Recent studies on the Silurian of the western part of Ukraine

Journal title

Acta Geologica Polonica




vol. 66


No 3


Divisions of PAS

Nauki o Ziemi


Komitet Nauk Geologicznych PAN ; Wydział Geologii UW




DOI: 10.1515/agp-2016-0014 ; ISSN 0001-5709


Acta Geologica Polonica; 2016; vol. 66; No 3


Teisseyre (1893), Całokształt płyty paleozoicznej Galicyjskiego Podola, Kosmos, 18, 19. ; Szaniawski (2012), Siluro - Devonian of Podolia Ukraine : paleobiological biostratigraphic and geochemical aspects, Acta Palaeontologica Polonica, 57. ; Stearn (1994), The stromatoporoid animal revisited : Building the skeleton, Lethaia, 27, 1, ; Kershaw (1984), Patterns of stromatoporoid growth in level - bottom environments, Palaeontology, 27. ; Kaljo (2007), Three global carbon isotope shifts in the Silurian of Podolia ( Ukraine ) : stratigraphical implications, Estonian Journal of Earth Sciences, 56. ; Baarli (2003), Silurian stratigraphy and palaeogeography of Baltica In Landing and Silurian Lands and Seas : paleogeography outside of Laurentia, New York State Museum Bulletin, 493. ; Racki (2012), Faunal dynamics across the Silurian - Devonian positive isotope excursions ( δ δ in Podolia Ukraine : comparative analysis of the Ireviken and Klonk events, Acta Palaeontologica Polonica, 13, 57. ; Kaljo (2014), Upper Silurian stratigraphy of Podolia revisited : Carbon isotopes bentonites and biostratigraphy, GFF, 136, ; Huff (2000), Silurian K bentonites of the Dnestr Basin Ukraine of the Geological Society of London, Journal, 157. ; Yawsangratt (2012), Evidence of probable paleotsunami deposits on Kho Khao Island Phang Nga Province Thailand, Natural Hazards, 63. ; Łuczyński (2014), Stromatoporoid beds and flat - pebble conglomerates interpreted as tsunami deposits in the Upper Silurian of Podolia Ukraine, Acta Geologica Polonica, 64. ; Kozłowski (2012), Mid - Ludfordian coeval carbon isotope natural gamma ray and magnetic susceptibility excursions in the Mielnik IG - borehole ( Eastern Poland ) - dustiness as a possible link between global climate and the Silurian carbon isotope record, Palaeogeography Palaeoclimatology Palaeoecology, 1. ; Kaljo (2012), Přidoli carbon isotope trend and Upper Silurian and lowermost Devonian chemostratigraphy based on sections in Podolia ( Ukraine ) and the East Baltic area, Estonian Journal of Earth Sciences, 61. ; Małkowski (2009), Carbon isotope stratigraphy across the Silurian - Devonian transition in Podolia Ukraine : Evidence for a global biogeochemical perturbation, Geological Magazine, 146. ; Kershaw (1981), Stromatoporoid growth form and taxonomy in a Silurian biostrome on Gotland, Journal of Palaeontology, 55. ; Kershaw (1994), Classification and geological significance of biostromes, Facies, 31. ; Skompski (2008), High - energy sedimentary events in lagoonal successions of the Upper Silurian of Podolia Ukraine, Facies, 54. ; Abushik (1985), The fourth series of the Silurian System in Podolia, Lethaia, 18. ; Łuczyński (2009), Sedimentary history of Upper Silurian biostromes of Podolia ( Ukraine ) based on stromatoporoid morphometry, Palaeogeography Palaeoclimatology Palaeoecology, 271. ; Kiipli (2000), Volcanic interbeds in the Silurian of the southwestern part of the East European Craton Proceedings of the Estonian, Academy of Sciences Geology, 49. ; Voychyshyn (2011), The Early Devonian armoured Agnathans of Podolia Ukraine, Palaeontologia Polonica, 66. ; Jarochowska (2014), Facies development and sequence stratigraphy of the Ludfordian ( Upper Silurian ) deposits in the Zbruch River Valley western Ukraine : Local facies overprint on the δ C carb record of a global stable carbon isotope excursion, Facies, 13, 60. ; Paris (2009), Boulder and fine sediment transport and deposition by the tsunami in Lhok Nga ( western Banda Aceh Indonesia ) : a coupled offshore - onshore model, Marine Geology, 268. ; Łuczyński (1998), Stromatoporoid morphology in the Devonian of the Holy Cross Mountains Poland, Acta Palaeontologica Polonica, 43. ; Łuczyński (2015), Regressive - transgressive cyclothem with facies record of the re - flooding window in the Late Silurian carbonate succession ( Podolia Ukraine ), Acta Geologica Polonica, 65. ; Sakuna (2012), Tsunami deposits left by the Indian Ocean tsunami on the inner continental shelf offshore of Khao Lak Andaman Sea ( Thailand ), Earth Planets Space, 64. ; Sandström (2002), Silurian ) stromatoporoid biostromes from Gotland Sweden Facies depositional models and modern analogues, Sedimentology, 49. ; Lüning (2003), Uranium spectral gammaray response as a proxy for organic richness in black shales : applicability and limitations, Journal of Petroleum Geology, 26, 153, ; Szaniawski (2014), Early Devonian scolecodonts from Podolia Ukraine, Acta Palaeontologica Polonica, 59. ; Kershaw (1998), The application of stromatoporoid palaeobiology in palaeoenvironmental analysis, Palaeontology, 41. ; Aigner (1985), Storm depositional systems, Lecture Notes in Earth Sciences, 3. ; Dawson (2007), Tsunami deposits in the geological record, Sedimentary Geology, 200. ; Calner (2005), Silurian carbonate platforms and extinction events - ecosystem changes exemplified from Gotland Sweden, Facies, 51. ; Łuczyński (2009), Stromatoporoid growth orientation as a tool in palaeotopography : a case study from the Kadzielnia Quarry Holy Cross Mountains central Poland, Acta Geologica Polonica, 59, 319. ; Taboada (2006), Uranium and thorium in weathering and pedogenetic profiles developed on granitic rocks from NW Spain of the, Science Total Environment, 356. ; Weiss (2008), Sediment grains moved by passing tsunami waves : Tsunami deposits in deep water, Marine Geology, 250. ; Łuczyński (2005), Improving the parameterization of stromatoporoid shapes - a detailed approach to stromatoporoid morphometry, Lethaia, 38. ; Środoń (2013), Thermal history of lower Paleozoic rocks on the Peri - Tornquist margin of the East European Craton Ukraine ) inferred from combined XRD Ar and aft data, Clays and Clay Minerals, 61. ; Watkins (1992), Paleoecology of a low - diversity Silurian community from the Tofta Beds of Gotland, Palaontologische Zeitschrift, 66. ; Goto (2013), Localized tsunamigenic earthquakes inferred from preferential distribution of coastal boulders on the Ryukyu Islands Japan, Geology, 41. ; Kozłowski (1929), Les Brachiopodes gothlandiens de la Podolie Polonaise, Palaeontologia Polonica, 1. ; Flodén (2001), A Silurian reefal succession in the Gotland area Baltic Sea, GFF, 123. ; Goto (2007), Distribution origin and transport process of boulders deposited by the Indian Ocean tsunami in Pakarang Cape Thailand, Sedimentary Geology, 202. ; Szczuciński (2006), Environmental and Geological impacts of the tsunami in coastal zone of Thailand - overview of short and long - term effects, Polish Journal of Environmental Studies, 26, 15. ; Kozłowski (2015), Eolian dust influx and massive whitings during the kozlowski / Lau Event : carbonate hypersaturation as a possible driver of the mid - Ludfordian Carbon Isotope Excursion, Bulletin of Geosciences, 90. ; Łuczyński (2008), Growth forms and distribution patterns of stromatoporoids exposed on Devonian palaeobottom surfaces ; Holy Cross Mountains central Poland, Acta Geologica Polonica, 58. ; Kershaw (1978), and Parameterization of stromatoporoid shape, Lethaia, 11. ; Goff (2012), Progress in palaeotsunami research, Sedimentary Geology, 243. ; Skompski (2010), Paleobiogeographical significance of the late Silurian microproblematicum Tuxekanella Riding and Soja, Journal of Paleontology, 84. ; Jaffe (2012), and Flow speed estimated by inverse modeling of sandy tsunami deposits : results from the tsunami on the coastal plain near the Sendai Airport Japan, Sedimentary Geology, 11, 282. ; Szczuciński (2012), tsunami deposits left in areas of various tsunami runup in coastal zone of Thailand, Earth Planets Space, 64. ; Bjerkéus (2001), Late Silurian reef development in the Baltic Sea, GFF, 123. ; Kozłowski (2010), Stable carbon isotope development and sea - level changes during the late Ludlow Silurian ) of the Łysogory region ( Rzepin section Holy Cross Mountains Poland ), Facies, 56, 615, ; Małkowski (2009), A global biogeochemical perturbation across the Silurian - Devonian boundary : Ocean - continent - biosphere feedbacks, Palaeogeography Palaeoclimatology Palaeoecology, 276. ; Bábek (2007), Progressive drowning of carbonate platform in the Moravo - Sile sian Basin ( Czech Republic ) before the Frasnian / Famennian event : facies compositional variations and gamma - ray spectrometry, Facies, 53. ; Carpentier (2013), Large U loss during weathering of upper continental crust : the sedimentary record, Chemical Geology, 340. ; Łuczyński (2006), Stromatoporoid shape and burial ratio changes during growth history and their methodological consequences for morphometrical analyses, Lethaia, 39, 339, ; Pratt (1986), The St George Group ( Lower Ordovician ) of western Newfoundland : tidal flat island model for carbonate sedimentation in shallow epeiric seas, Sedimentology, 33. ; Samtleben (2000), Development of facies and isotopes in transects through the Ludlow of Gotland : evidence for global and local influences on a shallow - marine environment, Facies, 43. ; Shinn (1969), Anatomy of a modern carbonate tidal flat Andros Island Bahamas, Journal of Sedimentary Petrology, 39. ; Kershaw (1990), Stromatoporoid palaeobiology and taphonomy in a Silurian biostrome on Gotland Sweden, Palaeontology, 33. ; Łuczyński (2003), Stromatoporoid morphology in the Devonian of the Holy Cross Mountains and its palaeoenvironmental significance, Acta Geologica Polonica, 53, 19. ; Shanmugam (2006), The tsunamite problem, Journal of Sedimentary Research, 76.