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Climate change drives coherent trends in physics and oxygen content in North American lakes

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  • Michelle Palmer
  • Norman Yan
  • Keith Somers

Abstract

Using a 25-year record of monitoring data, we show that recent climate change has affected the thermal properties and oxygen content of seven lakes in south-central Ontario, Canada, and five lakes in north-central Wisconsin, USA. Coherent patterns in autumnal lake warming were driven by increased autumn air temperature in both lake districts. Temperature increases were restricted to the epilimnion and metalimnion of the lakes, resulting in increased thermal stability of the water column. Mixing depths also decreased over the study period. Shallower mixing depths in the Ontario lakes were due to climate-driven increases in lake-water dissolved organic carbon concentrations. Collectively, changes in the thermal regime of the lakes suggest autumn mixing of the water column may be delayed. Metalimnetic oxygen also increased in the Wisconsin lakes, perhaps in response to increased algal production as lake thermal regimes changed. The response of individual lakes to climate change was modified by lake chemistry in the Ontario lake district and by lake chemistry and morphometry in the Wisconsin lake district. Our results demonstrate coherent lake response to climate change and highlight the importance of both regional and local factors in regulating individual lake response to global climate change. Copyright Springer Science+Business Media Dordrecht 2014

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  • Michelle Palmer & Norman Yan & Keith Somers, 2014. "Climate change drives coherent trends in physics and oxygen content in North American lakes," Climatic Change, Springer, vol. 124(1), pages 285-299, May.
    • Handle: RePEc:spr:climat:v:124:y:2014:i:1:p:285-299
    DOI: 10.1007/s10584-014-1085-4
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    1. Donald T. Monteith & John L. Stoddard & Christopher D. Evans & Heleen A. de Wit & Martin Forsius & Tore Høgåsen & Anders Wilander & Brit Lisa Skjelkvåle & Dean S. Jeffries & Jussi Vuorenmaa & Bill Kel, 2007. "Dissolved organic carbon trends resulting from changes in atmospheric deposition chemistry," Nature, Nature, vol. 450(7169), pages 537-540, November.
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    1. Read, Jordan S. & Winslow, Luke A. & Hansen, Gretchen J.A. & Van Den Hoek, Jamon & Hanson, Paul C. & Bruce, Louise C. & Markfort, Corey D., 2014. "Simulating 2368 temperate lakes reveals weak coherence in stratification phenology," Ecological Modelling, Elsevier, vol. 291(C), pages 142-150.
    2. Temidayo Olowoyeye & Mariusz Ptak & Mariusz Sojka, 2023. "How Do Extreme Lake Water Temperatures in Poland Respond to Climate Change?," Resources, MDPI, vol. 12(9), pages 1-19, September.
    3. Snortheim, Craig A. & Hanson, Paul C. & McMahon, Katherine D. & Read, Jordan S. & Carey, Cayelan C. & Dugan, Hilary A., 2017. "Meteorological drivers of hypolimnetic anoxia in a eutrophic, north temperate lake," Ecological Modelling, Elsevier, vol. 343(C), pages 39-53.
    4. Farrell, Kaitlin J. & Ward, Nicole K. & Krinos, Arianna I. & Hanson, Paul C. & Daneshmand, Vahid & Figueiredo, Renato J. & Carey, Cayelan C., 2020. "Ecosystem-scale nutrient cycling responses to increasing air temperatures vary with lake trophic state," Ecological Modelling, Elsevier, vol. 430(C).

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