| Цитирование: | 1. Koster, E.A. Ancient and modern cold-climate aeolian sand deposition: A review. J. Quat. Sci. 1988, 3, 69-83.
2. Zeeberg, J. The European sand belt in eastern Europe and comparison of Late Glacial dune orientation with GCM simulation results. Boreas 1998, 27, 127-139.
3. Velichko, A.; Timireva, S.; Kremenetski, K.; Macdonald, G.; Smith, L. West Siberian Plain as a late glacial desert. Quat. Int. 2011, 237, 45-53.
4. Zykina, V.S.; Zykin, V.S. Loess-Soil Sequence and Environment and Climate Evolution of the Western Siberia in the Pleistocene; Geo: Novosibirsk, Russia, 2012. (In Russian)
5. Bateman, M.D.; Thomas, D.S.; Singhvi, A.K. Extending the aridity record of the Southwest Kalahari: Current problems and future perspectives. Quat. Int. 2003, 111, 37-49.
6. Lancaster, N.; Kocurek, G.; Singhvi, A.; Pandey, V.; Deynoux, M.; Ghienne, J.F.; Lô, K. Late Pleistocene and Holocene dune activity and wind regimes in the western Sahara Desert of Mauritania. Geology 2002, 30, 991-994.
7. Schmeisser, R.L.; Loope, D.B.; Mason, J.A. Modern and late Holocene wind regimes over the Great Plains (central U.S.A.). Quat. Sci. Rev. 2010, 29, 554-566.
8. Kalińska, E.; Kot, R.; Krievāns, M. Adding Another Piece to NE European Aeolian Sand Belt Puzzles: A Sedimentary Age Case Study of Pērtupe Site, Eastern Latvia. Baltica 2020, 33, 46-57.
9. Drenova, A.; Timireva, S.; Chikolini, N. Late glacial dune-building in the Russian plain. Quatern. Int. 1997, 41-42, 59-66.
10. Kasse, C. Cold-Climate Aeolian Sand-Sheet Formation in Northwestern Europe (c. 14-12.4 ka); A Response to Permafrost Degradation and Increased Aridity. Permafr. Periglac. 1997, 8, 295-311.
11. Koster, E.A. Terminology and Lithostratigraphic Division of (Surficial) Sandy Aeolian Deposits in The Netherlands: An Evaluation. Geol. En Mijnb. Delft 1982, 61, 121-129.
12. Koster, E. Recent advances in luminescence dating of Late Pleistocene (Cold-Climate) aeolian sand and loess deposits in western Europe. Permafr. Periglac. 2005, 16, 131-143.
13. Koster, E.A. The "European Aeolian Sand Belt": Geoconservation of Drift Sand Landscapes. Geoheritage 2009, 1, 93-110.
14. Bateman, M.D.; Murton, J.B.; Crowe, W. Late Devensian and Holocene depositional environments associated with the coversand around Caistor, north Lincolnshire, UK. Boreas 2008, 29, 1-15.
15. Kasse, C. (Kees) Sandy aeolian deposits and environments and their relation to climate during the Last Glacial Maximum and Lateglacial in northwest and central Europe. Prog. Phys. Geogr. 2002, 26, 507-532.
16. Van Mourik, J.; Nierop, K.; Vandenberghe, D. Radiocarbon and optically stimulated luminescence dating based chronology of a polycyclic driftsand sequence at Weerterbergen (SE Netherlands). CATENA 2010, 80, 170-181.
17. Van Mourik, J.; Seijmonsbergen, A.; Slotboom, R.; Wallinga, J. Impact of human land use on soils and landforms in cultural landscapes on aeolian sandy substrates (Maashorst, SE-Netherlands). Quat. Int. 2012, 265, 74-89.
18. Bertran, P.; Bateman, M.D.; Hernandez, M.; Mercier, N.; Millet, D.; Sitzia, L.; Tastet, J.P. Inland aeolian deposits of south-west France: Facies, stratigraphy and chronology. J. Quat. Sci. 2011, 26, 374-388.
19. Vandenberghe, D.; Derese, C.; Kasse, C.; Haute, P.V.D. Late Weichselian (Fluvio-) Aeolian sediments and Holocene drift-sands of the classic type locality in Twente (E Netherlands): A high-resolution dating study using optically stimulated luminescence. Quat. Sci. Rev. 2013, 68, 96-113.
20. Beerten, K.; Vandersmissen, N.; Deforce, K.; Vandenberghe, N. Late Quaternary (15 ka to present) development of a sandy landscape in the Mol area, Campine region, North-East Belgium. J. Quat. Sci. 2014, 29, 433-444.
21. Beerten, K.; Leterme, B. Palaeohydrological reconstruction (1500-2000AD) of a drift sand landscape using pedogeomorphological and historical data (Campine Area, NE Belgium). CATENA 2015, 135, 208-218.
22. Beerten, K.; Heyvaert, V.; Vandenberghe, D.A.; Van Nieuland, J.; Bogemans, F. Revising the Gent Formation: A new lithostratigraphy for Quaternary wind-dominated sand deposits in Belgium. Geol. Belg. 2017, 20, 95-102.
23. Sitzia, L.; Bertran, P.; Bahain, J.-J.; Bateman, M.D.; Hernandez, M.; Garon, H.; De Lafontaine, G.; Mercier, N.; Leroyer, C.; Queffelec, A.; et al. The Quaternary coversands of southwest France. Quat. Sci. Rev. 2015, 124, 84-105.
24. Pierik, H.J.; Van Lanen, R.J.; Gouw-Bouman, M.T.; Groenewoudt, B.J.; Wallinga, J.; Hoek, W.Z. Controls on late-Holocene drift-sand dynamics: The dominant role of human pressure in the Netherlands. Holocene 2018, 28, 1361-1381.
25. Sevink, J.; Van Geel, B.; Jansen, B.; Wallinga, J. Early Holocene forest fires, drift sands, and Usselo-type paleosols in the Laarder Wasmeren area near Hilversum, the Netherlands: Implications for the history of sand landscapes and the potential role of Mesolithic land use. CATENA 2018, 165, 286-298.
26. Crombé, P.; Bos, J.A.A.; Cruz, F.; Verhegge, J. Repeated aeolian deflation during the Allerød/GI-1a-c in the coversand lowland of NW Belgium. CATENA 2020, 188, 104453.
27. Kolstrup, E.; Jørgensen, J.B. Older and Younger Coversand in Southern Jutland (Denmark). Bull. Geol. Soc. Den. 1982, 30, 71-77.
28. Hilgers, A.; Murray, A.; Schlaak, N.; Radtke, U. Comparison of Quartz OSL protocols using Lateglacial and Holocene dune sands from Brandenburg, Germany. Quat. Sci. Rev. 2001, 20, 731-736.
29. Hilgers, A. The Chronology of Late Glacial and Holocene Dune Development in the Northern Central European Lowland Reconstructed by Optically Stimulated Luminescence (OSL) Dating. Ph.D. Thesis, University of Cologne, Cologne, Germany, October 2007.
30. Kolstrup, E. OSL Dating in Palaeoenvironmental Reconstructions. A Discussion from A User's Perspective. Est. J. Earth Sci. 2007, 56, 157-166.
31. Kolstrup, E. Lateglacial older and younger coversand in northwest Europe: Chronology and relation to climate and vegetation. Boreas 2007, 36, 65-75.
32. Kolstrup, E.; Murray, A.; Possnert, G. Luminescence and radiocarbon ages from laminated Lateglacial aeolian sediments in western Jutland, Denmark. Boreas 2007, 36, 314-325.
33. Kaiser, K.; Hilgers, A.; Schlaak, N.; Jankowski, M.; Kühn, P.; Bussemer, S.; Przegietka, K. Palaeopedological marker horizons in northern central Europe: Characteristics of Lateglacial Usselo and Finow soils. Boreas 2009, 38, 591-609.
34. Kaiser, K.; Schneider, T.; Küster, M.; Dietze, E.; Fülling, A.; Heinrich, S.; Kappler, C.; Nelle, O.; Schult, M.; Theuerkauf, M.; et al. Palaeosols and their cover sediments of a glacial landscape in northern central Europe: Spatial distribution, pedostratigraphy and evidence on landscape evolution. CATENA 2020, 193, 104647.
35. Tolksdorf, J.F.; Kaiser, K.; Terberger, T.; Klasen, N.; Schneider, B.; Masberg, P. Aeolian sedimentation in the Rhine and Main area from the Late Glacial until the Mid-Holocene: New evidence from the Magdalenien site of Götzenhain (Hesse, Germany). Quat. Sci. J. 2011, 59, 36-43.
36. Jankowski, M. Lateglacial soil paleocatena in inland-dune area of the Toruń Basin, Northern Poland. Quat. Int. 2012, 265, 116-125.
37. Tolksdorf, J.F.; Kaiser, K. Holocene aeolian dynamics in the European sand-belt as indicated by geochronological data. Boreas 2012, 41, 408-421.
38. Zieliński, P.; Sokołowski, R.J.; Fedorowicz, S.; Zaleski, I. Periglacial structures within fluvio-aeolian successions of the end of the Last Glaciation-Examples from SE Poland and NW Ukraine. Boreas 2014, 43, 712-721.
39. Zieliński, P.; Sokołowski, R.J.; Jankowski, M.; Standzikowski, K.; Fedorowicz, S. The climatic control of sedimentary environment changes during the Weichselian-An example from the Middle Vistula Region (Eastern Poland). Quatern. Int. 2019, 501, 120-134.
40. Küster, M.; Fülling, A.; Kaiser, K.; Ulrich, J. Aeolian sands and buried soils in the Mecklenburg Lake District, NE Germany: Holocene land-use history and pedo-geomorphic response. Geomorphology 2014, 211, 64-76.
41. Kruczkowska, B.; Błaszkiewicz, M.; Jonczak, J.; Uzarowicz, Ł.; Moska, P.; Brauer, A.; Bonk, A.; Słowiński, M. The Late Glacial pedogenesis interrupted by aeolian activity in Central Poland-Records from the Lake Gościąż catchment. CATENA 2020, 185, 104286.
42. Markov, K.K. Ancient inland dunes of Europe. Priroda 1928, 6, 554-574.
43. Molodkov, A.; Bitinas, A. Sedimentary record and luminescence chronology of the Lateglacial and Holocene aeolian sediments in Lithuania. Boreas 2006, 35, 244-254.
44. Drenova, A.N. Ancient Continental Dunes in the Upper Volga Basin: Their Orientation, Structure, Granulometric Composition. Geomorphologya 2011, 1, 37-48.
45. Kalińska-Nartiša, E.; Nartišs, M.; Thiel, C.; Buylaert, J.-P.; Murray, A.S. Late-glacial to Holocene aeolian deposition in northeastern Europe-The timing of sedimentation at the Iisaku site (NE Estonia). Quatern. Int. 2015, 357, 70-81.
46. Kalińska-Nartiša, E.; Thiel, C.; Nartišs, M.; Buylaert, J.-P.; Murray, A.S. Age and sedimentary record of inland eolian sediments in Lithuania, NE European Sand Belt. Quatern. Res. 2015, 84, 82-95.
47. Kalińska-Nartiša, E.; Dzierżek, J.; Bińka, K.; Borkowski, A.; Rydelek, P.; Zawrzykraj, P. Upper Pleistocene palaeoenvironmental changes at the Zwierzyniec site, Central Poland. Geol. Q. 2016, 60, 610-623.
48. Kalińska-Nartiša, E.; Thiel, C.; Nartišs, M.; Buylaert, J.-P.; Murray, A.S. The north-eastern aeolian ‘European Sand Belt' as potential record of environmental changes: A case study from Eastern Latvia and Southern Estonia. Aeolian Res. 2016, 22, 59-72.
49. Drenova, A.N.; Velichko, A.A. Ancient Continental Dunes of Eastern Europe (Their Distribution, Age, Direction of Dune-Forming Winds). In Pathways of Evolutionary Geography, Proceedings of the All-Russian Scientific Conference Dedicated to the Memory of Professor A.A.; Velichko, Moscow, Russia, 23-25 November 2016; Institute of Geography RAS: Moscow, Russia, 2016; pp. 81-87. (In Russian)
50. Seppälä, M. Location, Morphology and Orientation of Inland Dunes in Northern Sweden. Geogr. Ann. A 1972, 54, 85-104.
51. Alexanderson, H.; Bernhardson, M. OSL dating and luminescence characteristics of aeolian deposits and their source material in Dalarna, central Sweden. Boreas 2016, 45, 876-893.
52. Bernhardson, M.; Alexanderson, H.; Björck, S.; Adolphi, F. Sand drift events and surface winds in South-Central Sweden: From the deglaciation to the present. Quat. Sci. Rev. 2019, 209, 13-22.
53. Berg, L.S. Ancient Continental Dunes of Eurasia. Priroda 1928, 2, 171-172. (In Russian)
54. Astapov, A.P.; Bazanov, A.A.; Mingaleva, V.A. Geological Structure of the Southern Part of the Tyumen Region (A Summary Report of the Ishim Party on the Results of Integrated Geological and Hydrogeological Survey Work on a Scale of 1:200, 000; Sheets O-42-B and O-42-G Western 2/3; TKGRE: Tyumen, Russia, 1964. (In Russian)
55. Evseeva, N.S.; Zemtsov, A.A. Relief Formation in the Forest-Bog Zone of the Western Siberian Plain; Tomsk State University Publ.: Tomsk, Russia, 1990. (In Russian)
56. Maloletko, A.M. The Evolution of River Systems in Western Siberia in the Mesozoic and Cenozoic; Tomsk State University Publ.: Tomsk, Russia, 2008. (In Russian)
57. Luzgin, B.N. Paragenetic Relations of Alluvial and Aeolian Processes in The Upper Ob Region. Geogr. I Prirodopolz. Sib. 2009, 11, 149-161. (In Russian)
58. Parnachev, V.P.; Parnachev, S.V. Geology and Minerals of the Surroundings of the City of Tomsk: Materials for the Field Geological Excursion: Reference Book; Tomsk State University Publ.: Tomsk, Russia, 2010. (In Russian)
59. Sizov, O.S.; Zimina, O.Y. Particulars of a Life Support System and Spatial Distribution Regarding Settlements of the Itkul Culture in the Low Tobol Basin (VIII-VI cc. BC). Vestnik Archeologii Antropologii Etnografii 2012, 4, 150-159. (In Russian)
60. Kulizhsky, S.; Loiko, S.; Konstantinov, A.; Krickov, I.V.; Istigechev, G.; Lim, A.G.; Kuzmina, D. Lithological sequence of soil formation on the low terraces of the Ob and the Tom rivers in the south of Tomsk Oblast. Int. J. Environ. Stud. 2015, 72, 1037-1046.
61. Galanin, A.A.; Pavlova, M.R.; Klimova, I.V. Late Quaternary Dune Formations (D'olkuminskaya Series) In Central Yakutia (Part 1). Kriosf. Zemli 2018, 22, 3-15.
62. Ryabukha, A. Late pleistocene periglacial formations in landscapes of Zavolzhye-Urals region. IOP Conf. Series Earth Environ. Sci. 2018, 201, 12018.
63. Galanin, A.A.; Pavlova, M.R. Late Quaternary dune formations (D'olkuminskaya Series) in Central Yakutia (Part 2). Kriosf. Zemli 2019, 23, 3-16.
64. Golubtsov, V.A.; Khokhlova, O.S.; Cherkashina, A.A. Carbonate Rhizoliths in Dune Sands of the Belaya River Valley (Upper Angara Region). Eurasian Soil Sci. 2019, 52, 83-93.
65. Konstantinov, A.; Loiko, S.; Kurasova, A.O.; Konstantinova, E.; Novoselov, A.; Istigechev, G.; Kulizhskiy, S.P. First Findings of Buried Late-Glacial Paleosols within the Dune Fields of the Tomsk Priobye Region (SE Western Siberia, Russia). Geosciences 2019, 9, 82.
66. Lancaster, N.; Wolfe, S.; Thomas, D.S.; Bristow, C.S.; Bubenzer, O.; Burrough, S.L.; Duller, G.; Halfen, A.; Hesse, P.; Roskin, J.; et al. The INQUA Dunes Atlas chronologic database. Quatern. Int. 2016, 410, 3-10.
67. Anufrieva, L.I.; Shiverskikh, I.A.; Krivenkova, G.G. Ecological-Geological Mapping of a Scale of 1:200, 000 Territory of Sheets O-41-XXIV, XXX. Report of the Eastern Ecological Geological Survey for the Years 1993-2001: Geological Report; ZAO TKGRE: Tyumen, Russia, 2001. (In Russian)
68. Zimina, O.; Zherebyatyeva, N.; Idrisov, I.; Sizov, O.; Moskvina, N.; Afonin, A.; Ivanov, S.; Ryabogina, N. The Andreevskoye Lake System at The Turn of The Bronze and Early Iron Ages: Paleo-Landscape Mapping, Bioproductivity Assessment and Demographic Capacity of The Territory (Tura and Pyshma Interfluve, West Siberia). Vestn. Arheol. Antropol. I Etnogr. 2019, 2, 69-84.
69. Glavnoe Upravlenie Geodezii i Kartografii. Atlas Tyumenskoj Oblasti; Glavnoe Upravlenie Geodezii i Kartografii: Moscow/Tyumen, Russia, 1971. (In Russian)
70. Vsegei Fgup. State Geological Map of Russia. Scale 1:1000000 (3rd Generation). Ural. O-41 (Ekaterinburg); Vsegei Fgup: Moscow, Russia, 2011.
71. Konstantinov, A.; Loyko, S.; Kurasova, A.; Kulizhskiy, S. Common Factors of the Lithological-Geomorphological Organization of Soil Cover of the Sand Massives of the South of Western Siberia. Adv. Curr. Nat. Sci. 2018, 7, 151-156.
72. Zieliński, P.; Sokołowski, R.J.; Fedorowicz, S.; Jankowski, M. Stratigraphic position of fluvial and aeolian deposits in the Żabinko site (W Poland) based on TL dating. Geochronometria 2011, 38, 64-71.
73. IUSS Working Group WRB. World Reference Base of Soil Resources 2014, Update 2015. International Soil Classification System for Naming Soils and Creating Legends for Soil Maps. World Soil Resources Reports No. 106; FAO: Rome, Italy, 2015; p. 192.
74. Velichko, A.A.; Timireva, S.N. Morphoscopy and morphometry of quartz grains from 608 loess and buried soil layers. GeoJournal 1995, 36, 143-149. (In Russian)
75. Rukhin, L.B. Fundamentals of Lithology. Doctrine of Sedimentary Rocks; Nedra: Leningrad, Russia, 1969. (In Russian)
76. Khabakov, A.V. On Roundness Indexes of Pebble. Sov. Geol. 1946, 10, 98-99. (In Russian)
77. Krinsley, D.H.; Doorkamp, J.C. Atlas of Quartz Sand Surface Textures; Cambridge University Press: Cambridge, UK, 1973.
78. Sizikova, A.O.; Zykina, V. The dynamics of the Late Pleistocene loess formation, Lozhok section, Ob loess Plateau, SW Siberia. Quatern. Int. 2015, 365, 4-14.
79. Sizov, O.; Volvakh, A.; Vishnevskiy, A.; Soromotin, A.; Abakumov, E. Lithological and geomorphological indicators of glacial genesis of the upper Quaternary strata in the lower courses of the Nadym River. Solid Earth 2019.
80. Ramsey, C.B. Radiocarbon Calibration and Analysis of Stratigraphy: The OxCal Program. Radiocarbon 1995, 37, 425-430.
81. Vos, K.; Vandenberghe, N.; Elsen, J. Surface textural analysis of quartz grains by scanning electron microscopy (SEM): From sample preparation to environmental interpretation. Earth Sci. Rev. 2014, 128, 93-104.
82. Woronko, B.; Dłużewski, M. Sand-grain micromorphology used as a sediment-source indicator for Kharga Depression dunes (Western Desert, S Egypt). Aeolian Res. 2017, 29, 42-54.
83. Wilson, M.J. Dissolution and formation of quartz in soil environments: A review. Soil Sci. Annu. 2020, 71, 3-14.
84. Mycielska-Dowgiałło, E.; Woronko, B. Analiza Obtoczenia I Zmatowienia Powierzchni Ziarn Kwarcowych Frakcji Piaszczystej I Jej Wartość Interpretacyjna. Przegląd Geol. 1998, 46, 1275-1281.
85. Zieliński, P.; Sokołowski, R.J.; Woronko, B.; Fedorowicz, S.; Jankowski, M.; Standzikowski, K. Sandy deposition in a small dry valley in the periglacial zone of the Last Glacial Maximum: A case study from the Józefów site, SE Poland. Quatern. Int. 2016, 399, 58-71.
86. Sokołowski, T.; Wacnik, A.; Woronko, B.; Madeja, J. EemianWeichselian Pleniglacial fluvial deposits in S Poland (an example of the Vistula River valley in Kraków). Geol. Q. 2014, 58, 71-84.
87. Leonova, E.N. Planigraphic Analysis of the "Dune" Mesolithic Sites of The Volga-Oka Interfluve. Candidate of Historical Sciences; Institute of Archaeology RAS: Moscow, Russia, 1998.
88. Schirmer, W. Dune Phases and Soils in The European Sand Belt. Geo. Archaeo. Rhein. 1999, 3, 11-42.
89. Ryabogina, N.E.; Afonin, A.S.; Ivanov, S.N.; Li, H.-C.; Kalinin, P.A.; Udaltsov, S.; Nikolaenko, S.A. Holocene paleoenvironmental changes reflected in peat and lake sediment records of Western Siberia: Geochemical and plant macrofossil proxies. Quatern. Int. 2019, 528, 73-87.
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