Robust observational constraint of uncertain aerosol processes and emissions in a climate model and the effect on aerosol radiative forcing

Johnson, Jill S.; Regayre, Leighton A.; Yoshioka, Masaru; Pringle, K. J.; Turnock, Steven T.; Browse, Jo; Sexton, David M. H.; Rostron, John; Schutgens, Nick; Partridge, Daniel G.; Liu, Dantong; Allan, J. D.; Coe, Hugh; Ding, Aijun; Cohen, David D.; Atanacio, Armand J.; Vakkari, Ville; Asmi, Eija; Carslaw, K. S.

doi:10.5194/acp-2019-834

Cited by 12 publications

(33 citation statements)

References 121 publications

(169 reference statements)

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“…The PPEs were created by systematically perturbing numerous model parameters related to natural and anthropogenic emissions and physical processes. The simulated aerosol forcings have uncertainty ranges that exceed those of multi-model ensembles (Yoshioka et al, 2019;Johnson et al, 2019). Instantaneous radiative forcing (RF) is quantified using the 26-parameter AER PPE in which just aerosol-related parameters were varied, and the effective radiative forcing (ERF) is quantified using the 27-parameter AER-ATM PPE in which aerosol and physical atmosphere parameters were varied (Yoshioka et al, 2019).…”

Section: Introductionmentioning

confidence: 99%

“…The simulated aerosol forcings have uncertainty ranges that exceed those of multi-model ensembles (Yoshioka et al, 2019;Johnson et al, 2019). Instantaneous radiative forcing (RF) is quantified using the 26-parameter AER PPE in which just aerosol-related parameters were varied, and the effective radiative forcing (ERF) is quantified using the 27-parameter AER-ATM PPE in which aerosol and physical atmosphere parameters were varied (Yoshioka et al, 2019). We use these PPEs to quantify how the constraint provided by pristine aerosol measurements affects the spread of aerosol forcings simulated by the ensembles.…”

Section: Introductionmentioning

confidence: 99%

“…For example, Regayre et al, (2018) showed that top-of-the-atmosphere shortwave radiation flux measurements reduce ERFaci uncertainty by only around 10%, despite the fluxes in the present-day and early-industrial environments sharing multiple causes of uncertainty. Johnson et al (2019) showed that a much larger dataset of over 9000 (predominantly Northern Hemisphere) aerosol measurements constrained the global, annual mean aerosol RF uncertainty by only around 8%. These measurements reduce the uncertainty in a small number of parameters related to anthropogenic emissions and aerosol processing in polluted environments.…”

Section: Introductionmentioning

confidence: 99%

“…Model variants that were judged to be observationally implausible against the measurements were rejected, resulting in a set of plausible variants from which the uncertainty in aerosol forcing could be computed (see SI Methods). In the results shown below, we retained approximately 3% of model variants (following Johnson et al, 2019) that best match all four measured aerosol properties.…”

Section: Introductionmentioning

confidence: 99%

“…The complementary nature of these constraints means that the combined constraint marginal parameter pdfs (Fig. 5) The Johnson et al (2019) constraint reduced the RFaci uncertainty by around 6% and our ACE-SPACE measurement constraint reduced the uncertainty by around 9%. However, the RFaci uncertainty is reduced by around 21% (Fig.…”

Section: Introductionmentioning

confidence: 99%

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The value of remote marine aerosol measurements for constraining radiative forcing uncertainty

Regayre¹,

Schmale²,

Johnson³

et al. 2019

Preprint

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Abstract. Aerosol measurements over the Southern Ocean are used to constrain aerosol-cloud interaction radiative forcing uncertainty in a global climate model. Aerosol forcing uncertainty is quantified using one million climate model variants that sample the uncertainty in nearly 30 model parameters. Ship-based measurements of cloud condensation nuclei, particle number concentrations and sulfate mass concentrations from the Antarctic Circumnavigation Expedition: Study of Preindustrial-like Aerosols and Their Climate Effects (ACE-SPACE) are used to identify observationally implausible variants and thereby reduce the spread in the simulated forcing. Southern Ocean measurements strongly constrain natural aerosol emissions: default sea spray emissions in the model need to be increased by around a factor of 3 to be consistent with measurements. Aerosol forcing uncertainty is reduced by around 7&#8201;% using these measurements, which is comparable to the 8&#8201;% reduction achieved using an extensive set of over 9000 predominantly Northern Hemisphere measurements. The radiative forcing due to aerosol&#8211;cloud interactions (RFaci) is constrained to &#8722;2.61 to &#8722;1.10&#8201;W&#8201;m&#8722;2 (95&#8201;% confidence) and the effective radiative forcing from aerosol-cloud interactions (ERFaci) is constrained to &#8722;2.43 to &#8722;0.54&#8201;W&#8201;m&#8722;2. When Southern Ocean and Northern Hemisphere measurements are combined, the uncertainty in RFaci is reduced by 21&#8201;% and the strongest 20&#8201;% of forcing values are ruled out as implausible. In this combined constraint the observationally plausible RFaci is around 0.17&#8201;W&#8201;m&#8722;2 weaker (less negative) with credible values ranging from &#8722;2.51 to &#8722;1.17&#8201;W&#8201;m&#8722;2 and from &#8722;2.18 to &#8722;1.46&#8201;W&#8201;m&#8722;2 when using one standard deviation to quantify the uncertainty. The Southern Ocean and Northern Hemisphere measurement datasets are complementary because they constrain different processes. These results highlight the value of remote marine aerosol measurements.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

The value of remote marine aerosol measurements for constraining radiative forcing uncertainty

Regayre¹,

Schmale²,

Johnson³

et al. 2019

Preprint

Self Cite

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A large reduction of direct aerosol cooling over Poland in the last decades

Markowicz

Zawadzka-Mańko

Posyniak

2021

Intl Journal of Climatology

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This paper presents an analysis of the long-term variability of aerosol optical properties, as well as aerosol and greenhouse gases (GHG) direct radiative forcing (RF) in central Europe on the basis of MERRA-2 reanalysis and ground-based observation. Calculations of longwave (LW) and shortwave (SW) RF were made with the use of the off-line Fu-Liou radiative transfer model and were preceded by the sensitivity study of the code's input parameters. Then, the long-term mean as well as the annual variability for selected regions of aerosol optical properties and radiative forcing were analysed. The mean AOD trend was −0.056 ± 9% per decade and AOD was reduced by 48% between 1982 and 2015. While for 1982-1990 the trend per decade was −0.12 ± 20%, for 1991-2000 it was −0.17 ± 17% and only −0.02 ± 31% in the last 15 years (2001)(2002)(2003)(2004)(2005)(2006)(2007)(2008)(2009)(2010)(2011)(2012)(2013)(2014)(2015). The trend of the aerosol radiative forcing (ARF) was 1.52 ± 0.12 WÁm −2 /10 year and 1.21 ± 0.19 WÁm −2 /10 year at top of the atmosphere (TOA) and at Earth's surface, respectively. The trend for GHG was significantly smaller and it equalled 0.27 ± 0.01 WÁm −2 /10 year at TOA and 0.17 ± 0.01 WÁm −2 /10 year at the surface. Changes in GHG and aerosol direct effect produced additional 3.2 ± 0.2 WÁm −2 at TOA, which could be associated with the observed regional climate warming. The change of the direct aerosol effect was about 4 times the GHG RF. The influence of aerosol loading reduction on the radiation budget was significantly higher in the 1990s of the 20th century in comparison to the first decades of the 21st. The effect of aerosol reduction has significant impact on air temperature changes during warm season and negligible during winter.

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A Mechanistic Sea Spray Generation Function Based on the Sea State and the Physics of Bubble Bursting

2022

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Knowledge of the size distribution of primary ocean spray aerosol particles and its dependence on meteorological and environmental variables is necessary for modeling cloud microphysical properties and the influence of aerosol on radiative processes (de Leeuw et al., 2011). Currently, the extent and brightness of marine low clouds are poorly represented in Earth system models, and the response of low clouds to changes in atmospheric greenhouse gases and aerosols remains a major source of uncertainty in earth system projections (de Leeuw et al., 2011;Painemal et al., 2015). Biases and uncertainties in predicting sea spray aerosols are expected to be particularly important in modeling remote regions, where perturbations by anthropogenic aerosols are limited (DeMott et al., 2016).Sea spray aerosols are composed of small liquid droplets formed through two main pathways following wave breaking. The spume drops, produced from the tearing of breaking wave crests by strong winds, consist mostly of drops

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Robust observational constraint of uncertain aerosol processes and emissions in a climate model and the effect on aerosol radiative forcing

Cited by 12 publications

References 121 publications

The value of remote marine aerosol measurements for constraining radiative forcing uncertainty

The value of remote marine aerosol measurements for constraining radiative forcing uncertainty

A large reduction of direct aerosol cooling over Poland in the last decades

A Mechanistic Sea Spray Generation Function Based on the Sea State and the Physics of Bubble Bursting

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