An Evaluation of the CHIMERE Chemistry Transport Model to Simulate Dust Outbreaks across the Northern Hemisphere in March 2014

Bessagnet, Bertrand; Menut, Laurent; Colette, Augustin; Couvidat, Florian; Mo, Dan; Mailler, Sylvain; Létinois, Laurent; Pont, Véronique; Rouïl, Laurence

doi:10.3390/atmos8120251

Cited by 14 publications

(11 citation statements)

References 142 publications

(155 reference statements)

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“…Thus, in this study, an increase in vertical resolution refers to a refinement of the domain in the lower to middle troposphere. An extension of the model top to, e.g., 200 hPa has been proposed in previous studies since some dust intrusions may extend to pressure levels above 500 hPa (Bessagnet et al, 2017). However, by design of our experiments, most of the dust intrusions' trajectory is simulated by C-IFS rather than internally simulated by CHIMERE and, therefore, elevating the model top is assumed to be of of minor importance here.…”

Section: Specific Configuration Of the Sensitivity Testsmentioning

confidence: 99%

“…To this end, version 2017r4 of the CHIMERE model is used (Mailler et al, 2017) in combination with the HTAP emission inventory version 2.2 (Janssens-Maenhout et al, 2015). Saharan dust intrusions are not accounted for by running CHIMERE on a large domain covering all relevant dust sources (Bessagnet et al, 2017), but by using a far smaller domain ingesting the global forecasts provided by the European Centre for Medium-Range Weather Forecasts (ECMWF) Composition Integrated Forecasting system (C-IFS) at its lateral boundaries (Flemming et al, 2015). This strategy largely reduces the computational costs and is an interesting alternative to simulating remote mineral dust emissions, e.g.…”

Section: Introductionmentioning

confidence: 99%

“…This strategy largely reduces the computational costs and is an interesting alternative to simulating remote mineral dust emissions, e.g. originating in the Sahara desert, with the CHIMERE model itself (Bessagnet et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

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Sensitivity of CHIMERE to changes in model resolution and chemistry over the northwestern Iberian Peninsula

Brands

Fernández-García

Montecelo

et al. 2019

Preprint

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Abstract. Here, the capability of the chemical weather forecasting model CHIMERE (version 2017r4) to reproduce summertime surface ozone, particulate matter and nitrogen dioxide concentrations in complex terrain is investigated. The study area is the northwestern Iberian Peninsula, where both coastal and mountain climates can be found in direct vicinity and a large fraction of the land area is covered by forests. Fed by lateral boundary conditions from the ECMWF Composition Integrated Forecast System, meteorological data from the Weather Research and Forecasting Model (WRF) and the HTAP v2.2 emission inventory, CHIMERE's performance compared to observations is tested with a range of sensitivity experiments, exploring the role of horizontal and vertical resolution and the effects of applying distinct chemistry mechanisms. Using a high horizontal and vertical resolution yields the most balanced verification results. If both the daily maximum and minimum values are important for the given application, then the full Melchior mechanism should be used. If, however, the daily maxima are considered more important than the minima, SAPRC should be used instead. In any case, model performance for nitrogen dioxide is clearly not satisfactory for our study region, probably indicating deficiencies in the emission inventory.

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Section: Specific Configuration Of the Sensitivity Testsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Sensitivity of CHIMERE to changes in model resolution and chemistry over the northwestern Iberian Peninsula

Brands

Fernández-García

Montecelo

et al. 2019

Preprint

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“…An aerosol module was implemented into CHIMERE in 2004 with further modifications concerning the natural dust emissions and resuspension over the northern Atlantic and Europe (Vautard et al, 2005;Hodzic et al, 2006). Dust emissions have been verified for dust that is transported over long distances by comparison with long-term field measurements (Schmechtig et al, 2011;Bessagnet et al, 2017). The CHIMERE version 2017r4 was used in this study.…”

Section: Dust Schemes In Chimere V2017r4mentioning

confidence: 99%

Multimodel simulations of a springtime dust storm over northeastern China: implications of an evaluation of four commonly used air quality models (CMAQ v5.2.1, CAMx v6.50, CHIMERE v2017r4, and WRF-Chem v3.9.1)

Zhang

Gao

et al. 2019

Geosci. Model Dev.

Self Cite

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Abstract. Mineral dust particles play an important role in the Earth system, imposing a variety of effects on air quality, climate, human health, and economy. Accurate forecasts of dust events are highly desirable to provide an early warning and inform the decision-making process. East Asia is one of the largest dust sources in the world. This study applies and evaluates four widely used regional air quality models to simulate dust storms in northeastern China. Three dust schemes in the Weather Research and Forecasting model with Chemistry (WRF-Chem) (version 3.9.1), two schemes in both CHIMERE (version 2017r4) and CMAQ (version 5.2.1), and one scheme in CAMx (version 6.50) were applied to a dust event during 4–6 May 2015 in northeastern China. Most of these models were able to capture this dust event with the exception of CAMx, which has no dust source map covering the study area; hence, another dust source mask map was introduced to replace the default one for the subsequent simulation. Although these models reproduced the spatial pattern of the dust plume, there were large discrepancies between predicted and observed PM10 concentrations in each model. In general, CHIMERE had relatively better performance among all simulations with default configurations. After parameter tuning, WRF-Chem with the Air Force Weather Agency (AFWA) scheme using a seasonal dust source map from Ginoux et al. (2012) showed the best performance, followed by WRF-Chem with the UOC_Shao2004 scheme, CHIMERE, and CMAQ. The performance of CAMx had significantly improved by substituting the default dust map and removing the friction velocity limitation. This study suggested that the dust source maps should be carefully selected on a regional scale or replaced with a new one constructed with local data. Moreover, further study and measurement of sandblasting efficiency of different soil types and locations should be conducted to improve the accuracy of estimated vertical dust fluxes in air quality models.

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“…The aerosol module has been implemented into CHIMERE since 2004, with further modifications concerning the natural dust emissions and resuspension over Europe [39]. The evaluations of the simulation performance for long-distance transported dust have already been implemented and compared with field measurements [40,41]. In the present model version, there were three available dust emission schemes, which were established depending on Marticorena and Bergametti (1995) (MB dust scheme) [42], Alfaro and Gomes (2001) (AG dust scheme) [43] and Kok et al (2014) (KOK dust scheme) [44], respectively.…”

Section: Configuration Of Chimerementioning

confidence: 99%

Simulating Performance of CHIMERE on a Late Autumnal Dust Storm over Northern China

Zhang

Gao

et al. 2019

Sustainability

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The accurate forecasting of dust emission and transport is a societal demand worldwide as dust pollution is part of many health, economic, and environment issues, which significantly impact sustainable development. The dust forecasting ability of present air quality forecast systems is mainly focused on spring dust events in East Asia, but further improvement may be needed as there is still difficulty in forecasting autumn dust activities, such as failing to predict the serious dust storm that occurred on 25 to 26 November 2018. In this study, a state-of-the-art air quality model, CHIMERE, with three coupled dust schemes was introduced for the first time to simulate the dust emissions during this event to qualitatively and quantitatively validate its dust simulating performance over Northern China. The model results reported that two of the three dust schemes were able to capture the dust emission source located in Gansu Province and reproduce the easterly dust transport path, showing moderately close agreement in the horizontal and vertical distribution patterns with the ground-based and satellite observations. The simulated PM10 concentration had a better relationship with the observed values with a correlation coefficient up to 0.96, while it was lower in the transported areas. Meanwhile, the simulations also presented incorrect dust emission positions such as in areas between the Hulun Buir sandy land and Horqin sandy land. Our results indicate that CHIMERE exhibits reasonably good performance regarding its dust simulation and forecast ability over this area, and its application would help to improve the dust analysis and forecast abilities in Northern China.

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An Evaluation of the CHIMERE Chemistry Transport Model to Simulate Dust Outbreaks across the Northern Hemisphere in March 2014

Cited by 14 publications

References 142 publications

Sensitivity of <i>CHIMERE</i> to changes in model resolution and chemistry over the northwestern Iberian Peninsula

Sensitivity of <i>CHIMERE</i> to changes in model resolution and chemistry over the northwestern Iberian Peninsula

Multimodel simulations of a springtime dust storm over northeastern China: implications of an evaluation of four commonly used air quality models (CMAQ v5.2.1, CAMx v6.50, CHIMERE v2017r4, and WRF-Chem v3.9.1)

Simulating Performance of CHIMERE on a Late Autumnal Dust Storm over Northern China

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An Evaluation of the CHIMERE Chemistry Transport Model to Simulate Dust Outbreaks across the Northern Hemisphere in March 2014

Cited by 14 publications

References 142 publications

Sensitivity of &lt;i&gt;CHIMERE&lt;/i&gt; to changes in model resolution and chemistry over the northwestern Iberian Peninsula

Sensitivity of &lt;i&gt;CHIMERE&lt;/i&gt; to changes in model resolution and chemistry over the northwestern Iberian Peninsula

Multimodel simulations of a springtime dust storm over northeastern China: implications of an evaluation of four commonly used air quality models (CMAQ v5.2.1, CAMx v6.50, CHIMERE v2017r4, and WRF-Chem v3.9.1)

Simulating Performance of CHIMERE on a Late Autumnal Dust Storm over Northern China

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Sensitivity of <i>CHIMERE</i> to changes in model resolution and chemistry over the northwestern Iberian Peninsula

Sensitivity of <i>CHIMERE</i> to changes in model resolution and chemistry over the northwestern Iberian Peninsula