Size‐Resolved Dry Deposition Velocities of Dust Particles: In Situ Measurements and Parameterizations Testing

Bergametti, Gilles; Marticorena, Béatrice; Rajot, Jean-Louis; Forêt, Gilles; Alfaro, Stéphane C.; Bouchet, L.

doi:10.1029/2018jd028964

Cited by 16 publications

(15 citation statements)

References 91 publications

(150 reference statements)

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“…shown), consistent with previous studies (e.g., Bergametti et al, 2018). Figure 5b shows the surface resistance from different schemes as a function of particle diameter (Dp).…”

Section: Dust Simulation Sensitivity To Dry Deposition Schemessupporting

confidence: 90%

WRF-Chem v3.9 simulations of the East Asian dust storm in May 2017: modeling sensitivities to dust emission and dry deposition schemes

Zeng¹,

Wang²,

Zhang³

et al. 2019

Preprint

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Abstract. Dust aerosol plays an important role in the radiative budget and hydrological cycle, but large uncertainties remain for simulating dust emission and dry deposition processes in models. In this study, we investigated dust simulation sensitivity to two dust emission schemes and three dry deposition schemes using Weather Research and Forecasting model coupled with chemistry (WRF-Chem). Results showed that simulated dust loading is very sensitive to different dry deposition schemes, with the relative difference of dust loading using different dry deposition schemes range from 20 %–116 %. Two dust emission schemes are found to produce significantly different spatial distribution of dust loading. The difference of dry deposition velocity in different dry deposition schemes comes from the parameterization of collection efficiency from impaction and rebound effect. An optimal combination of dry deposition scheme and dust emission scheme has been identified to best simulate the dust storm in comparison with observation and to include better physical treatment of dust emission and surface collection processes. The optimal dry deposition scheme accounts for the rebound effect and the collection efficiency from impaction changes with the land use categories and therefore has a better physical treatment of dry deposition velocity. Our results highlight the importance of dry deposition schemes for dust simulation.

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“…shown), consistent with previous studies (e.g., Bergametti et al, 2018). Figure 5b shows the surface resistance from different schemes as a function of particle diameter (Dp).…”

Section: Dust Simulation Sensitivity To Dry Deposition Schemessupporting

confidence: 90%

WRF-Chem v3.9 simulations of the East Asian dust storm in May 2017: modeling sensitivities to dust emission and dry deposition schemes

Zeng¹,

Wang²,

Zhang³

et al. 2019

Preprint

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“…The development of near‐surface low‐level jets associated with dust emissions has been investigated across the Sahara (Allen et al., 2013; Bergametti et al., 2018; Fiedler et al., 2013; Kaly et al., 2015; Marsham et al., 2013; Schepanski et al., 2009), in the Bodélé depression, Chad (Todd et al., 2007; Washington et al., 2006; Washington & Todd, 2005), and in the Taklimakan, China (Ge et al., 2016). There are also observations of the frequent occurrence of LLJs with an easterly component over Etosha Pan during winter months (Clements & Washington, 2021; Zunckel, Held, et al., 1996) when strong radiative cooling at night promotes the decoupling of air aloft from the surface and nocturnal stratification of the atmosphere (Allen & Washington, 2014; Blackader, 1957).…”

Section: Resultsmentioning

confidence: 99%

“…Of note is that the events identified using the 0.5 mg/m 3 threshold in the austral winter (July–September) qualitatively match with those observed using remote sensing imagery (e.g., Figure 1). The analytical boundaries employed here for identifying individual events are therefore considered practical and allow reasonable comparison with other studies of dust emission where aerosol concentration has been measured on an event basis across a variety of averaging times and at widely varying distances from source (e.g., Bergametti et al., 2018, 2022; Draxler et al., 2001; Gong & Zhang, 2008; Kaly et al., 2015; Klose et al., 2019; Lee et al., 2009; Marticorena et al., 2017; Rajot et al., 2008; Wang et al., 2008).…”

Section: Instrumentation and Methodsmentioning

confidence: 99%

Quantifying Mechanisms of Aeolian Dust Emission: Field Measurements at Etosha Pan, Namibia

et al. 2022

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“…Examples of relevant services include: drought monitoring and early warning systems, often implemented by national climate and meteorological services but also encompassing regional and global systems (Pozzi et al 2013); and the Sand and Dust Storm Warning Advisory and Assessment System (SDS-WAS), created by WMO in 2007, in partnership with the World Health Organization (WHO) and the United Nations Environment Program (UNEP). Currently, there is also a lack of ecological monitoring in arid and semi-arid regions to study surface winds, dust and sand storms, and their impacts on ecosystems and human health (Bergametti et al 2018;Marticorena et al 2010). Reliable and timely climate services, relevant to desertification, can aid the development of appropriate adaptation and mitigation options, reducing the impact of desertification under changing climate on human and natural systems (high confidence) (Beegum et al 2016;Beegum et al 2018;Cornet 2012;Haase et al 2018;Sergeant et al 2012).…”

Section: Education and Expanding Access To Agricultural Servicesmentioning

confidence: 99%

Desertification

2022

Climate Change and Land

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While global-scale studies provide information for any region, there are numerous studies that focus on sub-continental scales, providing more in-depth analysis and understanding. Regional and local studies are important to detect location-specific trends in desertification and heterogeneous influences of climate change on desertification. However, these regional and local studies use a wide variety of methodologies, making direct comparisons difficult. For details of the methodologies applied by each study refer to the individual papers.Recent work has also found albedo in dryland regions can be associated with soil surface communities of lichens, mosses and cyanobacteria (Rodriguez-Caballero et al. 2018). These communities compose the soil crust in these ecosystems and due to the sparse vegetation cover, directly influence the albedo. These communities are sensitive to climate changes, with field experiments indicating albedo changes greater than 30% are possible. Thus, changes in these communities could trigger surface albedo feedback processes (limited evidence, high agreement) (Rutherford et al. 2017).

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Size‐Resolved Dry Deposition Velocities of Dust Particles: In Situ Measurements and Parameterizations Testing

Cited by 16 publications

References 91 publications

WRF-Chem v3.9 simulations of the East Asian dust storm in May 2017: modeling sensitivities to dust emission and dry deposition schemes

WRF-Chem v3.9 simulations of the East Asian dust storm in May 2017: modeling sensitivities to dust emission and dry deposition schemes

Quantifying Mechanisms of Aeolian Dust Emission: Field Measurements at Etosha Pan, Namibia

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