Cloud droplet formation at the base of tropical convective clouds: closure between modeling and measurement results of ACRIDICON–CHUVA

Cloud droplet formation at the base of tropical convective clouds: closure between modeling and measurement results of ACRIDICON–CHUVA

<p>Aerosol–cloud interactions contribute to the large uncertainties in current estimates of climate forcing. We investigated the effect of aerosol particles on cloud droplet formation by model calculations and aircraft measurements over the Amazon and over the western tropical Atlantic during...

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Autores principales: R. C. Braga, B. Ervens, D. Rosenfeld, M. O. Andreae, J.-D. Förster, D. Fütterer, L. Hernández Pardo, B. A. Holanda, T. Jurkat-Witschas, O. O. Krüger, O. Lauer, L. A. T. Machado, C. Pöhlker, D. Sauer, C. Voigt, A. Walser, M. Wendisch, U. Pöschl, M. L. Pöhlker
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Lenguaje:EN
Publicado: Copernicus Publications 2021
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Physics
QC1-999
Chemistry
QD1-999
Acceso en línea:https://doaj.org/article/e69351355908468d8bd527b1865d8724
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spelling oai:doaj.org-article:e69351355908468d8bd527b1865d87242021-12-02T09:32:08ZCloud droplet formation at the base of tropical convective clouds: closure between modeling and measurement results of ACRIDICON–CHUVA10.5194/acp-21-17513-20211680-73161680-7324https://doaj.org/article/e69351355908468d8bd527b1865d87242021-12-01T00:00:00Zhttps://acp.copernicus.org/articles/21/17513/2021/acp-21-17513-2021.pdfhttps://doaj.org/toc/1680-7316https://doaj.org/toc/1680-7324<p>Aerosol–cloud interactions contribute to the large uncertainties in current estimates of climate forcing. We investigated the effect of aerosol particles on cloud droplet formation by model calculations and aircraft measurements over the Amazon and over the western tropical Atlantic during the ACRIDICON–CHUVA campaign in September 2014. On the HALO (High Altitude Long Range Research) research aircraft, cloud droplet number concentrations (<span class="inline-formula"><i>N</i><sub>d</sub></span>) were measured near the base of clean and polluted growing convective cumuli using a cloud combination probe (CCP) and a cloud and aerosol spectrometer (CAS-DPOL). An adiabatic parcel model was used to perform cloud droplet number closure studies for flights in differently polluted air masses. Model input parameters included aerosol size distributions measured with an ultra-high sensitive aerosol spectrometer (UHSAS), in combination with a condensation particle counter (CPC). Updraft velocities (<span class="inline-formula"><i>w</i></span>) were measured with a boom-mounted Rosemount probe. Over the continent, the aerosol size distributions were dominated by accumulation mode particles, and good agreement between measured and modeled <span class="inline-formula"><i>N</i><sub>d</sub></span> values was obtained (deviations <span class="inline-formula"><i>≲</i></span> 10 <span class="inline-formula">%</span>) assuming an average hygroscopicity of <span class="inline-formula"><i>κ</i>∼0.1</span>, which is consistent with Amazonian biomass burning and secondary organic aerosol. Above the ocean, fair agreement was obtained assuming an average hygroscopicity of <span class="inline-formula"><i>κ</i>∼0.2</span> (deviations <span class="inline-formula"><i>≲</i></span> 16 <span class="inline-formula">%</span>) and further improvement was achieved assuming different hygroscopicities for Aitken and accumulation mode particles (<span class="inline-formula"><i>κ</i><sub>Ait</sub>=0.8</span>, <span class="inline-formula"><i>κ</i><sub>acc</sub>=0.2</span>; deviations <span class="inline-formula"><i>≲</i></span> 10 <span class="inline-formula">%</span>), which may reflect secondary marine sulfate particles. Our results indicate that Aitken mode particles and their hygroscopicity can be important for droplet formation at low pollution levels and high updraft velocities in tropical convective clouds.</p>R. C. BragaB. ErvensD. RosenfeldM. O. AndreaeM. O. AndreaeJ.-D. FörsterD. FüttererL. Hernández PardoB. A. HolandaT. Jurkat-WitschasO. O. KrügerO. LauerL. A. T. MachadoL. A. T. MachadoC. PöhlkerD. SauerC. VoigtC. VoigtA. WalserM. WendischU. PöschlM. L. PöhlkerM. L. PöhlkerM. L. PöhlkerCopernicus PublicationsarticlePhysicsQC1-999ChemistryQD1-999ENAtmospheric Chemistry and Physics, Vol 21, Pp 17513-17528 (2021)
institution DOAJ
collection DOAJ
language EN
topic Physics
QC1-999
Chemistry
QD1-999
spellingShingle Physics
QC1-999
Chemistry
QD1-999
R. C. Braga
B. Ervens
D. Rosenfeld
M. O. Andreae
M. O. Andreae
J.-D. Förster
D. Fütterer
L. Hernández Pardo
B. A. Holanda
T. Jurkat-Witschas
O. O. Krüger
O. Lauer
L. A. T. Machado
L. A. T. Machado
C. Pöhlker
D. Sauer
C. Voigt
C. Voigt
A. Walser
M. Wendisch
U. Pöschl
M. L. Pöhlker
M. L. Pöhlker
M. L. Pöhlker
Cloud droplet formation at the base of tropical convective clouds: closure between modeling and measurement results of ACRIDICON–CHUVA
description <p>Aerosol–cloud interactions contribute to the large uncertainties in current estimates of climate forcing. We investigated the effect of aerosol particles on cloud droplet formation by model calculations and aircraft measurements over the Amazon and over the western tropical Atlantic during the ACRIDICON–CHUVA campaign in September 2014. On the HALO (High Altitude Long Range Research) research aircraft, cloud droplet number concentrations (<span class="inline-formula"><i>N</i><sub>d</sub></span>) were measured near the base of clean and polluted growing convective cumuli using a cloud combination probe (CCP) and a cloud and aerosol spectrometer (CAS-DPOL). An adiabatic parcel model was used to perform cloud droplet number closure studies for flights in differently polluted air masses. Model input parameters included aerosol size distributions measured with an ultra-high sensitive aerosol spectrometer (UHSAS), in combination with a condensation particle counter (CPC). Updraft velocities (<span class="inline-formula"><i>w</i></span>) were measured with a boom-mounted Rosemount probe. Over the continent, the aerosol size distributions were dominated by accumulation mode particles, and good agreement between measured and modeled <span class="inline-formula"><i>N</i><sub>d</sub></span> values was obtained (deviations <span class="inline-formula"><i>≲</i></span> 10 <span class="inline-formula">%</span>) assuming an average hygroscopicity of <span class="inline-formula"><i>κ</i>∼0.1</span>, which is consistent with Amazonian biomass burning and secondary organic aerosol. Above the ocean, fair agreement was obtained assuming an average hygroscopicity of <span class="inline-formula"><i>κ</i>∼0.2</span> (deviations <span class="inline-formula"><i>≲</i></span> 16 <span class="inline-formula">%</span>) and further improvement was achieved assuming different hygroscopicities for Aitken and accumulation mode particles (<span class="inline-formula"><i>κ</i><sub>Ait</sub>=0.8</span>, <span class="inline-formula"><i>κ</i><sub>acc</sub>=0.2</span>; deviations <span class="inline-formula"><i>≲</i></span> 10 <span class="inline-formula">%</span>), which may reflect secondary marine sulfate particles. Our results indicate that Aitken mode particles and their hygroscopicity can be important for droplet formation at low pollution levels and high updraft velocities in tropical convective clouds.</p>
format article
author R. C. Braga
B. Ervens
D. Rosenfeld
M. O. Andreae
M. O. Andreae
J.-D. Förster
D. Fütterer
L. Hernández Pardo
B. A. Holanda
T. Jurkat-Witschas
O. O. Krüger
O. Lauer
L. A. T. Machado
L. A. T. Machado
C. Pöhlker
D. Sauer
C. Voigt
C. Voigt
A. Walser
M. Wendisch
U. Pöschl
M. L. Pöhlker
M. L. Pöhlker
M. L. Pöhlker
author_facet R. C. Braga
B. Ervens
D. Rosenfeld
M. O. Andreae
M. O. Andreae
J.-D. Förster
D. Fütterer
L. Hernández Pardo
B. A. Holanda
T. Jurkat-Witschas
O. O. Krüger
O. Lauer
L. A. T. Machado
L. A. T. Machado
C. Pöhlker
D. Sauer
C. Voigt
C. Voigt
A. Walser
M. Wendisch
U. Pöschl
M. L. Pöhlker
M. L. Pöhlker
M. L. Pöhlker
author_sort R. C. Braga
title Cloud droplet formation at the base of tropical convective clouds: closure between modeling and measurement results of ACRIDICON–CHUVA
title_short Cloud droplet formation at the base of tropical convective clouds: closure between modeling and measurement results of ACRIDICON–CHUVA
title_full Cloud droplet formation at the base of tropical convective clouds: closure between modeling and measurement results of ACRIDICON–CHUVA
title_fullStr Cloud droplet formation at the base of tropical convective clouds: closure between modeling and measurement results of ACRIDICON–CHUVA
title_full_unstemmed Cloud droplet formation at the base of tropical convective clouds: closure between modeling and measurement results of ACRIDICON–CHUVA
title_sort cloud droplet formation at the base of tropical convective clouds: closure between modeling and measurement results of acridicon–chuva
publisher Copernicus Publications
publishDate 2021
url https://doaj.org/article/e69351355908468d8bd527b1865d8724
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