Publication Abstracts
Carslaw et al. 2026
Carslaw, K.S., L.A. Regayre, U. Proske, A. Gettelman, D.M.H. Sexton, Y. Qian, L. Marshall, O. Wild, , A. Oertel, S. Peatier, B. Yang, J.S. Johnson, S. Li, D.T. McCoy, B.M. Sanderson, C.J. Williamson, , K. Yamazaki, and B.B.B. Booth, 2026: Opinion: The importance and future development of perturbed parameter ensembles in climate and atmospheric science. Atmos. Chem. Phys., 26, no. 7, 4651-4667, doi:10.5194/acp-26-4651-2026.
A grand challenge in climate science is to translate advances in our fundamental understanding into reduced uncertainty in climate projections. Model uncertainty, characterized for example by the spread of simulations of future climate projections, has changed little over the past few decades despite major advances in model complexity, resolution, and the growing number of intercomparison projects and observational datasets. Here we argue that the use of perturbed parameter ensembles (PPEs) would accelerate our understanding of uncertainty in its broadest sense and help identify strategies for reducing it. We make eleven recommendations for future research priorities, drawing on existing studies that have used PPEs to guide model development and simplification, understand inter-model differences, more fully characterize the plausible spread in climate projections, define observational requirements, and to enhance our understanding of complex atmospheric processes. These studies extend across climate, weather, atmospheric chemistry, clouds, aerosols and renewable energy using process-based high-resolution models through to global-scale models. Although increases in model complexity, resolution and intercomparison projects consume most computing resources today, we argue that, in synergy with these efforts, PPEs are essential for fully characterizing model uncertainty and improving model reliability.
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BibTeX Citation
@article{ca02130a,
author={Carslaw, K. S. and Regayre, L. A. and Proske, U. and Gettelman, A. and Sexton, D. M. H. and Qian, Y. and Marshall, L. and Wild, O. and van Lier-Walqui, M. and Oertel, A. and Peatier, S. and Yang, B. and Johnson, J. S. and Li, S. and McCoy, D. T. and Sanderson, B. M. and Williamson, C. J. and Elsaesser, G. S. and Yamazaki, K. and Booth, B. B. B.},
title={Opinion: The importance and future development of perturbed parameter ensembles in climate and atmospheric science},
year={2026},
journal={Atmospheric Chemistry and Physics},
volume={26},
number={7},
pages={4651--4667},
doi={10.5194/acp-26-4651-2026},
}
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RIS Citation
TY - JOUR ID - ca02130a AU - Carslaw, K. S. AU - Regayre, L. A. AU - Proske, U. AU - Gettelman, A. AU - Sexton, D. M. H. AU - Qian, Y. AU - Marshall, L. AU - Wild, O. AU - van Lier-Walqui, M. AU - Oertel, A. AU - Peatier, S. AU - Yang, B. AU - Johnson, J. S. AU - Li, S. AU - McCoy, D. T. AU - Sanderson, B. M. AU - Williamson, C. J. AU - Elsaesser, G. S. AU - Yamazaki, K. AU - Booth, B. B. B. PY - 2026 TI - Opinion: The importance and future development of perturbed parameter ensembles in climate and atmospheric science JA - Atmos. Chem. Phys. JO - Atmospheric Chemistry and Physics VL - 26 IS - 7 SP - 4651 EP - 4667 DO - 10.5194/acp-26-4651-2026 ER -
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