Morphological record of pedogenesis and landscape evolution in the upper quaternary pedosediments within the upper Volga river basin

The morphological record of pedogenesis (mostly at a micromorphological scale) and the features of paleosols developed at the northern geographical extremity of the MIS3 paleopedoshpere (including the Bryansk fossil soils) are described. The profiles of the MIS3 paleosols (dark humic gley and peaty gley with the¹⁴С-age around 29-50 cal kyr BP) are located within the periglacial zone in the centre of the Russian Plain (56.7°-58.5° N) within the Upper Volga drainage basin. An assemblage of stable micromorphological features of paleosols studied includes the following: 1) ferruginous nodules and other pedofeatures, occasionally fragmented; 2) concentration (separation) of sand grains within certain microzones; 3) inclusions of raw organic matter, often deformed and oriented to different degrees within the matrix. Despite being buried for a long time period and superimposed by the Holocene pedogenetic processes (clay illuviation), the paleosols preserve some features of short-term (10¹-10² yr) and medium-term (10²-10^3-4 yr) elementary pedogenetic processes (EPP). The short-term EPP include gleying, structure forming and cryogenic processes. The medium-term EPP include humus formation, peat formation and organic matter accumulation. A hypothesis of cryogenic formation of the paleosols studied is substantiated. Only an almost impermeable layer of permafrost could cause water-logging and gleying in these geological and geomorphological conditions.

Bryansk paleosols, MIS3, the Russian Plain, periglacial, micromorphological diagnostics, pedosediments

1. M. De Angelis, J. P. Steffensen, M. R. Legrand, H. B. Clausen and C. U. Hammerù, “Primary aerosol (sea salt and soil dust) deposited in Greenland ice during the last climatic cycle: comparison with east Antarctic record”, J. Geophysical Res., 102, 26681-26698 (1997).

2. G. C. Bond and R. Lotti, “Iceberg discharges into the North Atlantic on millennial time scales during the last Glaciations”, Science, 267, 1005-1010 (1995).

3. M. I. Gerasimova, S. V. Gubin and S. A. Shoba, Micromorphology of Soils of the USSR Zonal Soils (ONTI, Pushchino, 1992) [in Russian].

4. W. Dansgaard, S. I. Johnsen, H. B. Clausen, D. Dahl-Jensen, N. S. Gundestrup, C. U. Hammer, C. S. Hvidbjerg, J. P. Steffensen, A. E. Sveinbjørnsdottir, J. Jouzel and G. Bond, “Evidence for general instability of past climate from a 250-kyr ice-core record”, Nature, 364, 218-220 (1993).

5. P. Kühn, B. Terhorst and F. Ottner, “Micromorphology of Middle Pleistocene Palaeosols in northern Italy”, Quaternary International, 156/157, 156-166 (2006).

6. T. D. Morozova, The Development of Soil Cover in Europe in the Late Pleistocene (Nauka, Moscow, 1981) [in Russian].

7. T. D. Morozova and V. P. Nechaev, “The Valdai periglacial zone of the East European Plain as an area of ancient cryogenic soil formation”, In: Developments in Evolutionary Geography (Achievements and Prospects) (Institute of Geography, Russian Academy of Sciences, Moscow, 2002) [in Russian].

8. Problems of Stratigraphy and Palaeogeography of Quaternary Deposits within the Yaroslavskoe Povolzhye Region. Symp. Proc. (GEOS, Moscow, 2001) [in Russian].

9. A. Rusakov and S. Sedov, “Late Quaternary pedogenesis in periglacial zone of northeastern Europe near ice margins since MIS 3: timing, processes, linkages to the landscape evolution”, Quaternary International, 265, 126-141 (2012).

10. A. V. Rusakov, M. A. Korkka, P. P. Kerzum and A. N. Simakova, “Paleosols in the moraine-mantle loam sequence of northeastern Europe: the memory of pedogenesis rates and evolution of the environment during OIS3”, Catena, 71, 456-466 (2007).

11. A. Rusakov, A. Nikonov, L. Savelieva, A. Simakova, S. Sedov, S. Maksimov, V. Kuznetsov, S. Savenko, S. Starikova, M. Korkka and D.Titova, “Landscape evolution in the periglacial zone of Eastern Europe since MIS5: Proxies from paleosols and sediments of the Cheremoshnik key site (Upper Volga, Russia)”, Quaternary International, 365, 26-41 (2015).

12. L. R. Serebryany and N. S. Chebotareva, The Anthropogenic Period within the Russian Plain and its Stratigraphic Components (Russian Academy of Sciences, Moscow, 1963) [in Russian].

13. V. O. Targulian and S. V. Goryachkin (eds.), Soil Memory: Soil as a Memory of Biosphere-Geosphere-Anthroposphere Interactions (LKI, Moscow, 2008) [in Russian].

14. V. O. Targulian and S. V. Goryachkin, “Soil memory: types of records, carries, hierarchy and diversity,” Revista Mexicana de Ciencias Geológicas, 21, 1-8 (2004).