Smaller desert dust cooling effect estimated from analysis of dust size and abundance

Kok, Jasper F.; Ridley, D. A.; Zhou, Qing; Miller, Ron; Zhao, Chun; Heald, Colette L.; Ward, D. S.; Albani, Samuel; Haustein, Karsten

doi:10.1038/ngeo2912

Cited by 413 publications

(673 citation statements)

References 76 publications

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“…In their overview and review paper, the authors stated that the dust extinction coefficient and the corresponding dust AOT-related radiative effects are sensitively controlled by the amount of occurring fine dust particles due to their higher extinction efficiency, whereas coarse dust dominates the surface concentration, deposition, and removal. In a recent study, Kok et al (2017) emphasize in detail the consequences of a not-well-modeled dust size distribution and abundance for the global energy balance through direct interaction of dust with radiation. As mentioned, the indirect climate effect of dust through interaction with clouds is also affected if the dust size distribution and load, and thus estimates of CCN and INP concentrations are wrong in the forecast models.…”

Section: Fine-mode and Coarse-mode Dust Profiles: Simulation Vs Obsementioning

confidence: 99%

“…Gravitational settling also sensitively depends on the simulated fine and coarse dust fractions. The same holds for dust radiative effects which are rather different for fine and coarse dust particles (Nabat et al, 2012;Ridley et al, 2016;Kok et al, 2017). Meanwhile, dust simulations are also used to estimate dust ice-nucleating particle (INP) concentrations (Hande et al, 2015;.…”

Section: Introductionmentioning

confidence: 99%

“…Polarization lidars which allow us to separate dust from non-dust aerosol profiles in terms of light extinction coefficient and mass concentration are most useful in this respect. Recently, it was shown that even fine dust and coarse dust can be distinguished Ansmann, 2014, 2017), so one of the most important modeling aspects which deals with the emitted and transported dust particle size spectrum (Kok, 2011a, b;Kok et al, 2017) can now be illuminated in model-observation comparisons.…”

Section: Introductionmentioning

confidence: 99%

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Profiling of Saharan dust from the Caribbean to western Africa – Part 2: Shipborne lidar measurements versus forecasts

et al. 2017

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Abstract. A unique 4-week ship cruise from Guadeloupe to Cabo Verde in April-May 2013 (see part 1, Rittmeister et al., 2017) is used for an in-depth comparison of dust profiles observed with a polarization/Raman lidar aboard the German research vessel Meteor over the remote tropical Atlantic and respective dust forecasts of a regional (SKIRON) and two global atmospheric (dust) transport models (NMMB/BSCDust, MACC/CAMS). New options of model-observation comparisons are presented. We analyze how well the modeled fine dust (submicrometer particles) and coarse dust contributions to light extinction and mass concentration match respective lidar observations, and to what extent models, adjusted to aerosol optical thickness observations, are able to reproduce the observed layering and mixing of dust and nondust (mostly marine) aerosol components over the remote tropical Atlantic. Based on the coherent set of dust profiles at well-defined distances from Africa (without any disturbance by anthropogenic aerosol sources over the ocean), we investigate how accurately the models handle dust removal at distances of 1500 km to more than 5000 km west of the Saharan dust source regions. It was found that (a) dust predictions are of acceptable quality for the first several days after dust emission up to 2000 km west of the African continent, (b) the removal of dust from the atmosphere is too strong for large transport paths in the global models, and (c) the simulated fine-to-coarse dust ratio (in terms of mass concentration and light extinction) is too high in the models compared to the observations. This deviation occurs initially close to the dust sources and then increases with distance from Africa and thus points to an overestimation of fine dust emission in the models.

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Section: Fine-mode and Coarse-mode Dust Profiles: Simulation Vs Obsementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Profiling of Saharan dust from the Caribbean to western Africa – Part 2: Shipborne lidar measurements versus forecasts

et al. 2017

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“…Atmospheric dust has been observed across continents and oceans, giving rise to its importance in both terrestrial and marine ecosystems (Huebert et al, 2003;Mahowald et al, 2009;IPCC, 2013;Kok et al, 2017). Mineral aerosols can influence air quality by reducing visibility and bolstering concentrations of inhalable particulate matter (Sharratt and Lauer, 2006;Huneeus et al, 2011;Goudie, 2014).…”

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confidence: 99%

East Asian dust storm in May 2017: observations, modelling, and its influence on the Asia-Pacific region

et al. 2018

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Abstract. A severe dust storm event originated from the Gobi Desert in Central and East Asia during 2–7 May 2017. Based on Moderate Resolution Imaging Spectroradiometer (MODIS) satellite products, hourly environmental monitoring measurements from Chinese cities and East Asian meteorological observation stations, and numerical simulations, we analysed the spatial and temporal characteristics of this dust event as well as its associated impact on the Asia-Pacific region. The maximum observed hourly PM10 (particulate matter with an aerodynamic diameter ≤ 10 µm) concentration was above 1000 µg m−3 in Beijing, Tianjin, Shijiazhuang, Baoding, and Langfang and above 2000 µg m−3 in Erdos, Hohhot, Baotou, and Alxa in northern China. This dust event affected over 8.35 million km2, or 87 % of the Chinese mainland, and significantly deteriorated air quality in 316 cities of the 367 cities examined across China. The maximum surface wind speed during the dust storm was 23–24 m s−1 in the Mongolian Gobi Desert and 20–22 m s−1 in central Inner Mongolia, indicating the potential source regions of this dust event. Lidar-derived vertical dust profiles in Beijing, Seoul, and Tokyo indicated dust aerosols were uplifted to an altitude of 1.5–3.5 km, whereas simulations by the Weather Research and Forecasting with Chemistry (WRF-Chem) model indicated 20.4 and 5.3 Tg of aeolian dust being deposited respectively across continental Asia and the North Pacific Ocean. According to forward trajectory analysis by the FLEXible PARTicle dispersion (FLEXPART) model, the East Asian dust plume moved across the North Pacific within a week. Dust concentrations decreased from the East Asian continent across the Pacific Ocean from a magnitude of 103 to 10−5 µg m−3, while dust deposition intensity ranged from 104 to 10−1 mg m−2. This dust event was unusual due to its impact on continental China, the Korean Peninsula, Japan, and the North Pacific Ocean. Asian dust storms such as those observed in early May 2017 may lead to wider climate forcing on a global scale.

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“…In addition, laboratory studies have suggested that the internal mixing state, particularly metal oxide -clay mineral assemblages, has important influence on radiative properties of dust (Nousiainen et al, 2009;Jeong and Nousiainen, 2014;Kemppinen et al, 2015;Di Biagio et al, 2017;Caponi et al, 2017). This highlights the need for measurement of single particle composition, including both mineralogy and internal mixing state in order to 20 provide better constraints for global climate models (Kok et al, 2017). …”

mentioning

confidence: 99%

Mineralogy and mixing state of North African mineral dust by on-line single-particle mass spectrometry

Marsden¹,

Ullrich²,

Möhler³

et al. 2018

Preprint

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Abstract. The mineralogy and mixing state of dust particles originating from the African continent influences climate and marine ecosystems in the North Atlantic due to its effect on radiation, cloud properties and biogeochemical cycling. Single-particle mineralogy and mixing state is particularly important in many processes but is difficult to predict because of large temporal and spatial variability and the lack of in-situ measurements of dust properties during emission, transport and deposition. This lack of measurements is in part due to the remoteness of potential source areas (PSA) and transport pathways, but also because of 5 the lack of an efficient method to report the mineralogy and mixing state of single particles with a time resolution comparable to atmospheric processes.In this work, the mineralogy and mixing state of the fine fraction (< 2.5µm) in laboratory suspended dust from the Sahara and Sahel were made using novel techniques with on-line single-particle mass spectrometry (SPMS) and traditional off-line scanning electron microscopy (SEM). A regional difference in mineralogy was detected, with material sourced from Morocco 10 contained a high number fraction of illite like particles in contrast to Sahelian material which contains potassium and sodium depleted clay minerals like kaolinite. Applying the same methods to ambient measurement of transported dust in the marine boundary layer at Cabo Verde in the remote North Atlantic enabled the number fractions of illite/smectite clay mineral (ISCM), non-ISCM, and calcium containing particles to be reported at a 1 hour time resolution over a 20 day period alongside internal mixing with nitrate, sulphate and organic/biological material. The ISCM and nitrate content was found to change significantly 15 between distinct dust events, indicating a shift in source and transport pathways which may not be captured in off-line composition analysis or remote sensing techniques.The results show SPMS and SEM techniques are complimentary and demonstrate that SPMS can provide a meaningful high resolution measurement of single-particle mineralogy and mixing state in laboratory and ambient conditions. In most cases, the mineralogy varies continuously between particles rather than a collection of discrete mineral phases. These techniques 20 will be useful in resolving the complexity of mineral dust transport and in obtaining atmospherically relevant test material for laboratory experiments of dust properties.

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Smaller desert dust cooling effect estimated from analysis of dust size and abundance

Cited by 413 publications

References 76 publications

Profiling of Saharan dust from the Caribbean to western Africa – Part 2: Shipborne lidar measurements versus forecasts

Profiling of Saharan dust from the Caribbean to western Africa – Part 2: Shipborne lidar measurements versus forecasts

East Asian dust storm in May 2017: observations, modelling, and its influence on the Asia-Pacific region

Mineralogy and mixing state of North African mineral dust by on-line single-particle mass spectrometry

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