Spectral Aerosol Optical Depth Retrievals by Ground-Based Fourier Transform Infrared Spectrometry

Barreto, África; García, Omaira; Schneider, Mat­thias; García, Rosa Giménez; Hase, Frank; Sepúlveda, Eliezer; Almansa, A. Fernando; Cuevas, E.; Blumenstock, Thomas

doi:10.3390/rs12193148

Cited by 5 publications

(1 citation statement)

References 103 publications

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“…Como otros aerosoles en la atmósfera, el polvo mineral tiene propiedadesópticas caracterizadas por una importante dependencia espectral, desde el ultravioleta (UV) al infrarrojo (IR). En este sentido, han aparecido diferentes técnicas y estudios en la literatura con el objetivo de caracterizar la depencia espectral del AOD en diferentes rangos espectrales, desde el UV al IR (Sokolik and Toon, 1996;Toledano et al, 2009;López-Solano et al, 2018;Barreto et al, 2020). Sin embargo, mientras que el efecto de la mayor parte de los aerosoles en el infrarrojo medio es considerado muy débil en comparación con el visible (VIS) e UV , el polvo mineral es capaz de interactuar tanto con la radiación solar como terrestre de muy larga longitud de onda (Clarisse et al, 2013).…”

Section: Redes Radiométricas En Superficieunclassified

Desarrollo y evaluación de técnicas radiométricas de observación de aerosoles y vapor de agua en la atmósfera desde plataformas terrestres

Rodríguez¹,

Fernando²

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Este polvo cae en tal cantidad, que todo lo ensucia a bordo y ofende a los ojos; algunas veces hasta obscurece la atmósfera, tanto, que se han perdido buques y estrellado contra la costa. Con frecuencia cae sobre barcos que navegan a varios centenares de millas de la costa de Africa, hasta más de 1000 millas y en puntos distantes más de 1600 millas en dirección de norte y sur. Me ha sorprendido hallar en el polvo recogido a bordo de un barco, a 300 millas de tierra, partículas de piedra de más de una milésima de pulgada cuadrada mezcladas con materias más finas.))Charles Darwin a bordo del Beagle navegando por las Islas de Cabo Verde.

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Section: Redes Radiométricas En Superficieunclassified

Desarrollo y evaluación de técnicas radiométricas de observación de aerosoles y vapor de agua en la atmósfera desde plataformas terrestres

Rodríguez¹,

Fernando²

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Understanding temporary reduction in atmospheric pollution and its impacts on coastal aquatic system during COVID-19 lockdown: a case study of South Asia

Shafeeque

Arshad

Elbeltagi

et al. 2021

Geomatics, Natural Hazards and Risk

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Long-term characterisation of the vertical structure of the Saharan Air Layer over the Canary Islands using lidar and radiosonde profiles: implications for radiative and cloud processes over the subtropical Atlantic Ocean

et al. 2022

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Abstract. Every year, large-scale African dust outbreaks frequently pass over the Canary Islands (Spain). Here we describe the seasonal evolution of atmospheric aerosol extinction and meteorological vertical profiles on Tenerife over the period 2007–2018 using long-term micropulse lidar (MPL-3) and radiosonde observations. These measurements are used to categorise the different patterns of dust transport over the subtropical North Atlantic and, for the first time, to robustly describe the dust vertical distribution in the Saharan Air Layer (SAL) over this region. Three atmospheric scenarios dominate the aerosol climatology: dust-free (clean) conditions, the Saharan summer scenario (summer-SAL) and the Saharan winter scenario (winter-SAL). A relatively well-mixed marine boundary layer (MBL) was observed in the case of clean (dust-free) conditions; it was associated with rather constant lidar extinction coefficients (α) below 0.036 km−1 with minimum α (< 0.022 km−1) in the free troposphere (FT). The summer-SAL has been characterised as a dust-laden layer strongly affecting both the MBL (Δα = +48 % relative to clean conditions) and the FT. The summer-SAL appears as a well-stratified layer, relatively dry at lower levels (Δr∼-44 % at the SAL’s base, where r is the water vapour mixing ratio) but more humid at higher levels compared with clean FT conditions (Δr∼+332 % at 5.3 km), with a peak of α> 0.066 km−1 at ∼ 2.5 km. Desert dust is present up to ∼ 6.0 km, the SAL top based on the altitude of SAL's temperature inversion. In the winter-SAL scenario, the dust layer is confined to lower levels below 2 km altitude. This layer is characterised by a dry anomaly at lower levels (Δr∼ −38 % in comparison to the clean scenario) and a dust peak at ∼ 1.3 km height. Clean FT conditions were found above 2.3 km. Our results reveal the important role that both dust and water vapour play in the radiative balance within the summer-SAL and winter-SAL. The dominant dust-induced shortwave (SW) radiative warming in summer (heating rates up to +0.7 K d−1) is found slightly below the dust maximum. However, the dominant contribution of water vapour was observed as a net SW warming observed within the SAL (from 2.1 to 5.7 km) and as a strong cold anomaly near the SAL's top (−0.6 K d−1). The higher water vapour content found to be carried on the summer-SAL, despite being very low, represents a high relative variation in comparison to the very dry clean free troposphere in the subtropics. This relevant aspect should be properly taken into account in atmospheric modelling processes. In the case of the winter-SAL, we observed a dust-induced radiative effect dominated by SW heating (maximum heating of +0.7 K d−1 at 1.5 km, near the dust peak); both dust and atmospheric water vapour impact heating in the atmospheric column. This is the case of the SW heating within the SAL (maximum near the r peak), the dry anomaly at lower levels (Δr∼ −38 % at 1 km) and the thermal cooling (∼ 0.3 K d−1) from the temperature inversion upwards. Finally, we hypothesise that the SAL can impact heterogeneous ice nucleation processes through the frequent occurrence of mid-level clouds observed near the SAL top at relatively warm temperatures. A dust event that affected Tenerife on August 2015 is simulated using the regional DREAM model to assess the role of dust and water vapour carried within SAL in the ice nucleation processes. The modelling results reproduce the arrival of the dust plume and its extension over the island and confirm the observed relationship between the summer-SAL conditions and the formation of mid- and high-level clouds.

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Spectral Aerosol Optical Depth Retrievals by Ground-Based Fourier Transform Infrared Spectrometry

Cited by 5 publications

References 103 publications

Desarrollo y evaluación de técnicas radiométricas de observación de aerosoles y vapor de agua en la atmósfera desde plataformas terrestres

Desarrollo y evaluación de técnicas radiométricas de observación de aerosoles y vapor de agua en la atmósfera desde plataformas terrestres

Understanding temporary reduction in atmospheric pollution and its impacts on coastal aquatic system during COVID-19 lockdown: a case study of South Asia

Long-term characterisation of the vertical structure of the Saharan Air Layer over the Canary Islands using lidar and radiosonde profiles: implications for radiative and cloud processes over the subtropical Atlantic Ocean

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