Trends and abrupt changes in 104 years of ice cover and water temperature in a dimictic lake in response to air temperature, wind speed, and water clarity drivers

Magee, Madeline R.; Wu, Chin H.; Robertson, Dale M.; Lathrop, Richard C.; Hamilton, David P.

doi:10.5194/hess-20-1681-2016

Cited by 80 publications

(53 citation statements)

References 97 publications

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“…Changes in the remaining elements of the hydrological regime of Morskie Oko are in accordance with the majority of studies on lakes in various parts of the world, both in reference to thermal conditions (Adrian et al, 2009;Coats et al, 2006;Hampton et al, 2008) and the course of ice phenomena (Benson et al, 2012;Futter, 2003;Korhonen, 2006;Magee et al, 2016). The scale of transformations depends on the location and local conditions of particular lakes.…”

Section: Discussionsupporting

confidence: 50%

Long-term changes in the hydrological regime of high mountain Lake Morskie Oko (Tatra Mountains, Central Europe)

Ptak

Wrzesiński

Choiński

2017

Journal of Hydrology and Hydromechanics

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Abstract:The paper discusses changes in the hydrological regime of high mountain Lake Morskie Oko located in the Tatra Mountains, in the Tatra Mountains National Park, a UNESCO biosphere reserve (MaB). According to the research conducted in the years 1971-2015, its water stages decreased by 3.5 cm·dec -1 , mean annual water temperature increased by 0.3ºC·dec -1 and the duration of ice phenomena and ice cover was reduced by 10 day·dec -1 . No considerable changes in maximum values of ice cover thickness were recorded. Such tendencies are primarily caused by long-term changes in climatic conditions -air temperature and atmospheric precipitation. The hydrological regime of the lake was also determined by changes in land use in the lake's catchment and its location in high mountains.

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Section: Discussionsupporting

confidence: 50%

Long-term changes in the hydrological regime of high mountain Lake Morskie Oko (Tatra Mountains, Central Europe)

Ptak

Wrzesiński

Choiński

2017

Journal of Hydrology and Hydromechanics

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“…In the case of Lake Lunz (Austria), Kainz et al [12] observed a reduction of duration of ice cover, and the average rate of the phenomenon amounted to 1.85 day·dec -1 . In research on Lake Mendota (USA), Magee et al [13] found that the development of ice cover occurred 9 days per century later, and its disintegration occurred 12.3 days per century earlier, resulting in a decrease in duration of ice cover (by 21.3 days per century). In research on 75 lakes on the Northern Hemisphere, Benson et al [14] determined later freezing of lakes (0.3-1.6 day·dec -1 ), earlier disappearance of ice (0.5-1.9 day·dec -1 ), and its shorter duration (0.7-4.3 day·dec -1 ).…”

Section: Resultsmentioning

confidence: 99%

Variability and course of occurrence of ice cover on selected lakes of the Gnieźnieńskie Lakeland (Central Poland) in the period 1976–2015

Nowak

Ptak

2018

E3S Web Conf.

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Abstract. The paper presents the analysis of the course of ice phenomena on four lakes (Lednica, Żnińskie Duże, Biskupińskie, Powidzkie) in central Poland in the period 1976-2015. The obtained results show changes in their ice regime that occurred over the last 40 years. An advance of the term of decline of ice cover was determined (by 2.5 day·dec -1 on average for all lakes), as well as a reduction of duration of ice cover (by 4.4 day·dec -1 on average for all lakes), and a decrease in its maximum thickness (by 2 cm·dec -1 on average for all lakes). Such a situation should be associated with the observed warming, as confirmed by the course of air temperature for station Gniezno, where in the period of the winter half-year (November-April), an increase in temperature was recorded by 0.37°C·dec -1 .

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“…This refers to water level fluctuations [1], ice phenomena [2], as well as water temperature [3]. In addition to the research trend concerning the assessment of long-term tendencies of changes in the hydrosphere in the times of global warming, numerous studies refer to the effect of types of macroscale circulation of the atmosphere on its different components.…”

Section: Introductionmentioning

confidence: 99%

Effect of Teleconnection Patterns on Changes in Water Temperature in Polish Lakes

2018

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Abstract:The objective of the paper was the determination of the effect of teleconnection patterns (North Atlantic Oscillation (NAO), Arctic Oscillation (AO), East Atlantic pattern (EA), East Atlantic/Western Russia (EAWR), and Scandinavian pattern (SCAND)) on changes in air and water temperature in Polish lakes. Correlations of circulation indices with air and lake water temperature were analysed in the monthly cycle. Deviations of values of such components in different phases of the analysed atmospheric circulations types from mean average from the years 1971 to 2015 were also determined. The research showed a variable effect of the atmospheric circulations types. The strongest effect on water temperature was observed in winter, when AO and NAO circulation showed particularly evident influence. Deviations of water temperature from mean values from the analysed multi-annual period generally oscillated around 1.0 • C, reaching a maximum value of 1.4 • C. The presented research shows the complexity of processes determining changes in lake water temperature, the course of which depends on many factors with both regional (e.g., ice cover on lakes) and local range (conditions of water exchange, human pressure).

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Trends and abrupt changes in 104 years of ice cover and water temperature in a dimictic lake in response to air temperature, wind speed, and water clarity drivers

Cited by 80 publications

References 97 publications

Long-term changes in the hydrological regime of high mountain Lake Morskie Oko (Tatra Mountains, Central Europe)

Long-term changes in the hydrological regime of high mountain Lake Morskie Oko (Tatra Mountains, Central Europe)

Variability and course of occurrence of ice cover on selected lakes of the Gnieźnieńskie Lakeland (Central Poland) in the period 1976–2015

Effect of Teleconnection Patterns on Changes in Water Temperature in Polish Lakes

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