Litcius/Paper detail

Predicting Slowdowns in Decadal Climate Warming Trends With Explainable Neural Networks

Zachary M. Labe, Elizabeth A. Barnes

2022Geophysical Research Letters38 citationsDOIOpen Access PDF

Abstract

Abstract The global mean surface temperature (GMST) record exhibits both interannual to multidecadal variability and a long‐term warming trend due to external climate forcing. To explore the predictability of temporary slowdowns in decadal warming, we apply an artificial neural network (ANN) to climate model data from the Community Earth System Model Version 2 Large Ensemble. Here, an ANN is tasked with whether or not there will be a slowdown in the rate of the GMST trend by using maps of ocean heat content (OHC) at the onset. Through a machine learning explainability method, we find the ANN is learning off‐equatorial patterns of anomalous OHC that resemble transitions in the phase of the Interdecadal Pacific Oscillation in order to make slowdown predictions. Finally, we test our ANN on observed historical data, which further reveals how explainable neural networks are useful tools for understanding decadal variability in both climate models and observations.

Topics & Concepts

PredictabilityClimatologyForcing (mathematics)Artificial neural networkEnvironmental scienceSlowdownClimate modelGlobal warmingEl Niño Southern OscillationClimate changeComputer scienceGeologyOceanographyMachine learningPhysicsQuantum mechanicsPolitical scienceLawClimate variability and modelsMeteorological Phenomena and SimulationsOceanographic and Atmospheric Processes
Predicting Slowdowns in Decadal Climate Warming Trends With Explainable Neural Networks | Litcius