2018
DOI: 10.5194/hess-2018-376
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Turbulent mixing and heat fluxes under lake ice: the role of seiche oscillations

Abstract: We performed a field study on mixing and vertical heat transport under ice cover of an Arctic lake. Mixing intensities were estimated from small-scale oscillations of water temperature and turbulent kinetic energy dissipation rates derived from current velocity fluctuations. Well-developed turbulent conditions prevailed in the stably stratified interfacial layer separating the ice base from the warmer deep waters. The source of turbulent mixing was identified as whole-lake (barotropic) oscillations of the wate… Show more

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Cited by 3 publications
(3 citation statements)
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“…As such, under‐ice stratification suppresses upward heat transfer into the ice layer. However, under‐ice currents and internal waves, which historically have been considered negligible, can increase heating up to an order of magnitude, accelerating ice melt (Aslamov et al, 2014; Kirillin et al, 2018, 2020). In turn, stratification conditions in the lower atmosphere vary widely by season but are typically stable during the melting period.…”
Section: How Do We Research Lake Ice Dynamics?mentioning
confidence: 99%
See 1 more Smart Citation
“…As such, under‐ice stratification suppresses upward heat transfer into the ice layer. However, under‐ice currents and internal waves, which historically have been considered negligible, can increase heating up to an order of magnitude, accelerating ice melt (Aslamov et al, 2014; Kirillin et al, 2018, 2020). In turn, stratification conditions in the lower atmosphere vary widely by season but are typically stable during the melting period.…”
Section: How Do We Research Lake Ice Dynamics?mentioning
confidence: 99%
“…Such experiments thus have the potential to provide the ultimate test of ecological theory and offer parameter acquisition for physical models that are often unavailable for a large number of lakes or at the appropriate spatial scales. Continuous and precise high‐resolution temperature measurements in experimental setups enable understanding heat transfer at the ice‐water and ice‐atmosphere interfaces, and thus stratification pattern during winter as well as ice melt affected by under‐ice currents and internal waves (Aslamov et al, 2014; Kirillin et al, 2018). Whole ecosystem experiments under controlled conditions allow variables to be isolated or combined, thereby providing increased confidence in the causal links between organismal response and particular global change stressors such as warming and consequently changes in ice and snow coverage of lakes, rivers, and ocean bays (Berger et al, 2014).…”
Section: How Do We Research Lake Ice Dynamics?mentioning
confidence: 99%
“…Recent autonomous in situ measurements of flow velocities and temperature have enabled direct observation of radiatively driven convection in ice-covered lakes [2,12,13]. The derived data trigger the progress in studying the energetic of the process, including estimations of buoyancy flux, dissipation rates, and mixing efficiency.…”
Section: Introduction and Problem Statementmentioning
confidence: 99%