The Ordovician conodont Semiacontiodus cornuformis (Sergeeva, 1963) and related species in Baltoscandia. Geologica et Palaeontologica 33, 7191.Google Scholar
Löfgren, A. 1999b. A septimembrate apparatus model for the Ordovician conodont genus Cornuodus Fåhraeus, 1966. Bolletino della Societa Paleontologica Italiana 37, 175–86.Google Scholar
Löfgren, A. 2000. Early to early Middle Ordovician conodont biostratigraphy of the Gillberga quarry, northern Öland, Sweden. Geologiska Föreningens i Stockholm Förhandlingar 122, 321–38.Google Scholar
Löfgren, A. 2003. Conodont faunas with Lenodus variabilis in the upper Arenigian to lower Llanvirnian of Sweden. Acta Palaeontologica Polonica 48, 417–36.Google Scholar
Löfgren, A. 2006. An Oistodus venustus-like conodont species from the Middle Ordovician of Baltoscandia. Paläontologische Zeitschrift 80, 1221.CrossRefGoogle Scholar
Löfgren, A. & Laufeld, S. 2007. Ordovician limestone in Hälsingland, Sweden. Geologiska Föreningens i Stockholm Förhandlingar 129, 113–16.Google Scholar
Löfgren, A., Repetski, J. E. & Ethington, R. L. 1999. Some trans-Iapetus conodont faunal connections in the Tremadocian. Bollettino della Società Paleontologica Italiana 37, 159–73.Google Scholar
Löfgren, A. & Tolmacheva, T. 2008. Morphology, evolution and stratigraphic distribution in the Middle Ordovician conodont genus Microzarkodina. Earth and Environmental Science Transactions of the Royal Society of Edinburgh 99, 2748.CrossRefGoogle Scholar
Löfgren, A. & Tolmacheva, T. J. 2003. Taxonomy and distribution of the Ordovician conodont Drepanodus arcuatus Pander, 1856, and related species. Paläontologische Zeitschrift 77, 203–21.CrossRefGoogle Scholar
Löfgren, A. & Viira, V. 2007. A Cordylodus fauna from the SW Gulf of Bothnia, Sweden. Geologiska Föreningens i Stockholm Förhandlingar 129, 117–21.Google Scholar
Löfgren, A., Viira, V. & Mens, K. 2005. Conodont biostratigraphy and sedimentary history in the upper Tremadoc at Uuga, Cape Pakri, NW Estonia. Geologiska Föreningens i Stockholm Förhandlingar 127, 283–93.Google Scholar
Mango, M. J. & Albanesi, G. L. 2020. Conodont biostratigraphy and correlation of the San Juan Formation at the Cerro La Silla section, middle Tremadocian–lower Dapingian, Central Precordillera, Argentina. Andean Geology 47, 577–98.CrossRefGoogle Scholar
Männik, P. 2017. Conodont biostratigraphy of the Oandu Stage (Katian, Upper Ordovician) in NE Estonia. Estonian Journal of Earth Sciences 66, 112.CrossRefGoogle Scholar
Männik, P. & Viira, V. 2012. Ordovician conodont diversity in northern Baltic. Estonian Journal of Earth Sciences 61, 114.CrossRefGoogle Scholar
McCracken, A. D. 1991. Middle Ordovician conodonts from the Cordillera Road River Group, northern Yukon Territory, Canada. Geological Survey of Canada, Bulletin 417, 4163.Google Scholar
McCracken, A. D. & Barnes, C. R. 1982. Restudy of conodonts (Late Ordovician–Early Silurian) from the Edgewood Group, Clarksville, Missouri. Canadian Journal of Earth Sciences 19, 1474–85.CrossRefGoogle Scholar
McHargue, T. R. 1982. Ontogeny, phylogeny, and apparatus reconstruction of the conodont genus Histiodella, Joins Fm., Arbuckle Mountains, Oklahoma. Journal of Paleontology 56, 1410–33.Google Scholar
Mellgren, J. I. S. 2010. A rare occurrence of serrate conodont elements of Panderodus Ethington in the Middle Ordovician ‘Täljsten’ interval at Kinnekulle, south Sweden. Geologiska Föreningens i Stockholm Förhandlingar 132, 183–91.Google Scholar
Mellgren, J. S. & Eriksson, M. E. 2006. A model of reconstruction for the oral apparatus of the Ordovician conodont genus Protopanderodus Lindström, 1971. Earth and Environmental Science Transactions of the Royal Society of Edinburgh 97, 97112.CrossRefGoogle Scholar
Mellgren, J. S., Schmitz, B., Ainsaar, L., Kirsimäe, K. & Eriksson, M. E. 2012. Conodont dating of the Middle Ordovician breccia cap-rock limestone on Osmussaar Island, northwestern Estonia. Estonian Journal of Earth Sciences 61, 133–48.CrossRefGoogle Scholar
Mens, K., Heinsalu, H., Jegonian, K., Kurvits, T., Puura, I. & Viira, V. 1996. Cambrian-Ordovician boundary beds in Pakri Cape section. Proceedings of the Estonian Academy of Sciences, Geology 45, 921.Google Scholar
Mens, K., Viira, V., Paalits, I. & Puura, I. 1993. Upper Cambrian biostratigraphy of Estonia. Eesti NSV Teaduste Akadeemia Toimetised. Geoloogia 42, 148–59.Google Scholar
Merrill, G. K. 1980. Ordovician conodonts from the Åland Islands, Finland. Geologiska Föreningens i Stockholm Förhandlingar 101, 329–41.CrossRefGoogle Scholar
Mestre, G. A. I. & Heredia, S. E. 2019. Lower-middle Darriwilian index conodonts from the Precordillera: new taxonomical approaches. Palaeobiodiversity and Palaeoenvironments 100, 737–56.CrossRefGoogle Scholar
Miller, J. F. 1969. Conodont fauna of the Notch Peak Limestone (Cambro-Ordovician), House Range, Utah. Journal of Paleontology 43, 413–39.Google Scholar
Miller, J. F. 1980. Taxonomic revisions of some Upper Cambrian and Lower Ordovician conodonts with comments on their evolution. The University of Kansas Paleontological Contributions, Paper 99, 139.Google Scholar
Modliński, Z. 1973. Stratygrafia i rozwój ordowiku w północno-wschodniej Polsce. Prace Instytutu Geologicznego 72, 174.Google Scholar
Moskalenko, T. A. 1973. Konodonty srednego i verkhnego ordovika Sibirskoy Platformy. Trudy Instituta Geologii i Geofiziki SOAN SSSR 137, 1143.Google Scholar
Müller, K. J. 1959. Kambrische Conodonten. Zeitschrift der Deutschen Geologischen Gesellschaft 111, 434–85.CrossRefGoogle Scholar
Müller, K. J. & Hinz, I. 1991. Upper Cambrian conodonts from Sweden. Fossils and Strata 28, 1153.CrossRefGoogle Scholar
Müller, K. J. & Müller, E. M. 1957. Early Upper Devonian (Independence) conodonts from Iowa, part 1. Journal of Paleontology 31, 1069–108.Google Scholar
Murdock, D. J. E. & Smith, M. P. 2021. Panderodus from the Waukesha Lagerstatte of Wisconsin, USA: a primitive macrophagous vertebrate predator. Papers in Palaeontology 7, 1977–93.CrossRefGoogle Scholar
Nehring-Lefeld, M. 1987. Konodonty ordowickie obniżenia podlaskiego. Kwartalnik Geologiczny 31, 279322.Google Scholar
Nicoll, R. 1992. Analysis of conodont apparatus organisation and the genus Jumudontus (Conodonta), a coniform-pectiniform apparatus structure from the Early Ordovician. BMR Journal of Australian Geology and Geophysics 13, 213–28.Google Scholar
Nicoll, R. & Ethington, R. 2004. Lissoepikodus nudus gen. et sp. nov. and Oepikodus cleftus sp. nov., new septimembrate conodont taxa from the Early Ordovician of Australia and Nevada. Courier Forschungsinstitut Senckenberg 245, 427–61.Google Scholar
Nōlvak, J., Hints, O. & Männik, P. 2006. Ordovician timescale in Estonia: recent developments. Proceedings of the Estonian Academy of Sciences: Geology 55, 95108.Google Scholar
Nowlan, G. S. 1979. Fused clusters of the conodont genus Belodina from the Thumb Mountain Formation (Ordovician), Ellesmere. Island, District of Franklin. Current Research, Part A, Geological Survey of Canada, Paper 79, 213–18.Google Scholar
Nowlan, G. S., McCracken, A. D. & Chatterton, B. D. E. 1988. Conodonts from Ordovician-Silurian boundary strata, Whittaker formation, Mackenzie Mountains, Northwest Territories. Geological Survey of Canada, Bulletin 373, 199.Google Scholar
Nowlan, G. S., McCracken, A. D. & McLeod, M. J. 1997. Tectonic and paleogeographic significance of Late Ordovician conodonts in the Canadian Appalachians. Canadian Journal of Earth Sciences 34, 1521–37.CrossRefGoogle Scholar
Orchard, M. J. 1980. Upper Ordovician conodonts from England and Wales. Geologica et Palaeontologica 14, 944.Google Scholar
Overweel, C. J. 1977. Distribution and transport of Fennoscandinavian indicators: a synthesis of data from the literature leading to a reconstruction of a pattern of flowlines and ice margins of the Scandinavian ice sheets. Scripta Geologica 43, 1117.Google Scholar
Paiste, T., Männik, P. & Meidla, T. 2022. Sandbian (Late Ordovician) conodonts in Estonia: distribution and biostratigraphy. Geologiska Föreningens i Stockholm Förhandlingar 144, 115.Google Scholar
Paiste, T., Männik, P. & Meidla, T. 2023. Emended Sandbian (Ordovician) conodont biostratigraphy in Baltoscandia and a new species of Amorphognathus. Geological Magazine 160, 411–27.CrossRefGoogle Scholar
Paiste, T., Männik, P., Nõlvak, J. & Meidla, T. 2020. The lower boundary of the Haljala Regional Stage (Sandbian, Upper Ordovician) in Estonia. Estonian Journal of Earth Sciences 69, 7690.CrossRefGoogle Scholar
Pander, C. H. 1856. Monographie der fossilen Fische des Silurischen Systems der russisch-baltischen Gouvernements. St. Petersburg: Akademie der Wissenschaften, 91 pp.Google Scholar
Podhalańska, T., Modliński, Z. & Waleczek, K. 2019. Szczegółowy profil litologiczno-stratygraficzny otworu wiertniczego Jezioro Okrągłe IG 1. Sylur, ordowik. In Cymerman, Z. & Wiszniewska, J. (eds) Profile Głębokich Otworów Wiertniczych – Jezioro Okrągłe IG 1, IG 2, 154, 2426.Google Scholar
Popov, L. E., Álvaro, J. J., Holmer, L. E., Bauert, H., Pour, M. G., Dronov, A. V., Lehnert, O., Hints, O., Männik, P., Zhang, Z. & Zhang, Z. 2019. Glendonite occurrences in the Tremadocian of Baltica: first Early Palaeozoic evidence of massive ikaite precipitation in temperate latitudes. Scientific Reports 9, 7205.CrossRefGoogle ScholarPubMed
Pyle, L. J. & Barnes, C. R. 2002. Taxonomy, evolution, and biostratigraphy of Conodonts from the Kechika formation, Skoki formation, and road river group (upper Cambrian to lower Silurian), Northeastern British Columbia. Ottawa: Canadian Science Publishing, 227 pp.CrossRefGoogle Scholar
Rasmussen, J. A. 1991. Conodont stratigraphy of the Lower Ordovician Huk Formation at Slemmestad, southern Norway. Norsk Geologisk Tidsskrift 71, 265–88.Google Scholar
Rasmussen, J. A. 2001. Conodont biostratigraphy and taxonomy of the Ordovician shelf margin deposits in the Scandinavian Caledonides. Fossils & Strata 48, 1179.Google Scholar
Rasmussen, J. A., Eriksson, M. E. & Lindskog, A. 2021. Middle Ordovician Drepanoistodus (Vertebrata, Conodonta) from Baltica, with description of three new species. European Journal of Taxonomy 774, 106–34.CrossRefGoogle Scholar
Rasmussen, J. A. & Stouge, S. 2018. Baltoscandian conodont biofacies fluctuations and their link to Middle Ordovician (Darriwilian) global cooling. Palaeontology 61, 391416.CrossRefGoogle Scholar
Rexroad, C. B. 1967. Stratigraphy and conodont paleontology of the Brassfield (Silurian) in the Cincinnati arch area. Indiana Geological Survey Bulletin 36, 164.Google Scholar
Rhodes, F. H. T. 1953. Some British Lower Palaeozoic conodont faunas. Philosophical Transactions of the Royal Society of London Series B 237, 261334.Google Scholar
Rhodes, F. H. T. 1955. The conodont fauna of the Keisley Limestone. Quarterly Journal of the Geological Society of London 111, 117–42.CrossRefGoogle Scholar
Saadre, T., Einasto, R., Nõlvak, J. & Stouge, S. 2004. Ordovician stratigraphy of the Kovel-1 well (Volkhov–Haljala) in the Volynia region, northwestern Ukraine. Bulletin of the Geological Society of Denmark 51, 4769.CrossRefGoogle Scholar
Sansom, I. J. 1996. Pseudooneotodus: a histological study of an Ordovician to Devonian vertebrate lineage. Zoological Journal of the Linnean Society 118, 147–57.CrossRefGoogle Scholar
Satterfield, I. R. 1971. Conodonts and stratigraphy of the Guardeau Limestone (Ordovician) of southeast Missouri and southwest Illinois. Journal of Paleontology 45, 265–73.Google Scholar
Sergeeva, S. P. 1963a. Konodonty iz nizhnego ordovika Leningradskoi oblasti. Paleontologicheskiy zhurnal 2, 93108.Google Scholar
Sergeeva, S. P. 1963b. Novyi ranneordovikskiy rod konodontov semejstva Prioniodinidae. Paleontologicheskiy zhurnal 4, 138–40.Google Scholar
Sergeeva, S. P. 1974. Nekotoryje novyje konodonty iz ordovikskikh otlozhenii leningradskoj oblasti. Paleontologičeskiy Sbornik 11, 7984.Google Scholar
Serpagli, E. 1967. I conodonti dell'Ordoviciano superiore (Ashgilliano) delle Alpi Carniche. Bollettino della Società Paleontologica Italiana 6, 30111.Google Scholar
Serpagli, E. 1974. Lower Ordovician conodonts from Precordilleran Argentina (Province of San Juan). Bolletino della Societa Paleontologica Italiana 13, 1798.Google Scholar
Serpagli, E., Ferretti, A., Nicoll, R. S. & Serventi, P. 2008. The conodont genus Teridontus (Miller, 1980) from the early Ordovician of Montagne Noire, France. Journal of Paleontology 82, 612–20.CrossRefGoogle Scholar
Smith, M. P. 1991. Early Ordovician conodonts of east and north Greenland. Meddelelser om Grønland, Geoscience 26, 181.CrossRefGoogle Scholar
Spassov, H. & Teller, L. 1963. Konodonty ot ordovikskite varovicy pri s. Mójcza v Górach Świętokrzyskich, Poland. Travaux sur la Géologie de Bulgarie, Série Paléontogie 5, 7587.Google Scholar
Stauffer, C. R. 1935. Conodonts of the Glenwood Beds. Bulletin of the Geological Society of America 45, 126–68.Google Scholar
Stouge, S. S. 1984. Conodonts of the Middle Ordovician Table Head Formation, western Newfoundland. Fossils & Strata 16, 1145.CrossRefGoogle Scholar
Stouge, S. 1989. Lower Ordovician (Ontikan) conodont biostratigraphy in Scandinavia. Eesti NSV Teaduste Akadeemia Toimetised, Geoloogia 38, 6872.Google Scholar
Stouge, S. 2005. Barrandegnathus n. gen. (Conodonta) from the Komstad Limestone (lower Mid Ordovician), Scandinavia, and its palaeogeographical significance. Bulletin of the Geological Society of Denmark 52, 245–55.CrossRefGoogle Scholar
Stouge, S. 2012. Middle Ordovician (late Dapingian–Darriwilian) conodonts from the Cow Head Group and Lower Head Formation, western Newfoundland, Canada. Canadian Journal of Earth Sciences 49, 5990.CrossRefGoogle Scholar
Stouge, S. & Bagnoli, G. 1988. Early Ordovician conodonts from Cow Head Peninsula, western Newfoundland. Palaeontographia Italica 75, 89179.Google Scholar
Stouge, S. & Bagnoli, G. 1990. Lower Ordovician (Volkhovian–Kundan) conodonts from Hagudden, northern Öland, Sweden. Palaeontographica Italica 77, 154.Google Scholar
Stouge, S., Bagnoli, G. & Rasmussen, J. A. 2020. Late Cambrian (Furongian) to mid-Ordovician euconodont events on Baltica: invasions and immigrations. Palaeogeography, Palaeoclimatology, Palaeoecology 549, 109151.CrossRefGoogle Scholar
Stouge, S., Harper, D. A. T., Sevastopulo, G. D., O'Mahony, D. & Murray, J. 2016. Lower and Middle Ordovician conodonts of Laurentian affinity from blocks of limestone in the Rosroe Formation, South Mayo Trough, western Ireland and their palaeogeographic implication. Geological Journal 51, 584–99.CrossRefGoogle Scholar
Stouge, S. & Nielsen, A. 2003. An integrated biostratigraphical analysis of the Volkhov-Kunda (Lower Ordovician) succession at Fågelsång, Scania, Sweden. Bulletin of the Geological Society of Denmark 50, 7594.CrossRefGoogle Scholar
Stouge, S. & Rasmussen, J. A. 1996. Upper Ordovician conodonts from Bornholm and possible migration routes in the Palaeotethys Ocean. Bulletin of the Geological Society of Denmark 43, 5467.CrossRefGoogle Scholar
Sweet, W. C. 1979. Late Ordovician conodonts and biostratigraphy of the western Midcontinent Province. Brigham University Geology Studies 26, 4586.Google Scholar
Sweet, W. C. 1988. The conodonta: morphology, taxonomy, paleoecology, and evolutionary history of a long-extinct animal phylum. New York: Oxford Monographs on Geology and Geophysics no. 10, Clarendon Press, 212 pp.Google Scholar
Sweet, W. C. & Bergström, S. M. 1962. Conodonts from the Pratt Ferry Formation (Middle Ordovician) of Alabama. Journal of Paleontology 36, 1214–52.Google Scholar
Sweet, W. C. & Bergström, S. M. 1974. Provincialism exhibited by Ordovician conodont faunas. Society of Economic Paleontologists and Mineralogists Special Publication 21, 189202.Google Scholar
Sweet, W. C. & Donoghue, P. C. J. 2001. Conodonts: past, present, future. Journal of Paleontology 75, 1174–84.2.0.CO;2>CrossRefGoogle Scholar
Szaniawski, H. 1980. Conodonts from the Tremadocian chalcedony beds, Holy Cross Mts. Acta Palaeontologica Polonica 25, 101–21.Google Scholar
Szaniawski, H. 2009. The earliest known venomous animals recognized among conodonts. Acta Palaeontologica Polonica 54, 669–76.CrossRefGoogle Scholar
Szaniawski, H. 2015. New group of the Early Palaeozoic conodont-like fossils. Estonian Journal of Earth Sciences 64, 9194.CrossRefGoogle Scholar
Szaniawski, H. & Bengtson, S. 1998. Late Cambrian euconodonts from Sweden. Palaeontologia Polonica 58, 729.Google Scholar
Tolmacheva, T. Y. 2001. Conodont biostratigraphy and diversity in the lower-middle Ordovician of Eastern Baltoscandia (St. Petersburg region, Russia) and Kazakhstan. Comprehensive summary of doctoral dissertation, Department of Earth Sciences, Historical Geology and Palaeontology, Uppsala University, 40 pp.Google Scholar
Tolmacheva, T. Y. 2006. Apparatus of the conodont Scolopodus striatus Pander, 1856 and a re-evaluation of Pander's species of Scolopodus. Acta Palaeontologica Polonica 51, 247–60.Google Scholar
Tolmacheva, T. Y. 2014. Biostratigrafiya i biogeografiya konodontov ordovika zapadnoy chasti centralno-aziatskogo skladchatogo poyasa. Trudy VSEGEI novaya seria 356, 1263.Google Scholar
Tolmacheva, T., Egerquist, E., Meidla, T. & Holmer, L. 2001a. Spatial variations in faunal composition, Middle Ordovician, Volkhov Stage, East Baltic. Geologiska Föreningens i Stockholm Förhandlingar 123, 6572.Google Scholar
Tolmacheva, T. & Fedorov, P. 2001. The Ordovician Billingen/Volkhov boundary interval (Arenig) at Lava River, northwestern Russia. Norsk Geologisk Tiddskrift 81, 161–68.Google Scholar
Tolmacheva, T., Fedorov, P. & Egerquist, E. 2003. Conodonts and brachiopods from the Volkhov stage (lower Ordovician) microbial mud mound at Putilovo Quarry, north-western Russia. Bulletin of the Geological Society of Denmark 50, 6374.CrossRefGoogle Scholar
Tolmacheva, T. J., Koren, T. N., Holmer, L. E., Popov, L. E. & Raevskaya, E. 2001b. The Hunneberg Stage (Ordovician) in the area east of St. Petersburg, north-western Russia. Paläontologische Zeitschrift 74, 543–61.CrossRefGoogle Scholar
Tolmacheva, T. J. & Löfgren, A. 2000. Morphology and paleogeography of the Ordovician conodont Paracordylodus gracilis Lindström, 1955a. Comparison of two populations. Journal of Paleontology 74, 1114–21.2.0.CO;2>CrossRefGoogle Scholar
Tolmacheva, T. J. & Purnell, M. 2002. Apparatus composition, growth, and survivorship of the Lower Ordovician conodont Paracordylodus gracilis Lindström, 1955. Palaeontology 45, 209–28.CrossRefGoogle Scholar
Tolmacheva, T. J. & Roberts, D. 2007. New data on Upper Ordovician conodonts from the Trondheim Region, Central Norwegian Caledonides. Norges geologiske undersøkelse Bulletin 447, 515.Google Scholar
Torsvik, T. H. & Cocks, L. R. M. 2017. Earth history and palaeogeography. Cambridge: Cambridge University Press, 317 pp.Google Scholar
Trotter, J. A. & Webby, B. D. 1994. Upper Ordovician conodonts from the Malongulli Formation, Cliefden Caves area, central New South Wales. AGSO Journal of Australian Geology & Geophysics 15, 475–99.Google Scholar
van Wamel, W. A. 1974. Conodont biostratigraphy of the Upper Cambrian and Lower Ordovician of north-western Öland, south-eastern Sweden. Utrecht Micropaleontological Bulletin 10, 1126.Google Scholar
Viiding, H., Gaigalas, A., Gudelis, V., Raukas, A. & Tarvydas, R. 1971. Crystalline indicator boulders in the east Baltic area. Vilnius: Mintis, 95 pp.Google Scholar
Viira, V. 1970. Konodonty varanguskoj pachki (verkhnij tremadok Estonii). Eesti NSV Teadeuste Toimetised, Keemia, Geoloogia 19, 224–33.CrossRefGoogle Scholar
Viira, V. 1974. Konodonty ordovika Pribaltiki. Tallinn: Valgus, 142 pp.Google Scholar
Viira, V., Aldridge, R. J. & Curtis, S. 2006a. Conodonts of the Kiviõli Member, Viivikonna Formation (upper Ordovician) in the Kohtla section, Estonia. Proceedings of the Estonian Academy of Sciences, Geology 55, 213–40.Google Scholar
Viira, V., Kivimägi, E. & Loog, A. 1970. O litologii i vozrastie varanguskoi pachki (tremadok severnoi Estonii). Eesti NSV Teaduste Akadeemia toimetised. Keemia-Geoloogia 19, 147–55.Google Scholar
Viira, V., Löfgren, A., Mägi, S. & Wickström, J. 2001. An Early to Middle Ordovician succession of conodont faunas at Mäekalda, northern Estonia. Geological Magazine 138, 699718.CrossRefGoogle Scholar
Viira, V., Mens, K. & Nemliher, J. 2006b. Lower Ordovician Leetse Formation in the North Estonian Klint area. Proceedings of the Estonian Academy of Sciences, Geology 55, 156–74.Google Scholar
Viira, V., Sergeeva, S. & Popov, L. 1987. Earliest representatives of the genus Cordylodus (Conodonts) from Cambro-Ordovician boundary beds of north Estonia and Leningrad region. NSV Teaduste Akadeemia toimetised. Keemia-Geoloogia 36, 145–53.Google Scholar
Von Bitter, P. H. & Purnell, M. A. 2005. An experimental investigation of post-depositional taphonomic bias in conodonts. Special Papers in Palaeontology 73, 3956.Google Scholar
Walliser, O. H. 1964. Conodonten des Silurs. Abhandlungen der Hessischen Landesamtes Bodenforschung 41, 1106.Google Scholar
Wang, C. Y. (ed.) 1993. Conodonts of the lower Yangtze valley – an index to biostratigraphy and organic metamorphic maturity. Beijing: Science Press.Google Scholar
Wang, X., Stouge, S., Chen, X., Li, Z., Wang, C., Finney, S., Zeng, Q., Zhou, Z., Chen, H. & Erdtmann, B.-D. 2009. The global stratotype section and point for the base of the Middle Ordovician series and the third stage (Dapingian). Episodes 32, 96113.Google Scholar
Wang, Z. H. & Qi, Y. P. 2001. Ordovician conodonts from drillings in the Taklamakan Desert, Xinjiang, NW China. Acta Micropalaeontologica Sinica 18, 133–48.Google Scholar
Watson, S. T. 1988. Ordovician conodonts from the Canning Basin (W. Australia). Palaeontographica 203A, 91147.Google Scholar
Wolska, Z. 1961. Konodonty z ordowickich głazów narzutowych Polski. Acta Palaeontologica Polonica 6, 339–65.Google Scholar
Wu, R., Calner, M. & Lehnert, O. 2017. Integrated conodont biostratigraphy and carbon isotope chemostratigraphy in the lower-middle Ordovician of southern Sweden reveals a complete record of the MDICE. Geological Magazine 154, 334–53.CrossRefGoogle Scholar
Wu, R., Calner, M., Lehnert, O., Lindskog, A., Erlström, M. & Joachimski, M. 2018. Conodont biostratigraphy and carbon isotope stratigraphy of the middle Ordovician (Darriwilian) Komstad Limestone Formation, southern Sweden. Geologiska Föreningens i Stockholm Förhandlingar 140, 4454.Google Scholar
Zatoń, M., Broda, K., Qvarnstrom, M., Niedźwiedzki, G. & Ahlberg, P. E. 2017. The first evidence of Late Devonian coelacanth fish feeding on conodont animals. Science of Nature 104, 15.CrossRefGoogle ScholarPubMed
Zhang, J. 1997. The lower Ordovician conodont Eoplacognathus crassus Chen & Zhang, 1993. Geologiska Föreningens i Stockholm Förhandlingar 119, 6165.Google Scholar
Zhang, J. 1998a. The Ordovician conodont genus Pygodus. Palaeontologia Polonica 58, 87105.Google Scholar
Zhang, J. 1998b. Conodonts from the Guniutan Formation (Llanvirnian) in Hubei and Hunan Provinces, south-central China. Stockholm Contributions in Geology 46, 1161.Google Scholar
Zhang, J. 1999. Review of the Ordovician conodont zonal index Eoplacognathus suecicus Bergström, 1971. Journal of Paleontology 73, 487–93.Google Scholar
Zhang, J. & Sturkell, E. 1998. Aserian and Lasnamägian (Middle Ordovician) conodont biostratigraphy and lithology at Kullstaberg and Lunne in Jamtland, central Sweden. Geologiska Föreningens i Stockholm Förhandlingar 120, 7583.Google Scholar
Zhang, S. & Barnes, C. R. 2002. A new Llandovery (Early Silurian) conodont biozonation and conodonts from the Becscie, Merrimack, and Gun River Formations, Anticosti Island, Québec. The Paleontological Society Memoir 57 (Supplement to Journal of Paleontology) 76, 146.Google Scholar
Zhang, S., Mirza, K. & Barnes, C. R. 2016. Upper Ordovician–Upper Silurian conodont biostratigraphy, Devon Island and southern Ellesmere Island, Canadian Arctic Islands, with implications for regional stratigraphy, eustasy, and thermal maturation. Canadian Journal of Earth Sciences 53, 931–49.CrossRefGoogle Scholar
Zhang, S., Tarrant, G. A. & Barnes, C. R. 2011. Upper Ordovician conodont biostratigraphy and the age of the Collingwood Member, southern Ontario, Canada. Canadian Journal of Earth Sciences 48, 1497–522.CrossRefGoogle Scholar
Zhen, Y. Y. 2019. Revision of two phragmodontid species (Conodonta) from the Darriwilian (Ordovician) of the Canning Basin in Western Australia and phylogeny of the Cyrtoniodontidae. Alcheringa 43, 120.CrossRefGoogle Scholar
Zhen, Y. Y. 2020. Revision of the Darriwilian (middle Ordovician) conodonts documented by Watson (1988) from Subsurface Canning Basin, Western Australia. Alcheringa 44, 217–52.CrossRefGoogle Scholar
Zhen, Y. Y. 2023. Revision of conodont genus Protoprioniodus and its type species from the lower Ordovician of the Canning Basin, Western Australia. Paleoworld 33, 1195–210. doi: 10.1016/j.palwor.2023.09.006CrossRefGoogle Scholar
Zhen, Y. Y., Bauer, J. A. & Bergström, S. M. 2022. Revision of Histiodella labiosa Bauer, 2010, and its inferred phylogeny in the evolution of the Middle Ordovician conodont genus Histiodella Harris, 1962. Journal of Paleontology 96, 1149–65.CrossRefGoogle Scholar
Zhen, Y. Y., Burrett, C. F., Percival, I. G. & Lin, B. Y. 2010. A late Ordovician conodont fauna from the lower Limestone Member of the Benjamin Limestone in central Tasmania, and revision of Tasmanognathus careyi Burrett, 1979. Proceedings of the Linnean Society of New South Wales 131, 4372.Google Scholar
Zhen, Y. Y., Cooper, R. A., Simes, J. E. & Percival, I. G. 2011a. Darriwilian (Middle Ordovician) conodonts from the Maruia-Springs Junction area, New Zealand. Memoirs of the Association of Australasian Palaeontologists 42, 285319.Google Scholar
Zhen, Y.-Y., Liu, J. & Percival, I. G. 2007. Revision of the conodont Erraticodon hexianensis from the upper Meitan formation (middle Ordovician) of Guizhou, South China. Paleontological Research 11, 145–62.CrossRefGoogle Scholar
Zhen, Y. Y. & Nicoll, R. S. 2009. Biogeographic and biostratigraphic implications of the Serratognathus bilobatus fauna (Conodonta) from the Emanuel Formation (Early Ordovician) of the Canning Basin, Western Australia. Records of the Australian Museum 61, 130.CrossRefGoogle Scholar
Zhen, Y. Y., Percival, I. G., Cooper, R. A., Simes, J. E. & Wright, A. J. 2009a. Darriwilian (middle Ordovician) conodonts from Thompson Creek, Nelson Province, New Zealand. Memoirs of the Association of Australasian Palaeontologists 37, 2553.Google Scholar
Zhen, Y. Y., Percival, I. G., Liu, J. B. & Zhang, Y. D. 2009b. Conodont fauna and biostratigraphy of the Honghuayuan Formation (early Ordovician) of Guizhou, South China. Alcheringa 33, 257–95.CrossRefGoogle Scholar
Zhen, Y. Y., Percival, I. G. & Molloy, P. D. 2015a. Late Ordovician conodonts and brachiopods from near Greenvale in the Broken River Province, north Queensland. Proceedings of the Linnean Society of New South Wales 137, 85133.Google Scholar
Zhen, Y. Y., Percival, I. G. & Webby, B. D. 2003. Early Ordovician conodonts from far western New South Wales, Australia. Records of the Australian Museum 55, 169220.CrossRefGoogle Scholar
Zhen, Y. Y., Wang, Z. H., Zhang, Y. D., Bergström, S. M., Percival, I. G. & Chen, J. F. 2011b. Middle to Late Ordovician (Darriwilian-Sandbian) conodonts from the Dawangou section, Kalpin area of the Tarim Basin, northwestern China. Records of the Australian Museum 63, 203–66.CrossRefGoogle Scholar
Zhen, Y. Y., Zhang, Y., Tang, Z., Percival, I. G. & Yu, G. 2015b. Early Ordovician conodonts from Zhejiang Province, southeast China and their biostratigraphic and palaeobiogeographic implications. Alcheringa 39, 109–41.CrossRefGoogle Scholar
Zhen, Y. Y., Zhang, Y.-D., Chen, Z.-Y. & Wang, L.-W. 2023. Origin and evolution of the Early Ordovician conodont genus Prioniodus Pander, 1856 – new evidence from South China. Marine Micropaleontology 183, 102269.CrossRefGoogle Scholar
Supplementary material: File

Dzik supplementary material

Dzik supplementary material
Download Dzik supplementary material(File)
File 8.8 MB