Sedimentary evidence for an ice-sheet dammed lake in a mountain valley of the Eastern Sudetes, Czechia

Hanáček, M.; Nývlt, D.; Skácelová, Z.; Nehyba, S.; Procházková, B.; Engel, Z.

doi:10.1515/agp-2017-0032

Artykuł - szczegóły

Tytuł artykułu

Sedimentary evidence for an ice-sheet dammed lake in a mountain valley of the Eastern Sudetes, Czechia

Autorzy

Hanáček M. , Nývlt D. , Skácelová Z. , Nehyba S. , Procházková B. , Engel Z.

Treść / Zawartość

Pełne teksty:

Pobierz

Identyfikatory

DOI

10.1515/agp-2017-0032

Warianty tytułu

Języki publikacji

Abstrakty

An accumulation of glacial sediments is located near Písečná village in the depression between the Sokol Ridge and Zlaté Hory Highlands NNE of Jeseník town (Eastern Sudetes). The accumulation lies at the lateral side of the mountain valley of the Bělá River and fills a preglacial palaeovalley of this river. Research combining facies analysis of outcrops, ground penetrating radar survey, interpretation drilling survey, and modelling of the preglacial relief was undertaken at the site. According to the results obtained, the upper part of the sedimentary accumulation represents a coarse-grained terminoglacial glaciofluvial delta of the Gilbert type. The development of the accumulation has dominantly been driven by the preglacial morphology. Facies typical for foresets of coarse-grained deltas represented mainly by high-density flows, cohesionless debris flows, debris falls and less common low-density flows were found in the outcrops. The delta near Písečná prograded into a lake dammed by the ice-sheet front in the north. The lake was bounded by the slopes of Sokol Ridge, Zlaté Hory Highlands and Góry Parkowe on other sides. The lake level reached an altitude of up to 430 m a.s.l., as the coarse-grained delta plain base lies at this level.

Słowa kluczowe

terminoglacial glaciofluvial Gilbert-type delta foreset facies preglacial morphology ice-dammed lake Pleistocene Central Europe Písečná Site

delta typu Gilberta facje morfologia preglacjalna jezioro lodowcowe jezioro proglacjalne pleistocen Europa Centralna

Wydawca

Faculty of Geology of the University of Warsaw
Komitet Nauk Geologicznych PAN

Czasopismo

Acta Geologica Polonica

Rocznik

2018

Tom

Vol. 68, no. 1

Strony

107--134

Opis fizyczny

Bibliogr. 111 poz., rys., tab.

Twórcy

autor

Hanáček M.

Department of Geological Sciences, Faculty of Science, Masaryk University, Kotlářská 267/2, 611 37 Brno, Czechia

autor

Nývlt D.

Department of Geography, Faculty of Science, Masaryk University, Kotlářská 267/2, 611 37 Brno, Czechia
Czech Geological Survey, Klárov 3, 118 21 Praha, Czechia

autor

Skácelová Z.

Czech Geological Survey, Klárov 3, 118 21 Praha, Czechia

autor

Nehyba S.

Department of Geological Sciences, Faculty of Science, Masaryk University, Kotlářská 267/2, 611 37 Brno, Czechia

autor

Procházková B.

Department of Physical Geography and Geoecology, Faculty of Science, Charles University in Prague, Albertov 6, 128 43 Praha, Czechia

autor

Engel Z.

Department of Physical Geography and Geoecology, Faculty of Science, Charles University in Prague, Albertov 6, 128 43 Praha, Czechia

Bibliografia

1. Aitken, J.F. 1995. Lithofacies and depositional history of a LateDevensian ice-contact deltaic complex, northeast Scotland. Sedimentary Geology, 99, 111-130.
2. Bennett, M.R., Huddart, D. and Thomas, G.S.P. 2007. The Newbigging esker system, Lanarkshire, Southern Scotland: a model for composite tunnel, subaqueous fan and supraglacial esker sedimentation. In: M.J. Hambrey, P. Christoffersen, N.F. Glasser and B. Hubbard (Eds), Glacial Sedimentary Processes and Products. Special Publication Number 39 of the International Association of Sedimentologists, 177-202.
3. Beres, M., Green, A., Huggenberger, P. and Horstmeyer, H. 1995. Mapping the architecture of glaciofluvial sediments with three-dimensional georadar. Geology, 23, 1087-1090.
4. Brennand, T.A. 1994. Macroforms, large bedforms and rhythmic sedimentary sequences in subglacial eskers, south-central Ontario: implications for eskers genesis and meltwater regime. Sedimentary Geology, 91, 9-55.
5. Brodzikowski, K. and van Loon, A.J. 1991. Glacigenic Sediments, pp. 1-674. Elsevier; Amsterdam.
6. Burke, M.J., Woodward, J., Russell, A.J., Fleisher, P.J. and Bailey, P.K. 2008. Controls on the sedimentary architecture of a single event englacial esker: Skeiðarárjökull, Iceland. Quaternary Science Reviews, 27, 1829-1847.
7. Carling, P.A. 2013. Freshwater megaflood sedimentation: What can we learn about generic processes? Earth-Science Reviews, 125, 87-113.
8. Carling, P.A., Kirkbride, A.D., Parnachov, S., Borodavko, P.S. and Berger, G.W. 2002. Late Quaternary catastrophic flooding in the Altai Mountains of south-central Siberia: a synoptic overview and an introduction to flood deposit sedimentology. In: I.P. Martini and V.R Baker (Eds), Flood and Megaflood Processes and Deposits. Recent and Ancient Examples. Special Publication Number 32 of the International Association of Sedimentologists, 17-35.
9. Cartigny, M.J.B., Eggenhuisen, J.T., Hansen, E.W.M. and Postma, G. 2013. Concentration-dependent flow stratification in experimental high-density turbidity currents and their relevance to turbidite facies models. Journal of Sedimentary Research, 83, 1047-1065.
10. Cassidy, N.J., Russell, A.J., Marren, P.M., Fay, H., Knudsen, Ó., Rushmer, E.L. and van Dijk, T.A.G.P. 2003. GPR derived architecture of November 1996 jökulhlaup deposits, Skeiðarársandur, Iceland. In: C.S. Bristow and H.M. Jol (Eds), Ground Penetrating Radar in Sediment, pp. 153-166. The Geological Society; London.
11. Cháb, J., Čurda, J., Kočandrle, J., Manová, M., Nývlt, D., Pecina, V., Skácelová, D., Večeřa, J. and Žáček, V. 2004. Basic geological map of the Czech Republic 1:25 000 sheet 14-224 Jeseník with explanatory notes. Czech Geological Survey; Praha. [In Czech with English summary]
12. Clemmensen, L.B. and Houmark-Nielsen, M. 1981. Sedimentary features of a Weichselian glaciolacustrine delta. Boreas, 10, 229-245.
13. Clerc, S., Buoncristiani, J.-F., Guiraud, M., Desaubliaux, G. and Portier, E. 2012. Depositional model in subglacial cavities, Killiney Bay, Ireland. Interactions between sedimentation, deformation and glacial dynamics. Quaternary Science Reviews, 33, 142-164.
14. Clifton, E. 1984. Sedimentation units in stratified resedimented conglomerate, Paleocene submarine canyon fill, Point Lobos, California. In: E.H. Koster and R.J. Steel (Eds), Sedimentology of Gravels and Conglomerates. Canadian Society of Petroleum Geologists, 10, 429-441.
15. Colella, A. 1988. Pliocene-Holocene fan deltas and braid deltas in the Crati Basin, southern Italy: a consequence of varyingtectonic conditions. In: W. Nemec and R.J. Steel (Eds), Fan Deltas: Sedimentology and Tectonic Settings, pp. 50-74. Blackie; London.
16. Colella, A., De Boer, P.L. and Nio, S.D. 1987. Sedimentology of a marine intermontane Pleistocene Gilbert-type fan-delta complex in the Crati Basin, Calabria, southern Italy. Sedimentology, 34, 721-736.
17. Diemer, J.A. 1988. Subaqueous outwash deposits in the Ingraham ridge, Chazy, New York. Canadian Journal of Earth Sciences, 25, 1384-1396.
18. Eilertsen, R.S., Corner, G.D., Aasheim, O. and Hansen, L. 2011. Facies characteristics and architecture related to palaeodepht of Holocene fjord-delta sediments. Sedimentology, 58, 1784-1809.
19. Ékes, C. and Friele, P. 2003. Sedimentary architecture and post-glacial evolution of Cheekye fan, southwestern British Columbia, Canada. In: C.S. Bristow and H.M. Jol (Eds), Ground Penetrating Radar in Sediments. The Geological Society London, 87-98.
20. Evans, D.J.A., Hiemstra, J.F., Boston, C.M., Leighton, I., Cofaigh, C.Ó. and Rea, B.R. 2012. Till stratigraphy and sedimentology at the margins of terrestrially terminating ice streams: case study of the western Canadian prairies and high plains. Quaternary Science Reviews, 46, 80-125.
21. Ewertowski, M., Kasprzak, L., Szuman, I. and Tomczyk, A.M. 2011. Controlled, ice-cored moraines: sediments and geomorphology. An example from Ragnarbreen, Svalbard. Zeitschrift für Geomorphologie, 56, 53-74.
22. Flores, R.M. 1990. Transverse and longitudinal Gilbert-type deltas, Tertiary Coalmont Formation, North Park Basin, Colorado, USA. In: A. Colella and D.B. Prior (Eds), Coarse-Grained Deltas. Special Publication Number 10 of the International Association of Sedimentologists, 223-233.
23. Fraser, G.S. and Cobb, J.C. 1982. Late Wisconsinan proglacial sedimentation along the West Chicago moraine in northeastern Illinois. Journal of Sedimentary Petrology, 52, 473-491.
24. Gába, Z. 1972. The outermost occurrences of continental glaciation deposits in Jeseník region. Časopis Slezského muzea,21, 135-138. [In Czech with German summary]
25. Gába, Z. 1977. Till with a high content of Nordic limestone clasts form Nová Ves in Jeseník region. Časopis Slezského muzea, 26, 185-189. [In Czech with German summary]
26. Gába, Z. 1981. Deposits of the continental glacier at Písečná in Northern Moravia. Časopis Slezského muzea, 30, 241-253. [In Czech with German summary]
27. Gába, Z. 1987. Contact of glacial deposits with crystalline basement in Supíkovice. Práce Odboru přírodních věd Vlastivědného Ústavu v Olomouci, 36, 12-13. [In Czech with German summary]
28. Gába, Z. and Dudziak, J. 1979. Indicator analyses of glacial deposits from Jeseník region (Czechoslovakia) and from Tarnow region (Poland). Časopis Slezského muzea, 28, 179-185. [In Czech with German summary]
29. Garmin International (2009) GPSMAP 60CSx with sensors and maps: owner’s manual.
30. Garmin International Inc., Olathe, KS. http://aspdf.com/ebook/gpsmap-60csx-with-sensors-and-mapsowner’s-manualpdf.html (accessed 27 April 2012).
31. Gobo, K., Ghinassi, M., Nemec, W. and Sjursen, E. 2014. Development of an incised valley-fill at an evolving rift margin: Pleistocene eustasy and tectonics on the southern side of the Gulf of Corinth, Greece. Sedimentology, 61, 1086-1119.
32. Gobo, K., Ghinassi, M. and Nemec, W. 2015. Gilbert-type deltas recording short-term base-level changes: Delta-brink morphodynamics and related foreset facies. Sedimentology, 62, 1923-1949.
33. Gruszka, B. 2007. The Pleistocene glaciolacustrine sediments in the Bełchatów mine (central Poland): Endogenic and exogenic controls. Sedimentary Geology, 193, 149-166.
34. Gustavson, T.C. 1974, Sedimentation on gravel outwash fans, Malaspina Glacier Foreland, Alaska. Journal of Sedimentary Petrology, 44, 374-389.
35. Hambrey, M.J. 1995. Glacial Environments, pp. 1-296. University College London Press; London.
36. Hanáček, M. 2011. Terminoglacial fan deposits from the Javorná Stream valley in the Zlaté Hory Region. Acta Musei Moraviae, Scientiae geologicae, 96, 61-86. [In Czech with English summary]
37. Hanáček, M. 2012. Glaciofluvial outwash plain at Kolnovice compared with terminoglacial fans between Sokol Ridge and Zlaté Hory Highlands near the Jeseník town. Geologické výzkumy na Moravě a ve Slezsku, 19, 17-25. [In Czech]
38. Houmark-Nielsen, M. 1983. Depositional features of a late Weichselian outwash fan; central East Jylland, Denmark. Sedimentary Geology, 36, 51-63.
39. Huggenberger, P. 1993. Radar facies: recognition of facies patterns and heterogeneities within Pleistocene Rhine gravels, NE Switzerland. In: J.L. Best and C.S. Bristow (Eds), Braided Rivers. Geological Society, 75, 163-176.
40. Johnsen, T.F. and Brennand, T.A. 2006. The environment in and around ice-dammed lakes in the moderately high relief setting of the southern Canadian Cordillera. Boreas, 35, 106-125.
41. Kjær, K.H., Sultan, L., Krüger, J. and Schomacker, A. 2004. Architecture and sedimentation of outwash fan in front of the Mýrdalsjökull ice cap, Iceland. Sedimentary Geology, 172, 139-163.
42. Kostic, B., Becht, A. and Aigner, T. 2005. 3-D sedimentary architecture of a Quaternary gravel delta (SW-Germany): Implications for hydrostratigraphy. Sedimentary Geology, 181, 143-171.
43. Kowalska, A. 2007. Glacigenic sediments in the Kłodzko region, the Sudetian Mountains, SW Poland. Acta Universitatis Wratislaviensis. Prace geologiczno-mineralogiczne, 76, 81-109. [In Polish with English summary]
44. Krüger, J. 1997. Development of minor outwash fans at Kötlujökull, Iceland. Quaternary Science Reviews, 16, 649-659.
45. Krzyszkowski, D. 1993. Pleistocene glaciolacustrine sedimentation in a tectonically active zone, Kleszczów Graben, central Poland. Sedimentology, 40, 623-644.
46. Krzyszkowski, D. 2002. Sedimentary successions in ice-marginal fans of the Late Saalian glaciation, southwestern Poland. Sedimentary Geology, 149, 93-109.
47. Krzyszkowski, D. 2013. Stratygrafia plejstocenu w południowo-zachodniej Polsce. In: B. Przybylski and D. Krzyszkowski (Eds), XX. Konferencja Stratygrafia plejstocenu Polski. Plejstocen przedpola Sudetów Środkowych, pp. 16-26. Lasocin.
48. Krzyszkowski, D. and Zieliński, T. 2002. The Pleistocene end moraine fans: controls on their sedimentation and location. Sedimentary Geology, 149, 73-92.
49. Lang, J. and Winsemann, J. 2013. Lateral and vertical facies relationships of bedforms deposited by aggrading supercritical flows: From cyclic steps to humpback dunes. Sedimentary Geology, 296, 36-54.
50. Livingstone, S.J., Evans, D.J.A. and Ó Cofaigh, C. 2010. Re-advance of Scottish ice into the Solway Lowlands (Cumbria, UK) during the Main Late Devensian deglaciation. Quaternary Science Reviews, 29, 2544-2570.
51. Lønne, I. 1995. Sedimentary facies and depositional architecture of ice-contact glaciomarine systems. Sedimentary Geology, 98, 13-43.
52. Lønne, I. 1997. Facies characteristics of a proglacial turbiditic sand-lobe at Svalbard. Sedimentary Geology, 109, 13-35.
53. Lønne, I. and Mangerud, J. 1991. An Early or Middle Weichselian sequence of proglacial, shallow marine sediments on western Svalbard. Boreas, 20, 85-104.
54. Lønne, I. and Nemec, W. 2004. High-arctic fan delta recording deglaciation and environment disequilibrium. Sedimentology, 51, 553-589.
55. Lowe, D.R. 1982. Sediment gravity flows: II. Depositional models with special reference to the deposits of high-density turbidity currents. Journal of Sedimentary Petrology, 52, 279-297.
56. Lunt, I.A., Bridge, J.S. and Tye, R.S. 2004. A quantitative, three-dimensional depositional model of gravelly braided rivers. Sedimentology, 51, 377 -414.
57. Macoun, J., Šibrava, V., Tyráček, J. and Kneblová-Vodičková, V. 1965. Quaternary of Ostrav Region and Moravian Gate. pp. 1-419. Ústřední ústav geologický; Praha. [In Czech with German summary]
58. MALA° GeoScience 2005. Ramac GPR. Hardware manual. MALA° GeoScience, Mala
59. Martini, I.P. 1990. Pleistocene glacial fan deltas in southern Ontario, Canada. In: A. Colella and D.B. Prior (Eds), Coarse-Grained Deltas. Special Publication Number 10 of the International Association of Sedimentologists, 281-295.
60. Massari, F. 1996. Upper-flow-regime stratification types on steep-face, coarse-grained, Gilbert-type progradational wedges (Pleistocene, southern Italy). Journal of Sedimentary Research, 66, 364-375.
61. Mastalerz, K. 1990. Diurnally and seasonally controlled sedimentation on a glaciolacustrine foreset slope: an example from the Pleistocene of eastern Poland. In: A. Colella and D.B. Prior (Eds), Coarse-Grained Deltas. Special Publication Number 10 of the International Association of Sedimentologists, 297-309.
62. McCabe, A.M. 1991. The distribution and stratigraphy of drumlins in Ireland. In: J. Ehlers, P.L. Gibbard and J. Rose (Eds), Glacial deposits in Great Britain and Ireland, pp. 421-435. A.A. Balkema; Rotterdam.
63. McPherson, J.G., Shanmugam, G. and Moiola, R.J. 1988. Fan deltas and braid deltas: conceptual problems. In: W. Nemec and R.J. Steel (Eds), Fan deltas: Sedimentology and Tectonic Settings, pp. 14-22. Blackie; London.
64. Miall, A.D. 1985. Architectural-Element Analysis: A New Method of Facies Analysis Applied to Fluvial Deposits. Earth-Science Reviews, 22, 261-308.
65. Moncrieff, A.C.M. 1989. Classification of poorly-sorted sedimentary rocks. Sedimentary Geology, 65, 191-194.
66. Nemec, W. 1990. Aspects of sediment movement on steep delta slopes. In: A. Colella and D.B. Prior (Eds), Coarse-Grained Deltas. Special Publication Number 10 of the International Association of Sedimentologists, 29-73.
67. Nemec, W., Lønne, I. and Blikra, L.H. 1999. The Kregnes moraine in Gauldalen, west-central Norway: anatomy of a Younger Dryas proglacial delta in a palaeofjord basin. Boreas, 28, 454-476.
68. Nývlt, D., Jankovská, V., Víšek, J., Franců, E. and Franců, J. 2008. Deglacial phase of the first Saalian glaciation in Moravian Gate. In: A. Roszková, M. Vlačiky and M. Ivanov (Eds), 14. Kvartér 2008, pp. 17-18. Brno. [In Czech]
69. Nývlt, D., Engel, Z. and Tyráček, J. 2011. Pleistocene glaciations of Czechia. In: J. Ehlers, P.L. Gibbard and P.D. Hughes (Eds), Quaternary Glaciations - Extent and Chronology. Part IV - a closer look. Developments in Quaternary Science, 15, pp. 37-46. Elsevier; Amsterdam.
70. Otava, J. 1992. Geological map of the Czech Republic 1:50 000. Sheet 15-11 Zlaté Hory. Czech Geological Survey; Praha.
71. Pisarska-Jamroży, M. 2006. Transitional deposits between the end moraine and outwash plain in the Pomeranian glaciomarginal zone of NW Poland: a missing component of ice contact sedimentary models. Boreas, 35, 126-141.
72. Pisarska-Jamroży, M., Machowiak, K. and Krzyszkowski, D. 2010. Sedimentation style of a Pleistocene kame terrace from the Western Sudety Mountains, S Poland. Geologos, 16, 101-110.
73. Plink-Björklund, P. and Ronnert, L. 1999. Depositional processes and internal architecture of Late Weichselian ice-margin submarine fan and delta settings, Swedish west coast. Sedimentology, 46, 215-234.
74. Postma, G. 1990. Depositional architecture and facies of river and fan deltas: a synthesis. In: A. Colella and D.B. Prior (Eds), Coarse-Grained Deltas. Special Publication Number 10 of the International Association of Sedimentologists, 13-27.
75. Postma, G. and Cartigny, M.J.B. 2014. Supercritical and subcritical turbidity currents and their deposits - A synthesis. Geology, 42, 987-990.
76. Postma, G. and Cruickshank, C. 1988. Sedimentology of a late Weichselian to Holocene terraced fan delta, Varangerfjord, northern Norway. In: W. Nemec and R.J. Steel (Eds), Fan deltas: Sedimentology and Tectonic Settings, pp. 144-157. Blackie; London.
77. Postma, G., Nemec, W. and Kleinspehn, K.L. 1988. Large floating clasts in turbidites: a mechanism for their emplacement. Sedimentary Geology, 58, 47-61.
78. Prior, D.B. and Bornhold, B.D. 1990: The underwater development of Holocene fan deltas. In: A. Colella and D.B. Prior (Eds), Coarse-Grained Deltas. Special Publication Number 10 of the International Association of Sedimentologists, 223-233.
79. Prosová, M. 1981. Oscillation zone of continental glacier Jeseníky Mts. area. Acta Universitatis Carolinae-Geologica, 3, 265-294. [In Czech with English summary]
80. Przybylski, B. 1998. Late Quaternary evolution of the Nysa Kłodzka river valley in the Sudetic Foreland, southwestern Poland. Geologica Sudetica, 31, 197-211.
81. Roberts, M.C., Niller, H.-P. and Helmstetter, N. 2003. Sedimentary architecture and radar facies of a fan delta, Cypress Creek, West Vancouver, British Columbia. In: C.S. Bristow and H.M. Jol (Eds), Ground Penetrating Radar in Sediments, pp. 111-126. The Geological Society; London.
82. Rushmer, E.L. 2006. Sedimentological and geomorphological impacts of the jökulhlaup (glacial outburst flood) in January 2002 at Kverkfjöll, northern Iceland. Geografiska Annaler, 88, 43-53.
83. Russell, A.J. and Knudsen, Ó. 1999. Controls on the sedimentology of the November 1996 jökulhlaup deposits, Skeiđarársandur, Iceland. In: N.D. Smith and J. Rogers (Eds), Fluvial Sedimentology VI. Special Publication Number 28 of the International Association of Sedimentologists, 315-329.
84. Russell, H.A.J., Sharpe, D.R. and Bajc, A.F. 2007. Sedimentary signatures of the Waterloo Moraine, Ontario, Canada. In: M.J. Hambrey, P. Christoffersen, N.F. Glasser and B. Hubbard (Eds), Glacial Sedimentary Processes and Products. Special Publication Number 39 of the International Association of Sedimentologists, 85-108.
85. Salamon, T. 2008. Relationship betwen morphology and glaciomarginal deposition in the foreland area of the Opava Mountains (S Poland). Geological Quarterly, 52, 143-156.
86. Salamon, T. 2008. Origin of Pleistocene outwash plains in various topographic settings, southern Poland. Boreas, 38, 362-378.
87. Salamon, T., Badura, J. and Przybylski, B. 2007. Glacimarginal deposition in the Otmuchów depression, SW Poland, and its palaeogeographical implications. Annales Societatis Geologorum Poloniae, 77, 207-216.
88. Salamon, T., Krzyszkowski, D. and Kowalska, A. 2013. Development of Pleistocene glaciomarginal lake in the foreland of the Sudetes (SW Poland). Geomorphology, 190, 1-15.
89. Sandmeier, K.J. 2012. REFLEXW: processing program for seismic, acoustic and electromagnetic reflection, refraction and transmission data, Version 7.0. Sandmeier Scientific Software, Karlsruhe.
90. Sawicki, L. 1995. Geological map of Lower Silesia with adjacent Czech and German territories (without Quaternary deposits) 1:100 000. Państwowy Instytut Geologiczny; Warszawa.
91. Shaw, J. and Gorrell, G. 1991. Subglacialy formed dunes with bimodal and graded gravel in the Trenton drumlin field, Ontario. Géographie physique et Quaternaire, 45, 21-34.
92. Smith, L.N. 2006. Stratigraphic evidence for multiple drainings of glacial Lake Missoula along the Clark Fork River, Montana, USA. Quaternary Research, 66, 311-322.
93. Smith, G.H.S., Ashworth, P.J., Best, J.L., Woodward, J. and Simpson, C.J. 2005. The morphology and facies of sandy braided rivers: some considerations of scale invariance. In: M.D. Blum, S.B. Marriott and S.F. Leclair (Eds), Fluvial Sedimentology VII. Special Publication Number 35 of the International Association of Sedimentologists, 145-158.
94. Sohn, Y.K., Kim, S.B., Hwang, I.G., Bahk, J.J., Choe, M.Y. and Chough, S.K. 1997. Characteristics and depositional processes of large-scale gravelly Gilbert-type foresets in the Miocene Doumsan fan delta, Pohang basin, SE Korea. Journal of Sedimentary Research, 67, 130-141.
95. Sohn, Y.K. and Son, M. 2004. Synrift stratigraphic geometry in a transfer zone coarse-grained delta complex, Miocene Pohang Basin, SE. Korea. Sedimentology, 51, 1387-1408.
96. Szponar, A. 1986. Chronostratigraphy and the stages of deglaciations in the Sudetes foreland area in the period of the Middle-Polish glaciation. Acta Universitatis Wratislaviensis. Studia Geograficzne, 45, 1-202. [In Polish with English summary]
97. Talling, P.J., Masson, D.G., Sumner, E.J. and Malgesini, G. 2012. Subaqueous sediment density flows: Depositional processes and deposit types. Sedimentology, 59, 1937-2003.
98. Thomas, G.S.P. and Chiverrell, R.C. 2006. A model of subaqueous sedimentation at the margin of the Late Midlandian Irish Ice Sheet, Connemara, Ireland, and its implications for regionally high isostatic sea-levels. Quaternary Science Reviews, 25, 2868-2893.
99. Ward, B. and Rutter, N. 2000. Deglacial valley fill sedimentation, Pelly river, Yukon territory, Canada. Quaternary International, 68-71, 309-328.
100. Winsemann, J., Asprion, U. and Meyer, T. 2004. Sequence analysis of early Saalian glacial lake deposits (NW Germany): evidence of local ice margin retreat and associated calving processes. Sedimentary Geology, 165, 223-251.
101. Winsemann, J., Asprion, U., Meyer, T. and Schramm, C. 2007. Facies characteristics of Middle Pleistocene (Saalian) ice-margin subaqueous fan and delta deposits, glacial Lake Leine, NW Germany. Sedimentary Geology, 193, 105-129.
102. Winsemann, J., Brandes, C., Polom, U. 2011. Response of a proglacial delta to rapid high-amplitude lake-level change: an integration of outcrop data and high-resolution shear wave seismics. Basin Research, 23, 22-52.
103. Winsemann, J., Hornung, J.J., Meinsen, J.,Asprion, U., Polom, U., Brandes, C., Bussmann, M. and Weber, C. 2009. Anatomy of subaqueous ice-contact fan and delta complex, Middle Pleistocene, North-west Germany. Sedimentology, 56, 1041-1076.
104. Zieliński, T. 1992. Marginal moraines of NE Poland - sedimentsand depositional conditions, pp. 1-95. Uniwersytet Śląski; Katowice. [In Polish with English summary]
105. Zieliński, T. 1993. Outwash plains of NE Poland - sediments and depositional processes, pp. 1-96. Uniwersytet Śląski; Katowice. [In Polish with English summary]
106. Zieliński, T. and van Loon, A.J. 1996. Characteristics and genesis of moraine-derived flowtill varieties. Sedimentary Geology, 101, 119-143.
107. Zieliński, T. and van Loon, A.J. 1999. Subaerial terminoglacial fans I: a semi-quantitative sedimentological analysis of the proximal environment. Geologie en Mijnbouw, 77, 1-15.
108. Zieliński, T. and van Loon, A.J. 2000. Subaerial terminoglacial fans III: overview of sedimentary characteristics and depositional model. Geologie en Mijnbouw, 79, 93-107.
109. Zieliński, T. and van Loon, A.J. 2003. Pleistocene sandur deposits represent braidplains, not alluvial fans. Boreas, 32, 590-611.
110. Žáček, V. 1995. Geological map of the Czech Republic 1:50 000. Sheet 14-22 Jeseník. Czech Geological Survey; Praha. [In Czech]
111. Žáček, V., Čurda, J., Kočandrle, J., Nekovařík, Č., Nývlt, D., Pecina, V., Skácelová, D., Skácelová, Z. and Večeřa, J. 2004. Basic geological map of the Czech Republic 1:25 000 sheet 14-222 Vidnava with explanatory notes. Czech Geological Survey; Praha. [In Czech]

Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).

Typ dokumentu

Bibliografia

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