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Temperature scaling pattern dependence on representative concentration pathway emission scenarios

Author

Listed:
  • Yasuhiro Ishizaki
  • Hideo Shiogama
  • Seita Emori
  • Tokuta Yokohata
  • Toru Nozawa
  • Tomoo Ogura
  • Manabu Abe
  • Masakazu Yoshimori
  • Kiyoshi Takahashi

Abstract

To preserve consistency among developed emission scenarios, the scenarios used in climate modeling, and the climate scenarios available for impact research, the pattern scaling technique is useful technique. The basic assumption of pattern scaling is that the spatial response pattern per 1 K increase in the global mean surface air temperature (SAT) (scaling pattern) is the same among emission scenarios, but this assumption requires further validation. We therefore investigated the dependence of the scaling pattern of the annual mean SAT on GHGs emission scenarios of representative concentration pathways (RCP) and the causes of that dependence using the Model for Interdisciplinary research on Climate 5 developed by Japanese research community. In particular, we focused on the relationships of the dependency with effects of aerosols and Atlantic meridional overturning circulation. We found significant dependencies of the scaling pattern on emission scenarios at middle and high latitudes of the Northern Hemisphere, with differences of >15 % over parts of East Asia, North America, and Europe. Impact researchers should take into account those dependencies that seriously affect their research. The mid-latitude dependence is caused by differences in sulfate aerosol emissions per 1 K increase in the global mean SAT, and the high-latitude dependence is mainly caused by nonlinear responses of sea ice and ocean heat transport to global warming. Long-term trends in land-use and land-cover changes did not significantly affect the scaling pattern of annual mean SAT, but they might have an effect at different timescales. Copyright The Author(s) 2012

Suggested Citation

  • Yasuhiro Ishizaki & Hideo Shiogama & Seita Emori & Tokuta Yokohata & Toru Nozawa & Tomoo Ogura & Manabu Abe & Masakazu Yoshimori & Kiyoshi Takahashi, 2012. "Temperature scaling pattern dependence on representative concentration pathway emission scenarios," Climatic Change, Springer, vol. 112(2), pages 535-546, May.
    • Handle: RePEc:spr:climat:v:112:y:2012:i:2:p:535-546
    DOI: 10.1007/s10584-012-0430-8
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    References listed on IDEAS

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    1. Jamie Sanderson & Sardar M. N. Islam, 2007. "Climate Change and Economic Development," Palgrave Macmillan Books, Palgrave Macmillan, number 978-0-230-59012-0.
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    Cited by:

    1. Claudia Tebaldi & Julie Arblaster, 2014. "Pattern scaling: Its strengths and limitations, and an update on the latest model simulations," Climatic Change, Springer, vol. 122(3), pages 459-471, February.
    2. Timothy Osborn & Craig Wallace & Ian Harris & Thomas Melvin, 2016. "Pattern scaling using ClimGen: monthly-resolution future climate scenarios including changes in the variability of precipitation," Climatic Change, Springer, vol. 134(3), pages 353-369, February.
    3. Timothy J. Osborn & Craig J. Wallace & Ian C. Harris & Thomas M. Melvin, 2016. "Pattern scaling using ClimGen: monthly-resolution future climate scenarios including changes in the variability of precipitation," Climatic Change, Springer, vol. 134(3), pages 353-369, February.
    4. Kristie Ebi & Stephane Hallegatte & Tom Kram & Nigel Arnell & Timothy Carter & Jae Edmonds & Elmar Kriegler & Ritu Mathur & Brian O’Neill & Keywan Riahi & Harald Winkler & Detlef Vuuren & Timm Zwickel, 2014. "A new scenario framework for climate change research: background, process, and future directions," Climatic Change, Springer, vol. 122(3), pages 363-372, February.

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