Climate Modeling and Analysis
The first global warming prediction was made in 1896, when Arrhenius estimated that burning fossil fuels could eventually release enough CO2 to warm the Earth by 5°C. The fundamental physics underlying those calculations has not changed, but our predictions have become far more detailed and precise. The predominant predictive tools are climate models, known as General Circulation Models (GCMs) or Earth System Models (ESMs). These models inform local and national government decisions), help people calculate their climate risks (see Policy, Markets, and Decision Science and Climate Change Adaptation) and allow us to estimate the potential impacts of solar geoengineering. Recent trends have created opportunities for ML to advance the state-of-the-art in climate prediction. First, new and cheaper satellites are creating petabytes of climate observation data. Second, massive climate modeling projects are generating petabytes of simulated climate data. Third, climate forecasts are computationally expensive (some simulations have taken three weeks to run on NCAR supercomputers), while ML methods are becoming increasingly fast to train and run, especially on next-generation computing hardware. As a result, climate scientists have recently begun to explore ML techniques, and are starting to team up with computer scientists to build new and exciting applications.
Machine Learning Application Areas
Uniting data, ML, and climate science
- Data for climate models
- Accelerating climate models
- Working with climate models
Forecasting extreme events
- Storm tracking
- Local forecasts
- Introduction to climate dynamics and climate modeling (2010): A technical treatment of the climate system, energy balance, climate modeling, and climate perturbations. Available here.
- An Introduction to Climate Modeling (2014): A video lesson from Climate Literacy's Youtube channel. Available here.
Online Courses and Course Materials
- AGU Fall Meeting: A yearly conference organized by the American Geophysical Union. Website here.
Climate science is a journal field. Noteworthy research appears in journals such as
- Bulletin of the American Meteorological Society: A journal published by the AMS. Available here.
- Geophysical Research Letters: The journal of the American Geophysical Union. Available here.
- Proceedings of the National Academy of Sciences: A wide-reaching journal often featuring climate science. Available here.
Major societies and organizations
- American Geophysical Union: An organization supporting work across the geophysical sciences. Website here.
- Climate Informatics: An organization dedicated to computing in climate science. Website here.
Libraries and Tools
Pangeo: An open source python package for geoscience applications, available here.
- Pangeo also maintains a list of packages useful for atmospheric, ocean, and climate science.
The largest climate prediction datasets are ensembles of many climate simulations. These include simulations with varied physics, architectures, or initial conditions, and they are used to explore the range of possible climate futures. The largest ensembles include:
- The Coupled Model Intercomparison Project (CMIP): A gateway to climate models in use and development, available here. CMIP is associated with the Earth System Grid Federation, which also provides data analysis tools and tutorials: https://esgf.llnl.gov/
- The CESM Large Ensemble: Read about it in The Community Earth System Model (CESM) Large Ensemble Project. Available here.
- Google Cloud Weather and Climate Datasets: Petabyte-scale weather and climate datasets from sources like NOAA’s NEXRAD and NASA/USGS’s Landsat, made available for free as part of Google Cloud’s Public Datasets Program. Available here.
- EARTHDATA: NASA's gateway to earth science data. Data are available at multiple levels of processing. Available here.
The Earth and climate science community is also working to create benchmark datasets: https://is-geo.org/benchmarks/.
- Rolnick, David; Donti, Priya L.; Kaack, Lynn H.; Kochanski, Kelly; Lacoste, Alexandre; Sankaran, Kris; Ross, Andrew Slavin; Milojevic-Dupont, Nikola; Jaques, Natasha; Waldman-Brown, Anna; Luccioni, Alexandra (2019-11-05). "Tackling Climate Change with Machine Learning". arXiv:1906.05433 [cs, stat].
- IPCC (2018). Global warming of 1.5C. An IPCC special report on the impacts of global warming of 1.5C above pre-industrial levels and related global greenhouse gas emission pathways, in the context of strengthening the global response to the threat of climate change, sustainable development, and efforts to eradicate poverty.
- IPCC (2014). IPCC. Climate Change 2014: Mitigation of Climate Change. Contribution of Working Group III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change.
- IPCC (2014). Climate Change 2014: Synthesis Report. Contribution of Working Groups I, II and III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change.
- "Earth Observation Gateway".
- "NASA EarthData".
- "Coupled Model Intercomparison Project".
- Carman, T (2017). "Position paper on high performance computing needs in Earth system prediction". NOAA Institutional Repository.
- "The Community Earth System Model (CESM) Large Ensemble project". 2015. Cite journal requires
- Goosse, Hugues (2015). Climate system dynamics and modeling. New York, NY: Cambridge University Press. ISBN 978-1-107-08389-9.
- "5.1 Introduction to Climate Modeling - YouTube". www.youtube.com. Retrieved 2020-09-24.