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Impact of internal variability on climate change for the upcoming decades: analysis of the CanESM2-LE and CESM-LE large ensembles

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  • Gabriel Rondeau-Genesse

    (Ouranos)

  • Marco Braun

    (Ouranos)

Abstract

The pace of climate change can have a direct impact on the efforts required to adapt. For short timescales, however, this pace can be masked by internal variability (IV). Over a few decades, this can cause climate change effects to exceed what would be expected from the greenhouse gas (GHG) emissions alone or, to the contrary, cause slowdowns or even hiatuses. This phenomenon is difficult to explore using ensembles such as CMIP5, which are composed of multiple climate models and thus combine both IV and inter-model differences. This study instead uses CanESM2-LE and CESM-LE, two state-of-the-art large ensembles (LE) that comprise multiple realizations from a single climate model and a single GHG emission scenario, to quantify the relationship between IV and climate change over the next decades in Canada and the USA. The mean annual temperature and the 3-day maximum and minimum temperatures are assessed. Results indicate that under the RCP8.5, temperatures within most of the individual large ensemble members will increase in a roughly linear manner between 2021 and 2060. However, members of the large ensembles in which a slowdown of warming is found during the 2021–2040 period are two to five times more likely to experience a period of very fast warming in the following decades. The opposite scenario, where the changes expected by 2050 would occur early because of IV, remains fairly uncommon for the mean annual temperature, but occurs in 5 to 15% of the large ensemble members for the temperature extremes.

Suggested Citation

  • Gabriel Rondeau-Genesse & Marco Braun, 2019. "Impact of internal variability on climate change for the upcoming decades: analysis of the CanESM2-LE and CESM-LE large ensembles," Climatic Change, Springer, vol. 156(3), pages 299-314, October.
  • Handle: RePEc:spr:climat:v:156:y:2019:i:3:d:10.1007_s10584-019-02550-2
    DOI: 10.1007/s10584-019-02550-2
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    References listed on IDEAS

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    1. Yann Chavaillaz & Sylvie Joussaume & Amaury Dehecq & Pascale Braconnot & Robert Vautard, 2016. "Investigating the pace of temperature change and its implications over the twenty-first century," Climatic Change, Springer, vol. 137(1), pages 187-200, July.
    2. Detlef Vuuren & Jae Edmonds & Mikiko Kainuma & Keywan Riahi & Allison Thomson & Kathy Hibbard & George Hurtt & Tom Kram & Volker Krey & Jean-Francois Lamarque & Toshihiko Masui & Malte Meinshausen & N, 2011. "The representative concentration pathways: an overview," Climatic Change, Springer, vol. 109(1), pages 5-31, November.
    3. Michael Sigmond & John C. Fyfe, 2016. "Tropical Pacific impacts on cooling North American winters," Nature Climate Change, Nature, vol. 6(10), pages 970-974, October.
    4. Ramón Elía & Sébastien Biner & Anne Frigon & Hélène Côté, 2014. "Timescales associated with climate change and their relevance in adaptation strategies," Climatic Change, Springer, vol. 126(1), pages 93-106, September.
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    1. Shangfeng Chen & Bin Yu, 2020. "Projection of winter NPO-following winter ENSO connection in a warming climate: uncertainty due to internal climate variability," Climatic Change, Springer, vol. 162(2), pages 723-740, September.

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