1. Ananyeva, E.G. (1998), Lithological and mineralogical analysis in geomorphological and palaeogeographical studies, Moscow, Faculty of Geography MSU [in Russian].
2. Antonov, S.I., Danshin, A.I. and Kazmin M.A. (2005), Change in land cover and cultural landscapes in south-western part of Moscow Region, Russia, in Milanova E., Himiyama Y., Bicik I. (eds.), Understanding Land-Use and Land-Cover Change in Global and Regional Context. Science Publishers, Enfield (NH), 97–105.
3. Belyaev, Yu., Panin, A. and Belyaev, V. (2004) Climate-induced and local-scale erosion and sedimentation features in small catchments: Holocene history of two small valleys in Central Russia, in Belyaev, V., Golosov, V. and Walling, D. (eds.), Sediment Transfer through the Fluvial System (Proceedings of a symposium held in Moscow, August 2004), IAHS Publications, 288: 3–12.
4. Belyaev, Yu.R., Panin, A.V. and Belyaev, V.R. (2003), History of dry valleys in the centre of the Russian Plain: the Cholokhovskaya Balka case study, the Satino area, Vestnik MoskovskogoPMCid:PMC201201 Universiteta, Seria 5 Geografia, 5(2003): 55–63 [in Russian].
5. Belyaev, V.R., Eremenko, E.A., Panin, A.V. and Belyaev, Y.R. (2005), Stages of late Holocenegully development in the central Russian Plain, International Journal of Sediment Research,20: 224–232.
6. Bolysov, S.I. and Tarzaeva, N.V. (1996), Meteorological factor of gully headcut retreat in the South-West of the Moscow Region, Geomorfologia, 4: 97–103 [in Russian].
7. Bork, H.-R., Bork, H., Dalchow, C., Faust, B., Piorr, H.-P. and Schatz, T. (1998), Landschaftsentwicklung in Mitteleuropa – Wirkungen des Menschen auf Landschaften, Klett-Perthes, Gotha.
8. Bronk Ramsey, C. (2005), OxCal Program v3.10, Oxford Radiocarbon Accelerator Unit, Oxford (UK) <http://c14.arch.ox.ac.uk/>.
9. Brunsden, D. and Thornes, J.B. (1979), Landscape sensitivity and change, Transactions of the Institute of British Geographers, 4(4): 403–484.
10. Bull, W.B. (1991), Geomorphic responses to climatic change, Oxford University Press.
11. Crozier, M.J. (1999), The frequency and magnitude of geomorphic processes and landform behaviour, Zeitschrift für Geomorphologie, Supplementband, 115: 35–50.
12. Dedkov, A.P., Mozzherin, V.I., Stupishin, A.V. and Trofimov, A.M. (1977), Climatic Geomorphology of Denudation Plains, Kazan' University Press [in Russian].
13. Dotterweich, M. (2005), High resolution reconstruction of a 1300 years old gully system in Northern Bavaria, Germany as a basis for modelling long term man induced landscape evolution, The Holocene, 15: 994–1005.
14. Dotterweich, M. (2008), The history of soil erosion and fluvial deposits in small catchments of Central Europe: deciphering the long term interaction between human and the environment – a review, Geomorphology, 101: 192–208.
15. Dyakonov, K.N. and Abramova, T.A. (1998), Results of palaeo-landscape research in Central Meschera Lowland, Izvestiia Russkogo Obshchestva Geograficheskogo, 130(4): 10–21 [in Russian].
16. Elovicheva, Ya.K., Bogdel', I. I., Zernitskaya, V.N. and Klimanov, V.A. (1988), Climatic reconstructions of the Holocene in Byelorussia by palynological data, in Velichko, A.A. and Khotinskiy, N.A. (eds), Holocene Palaeoclimates of the European Territory of the USSR, Institute of Geography RAS, Moscow, 86–94.
17. Enters, D., Dörfler, W. and Zolitschka, B. (2008), Historical soil erosion and land-use change during the last two millennia recorded in lake sediments of Frickenhauser See, northern Bavaria, central Germany, The Holocene, 18: 243–254
18. Eremenko, E.A., Belyaev, V.R., Karevskaya, I.A. and Panin, A.V. (2005), Natural and anthropogenic factors in gully development: case study of the Uzkiy Gully, the Satino key area, Geomorfologia, 3: 52–65 [in Russian].
19. Golosov, V. (1998), Redistribution of sediments within small river catchments in the agricultural zone of Russia, Geomorphologie: relief, processus, environnement, 1: 53–64.
20. Heine, K. and Niller, H.-P. (2003), Human and climate impacts on the Holocene landscape development in southern Germany, Geographia Polonica, 76(2): 109–122.
21. Kashkin, A.V., Krasnov, Ju.A., Massalitina, G.A., Proshkin, O.L., Smirnov, A.S., Sorokin, A. N. and Frolov, A.S. (2006), Archaeological Map of Russia: The Kaluga Region, Institute of Archaeology, Russian Academy of Sciences, Moscow [in Russian].
22. Khotinskiy, N.A. (1977), The Holocene of the Northern Eurasia, Nauka, Moscow.
23. Khotinskiy, N.A. (1989), Discussion problems of reconstruction and correlation of the Holocene palaeoclimates, in Khotinskiy N.A. (ed.), Palaeoclimates of the Late Glacial and the Holocene, Nauka, Moscow: 12–17.
24. Klimek, K. (2010), Past and present interaction between the catchment and the valley floor: Upper Osoblaha basin, NE Sudetes slope and foreland, Quaternary International, 220: 112–121.
25. Panin, A.V. (2001), Holocene river transformation in the center of European Russia: the middle Protva River case study, Trudy Akademii Vodokhozyaistvennykh Nauk, 7: 161–185.
26. Panin, A. V. (2008), Chronology of Erosion in the Center of the Eastern European Plain over the Last 5000 Years, Doklady Earth Sciences, 423(8): 1324–1329.
27. Panin, A.V., Eremenko, E.A. and Kovda, I.V. (2011), Cut and fill erosion cycle in the Stavropol Region in the end of the Pleistocene. Part 2. Dry valleys. Regional erosion history, Geomorfologia, 2: 102–113.
28. Panin, A.V., Fuzeina, Yu.N. and Belyaev, V.R. (2009), Long-term development of Holocene and Pleistocene gullies in the Protva River basin, Central Russia, Geomorphology, 108: 71–91.
29. Panin, A.V., Karevskaya, I.A. (2000), Floodplain development history in the Protva River at the Satino area, Vestnik Moskovskogo Universiteta, Seria 5, Geografia, 4: 55–62 [in Russian].
30. Panin, A.V., Karevskaya, I.A. and Markelov, M.V. (1999), Evolution of the Yazvitsy Valley in the Protva River basin in the second half of the Holocene, Vestnik Moskovskogo Universiteta, Seria 5, Geografia, 2: 63–72 [in Russian].
31. Panin, A.V., Malaeva, E.M., Golosov, V.N., Ivanova, N.N. and Markelov, M.V. (1998), Geomorphic structure and Holocene history of the Berestovaya Balka, Rostov Region, Geomorfologia, 4: 70–85 [in Russian].
32. Phillips, J.D. (2009), Changes, perturbations, and responses in geomorphic systems, Progress in Physical Geography, 33(1): 17–30.
33. Reimer, P.J., Baillie, M.G.L., Bard, E., Bayliss, A., Beck, J.W., Bertrand, J.C.H., et al. (2004), IntCal04 Terrestrial Radiocarbon Age Calibration, 26–0 cal kyr BP, Radiocarbon, 46(3): 1087–1092.
34. Richards, K.S. (1999), The magnitude-frequency concept in fluvial geomorphology, a component of a degenerating research programme?, Zeitschrift für Geomorphologie N.F., Supplementband 118: 1–15.
35. Rommens, T., Verstraeten, G., Peeters, I., Poesen, J., Govers, G., Van Rompaey, A., Mauz, B., Packman, S. and Lang, A. (2007), Reconstruction of late-Holocene slope and dry valley sediment dynamics in a Belgian loess environment, The Holocene, 17: 777–788.
36. Rommens, T., Verstraeten, G., Poesen, J., Govers, G. and Rompaey, A.V. (2005), Soil erosion and sediment deposition in the Belgian loess belt during the Holocene: Establishing a sediment budget for a small agricultural catchment, The Holocene, 15: 1032–1043.
37. Schmidtchen, G. and Bork, H.-R. (2003), Changing human impact during the period of agriculture in Central Europe. The case study Biesdorfer Kehlen, Brandenburg, Germany, in Lang, A., Hennrich, K. and Dikau, R. (eds.), Long Term Hillslope and Fluvial System Modelling – Concepts and Case Studies from the Rhine River Catchment, Lecture Notes in Earth Sciences, 101, Springer–Verlag, Berlin: 183–200.
38. Schmitt, A., Rodzik, J., Zglobicki, W., Russock, Ch., Dotterweich, M. and Bork, H.-R. (2006), Time and scale of gully erosion in the Jedliczny Dol gully system, southeast Poland, Catena, 68: 124–132.
39. Schmitt, A., Zgłobicki, W., Schmidtchen, G., Rodzik, J., Dotterweich, M., Zamhöfer, S. and Bork, H.-R. (2005), Phases of gully erosion in the Kazimierz Dolny area (case study: Doły Podmularskie, SE Poland), in Rejman, J. and Zglobicki, W. (eds.), Human Impact on Sensitive Geosystems, Maria Curie-Sklodowska University Press, Lublin: 121–128.
40. Smolska, E. (2007), Development of gullies and sediment fans in last-glacial areas on the example of the Suwalki Lakeland (NE Poland), Catena, 71: 122–131.
41. Stankoviansky, M. (2003), Historical evolution of permanent gullies in the Myjava Hill Land, Slovakia, Catena, 51: 223–239.
42. Starkel, L. (1998), Frequency of extreme hydroclimatically induced events as a key to understanding environmental changes in the Holocene, in Issar, A.S. and Brown, N. (eds.), Water, environment and society in times of climatic change, Kluwer Academic Publishers, Dordrecht, Netherlands: 273–288.
43. Starkel, L. (2000), Heavy rains and floods in Europe during last millennium, in Obrębska-Starkel, B. (ed.), Reconstructions of climate and its modeling, Prace geograficzne, l07, Institute of Geography of the Jagiellonian University, Cracow: 55–62.
44. Starkel, L. (2005), Role of climatic and anthropogenic factors accelerating soil erosion and fluvial activity in Central Europe, Studia Quaternaria, 22: 27–33.
45. Starkel, L. (2006), Clusterings of extreme rainfalls and evolution of fluvial systems in the Holocene, Studia Quaternaria, 23: 23–28.
46. Starkel, L. (2007), The diversity of fluvial system response to the Holocene hydrological changes using the Vistula River catchment as an example, Annales Societatis Geologorum Poloniae, 77: 193–205.
47. Sudakova, N.G., Ananyeva, E.G., Glushahkova, N.I. and Nemtsova, G.M. (1977), Lithology of Quaternary deposits in the Satino area: results of the complex study, in Rychagov, G.I. (ed.), Materialy Geographicheskikh Issledovaniy Satinskogo Uchebnogo Poligona. Issue 2, Moscow, VINITI: 2–33.
48. Tarasov, P.E., Gunova, V.S. and Uspenskaya, O.N. (1997), Lake levels of the Volga catchment as indicators of Holocene climate changes, Vestnik Moskovskogo Universiteta, Seria 5, Geografia, 3: 36–41 [in Russian].
49. Vanwalleghem, T., Bork, H.-R., Poesen, J., Dotterweich, M., Schmidtchen, G., Deckers, J., Scheers, S. and Martens, M. (2006), Prehistoric and Roman gullying in the European loess belt: a case study from central Belgium, The Holocene, 16: 393–401.
50. Velichko, A.A., Klimanov, V.A. and Belyaev, A.V. (1988), Estimation of the Volga River runoff and the Caspian Sea water balance during the optimal phases of the Mikulian (Eemian) and the Holocene, Izvestia AN SSSR, Seria Geografia, 1: 27–37.
51. Viles, H.A. and Goudie, A.S. (2003), Interannual, decadal and multidecadal scale climatic variability and geomorphology, Earth-Science Reviews, 61(1–2): 105–131.
52. Vlasov, M.V. (2005), Holocene river morphodynamics in the center of the Russian Plain. Unpublished PhD Thesis, Faculty of Geography, Moscow State University [in Russian].
53. Wolman, M.G. and Miller, J.P. (1960), Magnitude and frequency of forces in geomorphic processes, Journal of Geology, 68: 54–74.
54. Zorina, E.F., Kosov, B.F. and Prokhorova, S.D. (1975), Accounting for the anthropogenic factor in development of gully net in the steppe and forest-steppe regions of the USSR European part, Vestnik Moskovskogo Universiteta, Seria 5, Geografia, 6: 51–57 [in Russian].
55. Zygmunt, E. (2004), Archaeological and radiocarbon dating of alluvial fans as an indicator of prehistoric colonisation of the Głubczyce Plateau (Southwestern Poland), Geochronometria, 23: 101–107.
Oct 2, 2020
Feb 9, 2012
Kalicki, Tomasz (1958- )
Ziętara, Tadeusz (1931-2011)
Starkel, Leszek (1931- )