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Nonlinear Processes in Geophysics An interactive open-access journal of the European Geosciences Union

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Nonlin. Processes Geophys., 21, 777-795, 2014
http://www.nonlin-processes-geophys.net/21/777/2014/
doi:10.5194/npg-21-777-2014
© Author(s) 2014. This work is distributed
under the Creative Commons Attribution 3.0 License.
Research article
28 Jul 2014
Toward enhanced understanding and projections of climate extremes using physics-guided data mining techniques
A. R. Ganguly1,*, E. A. Kodra1,*, A. Agrawal3, A. Banerjee2, S. Boriah2, Sn. Chatterjee2, So. Chatterjee2, A. Choudhary3, D. Das1, J. Faghmous2, P. Ganguli1, S. Ghosh4, K. Hayhoe5, C. Hays6, W. Hendrix3, Q. Fu2, J. Kawale2, D. Kumar1, V. Kumar2, W. Liao3, S. Liess2, R. Mawalagedara1, V. Mithal2, R. Oglesby6, K. Salvi4, P. K. Snyder2, K. Steinhaeuser2, D. Wang1, and D. Wuebbles7 1Northeastern University, Boston, MA, USA
2University of Minnesota, Twin Cities, MN, USA
3Northwestern University, Evanston, IL, USA
4Indian Institute of Technology Bombay, Mumbai, Maharashtra, India
5Texas Tech University, Lubbock, TX, USA
6University of Nebraska, Lincoln, NE, USA
7University of Illinois, Urbana-Champaign, IL, USA
*The first two authors contributed equally.
Abstract. Extreme events such as heat waves, cold spells, floods, droughts, tropical cyclones, and tornadoes have potentially devastating impacts on natural and engineered systems and human communities worldwide. Stakeholder decisions about critical infrastructures, natural resources, emergency preparedness and humanitarian aid typically need to be made at local to regional scales over seasonal to decadal planning horizons. However, credible climate change attribution and reliable projections at more localized and shorter time scales remain grand challenges. Long-standing gaps include inadequate understanding of processes such as cloud physics and ocean–land–atmosphere interactions, limitations of physics-based computer models, and the importance of intrinsic climate system variability at decadal horizons. Meanwhile, the growing size and complexity of climate data from model simulations and remote sensors increases opportunities to address these scientific gaps. This perspectives article explores the possibility that physically cognizant mining of massive climate data may lead to significant advances in generating credible predictive insights about climate extremes and in turn translating them to actionable metrics and information for adaptation and policy. Specifically, we propose that data mining techniques geared towards extremes can help tackle the grand challenges in the development of interpretable climate projections, predictability, and uncertainty assessments. To be successful, scalable methods will need to handle what has been called "big data" to tease out elusive but robust statistics of extremes and change from what is ultimately small data. Physically based relationships (where available) and conceptual understanding (where appropriate) are needed to guide methods development and interpretation of results. Such approaches may be especially relevant in situations where computer models may not be able to fully encapsulate current process understanding, yet the wealth of data may offer additional insights. Large-scale interdisciplinary team efforts, involving domain experts and individual researchers who span disciplines, will be necessary to address the challenge.

Citation: Ganguly, A. R., Kodra, E. A., Agrawal, A., Banerjee, A., Boriah, S., Chatterjee, Sn., Chatterjee, So., Choudhary, A., Das, D., Faghmous, J., Ganguli, P., Ghosh, S., Hayhoe, K., Hays, C., Hendrix, W., Fu, Q., Kawale, J., Kumar, D., Kumar, V., Liao, W., Liess, S., Mawalagedara, R., Mithal, V., Oglesby, R., Salvi, K., Snyder, P. K., Steinhaeuser, K., Wang, D., and Wuebbles, D.: Toward enhanced understanding and projections of climate extremes using physics-guided data mining techniques, Nonlin. Processes Geophys., 21, 777-795, doi:10.5194/npg-21-777-2014, 2014.
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