Abstract
Hydrological and biological regimes of different types of lakes of oases of East Antarctica, Thala Hills, Schirmacher Oasis and Larsemann Hills, were studied in the summer of 2010–2011. In lakes covered with ice, inverse temperature stratification is recorded. In the bottom layers of the water, the temperature (about 4 °C) is close to the values characteristic of water with a maximum density. Isothermy is observed on the opened small lakes, and water in some reservoirs warms up to 8 °С. Benthic communities of cyanobacteria and invertebrates are the main biological component of lakes, where there is no classical food chain and a microbial loop prevails. Studies have shown that a 3-meter layer of ice permits a sufficient amount of light even to a depth of 30 m. Light does not limit the development of algae and cyanobacteria. However, the low content of nutrients in the water limits the growth of phytoplankton, causing low values of biomass (less than 0.01 mg/l) and concentration of chlorophyll a (0.1–0.45 μg/l). A tendency to climate change around the Schirmacher oasis is recorded. In recent decades, some lakes, which in the middle of the last century were constantly covered with ice, began to open in the summer months. In the period when the lake is covered with ice, homothermy is established with a water temperature of 4 °C. After having opened, the water temperature in the lake drops to 0.5–1 °С because of wind-wave cooling.
Highlights
Environmental factors, including climate change and human activities, have great potential for influencing the biological communities of lakes through various processes that are especially noticeable in the polar regions, where small changes in glacial conditions and in the supply of nutrients can have a sound response (Filatov and et al, 2013; Quesada et al, 2006)
Research on Antarctic lakes was conducted as part of the 56th Russian Antarctic Expedition of the Arctic and Antarctic Research Institute (AARI) from December 2010 to April 2011
Lakes were studied in the oasis of Thala Hills in the vicinity of the Molodezhnaya Station (S 67°40’, E 45°51’) from 19.12.2010 to 06.02.2011; in the Schirmacher oasis in the vicinity of the Novolazarevskaya Station (S 70°44’–70°64’; E 11°20’–11°55’) from 09.02.2011 to 06.03.2011; in the oasis of the Larsemann Hills near the Progress Station (S 69°22’, E 76°23’) – on 22.03.2011 (Fig. 1)
Summary
Environmental factors, including climate change and human activities, have great potential for influencing the biological communities of lakes through various processes that are especially noticeable in the polar regions, where small changes in glacial conditions and in the supply of nutrients can have a sound response (Filatov and et al, 2013; Quesada et al, 2006). The functioning of research stations may be an important factor in the change of chemical regimes in Antarctic lakes (Sharov and Tolstikov, 2018). Wastewater inflow and intensive destruction of rocks by tracked vehicles (increased weathering) can lead to eutrophication of lakes (Ellis-Evans et al, 1997). Its sedi mentary strata are mainly represented by marine depo.
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