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Atmospheric stilling leads to prolonged thermal stratification in a large shallow polymictic lake

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Atmospheric stilling leads to prolonged thermal stratification in a large shallow polymictic lake. / Woolway, R. Iestyn; Meinson, Pille; Noges, Peeter et al.
In: Climatic Change, Vol. 141, No. 4, 01.04.2017, p. 759-773.

Research output: Contribution to journalArticlepeer-review

HarvardHarvard

Woolway, RI, Meinson, P, Noges, P, Jones, ID & Laas, A 2017, 'Atmospheric stilling leads to prolonged thermal stratification in a large shallow polymictic lake', Climatic Change, vol. 141, no. 4, pp. 759-773. https://doi.org/10.1007/s10584-017-1909-0

APA

Woolway, R. I., Meinson, P., Noges, P., Jones, I. D., & Laas, A. (2017). Atmospheric stilling leads to prolonged thermal stratification in a large shallow polymictic lake. Climatic Change, 141(4), 759-773. https://doi.org/10.1007/s10584-017-1909-0

CBE

Woolway RI, Meinson P, Noges P, Jones ID, Laas A. 2017. Atmospheric stilling leads to prolonged thermal stratification in a large shallow polymictic lake. Climatic Change. 141(4):759-773. https://doi.org/10.1007/s10584-017-1909-0

MLA

Woolway, R. Iestyn et al. "Atmospheric stilling leads to prolonged thermal stratification in a large shallow polymictic lake". Climatic Change. 2017, 141(4). 759-773. https://doi.org/10.1007/s10584-017-1909-0

VancouverVancouver

Woolway RI, Meinson P, Noges P, Jones ID, Laas A. Atmospheric stilling leads to prolonged thermal stratification in a large shallow polymictic lake. Climatic Change. 2017 Apr 1;141(4):759-773. Epub 2017 Feb 2. doi: 10.1007/s10584-017-1909-0

Author

Woolway, R. Iestyn ; Meinson, Pille ; Noges, Peeter et al. / Atmospheric stilling leads to prolonged thermal stratification in a large shallow polymictic lake. In: Climatic Change. 2017 ; Vol. 141, No. 4. pp. 759-773.

RIS

TY - JOUR

T1 - Atmospheric stilling leads to prolonged thermal stratification in a large shallow polymictic lake

AU - Woolway, R. Iestyn

AU - Meinson, Pille

AU - Noges, Peeter

AU - Jones, Ian D.

AU - Laas, Alo

PY - 2017/4/1

Y1 - 2017/4/1

N2 - To quantify the effects of recent and potential future decreases in surface wind speeds on lake thermal stratification, we apply the one-dimensional process-based model MyLake to a large, shallow, polymictic lake, Võrtsjärv. The model is validated for a 3-year period and run separately for 28 years using long-term daily atmospheric forcing data from a nearby meteorological station. Model simulations show exceptionally good agreement with observed surface and bottom water temperatures during the 3-year period. Similarly, simulated surface water temperatures for 28 years show remarkably good agreement with long-term in situ water temperatures. Sensitivity analysis demonstrates that decreasing wind speeds has resulted in substantial changes in stratification dynamics since 1982, while increasing air temperatures during the same period had a negligible effect. Atmospheric stilling is a phenomenon observed globally, and in addition to recent increases in surface air temperature, needs to be considered when evaluating the influence of climate change on lake ecosystems.

AB - To quantify the effects of recent and potential future decreases in surface wind speeds on lake thermal stratification, we apply the one-dimensional process-based model MyLake to a large, shallow, polymictic lake, Võrtsjärv. The model is validated for a 3-year period and run separately for 28 years using long-term daily atmospheric forcing data from a nearby meteorological station. Model simulations show exceptionally good agreement with observed surface and bottom water temperatures during the 3-year period. Similarly, simulated surface water temperatures for 28 years show remarkably good agreement with long-term in situ water temperatures. Sensitivity analysis demonstrates that decreasing wind speeds has resulted in substantial changes in stratification dynamics since 1982, while increasing air temperatures during the same period had a negligible effect. Atmospheric stilling is a phenomenon observed globally, and in addition to recent increases in surface air temperature, needs to be considered when evaluating the influence of climate change on lake ecosystems.

U2 - 10.1007/s10584-017-1909-0

DO - 10.1007/s10584-017-1909-0

M3 - Article

VL - 141

SP - 759

EP - 773

JO - Climatic Change

JF - Climatic Change

SN - 0165-0009

IS - 4

ER -