First discovery of Mississippian trace fossils in the Świebodzice Unit from the Witoszów region (SW Poland)

• Autorzy: Muszer Jolanta

Identyfikatory

DOI

10.7306/gq.1558

• Języki publikacji: EN

Abstrakty

EN

Abundant and moderately diverse trace fossil assemblage have been discovered for the first time in mudstones of the Pogorzała Formation from the Witoszów region, SW Poland. Fifteen ichnospecies including fourteen ichnogenera are described. The ichnofauna is dominated by Dictyodora liebeana and contains numerous Palaeophycus tubularis, rarer Archaeonassa fossulata, Archaeonassa isp., Chondrites cf. intricatus, Curvolithus simplex, Diplopodichnus biformis, Lockeia isp., ?Lophoctenium isp., Nereites isp., Phycosiphon isp., Protovirgularia isp., ?Psammichnites isp., Taenidium isp. and one ichnospecies of fish swimming trails, Undichna cf. britannica. Some other structures (wave ripples influenced by microbial mats and zigzag structures) also occur. The trace fossil assemblages differ in various exposures, but three of them are similar and display the Dictyodora liebeana ichnoassemblage. It is represented mostly by the ethological categories fodinichnia and repichnia, with fewer pascichnia, domichnia and cubichnia. This new data from the Świebodzice Unit sheds light on the palaeontology, age and palaeoenvironment of the Pogorzała Formation. The occurrence of D. liebeana and U. cf. britannica indicates the Mississippian age of most mudstones studied, formerly considered Upper Devonian. The trace fossil assemblage belongs to the non-standard Nereites ichnofacies, without graphoglyptids. The lithological features of mudstones, trace fossil assemblage and poverty of macrofauna, testify to their deposition in a deeper sedimentation zone below storm wave base, most likely in dysaerobic, pro-delta conditions. This study suggests that rocks containing D. liebeana may form a correlative horizon in the Świebodzice Unit.

Słowa kluczowe

EN

Świebodzice Unit; Pogorzała Formation; Mississippian; trace fossils; fish trails; ichnofacies

• Wydawca: Państwowy Instytut Geologiczny - Państwowy Instytut Badawczy
• Czasopismo: Geological Quarterly
• Rocznik: 2020
• Tom: Vol. 64, No. 4
• Strony: 838--860
• Opis fizyczny: Bibliogr. 217 poz., fot., rys., tab.

Twórcy

autor

Muszer Jolanta

• University of Wrocław, Institute of Geological Sciences, Cybulskiego 30, 50-205 Wrocław, Poland

Bibliografia

• 1. Abbassi, N., 2007. Shallow marine trace fossils from Upper Devonian sediments of the Kuh-e Zard, Zefreh area, Central Iran. Iranian Journal of Science and Technology, 31: 23-33.
• 2. Aceñolaza, G., Aceñolaza, F., 2006. Nereites saltensis (trace fossil): a taxonomical reevaluation of type and additional material from the Puncoviscana Formation of NW Argentina (Ediacaran-Early Cambrian). In: V South American Symposium on Isotope Geology (eds. C. Gaucher and J. Bossi). Short Papers: 218-220. Punta del Este, Uruguay.
• 3. Alonso-Muruaga, P.J., Buatois, L.A., Limarino, C.O., 2013. Ichnology of the Late Carboniferous Hoyada Verde Formation of western Argentina: exploring postglacial shallow-marine ecosystems of Gondwana. Palaeogeography, Palaeoclimatology, Palaeoecology, 369: 228-238.
• 4. Álvaro, J.J., Vizcaïno, D., 1999. Biostratigraphic significance and environmental setting of the trace fossil Psammichnites in the Lower Cambrian of the Montagne Noire, France. Bulletin de la Société Géologique de France, 170: 821-828.
• 5. Anderson, A., 1976. Fish trails from the Early Permian of South Africa. Palaeontology, 19: 397-409.
• 6. Avanzini, M., Contardi, P., Ronchi, A., Santi, G., 2011. Ichnosystematics of the Lower Permian invertebrate traces from the Collio and Mt. Luco Basins (North Italy). Ichnos, 18: 95-113.
• 7. Baucon, A., Neto de Carvalho, C., 2008. From the river to the sea: Pramollo, a new ichnolagerstätte from the Carnic Alps (Carboniferous, Italy-Austria). Studi Trentini di Scienze Naturali, Acta Geologica, 83: 87-114.
• 8. Baucon, A., Ronchi, A., Felletti, F., Neto de Carvalho, C., 2014. Evolution of Crustaceans at the edge of the end-Permian crisis: Ichnonetwork analysis of the fluvial succession of Nurra (Permian-Triassic, Sardinia, Italy). Palaeogeography, Palaeoclimatology, Palaeoecology, 410: 74-103.
• 9. Baucon, A., Bednarz, M., Dufour, S., Felletti, F., Malgesini, G., De Carvalho, C.N., Niklas, K.J., Wehrmann, A., Batstone, R., Bernardini, F., Briguglio, A., Cabella, R., Cavalazzi, B., Ferretti, A., Zanzerl, H., Mcllroy, D., 2020. Ethology of the trace fossil Chondrites: form, function and environment. Earth-Science Reviews, 202: doi.org/10.1016/j.earscirev.2019.102989.
• 10. Bederke, E., 1924. Das Devon in Schlesien und das Alter der Sudetenfaltung. Fortschritte der Geologie und Palaeontologie, 7: 1-50.
• 11. Bednarz, M., Mcllroy, D., 2009. Three dimensional reconstruction of “phycosiphoniform” burrows: implications for identification of trace fossils in core. Palaeontologia Electronica, 12, http://palaeo-electronica.org/2009_3/195/index.html.
• 12. Benton, M.J., 1982. Dictyodora and associated trace fossils from the Palaeozoic of Thuringia. Lethaia, 15: 115-132.
• 13. Benton, M.J., Trewin, N.H., 1980. Dictyodora from the Silurian of Peebleshire, Scotland. Palaeontology, 23: 501-513.
• 14. Berg, G., Dathe, E., Zimmermann, E., 1910. Geologische Karte von Preussen und benachbarten Bundesstaaten, 1:25 000. Blatt Friedland in Schlesien, Berlin.
• 15. Braddy, S.J., 1998. An overview of the invertebrate ichnotaxa from the Robledo Mountains ichnofauna (Lower Permian), southern New Mexico. New Mexico Museum of Natural History and Science Bulletin, 12: 93-98.
• 16. Bradshaw, M.A., 1981. Paleoenvironmental interpretations and systematics of Devonian trace fossils from the Taylor Group (lower Beacon Supergroup), Antarctica. New Zealand Journal of Geology and Geophysics, 24: 615-652.
• 17. Brady, L.F., 1947. Invertebrate tracks from the Coconino Sandstone of northern Arizona. Journal of Paleontology, 21: 466-472.
• 18. Bromley, R.G., 1996. Trace Fossils: Biology, Taphonomy and Applications. 2nd edition. Chapman and Hall, London.
• 19. Bromley, R.G., Ekdale, A.A., Richter, B., 1999. New Taenidium (trace fossil) in the Upper Cretaceous chalk of northwestern Europe. Bulletin of the Geological Society of Denmark, 46:47-51.
• 20. Brongniart, A.T., 1823. Observations sur les Fucoïdes, et sur quelques autres plantes marines fossils. Mémoires de la Societé d'Histoire Naturelle de Paris, 1: 301-320.
• 21. Buatois, L.A., Mángano, M.G., 2002. Trace fossils from Carboniferous floodplain deposits in western Argentina: implications for ichnofacies models of continental environments. Palaeogeography Palaeoclimatology, Palaeoecology, 183: 71-86.
• 22. Buatois, L.A., Mángano, M.G., 2007. Invertebrate ichnology of continental freshwater environments. In: Trace Fossils. Concepts, Problems, Prospects (ed. W. III Miller): 285-323. Elsevier, Italy.
• 23. Buatois, L.A., Mángano, M.G. (eds.), 2011. Ichnology. Organism-Substrate Interactions in Space and Time. Cambridge University Press.
• 24. Buatois, L.A., Mangano, M.G., Mikuláš, R., Maples, C.G., 1998. The ichnogenus Curvolithus revisited. Journal of Palaeontology, 72: 758-769.
• 25. Buatois, L.A., Gingras, M.K., MacEachern, J., Mangano, M.G., Zonnveld, J.P., Pemberton, S.G., Netto, R.G., Martin, A., 2005. Colonization of brackish-water systems through time: evidence from the trace-fossil record. Palaios, 20: 321-347.
• 26. Buckman, J.O., 1994. Archaeonassa Fenton and Fenton 1937 reviewed. Ichnos, 3: 185-192.
• 27. Cardonatto, M.C., Melchor, R.N., 2014. Biomechanical analysis of fish swimming trace fossils (Undichna): preservation and mode of locomotion. Topics in Geobiology, 41: 265-303.
• 28. Carmona, N.B., Ponce, J.J., Mangano, M.G., 2006. Variability of the Glossifungites ichnofacies at the boundary between the Sarmiento Formation (middle Eocene-early Miocene) and Chenque Formation (early Miocene) in San Jorge Gulf, Chubut, Argentina. Ameghiniana, 43: 413-425.
• 29. Chen, Z.-Q., Fraiser, M.L., Bolton, C., 2012. Early Triassic trace fossils from Gondwana Interior Sea: implications for ecosystem recovery following the end-Permian mass extinction in south high-latitude region. Gondwana Research, 22: 238-255.
• 30. Chen, Z.-Q., Tong, J., Fraiser, M.L., 2011. Trace fossil evidence for restoration of marine ecosystems following the end-Permian mass extinction in the Lower Yangtze region, South China. Palaeogeography, Palaeoclimatology, Palaeoecology, 299: 449-474.
• 31. Cramer, R., Finckh, L., Zimmermann, E., 1921. Geologische Karte von Preussen und benachbarten Bundesstaaten, 1: 25000, Blatt Freiburg.
• 32. Cramer, R., Finckh, L., Zimmermann, E., 1924. Erläuterungen zur geologische Karte, Blatt Schweidnitz: 3-51. Berlin.
• 33. Crimes, T.P., 1987. Trace fossils and correlation of late Precambrian and early Cambrian strata. Geological Magazine, 124: 97-119.
• 34. Crimes, T.P., 1992. Changes in the trace fossil biota across the Proterozoic-Phanerozoic boundary. Journal of the Geological Society, 149: 637-646.
• 35. Crimes, T.P., Anderson, M.M., 1985. Trace fossils from the late Precambrian-early Cambrian strata of southeastern New Foundland (Canada): temporal and environmental implications. Journal of Palaeontology, 59: 310-343.
• 36. D'Alessandro, A., Bromley, R.G., 1987. Meniscate trace fossils and the Muensteria-Taenidium problem. Palaeontology, 30: 743-763.
• 37. Dames, E., 1868. Über die in der Umgebung Freiburgs in Nieder-Schlesien auftretenden devonischen Ablagerrungen. Zeitschrift der Deutschen Geologischen Gesellschaft, 20: 469-508.
• 38. Davies, N.S., Liu, A.G., Gibling, M.R., Miller, R.F., 2016. Resolving MISS conceptions and misconceptions: a geological approach to sedimentary surface textures generated by microbial and abiotic processes. Earth-Science Reviews, 154: 210-246.
• 39. Demircan, H., Uchman, A., 2016. Ichnology of prodelta deposits of the Mezardere Formation (late Eocene - early Oligocene) in the Gökçeada Island, western Turkey. Geodinamica Acta, 28: 86-100.
• 40. Desjardins, P.R., Buatois, L.A., Mángano, M.G., 2012. Tidal flats and subtidal sand bodies. Developments in Sedimentology, 64: 529-561.
• 41. Draganits, E., Braddy, S.J., Briggs, D.E.G., 2001. A Gondwanan coastal arthropod ichnofauna from the Muth Formation (Lower Devonian, Northern India): paleoenvironment and tracemaker behavior. Palaios, 16: 126-147.
• 42. Eagar, R.M.C., Baines, J.G., Collinson, J.D., Hardy, P.G., Okolo, S.A., Pollard, J.E., 1985. Trace fossil assemblages and their occurrence in Silesian (Mid-Carboniferous) deltaic sediments of the Central Pennine Basin, England. SEPM Special Publication, 35: 99-149.
• 43. Ekdale, A.A., 1985. Paleoecology of the marine endobenthos. Palaeogeography, Palaeoclimatology, Palaeoecology, 50: 63-81.
• 44. Ekdale, A.A., Bromley, R.G., 2001. A day and a night in the life of a cleft-foot clam: Protovirgularia-Lockeia-Lophoctenium. Lethaia, 34: 119-124.
• 45. Ekdale, A.A., Lewis, D.W., 1991. Trace fossils and paleoenvironmental control of ichnofacies in a late Quaternary gravel and loess fan delta complex, New Zealand. Palaeogeography, Palaeoclimatology, Palaeoecology, 81: 253-279.
• 46. Fenton, C.L., Fenton, M.A., 1937. Archaeonassa, Cambrian snail trails and burrows. American Midland Naturalist, 18: 454-456.
• 47. Fillmore, D.L., Lucas, S.G., Simpson, E.L., 2011. The fish swimming trace Undichna from the Mississippian Mauch Chunk Formation, Eastern Pennsylvania. Ichnos, 8: 27-34.
• 48. Fischer-Ooster, C., 1858. Die fossilen Fucoiden der Schweizer Alpen, nebst Erörterungen über deren geologisches Alter. Huber, Bern.
• 49. Frey, R.W., Pemberton, S.G., 1984. Trace fossils facies models. In: Facies Models (ed. R.G. Walker): 189-207. Geoscience Canada, Reprint Series.
• 50. Frey, R.W., Curran, H.A., Pemberton, S.G., 1984. Tracemaking activities of crabs and their environmental significance: the ichnogenus Psilonichnus. Journal of Paleontology, 58: 333-350.
• 51. Fritsch, A., 1908. Problematica Silurica. Systême Silurien du Centre de la Bohême par Joachim Barrande. Suite Éditée-aux Frais du Barrande Fonds, Prague.
• 52. Fu, S., 1991. Funktion, Verhalten und Einteilung fucoider und lophocteniider Lebensspuren. CFS. Courier Forschungsinstitut Senckenberg, 135: 1-79.
• 53. Fürsich, F. T., Heinberg, C., 1983. Sedimentology, biostratinomy and palaeoecology of an Upper Jurassic offshore sand bar complex. Bulletin of the Geological Society of Denmark, 32: 67-95.
• 54. Geinitz, H.B., 1867. Über Dictyophyton? Liebeanum Gein. aus dem Culmschiefer vom Heersberge zwischen Gera und Weyda. Neues Jahrbuch für Mineralogie, Geologie und Paläontologie, 1867: 286-288.
• 55. Getty, P.R., Sproule, R., Stimson, M.R., Lyons, P.C., 2017. Invertebrate trace fossils from the Pennsylvanian Rhode Island Formation of Massachusetts, USA. Atlantic Geology, 53:185-206.
• 56. Gibert, J.M. de, Buatois, L.A., Fregenal-Martínez, M.A., Mángano, M.G., Ortega, F., Poyato-Ariza, F.J., Wenz, S., 1999. The fish trace fossil Undichna from the Cretaceous of Spain. Palaeontology, 42: 409-427.
• 57. Głuszek, A,. 1998. Trace fossils from Late Carboniferous storm deposits, Upper Silesia Coal Basin, Poland. Acta Palaeontologica Polonica, 43: 517-546.
• 58. Goldring, R., Pollard, J.E., Radley, J.D., 2005. Trace fossils and pseudofossils from the Wealden strata (non-marine Lower Cretaceous) of southern England. Cretaceous Research, 26: 665-685.
• 59. Goldring, R., Pollard, J.E., Taylor, A.M., 1991. Anconichnus horizontalis; a pervasive ichnofabric-forming trace fossil in post-Paleozoic offshore siliciclastic facies. Palaios, 6: 250-263.
• 60. Gunia, T., 1968. On the fauna, stratigraphy and conditions of sedimentation of the Upper Devonian in the Świebodzice depression (Middle Sudetes) (in Polish with English summary). Geologia Sudetica, 4: 1-220.
• 61. Gürich, G., 1909. Clymenienkalk von der Conradmühle in Polsnitz bei Freiburg in Schlesien. Abhandlungen der Preussischen Geologischen Landesanstalt, 30: 341-344.
• 62. Halamski, A.T., 2013. Frasnian Atrypida (Brachiopoda) from Silesia (Poland) and the age of the eo-Variscan collision in the Sudetes. Geodiversitas, 35: 289-308.
• 63. Hall, J., 1847. Paleontology of New York I. Geological Survey of New York, Albany. C. Van Benthuysen.
• 64. Han, Y., Pickerill, R.K., 1994. Taxonomic reassessment of Protovirgularia M'Coy 1850 with new examples from the Paleozoic of New Brunswick, eastern Canada. Ichnos, 3: 203-212.
• 65. Häntzchel, W., 1975. Trace fossils and problematica. In: Treatise on Invertebrate Paleontology. Part W. Miscellanea, Suppl. 1. (ed. C. Teichert). Geological Society of America and University of Kansas, Lawrence and Boulder.
• 66. Heer, O., 1877. Flora Fossilis Helvetiae. Die vorweltiliche Flora der Schweiz. Journal Wüster & Co.
• 67. Heinberg, C. 1974. A dynamic model for a meniscus filled tunnel (Ancorichnus n. ichnogen.) from the Jurassic Pecten Sandstone of Milne Land, East Greenland. Rapport Grønlands Geologiske Undersøgelse, 62: 1-20.
• 68. Heinberg, C., Birkelund, T., 1984. Trace-fossil assemblages and basin evolution of the Vardekløft Formation (Middle Jurassic, central East Greenland). Journal of Paleontology, 58: 362-397.
• 69. Higgs, R., 1988. Fish trails in the Upper Carboniferous of southwest England. Palaeontology, 31 : 255-272.
• 70. Hofmann, R., Goudemand, N., Wasmer, M., Bücher, H., Hautmann, M., 2011. New trace fossil evidence for an early recovery signal in the aftermath of the end-Permian mass extinction. Palaeogeography, Palaeoclimatology, Palaeoecology, 310: 216-226.
• 71. Hovikoski, J., Uchman, A., Alsen, P., Ineson, J., 2018. Ichnological and sedimentological characteristics of submarine fan-delta deposits in a half-graben, Lower Cretaceous Palnatokes Bjerg Formation, NE Greenland. Ichnos, 26: 28-57.
• 72. Hu, B., Wang, G., Goldring, R., 1998. Nereites (or Neonereites) from lower Jurassic lacustrine turbidites of Henan, central China. Ichnos, 6: 203-209.
• 73. Hubbard, S.M., MacEachern, J.A., Bann, K.L., 2012. Slopes. Developments in Sedimentology, 64: 607-642.
• 74. Ineson, J.R., 1987. Trace fossils from a submarine fan-slope Apron Complex in the Cretaceous of James Ross, Island, Antarctica. British Antarctic Survey Bulletin, 74: 1-16.
• 75. James, U.P., 1879. Description of new species of fossils and remarks on some others, from the Lower and Upper Silurian rocks of Ohio. The Paleontologist, 3: 17-24.
• 76. Joseph, J.K., Pate, l.S.J., Bhatt, N.Y., 2012. Trace fossil assemblages in mixed siliciclastic-carbonate sediments of the Kaladongar Formation (Middle Jurassic), Patcham Island, Kachchh, Western India. Journal of Geological Society of India, 80: 189-214.
• 77. Kaczorowski, M., Wojewoda, J., 2011. Neotectonic activity interpreter from a long water-tube tiltmeter record at the SRC geodynamic laboratory in Książ, Central Sudetes, SW Poland. Acta Geodynamica et Geomaterialia, 8: 1-13.
• 78. Keighley, D.G., Pickerill, R.K., 1994. The ichnogenus Beaconites and its distinction from Ancorichnus and Taenidium. Palaeontology, 37: 305-337.
• 79. Keighley, D.G., Pickerill, R.K., 1996. Small Cruziana, Rusophycus, and related ichnotaxa from eastern Canada: the nomenclatural debate and systematic ichnology. Ichnos, 4: 261-285.
• 80. Kim, J.-Y., 1994. A unique occurrence of Lockeia from the Yeongheung Formation (Middle Ordovician), Yeongwed, Korea. Ichnos, 3: 219-225.
• 81. Knaust, D., 2007. Invertebrate trace fossils and ichnodiversity in shallow-marine carbonates of the German Middle Triassic (Muschelkalk). SEPM Special Publication, 88: 221-238.
• 82. Knaust, D., 2010. Remarkably preserved benthic organisms and their traces from a Middle Triassic (Muschelkalk) mud flat. Lethaia, 43: 344-356.
• 83. Knaust, D., 2019. The Fish Trail Undichna quadrisulcata isp. nov. from the Eocene of Spitsbergen. Ichnos, 26: 178-186.
• 84. Knaust, D., Minter, N.J., 2018. The fish swimming trace Undichna unisulca from the Silurian of Sweden: probably the oldest vertebrate locomotion trace fossil. Lethaia, 51: 469-472.
• 85. Książkiewicz, M., 1977. Trace fossils in the flysch of the Polish Carpathians. Palaeontologia Polonica, 36: 1-208.
• 86. Krawczyńska-Grocholska, H., 1973. Sporomorph assemblage in sandstone and siltstone samples from Chwaliszów in the Świebodzice Depression (Central Sudetes) (in Polish with English summary). Biuletyn Instytutu Geologicznego, 264: 211-222.
• 87. Krobicki, M., Uchman, A., 2003. Trace fossils Curvolithus from the Middle Jurassic Crinoidal Limestones of the Pieniny Klippen Belt (Carpathians, Poland). Geologica Carpathica, 54: 175-180.
• 88. Lehotský, T., Zapletal, J., 2007. Fosilní stopy v barokních břidličných podlahách vybraných olomouckých památek (In Czech). Zprávy Vlastivědného muzea v Olomouci, 289-291: 14-24.
• 89. Lima, J.H.D., Minter, N.J., Netto, R.G., 2017. Insights from functional morphology and neoichnology for determining tracemakers: a case study of the reconstrucion of an ancient glacial arthropod-dominated fauna. Lethaia, 50: 576-590.
• 90. Lockley, M.G., Rindsberg, A.K., Zeiler, R.M., 1987. The paleoenvironmental significance of the nearshore Curvolithus ichnofacies. Palaios, 2: 255-262.
• 91. Löwemark, L., Schönfeld, J., Werner, F., Schäfer, P., 2004. Trace fossils as a paleoceanographic tool: evidence from late Quaternary sediments of the southwestern Iberian margin. Marine Geology, 204: 27-41.
• 92. Lucas, S.G., Lerner, A.J., Bruner, M., Shipman, P., 2004. Middle Pennsylvanian ichnofauna from Eastern Oklahoma, USA. Ichnos, 11: 45-55.
• 93. Lucas, S.G., Krainer, K., Voigt, S., 2013. The Lower Permian Yeso Group in Central New Mexico. New Mexico Museum of Natural History and Science, Bulletin, 59: 181-200.
• 94. Mángano, M.G., Buatois, L.A., Guinea, F.M., 2005. Ichnology of the Alfarcito Member (Santa Rosita Formation) of northwestern Argentina: animal-substrate interactions in a Lower Paleozoic wave-dominated shallow sea. Ameghiniana, 42: 641-668.
• 95. Mángano, M.G., Buatois, L.A., Hofmann, R., Elicki, O., Shinaq, R., 2013. Exploring the aftermath of the Cambrian explosion: the evolutionary significance of marginal- to shallow-marine ichnofaunas of Jordan. Palaeogeography, Palaeoclimatology, Palaeoecology, 374: 1-15.
• 96. Mángano, M.G., Buatois, L.A., Maples, C.G., West, R.R., 2000. A new ichnospecies of Nereites from Carboniferous tidal-flat facies of Eastern Kansas, USA: implications for the Nereites- Neonereites debate. Journal of Paleontology, 74: 149-157.
• 97. Mángano, M.G., Buatois, L.A., Rindsberg, A.K., 2002a. Carboniferous Psammichnites: systematic re-evaluation, taphonomy and autecology. Ichnos, 9: 1-22.
• 98. Mángano, M.G., Buatois, L.A., West, R.R., Maples, C.G., 2002b. Ichnology of a Pennsylvanian Equatorial Tidal Flat: the Stull Shale Member at Waverly, Eastern Kansas. Kansas Geological Survey Bulletin 245: 1-133.
• 99. Maples, C.G., Suttner, L.J., 1990. Trace fossils and marine-nonmarine cyclicity in the Fountain Formation (Pennsylvanian: Morrowan/Atokan) near Manitou Springs, Colorado. Journal of Paleontology, 64: 859-880.
• 100. Marriott, S.B., Hillier, R.D., Morrissey, L.B., 2013. Enigmatic sedimentary structures in the Lower Old Red Sandstone, south Wales, UK: possible microbial influence on surface processes and early terrestrial food webs. Geological Magazine, 150: 396-411.
• 101. Mastalerz, K., 1987. Sedymentacja w basenie śródsudeckim na przełomie dolnego i górnego karbonu (in Polish). In: Przewodnik LVIII Zjazdu Polskiego Towarzystwa Geologicznego Wałbrzych 17-19 września 1987 (eds. Z. Baranowski, A. Grocholski, J. Malinowski, J. Oberc and S. Porębski): 134-145. AGH, Kraków.
• 102. Mastalerz, K., 1995. Deposits of high-density turbidity currents on fan-delta slopes: an example from the upper Visean Szczawno Formation, Intrasudetic Basin, Poland. Sedimentary Geology, 98: 121-146.
• 103. McCoy, F., 1850. On some genera and species of Silurian Radiata in the collection of the University of Cambridge. Annals and Magazine of Natural History, Ser. 2, 6: 270-290.
• 104. Mcllroy, D., 2008. Ichnological analysis: the common ground between ichnofacies workers and ichnofabric analysts. Palaeogeography, Palaeoclimatology, Palaeoecology, 270: 332-338.
• 105. Melchor, R.N., Genise, J.F., Buatois, L.A., Umazano, A.M., 2012. Fluvial environments. Developments in Sedimentology, 64: 329-378.
• 106. Mikuláš, R., 2006. Ichnofabric and substrate consistency in Upper Turonian carbonates of the Bohemian Cretaceous Basin (Czech Republic). Geologica Carpathica, 57: 79-90.
• 107. Mikuláš, R., Lehotský, T., Bábek, O., 2002. Lower Carboniferous ichnofabrics of the Culm facies: a case of study of the Moravice Formation (Moravia and Silesia, Czech Republic). Geologica Carpathica, 53: 141-148.
• 108. Mikuláš, R., Lehotský, T., Bábek, O., 2004. Trace fossils of the Moravice Formation from the southern Nízký Jesenik Mts. (Lower Carboniferous, Culm facies; Moravia, Czech Republic). Bulletin of Geosciences, 79: 81-98.
• 109. Mikuláš, R., Mešᶄis, S., Ivanov, A., Lukševičs, E., Zupiņš, Ì., Stinkulis, I., 2013. A rich ichnofossil assemblage from the Frasnian (Upper Devonian) deposits at Andoma Hill, Onega Lake, Russia. Bulletin of Geosciences, 88: 389-400.
• 110. Minter, N.J., Braddy, S.J., 2006. The fish and amphibian swimming traces Undichna and Lunichnium, with examples from the Lower Permian of New Mexico, USA. Palaeontology, 49: 1123-1142.
• 111. Minter, N.J., Braddy, S.J., 2009. Ichnology of an Early Permian Intertidal Flat: The Robledo Mountains Formation of Southern New Mexico, USA. Special Paper in Palaeontology, 82: 5-107.
• 112. Minter, N.J., Buatois, L.A, Mángano, M.G., 2016. The conceptual and methodological tools of ichnology. In: The Trace-Fossil Record of Major Evolutionary Events, 1. Precambrian and Paleozoic (eds. M.G. Mángano and L.A. Buatois): 1-26. Springer.
• 113. Murchison, R. I., 1839. The Silurian System. John Murray, London.
• 114. Muszer, J., 2013. Skamieniałości śladowe z formacji ze Szczawna okolic Wałbrzycha (Sudety Środkowe) - wstępne wyniki badań (in Polish). In: Aktualizm i antyaktualizm w paleontologii (eds. M. Kędzierski and B. Kołodziej). XXII Konferencja Naukowa Sekcji Paleontologicznej Polskiego Towarzystwa Geologicznego, Tyniec, 27-30 września 2013 r.: 34-35. Materiały Konferencyjne, Polskie Towarzystwo Geologiczne, Kraków.
• 115. Muszer, J., 2019. Trace fossils from the Witoszów region - preliminary results (in Polish). In: From Precambrian to Holocene - biodiversity changes recorded in the rocks (eds. J. Muszer, A. Chrząstek and R. Niedźwiedzki). XXIV Konferencja Naukowa Sekcji Paleontologicznej PTG, Wrocław, Długopole Górne 11-14 września 2019: 61-62.
• 116. Muszer, J., 2020. Trace fossils from the Mississippian of the Piaskowa Góra section (the Intra-Sudetic Basin, SW Poland). Annales Societatis Geologorum Poloniae, 90: in press, doi: https://doi.org/10.14241/asgp.2020.06.
• 117. Muszer, J., Haydukiewicz, J., 2009. Occurrence of the trace fossil Zoophycos from the Upper Viséan Paprotnia Beds of the Bardo Structural Unit (Sudetes, SW Poland). Geologia Sudetica, 41: 57-66.
• 118. Muszer, J., Haydukiewicz, J., 2010. First Paleozoic Zoophycos trace fossils from the Sudetes (the Bardo Unit). Geological Quarterly, 54 (3): 381-384.
• 119. Muszer, J., Uglik, M., 2013. Palaeoenvironmental reconstructions of the Upper Visean Paprotnia Beds (Bardo Unit, Polish Sudetes) using ichnological and palaeontological data. Geological Quarterly, 57 (3): 365-384.
• 120. Muszer, J., Górecka-Nowak, A., Kryza, R., August, C., 2016. New data on biostratigraphy and chronostratigraphy of the Carboniferous sediments in Sudetes (in Polish). In: XXIII Konferencja Naukowa Sekcji Paleontologicznej Polskiego Towarzystwa Geologicznego, 21-23 września 2016 Poznań, Abstrakty (eds. K. Pawłowska and D. Pawłowski): 73-74.
• 121. Nara, M., Ikari, Y., 2011. Deep-sea bivalvian highways: An ethological interpretation of branched Protovirgularia of the Palaeogene Muroto-Hanto Group, southwestern Japan. Palaeogeography, Palaeoclimatology, Palaeoecology, 305: 250-255.
• 122. Naruse, H., Nifuku, K., 2008. Three dimensional morphology of the ichnofossil Phycosiphon incertum and its implication for paleoslope inclination. Palaios, 23: 270-279.
• 123. Nemec, W., Porębski, S.J., Steel, R.J., 1980. Texture and structure of resedimented conglomerates: examples from Książ Formation (Famennian-Tournaisian), southwestern Poland. Sedimentology, 27: 519-538.
• 124. Nemec, W., Porębski, S.J., Teisseyre, A.K., 1982. Explanatory notes to the lithotectonic molasses profile of the Intra-Sudetic Basin, Polish Part (Sudety Mts., Carboniferous-Permian) (Comment to Annex 23). Veröffentlichungen des Zentralinstituts für Physik der Erde. Akademie der Wissenschaften der DDR, Potsdam, 66: 267-278.
• 125. Netto, R.G., Brenner, J.S., Buatois, L.A., Uchman, A., Mángano, M.G., Ridge, J.C., Kazakauskas, V., Gaigalas, A., 2012a. Glacial environments. Developments in Sedimentology, 64: 299-327.
• 126. Netto, R.G., Tognoli, F.M.W., Gandini, R., Lima, J.H.D., de Gibert, J.M., 2012b. Ichnology of the Phanerozoic deposits of southern Brazil: synthetic review. Monografías da Sociedade Brasileira de Paleontologia, 2: 37-68.
• 127. Noffke, N., Gerdes, G., Klenke, T., Krumbein, W.E., 2001. Microbially induced sedimentary structures - a new category within the classification of primary sedimentary structures. Journal of Sedimentary Research, 71: 649-656.
• 128. Noffke, N., Beukes, N., Gutzmer, J., Haze, R., 2006. Spatial and temporal distribution of microbially induced sedimentary structures: A case study from siliciclastic storm deposits of the 2.9 Ga Witwatersrand Supergroup, South Africa. Precambrian Research, 146: 35-44.
• 129. Olivero, E.B., Medina, F.A., López, C.M.I., 2009. The stratigraphy of Cretaceous mudstones in the eastern Fuegian Andes: new data from body and trace fossils. Revista de la Asociación Geológica Argentina, 64: 60-69.
• 130. Olivero, E.B., Lopez, M.I., Malumian, N., Torres Carbonell, P.J., 2010. Eocene graphoglyptids from shallow-marine, high energy, organic-rich, and bioturbated turbidites, Fuegian Andes, Argentina. Acta Geologica Polonica, 60: 77-91.
• 131. Orr, P.J., 2001. Colonization of the deep-marine environment during the early Phanerozoic: the ichnofaunal record. Geological Journal, 36: 265-278.
• 132. Orr, P.J., Benton, M.J., Trewin, N.H., 1996. Deep marine trace fossils assemblages from the Lower Carboniferous of Menorca, Balearic Islands, western Mediterranean. Geological Journal, 31 : 235-258.
• 133. Pazos, P.J., 2002. Palaeoenvironmental framework of the glacial-postglacial transition (Late Paleozoic) in the Paganzo-Calingasta Basin (Southern South America) and the Great Karoo-Kalahari Basin (Southern Africa): ichnological implications. Gondwana Research, 5: 619-640.
• 134. Pazos, P.J., di Pasquo M., Amenabar C.R., 2007. Trace fossils of the glacial to postglacial transition in the El Imperial Formation (Upper Carboniferous) San Rafael Basin, Argentina. SEPM Special Publication, 88: 137-147.
• 135. Pazos, P.J., Gutiérrez, C., Fernández, D.E., Heredia, A.M., Comerio, M., 2015a. The unusual record of Nereites, wrinkle marks and undermat mining trace fossils from the late Silurian-earliest Devonian of central-western margin of Gondwana (Argentina). Palaeogeography, Palaeoclimatology, Palaeoecology, 439: 4-16.
• 136. Pazos, P.J., Heredia, A.M., Fernández, D.E., Gutiérrez, C., Comeria, M., 2015b. The ichnogenus Dictyodora from late Silurian deposits of central-western Argentina: ichnotaxonomy, ethology and ichnostratigraphical perspectives from Gondwana. Palaeogeography, Palaeoclimatology, Palaeoecology, 439: 27-37.
• 137. Pawlik, D., 1939. Zur Stratigraphie des südlichen Freiburger Oberdevongebietes (Schlesien). Neues Jahrbuch für Mineralogie, Geologie und Paläontologie. Beilage-Bände 81: 23-60.
• 138. Pek, I., Zapletal, J., 1990. The importance of ichnology in geologic studies of the eastern Bohemian Massif (Lower Carboniferous), Czechoslovakia. Ichnos, 1: 147-149.
• 139. Pemberton, S.G., Frey, R.W., 1982. Trace fossil nomenclature and the Planolites-Palaeophycus dilemma. Journal of Paleontology, 56: 843-881.
• 140. Pemberton, S.G., MacEachern, J.A., Dashtgard, S.E., Bann, K.L., Gingras, M.K., Zonneveld, J.-P., 2012. Shorefaces. Developments in Sedimentology, 64: 563-603.
• 141. Pluta, K., Górecka-Nowak, A., 2018. Miospore evidence for the Carboniferous age of rocks from the Świebodzice Unit (Sudetes, SW Poland). Geological Quarterly, 62 (1): 120-133.
• 142. Porębski, S.J., 1981. Świebodzice succession (Upper Devonian-lowest Carboniferous): a prograding mass flow dominated fan-delta complex (in Polish with English summary). Geologia Sudetica, 16: 101-192.
• 143. Porębski, S.J., 1987. Środowisko depozycyjne i wpływ tektoniki na sedymentację dewonu-karbonu w depresji Świebodzic (in Polish). In: Przewodnik LVIII Zjazdu Polskiego Towarzystwa Geologicznego Wałbrzych 17-19 września 1987 (eds. Z. Baranowski, A. Grocholski, J. Malinowski, J. Oberc and S. Porębski): 114-130. AGH, Kraków.
• 144. Porębski, S.J., 1990. Onset of coarse clastic sedimentation in the Variscan realm of the Sudetes (SW Poland): an example from the Upper Devonian-Lower Carboniferous Świebodzice succession. Neues Jahrbuch für Geologie und Paläontologie Abhandlungen, 179: 259-274.
• 145. Radley, J.D., Barker, M.J., Munt, M.C., 1998. Bivalve trace fossils (Lockeia) from the Barnes High Sandstone (Wealden Group, Lower Cretaceous) of the Wessex Sub-basin, southern England. Cretaceous Research, 19: 505-509.
• 146. Richter, R., 1850. An der Thüringischen Grauwacke. Zeitschrift der Deutschen Geologischen Gesellschaft, 2: 198-206.
• 147. Rodríguez-Tovar, F.J., Stachacz, M., Uchman, A., Reolid, M., 2014. Lower/Middle Ordovician (Arenigian) shallow-marine trace fossils of the Pochico Formation, southern Spain: palaeoenvironmental and palaeogeographic implications at the Gondwanan and peri-Gondwanan realm. Journal of Iberian Geology, 40: 539-555.
• 148. Rodríguez-Tovar, F.J., Uchman, A., Payros, A., Orue-Etxebarria, X., Apellaniz, E., Molina, E., 2010. Sea level dynamics and palaeoecological factors affecting trace fossil distribution in Eocene turbiditic deposits (Gorrondatxe section, N Spain). Palaeogeography, Palaeoclimatology, Palaeoecology, 285: 50-65.
• 149. Roemer, F., 1870. Geologie von Oberschlesien. Eine Erläuterung zu der im Auftrage des Königl. Preuss. Handels- Ministeriums von dem Verfasser bearbeiteten geologischen Karte von Oberschlesien in 12 Sektionen, Atlas von 50 Tafeln mit Abbildungen von Versteinerungen. Breslau.
• 150. Ronchi, A., Santi, G., Marchetti, L., Bernardi, M., Gianolla, R., 2018. First report of swimming trace fossils of fish from the Upper Permian and Lower Triassic of the Dolomites (Italy). Annales Societatis Geologorum Poloniae, 88: 111-125.
• 151. Różkowska, M., 1962. The Devonian coral limestones by the Daisy Lake of Mokrzeszów (in Polish with English summary). Biuletyn Informacyjny Polskiego Towarzystwa Miłośników Nauk o Ziemi: 3-5.
• 152. Ruchholz, K., 1967. Zur Ichnologie und Facies des Devons und Unterkarbons im Harz. Geologie, 16: 503-527.
• 153. Sadlok, G., 2008. Ślad Diplopodichnus biformis Brady, 1947 ze środkowego triasu (Jaworzno, Górny Śląsk) - potencjalny wskaźnik warunków subaeralnych? (in Polish). Przegląd Geologiczny, 56: 964-966.
• 154. Sarkar, S., Banerjee, S., 2019. Microbial mat structures formed within siliciclastics. In: A synthesis of depositional sequence of the Proterozoic Vindhyan Supergroup in Son Valley. A Field Guide (eds S. Sarkar and S. Banerjee): 165-183. Springer.
• 155. Sarkar, S., Ghosh, S. K., Chakraborty, C., 2009. Ichnology of a Late Palaeozoic ice-marginal shallow marine succession: Talchir Formation, Satpura Gondwana basin, central India. Palaeogeography, Palaeoclimatology, Palaeoecology, 283: 28-45.
• 156. Savrda, C.E., Krawinkel, H., McCarthy, F.M.G., McHugh, C.M.G., Olson, H.C., Mountain, G., 2001. Ichnofabrics of a Pleistocene slope succession, New Jersey margin: relations to climate and sea-level dynamics. Palaeogeography, Palaeoclimatology, Palaeoecology, 171: 41-61.
• 157. Schatz, E.R., Mángano, M.G., Buatois, L.A., Limarino, C.O., 2011. Life in the Late Paleozoic Ice Age: trace fossils from glacially influenced deposits in a Late Carboniferous fjord of western Argentina. Journal of Paleontology, 85: 502-518.
• 158. Seilacher, A., 1967. Bathymetry of trace fossils. Marine Geology, 5: 413-428.
• 159. Seilacher, A., 1974. Flysch trace fossils: evolution of behavioural diversity in the deep-sea. Neues Jahrbuch für Geologie und Paläontologie Monatshefte (4): 233-245.
• 160. Seilacher, A., 1977. Pattern analysis of Paleodictyon and related trace fossils. Geological Journal, Special Issues, 9: 289-334.
• 161. Seilacher, A., 1978. Use of trace fossils for recognizing depositional environments. SEPM Short Course Notes, 5: 167-181.
• 162. Seilacher, A., 1986. Evolution of behaviour as expressed in marine trace fossils. In: Evolution of Animal Behavior: Paleontological and Field Approaches (eds. M.H. Nitecki and J.A. Kitchell): 62-87. Oxford University Press, New York.
• 163. Seilacher, A., 1997. Fossil Art. Drumheller, Alberta, The Royal Tyrrell Museum of Palaeontology.
• 164. Seilacher, A., 2007. Trace Fossil Analysis. Springer-Verlag, Berlin, Heidelberg.
• 165. Seilacher, A., Meischner, D., 1965. Facies-Analyse im Paläozoikum des Oslo-Gebietes. Geologische Rundschau, 54: 596-619.
• 166. Simon, T., Hagdorn, H., Hagdorn, M.K., Seilacher, S., 2003. Swimming trace of a coelacanth fish from the Lower Keuper of south-west Germany. Palaeontology, 46: 911-926.
• 167. Soler-Gijón, R., Moratalla, J.J., 2001. Fish and tetrapod trace fossil from the Upper Carboniferous of Puertollano, Spain. Palaeogeography, Palaeoclimatology, Palaeoecology, 171: 1-28.
• 168. Stepanek, J., Geyer, G., 1989. Spurenfosilien aus dem Kulm (Unterkarbon) des Frankenwaldes. Beringeria, 1: 1-55.
• 169. Sternberg, G.K. von, 1833. Versuch einer geognostisch - botanischen Darstellung der Flora der Vorwelt. IV Heft. V. C.E. Brenck, Regensburg.
• 170. Teisseyre, A.K., 1968a. The Lower Carboniferous of the Intra-Sudetic Basin: a study in sedimentary, petrography and basin analysis (in Polish with English summary). Geologia Sudetica, 4: 221-298.
• 171. Teisseyre, H., 1948. Sprawozdanie z prac geologicznych wykonanych w Sudetach w r. 1947 (in Polish). Badania fizjograficzne nad Polską Zachodnią, 1: 6-47.
• 172. Teisseyre, H., 1952. Geological structure of the northern region of Wałbrzych (in Polish with English summary). Biuletyn Instytutu Geologicznego, 62: 5-58.
• 173. Teisseyre, H., 1956a. On Upper Devonian sedimentation in Pogorzała and Witoszów (Middle Sudeten, Poland) (in Polish with English summary). Acta Geologica Polonica, 6: 227-251.
• 174. Teisseyre, H., 1956b. Świebodzice Depression as a geological unit (in Polish with English summary). Biuletyn Instytutu Geologicznego, 106: 5-36.
• 175. Teisseyre, H., 1968b. Stratigraphy and tectonics of the Świebodzice depression. Biuletyn Instytutu Geologicznego, 222: 71-106.
• 176. Torell, O.M., 1870. Petrificata Suecana Formationis Cambricae. Acta Universitets Lundensis, Lunds Universit Årsskrift, 2: 1-14.
• 177. Trewin, N.H., 2000. The ichnogenus Undichna, with examples from the Permian of the Falkland Islands. Palaeontology, 43: 979-997.
• 178. Tyszka, J., 1994. Paleoenvironmental implications from ichnological and microfaunal analyses of Bajocian Spotty Carbonates, Pieniny Klippen Belt, Polish Carpathians. Palaios, 9: 175-187.
• 179. Uchman, A., 1995. Taxonomy and palaeoecology of flysch trace fossils: The Marnoso-arenacea Formation and associated facies (Miocene, Northern Apennines, Italy). Beringeria, 15: 1-115.
• 180. Uchman, A., 1998. Taxonomy and ethology of flysch trace fossils: A revision of the Marian Książkiewicz collection and studies of complementary material. Annales Societatis Geologorum Poloniae, 68: 105-218.
• 181. Uchman, A., 2003. Trends in diversity, frequency and complexity of graphoglyptid trace fossils: evolutionary and palaeoenvironmental aspects. Palaeogeography, Palaeoclimatology, Palaeoecology, 192: 123-142.
• 182. Uchman, A., 2004. Phanerozoic history of deep-sea trace fossils. Geological Society Special Publications, 228: 125-140.
• 183. Uchman, A., 2007a. Deep-sea ichnology: development of major concepts. In: Trace Fossils: Concepts, Problems, Prospects (ed. W. III Miller): 248-267. Elsevier, Italy.
• 184. Uchman, A., 2007b. Deep-sea trace fossils from the mixed carbonate-siliciclastic flysch of the Monte Antola Formation (Late Campanian-Maastrichtian), North Apennines, Italy. Cretaceous Research, 28: 980-1004.
• 185. Uchman, A., Gaździcki, A., 2006. New trace fossils from the La Meseta Formation (Eocene) of Seymour Island, Antarctica. Polish Polar Research, 27: 153-170.
• 186. Uchman, A., Wetzel, A., 2011. Deep-sea ichnology: the relationships between depositional environment and endobenthic organisms. Developments in Sedimentology, 63: 517-556.
• 187. Uchman, A., Wetzel, A., 1999. An aberrant, helicoidal trace fossil Chondrites Sternberg. Palaeogeography, Palaeoclimatolology, Palaeoecology, 146: 165-169.
• 188. Uchman, A., Wetzel, A., 2012. Deep-sea fans. Developments in Sedimentology, 64: 643-671.
• 189. Uchman, A., Mikuláš, R., Houša, V., 2003. The trace fossil Chondrites in uppermost Jurassic-Lower Cretaceous deep cavity fills from the Western Carpathians (Czech Republic). Geologica Carpathica, 54: 181-187.
• 190. Uchman, A., Janbu, N.E., Nemec, W., 2004. Trace fossils in the Cretaceous-Eocene flysch of the Sinop-Boyabat Basin, Central Pontides, Turkey. Annales Societatis Geologorum Poloniae, 74: 197-235.
• 191. Uchman, A., Hu, B., Wang, Y., Song, H., 2011. The trace fossil Diplopodichnus from the Lower Jurassic lacustrine sediments of Central China and the isopod Armadillidium vulgare (Pillbug) lebensspuren as its Recent analogue. Ichnos, 18: 147-155.
• 192. Uchman, A., Caruso, C., Sonnino, M., 2012. Taxonomic review of Chondrites affinis (Sternberg, 1833) from Cretaceous-Neogene offshore-deep-sea Tethyan sediments and recommendation for its further use. Rivista Italiana di Paleontologia e Stratigrafia, 118: 313-324.
• 193. Vialov, O.S., 1962. Problematica of the Beacon Sandstone at Beacon Haights, West Antarctica. New Zealand Journal of Geology and Geophysics, 5: 718-732.
• 194. Vieira de Luca, P.H., Basilici, G., 2013. A prodeltaic system controlled by hyperpycnal flows and storm waves: reinterpretation of the Punta Negra Formation (Lower-Middle Devonian, Argentine Precordillera). Brazilian Journal of Geology, 43: 673-694.
• 195. Vodrážková, S., Vodrážka, R., Munnecke, A., Franců, J., Al-Bassam, K., Halodová, P., Tonarová, P., 2019. Microbially induced wrinkle structures in Middle Devonian siliciclastics from the Prague Basin, Czech Republic. Lethaia, 52: 149-164.
• 196. Webby, B.D., 1970. Late Precambrian trace fossils from New South Wales. Lethaia, 3: 79-109.
• 197. Weiss, E., 1884. Vorlegung des Dictyophytum liebeanum Gein. aus der Gegend von Gera. Gesellschaft Naturforschender Freunde Berlin, Sitzungsberichte, 17.
• 198. Wetzel, A., 1984. Bioturbation in deep-sea fine-grained sediments: influence of sediment texture, turbidite frequency and rates of environmental change. Geological Society Special Publications, 15: 595-608.
• 199. Wetzel, A., 1991. Ecologic interpretation of deep-sea trace fossil communities. Palaeogeography, Palaeoclimatology, Palaeoecology, 85: 47-69.
• 200. Wetzel, A., 2002. Modern Nereites in the South China Sea - ecological association with redox conditions in the sediment. Palaios, 17: 507-515.
• 201. Wetzel, A., 2008. Recent bioturbation in the deep South China Sea: a uniformitarian ichnologic approach. Palaios, 23: 601-615.
• 202. Wetzel, A., 2010. Deep-sea ichnology: Observations in modern sediments to interpret fossil counterparts. Acta Geologica Polonica, 60: 125-138.
• 203. Wetzel, A., Bromley, R.G., 1994. Phycosiphon incertum revisited: Anconichnus horizontalis is its junior subjective synonym. Journal of Paleontology, 68: 1396-1402.
• 204. Wetzel, A., Uchman, A., 2001. Sequential colonization of muddy turbidites in the Eocene Beloveža Formation, Carpathians, Poland. Palaeogeography, Palaeoclimatology, Palaeoecology, 168: 171-186.
• 205. Wojewoda, J., 2014. Świebodzice Unit revisited - kinematic, structural and facial evolution till now. In: Abstracts of 15th Czech-Polish Workshop on Recent Geodynamics of the Sudetes and the Adjacent Areas, Karlov pod Pradědem, November 5-8, 2014 (eds. J. Stemberk and P. Štěpančíková): 63-64.
• 206. Wojewoda, J., 2016a. Basen świebodzki - granice, architektura osadów i ewolucja strukturalna (in Polish). In: VI Polska Konferencja Sedymentologiczna POKOS 6 - Granice Sedymentologii 28.06-01.07.2016, Chęciny-Rzepka (eds. D. Olszewska-Nejbert, A. Filipek, M. Bąbel and A. Wysocka): 142-144.
• 207. Wojewoda, J., 2016b. About the need to develop the second edition of the detailed geological map of the Sudetes at the scale of 1:25 000 - examples of a revision of the geological pattern using the LIDAR Digital Elevation Models (in Polish with English summary). Przegląd Geologiczny, 64: 597-603.
• 208. Yochelson, E.L., Fedonkin, M.A., 1997. The type specimens (Middle Cambrian) of the trace fossil Archaeonassa Fenton & Fenton. Canadian Journal of Earth Sciences, 34: 1210-1219.
• 209. Young, F.G., 1972. Early Cambrian and older trace fossils from the southern Cordillera of Canada. Canadian Journal of Earth Sciences, 9: 1-17.
• 210. Zapletal, J., Pek, I., 1987. Trace fossil assemblages and their occurrence in lower Carboniferous of the Nízký Jesenik Mts. Acta Universitatis Palackianae Olomuncensis, Geographica-Geologica, 26: 47-64.
• 211. Zhang, G., Buatois, L.A., Mángano, M.G., Aceñolaza, F.G., 1998. Sedimentary facies and environmental ichnology of a Permian playa-lake complex in western Argentina. Palaeogeography, Palaeoclimatology Palaeoecology, 138: 221-243.
• 212. Zhu, M., 1997. Precambrian-Cambrian trace fossils from eastern Yunnan, China: implications for Cambrian explosion. Bulletin of National Museum of Natural Science, 10: 275-312.
• 213. Zimmermann, F., 1936. Das Alter der Gneiskonglomerate des Fürstensteiner Kulms. Jahrbuch der Preussischen Geologischen Landesanstalt, 56: 205-207.
• 214. Zobel, J., Carnall, R., 1831. Geognostische Beschreibung von einem Theile des Nieder-Schlesischen, Glätzischen und Böhmischen Gebirges. Archiv für Mineralogie, Geognosie, Bergbau und Hüttenkunde, 4: 3-173.
• 215. Żakowa, H., 1958. Biostratigraphy of the Lower Carboniferous marine deposits of the area of Wałbrzych Miasto (Lower Silesia) (in Polish with English summary). Prace Instytutu Geologicznego, 19.
• 216. Żakowa, H., 1960. The upper Visean from Konradów near Wałbrzych (Lower Silesia) (in Polish with English summary). Kwartalnik Geologiczny, 4 (2): 331-355.
• 217. Żelaźniewicz, A., Aleksandrowski, P., Buła, Z., Karnkowski, P.H., Konon, A., Oszczypko, N., Ślączka, A., Żaba, J., Żytko, K., 2011. Regionalizacja tektoniczna Polski (in Polish). Komitet Nauk Geologicznych PAN.

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).