Regime of karst and glacial lakes at the carboniferous plateau of Tikhvin Ridge in the Northwest of the Russian platform

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Abstract

The studied territory is restricted to the central part of Tikhvin Ridge composed of karstified terrigenous and carbonate deposits of Carboniferous age. The central part of the area is a flat watershed dividing the rivers flowing northwest to Lake Ladoga and those flowing southeast to the Rybinsk water reservoir. The considered territory lies within the Msta River basin subjected to the recent tectonic uplift, forming landforms of Alpine type. Considerable longitudinal sloping of rivers provide intense surface and subsurface runoff (the active hydrodynamic regime). In the considered territory, the lakes are known with their areas changing significantly and quickly enough (months or years). The water in lake basins may disappear or fill them back completely. According to observations, these abrupt decreases and rises in water level do not correlate with seasonal floods, high water and low water periods. The phenomenon of drying and (what is particularly interesting) subsequent filling of lake basins with water is obviously related to the karstic groundwater regime, which is of scientific interest. The up-to-date research data include state geological maps (scale 1:200 000); topographic maps (scale 1:100 000); space images of the free-access Google Planet Earth Internet service, taken in summer and autumn 1984-2016; and weather service data. Cartographic materials were processed in GIS. The analysis of collected data allowed us to distinguish between two types of lakes, i.e., those with insignificant and substantial changes in area with time. Water reservoirs of the first type located on water-permeable moraine Quaternary deposits are classified as glacial. Other lakes overlying immediately Carboniferous deposits, have funnels in the basin bottom and are considered as karstic. The areas of two glacial and three karstic lakes have been measured (by interpreting satellite images) within the central part of the Carboniferous plateau at the Tikhvin Ridge. Variation in the glacial lake areas in the span of 33 years were found to be not crucial, being directly related to annual atmospheric precipitation not correlating with the changing areas of karstic lakes. Karstic lakes reveal 2-, 3- and 12-year-long cycles of significant changes in areas. These changes show decreases and rises in their levels and volumes. They are correlated among all karstic lakes irrespective of the average annual volume of atmospheric precipitation. It points to the significant participation of groundwater in alimentation of karstic lakes belonging to a single karstic water-bearing complex of underlying Carboniferous deposits. Authors relate the recurrent shallowing and filling of karstic lakes to the modern alternating tectonic movements leading to variation in permeability of karstic groundwater-bearing deposits.

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K. V. Belov

Ordzhonikidze Russian State Geological Prospecting University

Author for correspondence.
Email: kostik-belowne@rambler.ru
Russian Federation, 23, Miklukho-Maklaya str., Moscow, 117485

P. A. Ignatov

Ordzhonikidze Russian State Geological Prospecting University

Email: petrignatov@gmail.com
Russian Federation, 23, Miklukho-Maklaya str., Moscow, 117485

E. Yu. Goryunov

Ordzhonikidze Russian State Geological Prospecting University

Email: eyugoryunov@yandex.ru
Russian Federation, 23, Miklukho-Maklaya str., Moscow, 117485

References

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  2. Zheltov, P.I., Lapina, N.N. Gidrogeologiya karsta raionov shahtnogo i rudnichnogo stroitel’stva Evropeiskoi chasti SSSR [Hydrogeology of karst in the areas of mine work construction in the European part of the USSR]. Leningrad, VSEGEI Publ., 1941, 106 p. (in Russian)
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  4. Ivanov, Ya.I. Gidrogeologiya basseina karstovoi reki Pyardomli. Issledovanie rek v SSSR [Hydrology of the karstic Pyardomli River basin. Research of rivers in the USSR]. Rodevich, V.M., Ed., Collection of articles. Leningrtad, Gos. Gidrolog. Institut Publ., 1933, is. 6, 130 p. (in Russian)
  5. Kiselev, I.I., Proskuryakov, V.V., Savanin, A.I. Geologiya i poleznye iskopaemye Leningradskoi oblasti [Geology and minerals of the Leningrad Region]. St. Petersburg, Peterburgskaya kompleksnaya geologicheskaya ekspeditsiya, 1997, 194 p. (in Russian)
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2. Fig. 1. Scheme of the geological structure of the Tikhvin Ridge area (compiled according to the State geological map, see footnote 1): sediments: 1 - Devonian system, 2 - coal-coal system; 3 - settlement and its name; 4 - the river and its name; 5 - absolute elevation marks, m.

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3. Fig. 2. A fragment of the geological section of the latitudinal direction (see footnote 1): 1 - Quaternary deposits. Sand, clay, loam; 2 - Protvinsky horizon. Dolomites and dolomitic limestones, clay below, less often sands; 3 - Steshevsky horizon. Limestone and dolomites with clay intercalations; 4 - Tarusa horizon. Limestone, rarely dolomite, clay and sand below; 5 - Venev horizon. Limestones and dolomites interbedded with marls and clays; 6 - Mikhailovsky Horizon. Clays and sands, limestones and dolomites above and below; 7 - Aleksinsky horizon. Clays, sands and siltston with limestone interlayers; 8 - Tula horizon. Clay, often carbonaceous. bauxite rocks, bauxite and refractory clays; 9 - Chimay horizon. Clays, calcareous limestones, marls, sandstones, sands; 10 - Nadmotinsko-Lovatsky horizon. Clays, sands, aleurites, sandstones; 11 - Smotinsko-Lovatsky horizon. Calcium clays, limestones, marls, sandstones, sands; 12 - Nadsnezhsky horizon. Clays, sands, aleurites, sandstones.

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4. Fig. 3. Shallowed karst lakes: a - oz. Dry heads with funnels at the bottom.

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5. Fig. 3. Shallowed karst lakes: B - oz. Spassky with funnels and fish at the bottom. Photo by Smirnov K.E., August 2016

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6. Fig. 4. Diagram of changes in the area of lakes Belets, Britomlya, Samoilovskiy and Strug lakes and the annual amount of precipitation.

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7. Fig. 5. Diagram of changes in the areas of karst lakes in time.

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