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Assessment of the Laurentian Great Lakes’ hydrological conditions in a changing climate

Author

Listed:
  • Edouard Mailhot

    (Université Laval
    Ministère de l’Environnement et de la Lutte contre les changements climatiques du Québec)

  • Biljana Music

    (Université Laval
    Ouranos - Consortium on Regional Climatology and Adaptation to Climate Change)

  • Daniel F. Nadeau

    (Université Laval - Department of Civil and Water Engineering)

  • Anne Frigon

    (Ouranos - Consortium on Regional Climatology and Adaptation to Climate Change)

  • Richard Turcotte

    (Ministère de l’Environnement et de la Lutte contre les changements climatiques du Québec)

Abstract

A set of 28 simulations from five regional climate models are used in this study to assess the Great Lakes’ water supply from 1953 to 2100 following emissions scenarios RCP4.5 and 8.5 with a focus on bi-weekly changes in the means and extremes of hydrological variables. Models are first evaluated by comparing annual cycles of precipitation, runoff, evaporation and net basin supply (NBS) with observations. Trends in mean values are then studied for each variable using Theil-Sen’s statistical test. Changes in extreme conditions are analyzed using generalized extreme values distributions for a reference period (1971–2000) and two future periods (2041–2070 and 2071–2100). Ensemble trend results show evaporation increases of 136 and 204 mm (RCP4.5 and RCP8.5) over the Great Lakes between 1953 and 2100. Precipitation increases by 83 and 140 mm and runoff increases by 68 and 135 mm. Trends are not equally distributed throughout the year as seasonal changes differ greatly. As a result, Great Lakes net basin supply is expected to increase in winter and spring and decrease in summer. Over the entire year, NBS increases of 14 and 70 mm are projected for scenarios RCP4.5 and 8.5 respectively by the year 2100. An analysis of extreme values reveals that precipitation and NBS maxima increase by 11 to 27% and 1 to 9% respectively, while NBS minima decrease by 18 to 29% between 1971–2000 and 2041–2100.

Suggested Citation

  • Edouard Mailhot & Biljana Music & Daniel F. Nadeau & Anne Frigon & Richard Turcotte, 2019. "Assessment of the Laurentian Great Lakes’ hydrological conditions in a changing climate," Climatic Change, Springer, vol. 157(2), pages 243-259, November.
    • Handle: RePEc:spr:climat:v:157:y:2019:i:2:d:10.1007_s10584-019-02530-6
    DOI: 10.1007/s10584-019-02530-6
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    References listed on IDEAS

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    1. Guangju Zhao & Georg Hörmann & Nicola Fohrer & Zengxin Zhang & Jianqing Zhai, 2010. "Streamflow Trends and Climate Variability Impacts in Poyang Lake Basin, China," Water Resources Management: An International Journal, Published for the European Water Resources Association (EWRA), Springer;European Water Resources Association (EWRA), vol. 24(4), pages 689-706, March.
    2. Murray MacKay & Frank Seglenieks, 2013. "On the simulation of Laurentian Great Lakes water levels under projections of global climate change," Climatic Change, Springer, vol. 117(1), pages 55-67, March.
    3. Andrew Gronewold & Vincent Fortin & Brent Lofgren & Anne Clites & Craig Stow & Frank Quinn, 2013. "Coasts, water levels, and climate change: A Great Lakes perspective," Climatic Change, Springer, vol. 120(4), pages 697-711, October.
    4. Biljana Music & Anne Frigon & Brent Lofgren & Richard Turcotte & Jean-François Cyr, 2015. "Present and future Laurentian Great Lakes hydroclimatic conditions as simulated by regional climate models with an emphasis on Lake Michigan-Huron," Climatic Change, Springer, vol. 130(4), pages 603-618, June.
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