Estimation of mineral dust direct radiative forcing at the European Aerosol Research Lidar NETwork site of Lecce, Italy, during the ChArMEx/ADRIMED summer 2013 campaign: Impact of radiative transfer model spectral resolutions

Barragán, Rubén; Romano, Salvatore; Sicard, Michaël; Burlizzi, P.; Perrone, M. R.; Comerón, Adolfo

doi:10.1002/2016jd025016

Cited by 13 publications

(19 citation statements)

References 57 publications

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“…The radiative forcing at the TOA ranges from 8.2 to 8.8 W/m 2 and from 7.3 to 7.8 W/m 2 on 7 May 2007, using the Maxwell-Garnett approximation and volume averaging method, respectively, in the longwave spectral range in contrast to a wider range from À6.0 to À12.0 W/m 2 and from À1.9 to À9.7 W/m 2 in the shortwave spectral range. Despite the low SSA computed in the model, our estimation of the forcing on 7 May at the TOA is still more negative in comparison to that (À6.0 to 8.0 W/m 2 ) over the western and central Mediterranean basin on 22 June (Barragan et al, 2016). As mentioned in the forcing 2-D distribution and can be seen in Table 3, at the TOA the sign of the direct radiative forcing changed to positive when using mineral fractions obtained based on the soil mineralogy map to calculate dust optical properties.…”

Section: Journal Of Geophysical Research: Atmospherescontrasting

confidence: 59%

“…Many efforts have been directed to more accurately measuring meteorological variables (e.g., water vapor profile and air temperature) and relevant parameters of dust (e.g., the complex refractive index, the particle shape, and the size distribution) by employing various in-site measurements, numerical models (Barragan et al, 2016;Osipov et al, 2015), and remote sensing observations at both regional and global scales. At the global scale, the net direct radiative forcing estimation at the top of the atmosphere (TOA) due to anthropogenic dust contributions varies from À0.3 to +0.1 W/m 2 , and it differs among available publications (Hansen et al, 1998;Jacobson, 2001;Mahowald et al, 2010;Miller and Tegen, 1998;Sokolik & Toon, 1996;Yoshioka et al, 2007;Yue et al, 2010).…”

Section: Introductionmentioning

confidence: 99%

“…At the global scale, the net direct radiative forcing estimation at the top of the atmosphere (TOA) due to anthropogenic dust contributions varies from À0.3 to +0.1 W/m 2 , and it differs among available publications (Hansen et al, 1998;Jacobson, 2001;Mahowald et al, 2010;Miller and Tegen, 1998;Sokolik & Toon, 1996;Yoshioka et al, 2007;Yue et al, 2010). For a region, studies have been performed mainly at a much shorter time scale focusing on more accurately measuring meteorology variables and optical parameters (Barragan et al, 2016;di Sarra et al, 2013). These case studies mainly work on the instantaneous direct radiative forcing, which is a basis for estimating the time-averaged direct radiative forcing.…”

Section: Introductionmentioning

confidence: 99%

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The Dust Direct Radiative Impact and Its Sensitivity to the Land Surface State and Key Minerals in the WRF‐Chem‐DuMo Model: A Case Study of Dust Storms in Central Asia

Sokolik

2018

JGR Atmospheres

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The instantaneous direct radiative forcing is a basis for estimating the aerosol's climate effect, which is still one of the most uncertain factors. In this study, we incorporate eight minerals into a dust emission model that is coupled with the regional model. The model is used to estimate the direct radiative impact at the top of the atmosphere and at the surface by mineral dust. In addition, multiple tests are performed to investigate the sensitivity of the forcing to some key parameters (such as the surface albedo and key minerals, e.g., hematite and calcite). Based on our simulations of a dust event in Central Asia, the net instantaneous direct forcing (solar + infrared), averaged over the Aral Sea basin on 7 May 2007, are approximately in a range of (−8.05, −0.47) W/m2 at the top of the atmosphere. In comparison to the forcing estimated based on the default complex index, incorporation of dust minerals introduced a less cooling effect at the top of the atmosphere. We found that for a given clay‐to‐silt ratio, the net instantaneous forcing and the forcing in the solar band are sensitive to the surface albedo and hematite variation in the silt fraction. The forcing in the infrared band, however, is insensitive to these parameters, but it is sensitive to calcite and quartz in the silt fraction. Our results highlight the importance of accurately predicting the size‐resolved content of hematite and the surface albedo change to quantify the radiative forcing of mineral dust.

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Section: Journal Of Geophysical Research: Atmospherescontrasting

confidence: 59%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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The Dust Direct Radiative Impact and Its Sensitivity to the Land Surface State and Key Minerals in the WRF‐Chem‐DuMo Model: A Case Study of Dust Storms in Central Asia

Sokolik

2018

JGR Atmospheres

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“…These values were generally smooth, although weakest cooling effects of RFEBOA tended to be exhibited by dust from the northeast, which was partly because the largest dust SSA was associated with dust from this direction. In view of their seasonal statistics (Figure 9c) [11,56]. Relatively low cooling effect of RF in The excellent performance of the solar radiations calculated by AERONET inversion algorithm encouraged us to explore the dust aerosol radiative forcing as follows.…”

Section: Dust Radiative Forcingmentioning

confidence: 99%

Dust Properties and Radiative Impacts at a Suburban Site during 2004–2017 in the North China Plain

et al. 2019

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Aerosols and their radiative effects are of primary interest in climate research because of their vital influence on climate change. Dust aerosols are an important aerosol type in the North China Plain (NCP), mainly as a result of long-range transport, showing substantial spatiotemporal variations. By using measurements from the Aerosol Robotic Network (AERONET) between September 2004 and May 2017, and the space-borne Moderate Resolution Imaging Spectroradiometer (MODIS) and Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observations (CALIPSO) aerosol products, we investigated the properties of dust aerosols and their radiative effects at Xianghe (XH)—a suburban site in the NCP. Dust events occurred most frequently during spring (a total of 105 days) relative to the other three seasons (a total of 41 days) during the periods concerned. The dust aerosol optical depth (AOD) at 675 nm was at a maximum in spring (0.60 ± 0.44), followed (in decreasing order) by those in autumn (0.58 ± 0.39), summer (0.54 ± 0.15), and winter (0.53 ± 0.23). Cooling effects of dust aerosol radiative forcing (RF) at the bottom and top of the atmosphere tended to be strongest in spring (−96.72 ± 45.69 and −41.87 ± 19.66 Wm−2) compared to that in summer (−57.08 ± 18.54 and −25.54 ± 4.45 Wm−2), autumn (−72.01 ± 27.27 and −32.54 ± 15.18 Wm−2), and winter (−79.57 ± 32.96 and −37.05 ± 17.06 Wm−2). The back-trajectory analysis indicated that dust air mass at 500 m that arrived at XH generally originated from the Gobi and other deserts of northern China and Mongolia (59.8%), and followed by northwest China and Kazakhstan (37.2%); few dust cases came from northeast China (3.0%). A single-peaked structure with the maximum occurring at ~2 km was illustrated by all dust events and those sorted by their sources in three directions. Three typical dust events were specifically discussed to better reveal how long-range transport impacted the dust properties and radiative effects over the NCP. The results presented here are expected to improve our understanding of the physical properties of dust aerosols over the NCP and their major transport path and significant impacts on the regional solar radiation budget.

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“…Gaseous absorption (H 2 O, CO 2 , O 2 , and O 3 ) is treated with the correlated k distribution, using a line by line code [27] and multiple scattering effects are treated using the discrete ordinates method [28]. GAME allows accurate treatment of scattering and absorption by aerosols and molecules [29]. Calibrations were performed in cloudfree conditions for accurate radiance simulations.…”

Section: B Determination Of the System Constants Ratiomentioning

confidence: 99%

Calibration of Raman Lidar Water Vapor Mixing Ratio Measurements Using Zenithal Measurements of Diffuse Sunlight and a Radiative Transfer Model

Muñoz-Porcar

Comerón

Sicard

et al. 2018

IEEE Trans. Geosci. Remote Sensing

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Among the different techniques available for measuring the atmospheric water vapor content, Raman lidars stand out as accurate instruments providing detailed profiles with high temporal and altitude resolution. Their principle is based on obtaining the range-resolved ratio of the lidar signals corresponding to Raman returns from water vapor and nitrogen molecules, which is proportional to the water vapor mixing ratio. To do this, it is necessary to determine a calibration factor, specific of each lidar instrument. A method for obtaining this parameter, based on zenith measurements of diffuse sunlight, on Raman scattering models and on simulations, using a radiative transfer model, to estimate sky radiances at the wavelengths of interest, has been applied to the lidar system of

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Estimation of mineral dust direct radiative forcing at the European Aerosol Research Lidar NETwork site of Lecce, Italy, during the ChArMEx/ADRIMED summer 2013 campaign: Impact of radiative transfer model spectral resolutions

Cited by 13 publications

References 57 publications

The Dust Direct Radiative Impact and Its Sensitivity to the Land Surface State and Key Minerals in the WRF‐Chem‐DuMo Model: A Case Study of Dust Storms in Central Asia

The Dust Direct Radiative Impact and Its Sensitivity to the Land Surface State and Key Minerals in the WRF‐Chem‐DuMo Model: A Case Study of Dust Storms in Central Asia

Dust Properties and Radiative Impacts at a Suburban Site during 2004–2017 in the North China Plain

Calibration of Raman Lidar Water Vapor Mixing Ratio Measurements Using Zenithal Measurements of Diffuse Sunlight and a Radiative Transfer Model

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