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Pulmonary inflammatory effects of environmental and surrogate environmental particulates and their componentsWilson, Martin Robert January 2003 (has links)
No description available.
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The detection of atmospheric vapours using optical waveguide sensorsHalliday, Norman January 1988 (has links)
No description available.
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The effects of ozone and nitrogen dioxide on Pakistan wheat ('Triticum aestivum' L.) and rice ('Oryza sativa' L.) cultivarsMaggs, Richard January 1996 (has links)
No description available.
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Interactive effects of sulphur dioxide, nitrogen dioxide and the winter environment on Lolium perenneRenner, Christine Joan January 1990 (has links)
No description available.
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The combustion of fuel oil and the factors influencing pollutant formationSedighi, Kurosh January 1990 (has links)
No description available.
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16 |
The meteorology of pollutant transport on the southwestern United StatesBastable, Heidi G. January 1990 (has links)
No description available.
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The dispersion of traffic-related pollutantsMcCrae, I. S. January 1991 (has links)
No description available.
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18 |
Aspergillus parasiticus and Coriolus versicolor growth studies in the presence of naphthalene and formaldehyde : fungal growth as a source of, and monitoring system for, sick building syndromeO'Brien, Geraldine January 2003 (has links)
No description available.
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19 |
The distribution of aerosol and trace gases in the lower troposphere over South AfricaBurger, Roelof Petrus January 2016 (has links)
A thesis submitted to the Faculty of Science, University of the Witwatersrand, Johannesburg, in fulfilment of the requirements for the degree of Doctor of Philosophy.
September 2016. / Numerous studies on the sources, transport and fates of criteria air pollutants and greenhouse
gases have been done in southern Africa. However, debate on the priority pollutants and areas
of concern continue despite a growing national air quality monitoring network. This study
attempts a novel approach to characterise sources and ambient air quality over major industrial
and urban areas using a single suite of instrumentation to provide information to improve
management of air quality. Over 200 hours of data were collected from an airborne platform.
Another 5 ground-based campaigns characterised sources and areas out of reach of the aircraft.
The central aim of this study is to prioritise sources and areas of concern with regards to air
quality management, using a mobile platform. This complements other modelling and spatial
assessments and provides in situ validation for many contemporary debates. The specific aims
were to characterise major anthropogenic sources; estimate the state of air quality; investigate
the vertical distribution of pollutants; and prioritise sources and areas of concern for effective
air quality management in South Africa.
The research has delivered many original contributions to the body of knowledge of air quality
over South Africa. These findings can be divided into spatial and temporal relationships
between sources and receptors, characterising source contributions and understanding the contribution
of atmospheric emissions. High resolution measurements show that spatial scales of
prominent atmospheric plumes are much smaller than current remote sensing estimates.This
underscores the difficulty of accurately assessing environments with diverse, clustered sources
and complex meteorology through modelling studies and satellite based remote sensing.
The current conceptual model of absolute stable layers is biased because of limited data availability
where a limited number of levels are reported. At least 60 levels should be reported
in soundings to study absolutely stable layers. The inclusion of the standard reporting levels,
(850 hPa, 700 hPa, 500 hPa and 300 hPa), further biases the detection of atmospheric stable
layers. The number of observed persistent levels change in number and character when these
are omitted from the analysis. Numerous vertical profiles further show that the thermodynamic
model of stability as the main driver of stratification is oversimplified, especially close
to source regions where different pollutants are observed to peak at different levels unrelated
to absolutely stable layers. This suggests that the original buoyancy which is governed by
the release temperature, exit velocity and height are important drivers for the stratification of
pollutants.
The overall conclusion is made that a small team with a set of regular instrumentation can
prioritise pollutants and areas of concern on a national scale. This method could be valuable
for countries with limited resources and infrastructures and could be used in combination with
modelling and satellite based remote sensing to assess priorities. The ability to obtain in situ
data of a large number of variables over vast areas in a short time may offsets the caveats
associated with mobile measurements and a limited sample volume. / LG2017
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Airborne DOAS measurements over the South African highveldBroccardo, Stephen Paul January 2015 (has links)
A thesis submitted to the Faculty of Geography, Archaeology, and Environmental Studies University of the Witwatersrand, Johannesburg, in fulfilment of the requirements of the degree of Doctor of Philosophy. 2015. / An imaging DOAS instrument, along with in situ trace-gas and aerosol instrumentation
was deployed on board a research aircraft over the Highveld
region of South Africa, to make regional-scale measurements of nitrogen dioxide
(NO2). The presence of a “hotspot” of NO2 over the Highveld is confirmed.
Case-study estimates of NO2 emission flux were made downwind of
a power station (10 tons.hr−1), a petrochemical plant (36 tons.hr−1) and the
entire Highveld region (395 tons.hr−1).
Vertical profile measurements were used to develop scenarios for a radiative
transfer sensitivity study. From this, suitable air-mass factors for the DOAS
measurements were determined. Comparisons between the airborne DOAS
and satellite instruments show a good agreement where the spatial scales of
the satellite ground pixels and the features in the two-dimensional trace-gas
distribution are matched.
A long-term record of satellite data was analysed. Analysis of radiative
transfer revealed a possible artefact in the adjacent positive and negative
trends evident on the Highveld. A correction to the satellite record for a
seasonal bias was made, and found to be important over biomass burning
regions in Angola and Zambia.
Spatial features in a seasonal model of the satellite record are shown to
correspond with known urban, industrial and biomass burning sources in the
region. Signatures of soil emissions are also detected.
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