Aerosol chemical and radiative properties in the tropical Atlantic trade winds: The importance of African mineral dust

This dissertation presents results relevant to aerosol radiative forcing. The focus of this dissertation is the role of mineral dust in atmospheric radiative processes over the tropical Atlantic Ocean.The aerosol mass and light scattering data concurrently measured over the tropical North Atlantic o...

Full description

Bibliographic Details
Main Author: Li-Jones, Xu
Other Authors: Joseph M. Prospero - Committee Chair
Format: Article in Journal/Newspaper
Language:unknown
Published: Scholarly Repository 1998
Subjects:
Physics
Atmospheric Science
North Atlantic
Online Access:https://scholarlyrepository.miami.edu/dissertations/3566
id ftunivmiamiir:oai:scholarlyrepository.miami.edu:dissertations-4565
record_format openpolar
spelling ftunivmiamiir:oai:scholarlyrepository.miami.edu:dissertations-4565 2023-05-15T17:30:41+02:00 Aerosol chemical and radiative properties in the tropical Atlantic trade winds: The importance of African mineral dust Li-Jones, Xu Joseph M. Prospero - Committee Chair 1998-01-01T08:00:00Z https://scholarlyrepository.miami.edu/dissertations/3566 unknown Scholarly Repository Dissertations from ProQuest Physics Atmospheric Science article 1998 ftunivmiamiir 2019-08-09T22:52:18Z This dissertation presents results relevant to aerosol radiative forcing. The focus of this dissertation is the role of mineral dust in atmospheric radiative processes over the tropical Atlantic Ocean.The aerosol mass and light scattering data concurrently measured over the tropical North Atlantic ocean yield a dust mass scattering efficiency of 0.77 m2/g, about a quarter of that measured for non-sea-salt sulfate (nss SO4=) in the North Atlantic marine boundary layer. Because of the high concentration of mineral dust relative to nss SO4= over the tropical North Atlantic, the total scattering by mineral dust is about four times that by nss SO4 = aerosol in this region. On an annual basis, aerosol optical depth is apportioned to: mineral dust 71%, nss-SO4 = 16% and sea salt 13%.The coarse-particle fraction (CPF) (aerodynamic diameter > 1 mum) of nss SO4= varied from about 21% to 73%, with the highest CPF values associated with African dust events. The CPF nss SO 4= was believed to be a result of the heterogeneous reactions of SO2 (presumably from European sources) with dust particles suspended in the air over North Africa. This study provides the first direct evidence that confirms the importance of dust in sulfate production and resulting the coarse particle sulfate in the tropical Atlantic Ocean region. An important implication is that dust particles may reduce the effectiveness of sulfate aerosol as a radiative forcing agent in many regions where dust events are frequent and where dust concentrations are high.The aerosol scattering coefficient (ASC) measured during this experiment increased by a factor of 1.13 to 1.69 when RH was increased from about 40% to 80%. Through chemical apportioning of ASC, the HGF for sea-salt was found to be 1.8 +/- 0.2, while that of mineral dust was close to unity.This study shows that climate studies must consider the effect of mineral dust not only because of its direct effects on the radiation balance but also because of its effects on the radiative properties of other species that are present in the same air mass. Article in Journal/Newspaper North Atlantic University of Miami: Scholarly Repository
institution Open Polar
collection University of Miami: Scholarly Repository
op_collection_id ftunivmiamiir
language unknown
topic Physics
Atmospheric Science
spellingShingle Physics
Atmospheric Science
Li-Jones, Xu
Aerosol chemical and radiative properties in the tropical Atlantic trade winds: The importance of African mineral dust
topic_facet Physics
Atmospheric Science
description This dissertation presents results relevant to aerosol radiative forcing. The focus of this dissertation is the role of mineral dust in atmospheric radiative processes over the tropical Atlantic Ocean.The aerosol mass and light scattering data concurrently measured over the tropical North Atlantic ocean yield a dust mass scattering efficiency of 0.77 m2/g, about a quarter of that measured for non-sea-salt sulfate (nss SO4=) in the North Atlantic marine boundary layer. Because of the high concentration of mineral dust relative to nss SO4= over the tropical North Atlantic, the total scattering by mineral dust is about four times that by nss SO4 = aerosol in this region. On an annual basis, aerosol optical depth is apportioned to: mineral dust 71%, nss-SO4 = 16% and sea salt 13%.The coarse-particle fraction (CPF) (aerodynamic diameter > 1 mum) of nss SO4= varied from about 21% to 73%, with the highest CPF values associated with African dust events. The CPF nss SO 4= was believed to be a result of the heterogeneous reactions of SO2 (presumably from European sources) with dust particles suspended in the air over North Africa. This study provides the first direct evidence that confirms the importance of dust in sulfate production and resulting the coarse particle sulfate in the tropical Atlantic Ocean region. An important implication is that dust particles may reduce the effectiveness of sulfate aerosol as a radiative forcing agent in many regions where dust events are frequent and where dust concentrations are high.The aerosol scattering coefficient (ASC) measured during this experiment increased by a factor of 1.13 to 1.69 when RH was increased from about 40% to 80%. Through chemical apportioning of ASC, the HGF for sea-salt was found to be 1.8 +/- 0.2, while that of mineral dust was close to unity.This study shows that climate studies must consider the effect of mineral dust not only because of its direct effects on the radiation balance but also because of its effects on the radiative properties of other species that are present in the same air mass.
author2 Joseph M. Prospero - Committee Chair
format Article in Journal/Newspaper
author Li-Jones, Xu
author_facet Li-Jones, Xu
author_sort Li-Jones, Xu
title Aerosol chemical and radiative properties in the tropical Atlantic trade winds: The importance of African mineral dust
title_short Aerosol chemical and radiative properties in the tropical Atlantic trade winds: The importance of African mineral dust
title_full Aerosol chemical and radiative properties in the tropical Atlantic trade winds: The importance of African mineral dust
title_fullStr Aerosol chemical and radiative properties in the tropical Atlantic trade winds: The importance of African mineral dust
title_full_unstemmed Aerosol chemical and radiative properties in the tropical Atlantic trade winds: The importance of African mineral dust
title_sort aerosol chemical and radiative properties in the tropical atlantic trade winds: the importance of african mineral dust
publisher Scholarly Repository
publishDate 1998
url https://scholarlyrepository.miami.edu/dissertations/3566
genre North Atlantic
genre_facet North Atlantic
op_source Dissertations from ProQuest
_version_ 1766127559633797120

Similar Items