2017
DOI: 10.3390/w9030228
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Size Distribution, Surface Coverage, Water, Carbon, and Metal Storage of Thermokarst Lakes in the Permafrost Zone of the Western Siberia Lowland

Abstract: Despite the importance of thermokarst (thaw) lakes of the subarctic zone in regulating greenhouse gas exchange with the atmosphere and the flux of metal pollutants and micro-nutrients to the ocean, the inventory of lake distribution and stock of solutes for the permafrost-affected zone are not available. We quantified the abundance of thermokarst lakes in the continuous, discontinuous, and sporadic permafrost zones of the western Siberian Lowland (WSL) using Landsat-8 scenes collected over the summers of 2013 … Show more

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Cited by 49 publications
(31 citation statements)
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“…These lakes are shallow (0.5-1.5 m depth) water bodies representing the largest reservoir of surface waters in western Siberia, north of 62 • N (Polishchuk et al, 2017). The average concentration of major and trace elements in thermokarst lakes of various size (Manasypov et al, 2014) can be compared with those in snow water collected in this study across the same latitudinal gradient.…”
Section: Snow Water In Comparison To Lake and River Watermentioning
confidence: 97%
“…These lakes are shallow (0.5-1.5 m depth) water bodies representing the largest reservoir of surface waters in western Siberia, north of 62 • N (Polishchuk et al, 2017). The average concentration of major and trace elements in thermokarst lakes of various size (Manasypov et al, 2014) can be compared with those in snow water collected in this study across the same latitudinal gradient.…”
Section: Snow Water In Comparison To Lake and River Watermentioning
confidence: 97%
“…Given the very short transit time of water from the surrounding peat to the lakes via suprapermafrost flow (Ala-aho et al, 2018a, b;Raudina et al, 2018), the allochthonous chromophoric DOM-rich material from peat soil water that arrives to the lakes may be subjected to fast degradation and coagulation, as shown in Scandinavian lakes (Kortelainen et al, 2006b;. Second, the peat abrasion at the border of the thermokarst lakes and thaw ponds, which are highly abundant in the territory (Polishchuk et al, 2017(Polishchuk et al, , 2018, occurs due to wave erosion and thermoabrasion (Shirokova et al, 2013;Manasypov et al, 2015). The physical disintegration of peat at the lake coast likely generates a large amount of suspended organic-rich material that can be exported to hydrological networks during, for example, lake drainage or already existing connecting channels (Kirpotin et al, 2008(Kirpotin et al, , 2011.…”
Section: A Maximum Of C and N In The Isolated And Sporadic Permafrostmentioning
confidence: 99%
“…As a result of low gradients and poor drainage, the landscape is characterized by waterlogged peatlands with a mosaic of lakes and wetlands (Frey et al 2007. The lake coverage is 5.7% on average but achieves 30% in some places (Polishchuk et al 2017).…”
Section: Study Areamentioning
confidence: 99%