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Peer Nowack – Why all emergent constraints are wrong but some are useful – a machine learning perspective

September 12 @ 11:30 - 12:30

CESOC kindly invites you to a Colloquium given by T. T.-Prof. Dr. Peer Nowack, Chair for AI in Climate and Environmental Sciences, Department of Computer Science, Karlsruhe Institute of Technology with the title:
Why all emergent constraints are wrong but some are useful – a machine learning perspective

Date: 12 September 2024,
Time: 11:30 CEST
Location: Lecture Hall 4.001 (4th floor), Höninger Weg 100, 50969 Cologne

It will also be streamed via zoom:
for online participation, please contact info@cesoc.net
(taken from: https://meetingorganizer.copernicus.org/EGU24/EGU24-6750.html; preprint here -> https://egusphere.copernicus.org/preprints/2024/egusphere-2024-1636/)

Global climate change projections, such as those from the Coupled Model Intercomparison Project phase 6 (CMIP6), are still subject to substantial modelling uncertainties. A variety of Emergent Constraints (ECs) have been suggested to address these uncertainties, but remain heavily debated in the scientific community. Still, the central idea behind ECs to relate future projections to already observable quantities has no real substitute.
Here we discuss machine learning (ML) approaches for new types of controlling factor analyses (CFA) as a promising alternative. The principal idea is to use ML to find climate-invariant relationships in historical data, which also hold approximately under strong climate change scenarios. On the basis of existing big data archives such as those from the CMIPs, these climate-invariant relationships can be validated in perfect-climate-model frameworks.
From a ML perspective, we argue that CFA are promising for three reasons: (a) they can be objectively validated both for present-day data and future data and (b) they provide more direct – by design physically-plausible – links between historical observations and potential future climates compared to ECs and (c) they can take higher dimensional relationships into account that better characterize the still complex nature of large-scale emerging relationships. We highlight these advantages for three examples in the form of constraints on climate feedback mechanisms (clouds [1], stratospheric water vapour [2]) and forcings (aerosol-cloud interactions).


1. Ceppi P. and Nowack P. Observational evidence that cloud feedback amplifies global warming, Proceedings of the National Academy of Sciences 118 (30), e2026290118 (2021). https://doi.org/10.1073/pnas.2026290118
2. Nowack P., Ceppi P., Davis S.M., Chiodo G., Ball W., Diallo M.A., Hassler B., Jia Y., Keeble J., and Joshi M. Response of stratospheric water vapour to warming constrained by satellite observations, Nature Geoscience 16, 577-583 (2023). https://doi.org/10.1038/s41561-023-01183-6


Image reference: https://ki-klima.iti.kit.edu/deutsch/68.php


September 12
11:30 - 12:30
Event Category: