Technical note: An assessment of the performance of statistical bias correction techniques for global chemistry–climate model surface ozone fields

Staehle, Christoph; Rieder, Harald E.; Fiore, Arlene M.; Schnell, Jordan L.

doi:10.5194/acp-24-5953-2024

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The NOAA IR serves as an archival repository of NOAA-published products including scientific findings, journal articles, guidelines, recommendations, or other information authored or co-authored by NOAA or funded partners. As a repository, the NOAA IR retains documents in their original published format to ensure public access to scientific information.

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Technical note: An assessment of the performance of statistical bias correction techniques for global chemistry–climate model surface ozone fields

2024
By Staehle, Christoph ; Rieder, Harald E. ; Fiore, Arlene M. ; ...
Source: Atmospheric Chemistry and Physics, 24(10), 5953-5969

[PDF-4.47 MB]

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Journal Title:

Atmospheric Chemistry and Physics
Personal Author:

Staehle, Christoph ; Rieder, Harald E. ; Fiore, Arlene M. ; Schnell, Jordan L.

Staehle, Christoph ; Rieder, Harald E. ; Fiore, Arlene M. ; Schnell, Jordan L. Less -
NOAA Program & Office:

OAR (Oceanic and Atmospheric Research) ; CIRES (Cooperative Institute for Research in Environmental Sciences) ; GSL (Global Systems Laboratory)

OAR (Oceanic and Atmospheric Research) ; CIRES (Cooperative Institute for Research in Environmental Sciences) ; GSL (Global Systems Laboratory) Less -
Description:

State-of-the-art chemistry–climate models (CCMs) still show biases compared to ground-level ozone observations, illustrating the difficulties and challenges remaining in the simulation of atmospheric processes governing ozone production and loss. Therefore, CCM output is frequently bias-corrected in studies seeking to explore the health or environmental impacts from changing air quality burdens. Here, we assess four statistical bias correction techniques of varying complexities and their application to surface ozone fields simulated with four CCMs and evaluate their performance against gridded observations in the EU and US. We focus on two time periods (2005–2009 and 2010–2014), where the first period is used for development and training and the second to evaluate the performance of techniques when applied to model projections. We find that all methods are capable of significantly reducing the model bias. However, biases are lowest when we apply more complex approaches such as quantile mapping and delta functions. We also highlight the sensitivity of the correction techniques to individual CCM skill at reproducing the observed distributional change in surface ozone. Ensemble simulations available for one CCM indicate that model ozone biases are likely more sensitive to the process representation embedded in chemical mechanisms than to meteorology.
Source:

Atmospheric Chemistry and Physics, 24(10), 5953-5969
DOI:

https://doi.org/10.5194/acp-24-5953-2024
ISSN:

1680-7324
Format:

PDF
Publisher:

Copernicus GmbH
Document Type:

Journal Article
License:

https://creativecommons.org/licenses/by/4.0/
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CC BY
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Submitted
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urn:sha-512:295b1cd5ac9b76fee3eeb7b513b4a5b7fe850ec33bc15ddaa49a9924ade28465951c835b75439b51edb01605a02c4c61291f5d3f938d464bff00050ca0c9cedf
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Technical note: An assessment of the performance of statistical bias correction techniques for global chemistry–climate model surface ozone fields

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