Global scale variability of the mineral dust long-wave refractive index: a new dataset of in situ measurements for climate modeling and remote sensing

Biagio, Claudia Di; Formenti, Paola; Balkanski, Yves; Caponi, Lorenzo; Cazaunau, Mathieu; Pangui, Edouard; Journet, Émilie; Nowak, Sophie; Caquineau, Sandrine; Andreae, Meinrat O.; Kandler, Konrad; Saeed, Thuraya; Piketh, S.; Seibert, David; Williams, Earle; Doussin, Jean‐François

doi:10.5194/acp-17-1901-2017

Cited by 130 publications

(199 citation statements)

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“…Caponi et al: Spectral-and The experiments in this work have been performed in the 4.2 m 3 stainless-steel CESAM (Wang et al, 2011). The CE-SAM has been extensively used in recent years to simulate, at sub-and super-saturated conditions, the formation and properties of aerosols at concentration levels comparable to those encountered in the atmosphere (Denjean et al, 2015a, b;Brégonzio-Rozier et al, 2015, 2016Di Biagio et al, 2014, 2017. CESAM is a multi-instrumented platform, equipped with 12 circular flanges to support its analytical environment.…”

Section: Instruments and Methodsmentioning

confidence: 99%

“…The particle size distribution is routinely measured by a combination of (i) a scanning mobility particle sizer (SMPS, mobility diameter range 0.02-0.88 µm), composed of a differential mobility analyzer (DMA, TSI Inc. model 3080) and a condensation particle counter (CPC, TSI Inc. model 3772); (ii) a SkyGrimm optical particle counter (Grimm Inc., model 1.129, optical equivalent diameter range 0.25-32 µm); and (iii) a WELAS optical particle counter (PALAS, model 2000, optical equivalent diameter range 0.5-47 µm). Full details of operations and data treatment of the particle counters are provided in Di Biagio et al (2017).…”

Section: Instruments and Methodsmentioning

confidence: 99%

“…The first quartz membrane sample ("total") was collected without a dedicated size cutoff using an in-housebuilt stainless-steel sampler operated at 5 L min −1 . However, as detailed in Di Biagio et al (2017), the length of the sampling line from the intake point in the chamber to the filter entrance was 50 cm, resulting in a 50 % cutoff of the transmission efficiency at 10.6 µm particle aerodynamic diameter. This fraction is therefore indicated as PM 10.6 in the following discussion.…”

Section: Filter Samplingmentioning

confidence: 99%

“…The experiments were conducted at ambient temperature and at a relative humidity < 2 %. As in Di Biagio et al (2014Biagio et al ( , 2017, dust aerosols were generated by mechanical shaking of the parent soils, previously sieved to < 1000 µm and dried at 100 • C for about 1 h to remove any residual humidity. About 15 g of soil was placed in a Buchner flask and shaken for about 30 min at 100 Hz by means of a sieve shaker (Retsch AS200).…”

Section: Calculation Of the Iron Oxide Contentmentioning

confidence: 99%

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Spectral- and size-resolved mass absorption efficiency of mineral dust aerosols in the shortwave spectrum: a simulation chamber study

et al. 2017

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Abstract. This paper presents new laboratory measurements of the mass absorption efficiency (MAE) between 375 and 850 nm for 12 individual samples of mineral dust from different source areas worldwide and in two size classes: PM 10.6 (mass fraction of particles of aerodynamic diameter lower than 10.6 µm) and PM 2.5 (mass fraction of particles of aerodynamic diameter lower than 2.5 µm). The experiments were performed in the CESAM simulation chamber using mineral dust generated from natural parent soils and included optical and gravimetric analyses.The results show that the MAE values are lower for the PM 10.6 mass fraction (range 37-135 × 10 −3 m 2 g −1 at 375 nm) than for the PM 2.5 (range 95-711 × 10 −3 m 2 g −1 at 375 nm) and decrease with increasing wavelength as λ −AAE , where the Ångström absorption exponent (AAE) averages between 3.3 and 3.5, regardless of size. The size independence of AAE suggests that, for a given size distribution, the dust composition did not vary with size for this set of samples. Because of its high atmospheric concentration, light absorption by mineral dust can be competitive with black and brown carbon even during atmospheric transport over heavy polluted regions, when dust concentrations are significantly lower than at emission. The AAE values of mineral dust are higher than for black carbon (∼ 1) but in the same range as light-absorbing organic (brown) carbon. As a result, depending on the environment, there can be some ambiguity in apportioning the aerosol absorption optical depth (AAOD) based on spectral dependence, which is relevant to the development of remote sensing of light-absorbing aerosols and their assimilation in climate models. We suggest that the sample-to-sample variability in our dataset of MAE values is related to regional differences in the mineralogical composition of the parent soils. Particularly in the PM 2.5 fraction, we found a strong linear correlation between the dust lightPublished by Copernicus Publications on behalf of the European Geosciences Union. 7176 L. Caponi et al.: Spectral-and size-resolved mass absorption efficiency of mineral dust aerosols absorption properties and elemental iron rather than the iron oxide fraction, which could ease the application and the validation of climate models that now start to include the representation of the dust composition, as well as for remote sensing of dust absorption in the UV-vis spectral region.

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Section: Instruments and Methodsmentioning

confidence: 99%

Section: Instruments and Methodsmentioning

confidence: 99%

Section: Filter Samplingmentioning

confidence: 99%

Section: Calculation Of the Iron Oxide Contentmentioning

confidence: 99%

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Spectral- and size-resolved mass absorption efficiency of mineral dust aerosols in the shortwave spectrum: a simulation chamber study

et al. 2017

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“…This consisted of recalculating the OPC calibration curve for different complex refractive index values. For dust aerosols the refractive index was varied in the range 1.47-1.53 (n) and 0.001-0.005i (k) following the literature (see Di Biagio et al, 2017) and D g was set at the mean ± one standard deviation of the values obtained for the different n and k. For kaolinite the OPC diameter conversion was performed by setting the refractive index at 1.56-0.001i. For ambient air the refractive index was set at 1.60-0.01i, a value that represents a medium absorbing urban polluted aerosol (see Di Biagio et al, 2016).…”

Section: Determination Of the Single Scattering Albedo (Ssa)mentioning

confidence: 99%

Aethalometer multiple scattering correction <i>C</i><sub>ref</sub> for mineral dust aerosols

et al. 2017

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Abstract. In this study we provide a first estimate of the Aethalometer multiple scattering correction C ref for mineral dust aerosols. C ref is an empirical constant used to correct the aerosol absorption coefficient measurements for the multiple scattering artefact of the Aethalometer; i.e. the filter fibres on which aerosols are deposited scatter light and this is miscounted as absorption. The C ref at 450 and 660 nm was obtained from the direct comparison of Aethalometer data (Magee Sci. AE31) with (i) the absorption coefficient calculated as the difference between the extinction and scattering coefficients measured by a Cavity Attenuated Phase Shift Extinction analyser (CAPS PMex) and a nephelometer respectively at 450 nm and (ii) the absorption coefficient from a MAAP (Multi-Angle Absorption Photometer) at 660 nm. Measurements were performed on seven dust aerosol samples generated in the laboratory by the mechanical shaking of natural parent soils issued from different source regions worldwide. The single scattering albedo (SSA) at 450 and 660 nm and the size distribution of the aerosols were also measured.

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Simulating the Regional Impact of Dust on the Middle East Climate and the Red Sea

Osipov

Stenchikov

2018

JGR Oceans

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The Red Sea is located between North Africa and the Arabian Peninsula, the largest sources of dust in the world. Satellite retrievals show very high aerosol optical depth in the region, which increases during the summer season, especially over the southern Red Sea. Previously estimated and validated radiative effect from dust is expected to have a profound thermal and dynamic impact on the Red Sea, but that impact has not yet been studied or evaluated. Due to the strong dust radiative effect at the sea surface, uncoupled ocean modeling approaches with prescribed atmospheric boundary conditions result in an unrealistic ocean response. Therefore, to study the impact of dust on the regional climate of the Middle East and the Red Sea, we employed the Regional Ocean Modeling System fully coupled with the Weather Research and Forecasting model. We modified the atmospheric model to account for the radiative effect of dust. The simulations show that, in the equilibrium response, dust cools the Red Sea, reduces the surface wind speed, and weakens both the exchange at the Bab‐el‐Mandeb strait and the overturning circulation. The salinity distribution, freshwater, and heat budgets are significantly altered. A validation of the simulations against satellite products indicates that accounting for radiative effect from dust almost completely removes the bias and reduces errors in the top of the atmosphere fluxes and sea surface temperature. Our results suggest that dust plays an important role in the energy balance, thermal, and circulation regimes in the Red Sea.

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Global scale variability of the mineral dust long-wave refractive index: a new dataset of in situ measurements for climate modeling and remote sensing

Cited by 130 publications

References 91 publications

Spectral- and size-resolved mass absorption efficiency of mineral dust aerosols in the shortwave spectrum: a simulation chamber study

Spectral- and size-resolved mass absorption efficiency of mineral dust aerosols in the shortwave spectrum: a simulation chamber study

Aethalometer multiple scattering correction <i>C</i><sub>ref</sub> for mineral dust aerosols

Simulating the Regional Impact of Dust on the Middle East Climate and the Red Sea

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Global scale variability of the mineral dust long-wave refractive index: a new dataset of in situ measurements for climate modeling and remote sensing

Cited by 130 publications

References 91 publications

Spectral- and size-resolved mass absorption efficiency of mineral dust aerosols in the shortwave spectrum: a simulation chamber study

Spectral- and size-resolved mass absorption efficiency of mineral dust aerosols in the shortwave spectrum: a simulation chamber study

Aethalometer multiple scattering correction &lt;i&gt;C&lt;/i&gt;&lt;sub&gt;ref&lt;/sub&gt; for mineral dust aerosols

Simulating the Regional Impact of Dust on the Middle East Climate and the Red Sea

Contact Info

Product

Resources

About

Aethalometer multiple scattering correction <i>C</i><sub>ref</sub> for mineral dust aerosols