Your search keyword '"James W. Hurrell"' showing total 5 results

1. Using Explainable Artificial Intelligence to Quantify 'Climate Distinguishability' After Stratospheric Aerosol Injection

Author

Antonios Mamalakis, Elizabeth A. Barnes, and James W. Hurrell

Subjects

solar climate intervention, stratospheric aerosols injection (SAI), explainable artificial intelligence (XAI), deep learning, climate distinguishability, climatic impacts, Geophysics. Cosmic physics, QC801-809

Abstract

Abstract Stratospheric aerosol injection (SAI) has been proposed as a possible response option to limit global warming and its societal consequences. However, the climate impacts of such intervention are unclear. Here, an explainable artificial intelligence (XAI) framework is introduced to quantify how distinguishable an SAI climate might be from a pre‐deployment climate. A suite of neural networks is trained on Earth system model data to learn to distinguish between pre‐ and post‐deployment periods across a variety of climate variables. The network accuracy is analogous to the “climate distinguishability” between the periods, and the corresponding distinctive patterns are identified using XAI methods. For many variables, the two periods are less distinguishable under SAI than under a no‐SAI scenario, suggesting that the specific intervention modeled decelerates future climatic changes and leads to a less novel climate than the no‐SAI scenario. Other climate variables for which the intervention has negligible effect are also highlighted.

Published

2023

2. Viewing Forced Climate Patterns Through an AI Lens

Author

Imme Ebert-Uphoff, James W Hurrell, Elizabeth A. Barnes, David G. Anderson, and Charles W. Anderson

Subjects

Climate pattern, Geophysics, Optics, business.industry, General Earth and Planetary Sciences, Lens (geology), Climate change, Environmental science, business

Published

2019

3. Assessing Decadal Predictability in an Earth‐System Model Using Explainable Neural Networks

Author

Benjamin A. Toms, Elizabeth A. Barnes, and James W Hurrell

Subjects

Quantitative Biology::Neurons and Cognition, Artificial neural network, business.industry, Computer science, Computer Science::Neural and Evolutionary Computation, Physics::Geophysics, Fully coupled, Geophysics, General Earth and Planetary Sciences, Earth system model, Astrophysics::Earth and Planetary Astrophysics, Artificial intelligence, Predictability, business

Abstract

We show that explainable neural networks can identify regions of oceanic variability that contribute predictability on decadal timescales in a fully coupled Earth system model. The neural networks ...

Published

2021

4. Attribution of NAO Predictive Skill Beyond 2 Weeks in Boreal Winter

Author

Martin P. Hoerling, James W Hurrell, Jadwiga H. Richter, Judith Perlwitz, and Lantao Sun

Subjects

Geophysics, El Niño Southern Oscillation, Boreal, Climatology, General Earth and Planetary Sciences, Environmental science, Attribution, Stratosphere

Published

2020

5. Influence of variations in extratropical wintertime teleconnections on northern hemisphere temperature

Author

James W. Hurrell

Subjects

geography, geography.geographical_feature_category, Atmospheric circulation, Anomaly (natural sciences), Northern Hemisphere, Global change, Geophysics, Oceanography, North Atlantic oscillation, Climatology, Extratropical cyclone, General Earth and Planetary Sciences, Environmental science, Oceanic basin, Teleconnection

Abstract

Pronounced changes in the wintertime atmospheric circulation have occurred since the mid-1970s over the ocean basins of the Northern Hemisphere, and these changes have had a profound effect on surface temperatures. The variations over the North Atlantic are related to changes in the North Atlantic Oscillation (NAO), while the changes over the North Pacific are linked to the tropics and involve variations in the Aleutian low with teleconnections downstream over North America. Multivariate linear regression is used to show that nearly all of the cooling in the northwest Atlantic and the warming across Europe and downstream over Eurasia since the mid-1970s results from the changes in the NAO, and the NAO accounts for 31% of the hemispheric interannual variance over the past 60 winters. Over the Pacific basin and North America, the temperature anomalies result in part from tropical forcing associated with the El Nino-Southern Oscillation phenomenon but with important feedbacks in the extratropics. The changes in circulation over the past two decades have resulted in a surface temperature anomaly pattern of warmth over the continents and coolness over the oceans. This pattern of temperature change has amplified the observed hemispheric-averaged warming because of it interaction with land and ocean;more » temperature changes are larger over land compared to the oceans because of the small heat capacity of the former. 13 refs., 5 fig., 2 tab.« less

Published

1996