Proximity to Potential Sources and Mountain Cold-trapping of Semi-volatile Organic Contaminants

If sufficiently persistent, semi-volatile organic contaminants (SVOCs) can travel long distances through the atmosphere from their points of release and become concentrated in cold, remote regions. As air is sampled for SVOCs to establish both their presence and the success of emission reduction eff...

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Bibliographic Details
Main Author: Westgate, John Norman
Other Authors: Wania, Frank
Format: Thesis
Language:English
Published: 2013
Subjects:
semi-volatile
contaminants
airshed
trajectory
mountain
cold-trapping
pertingency
receptor model
back-trajectory
polycyclic aromatic hydrocarbon
polychlorinated biphenyl
box model
brominated flame retardant
BFR
PCB
PAH
SVOC
geodesic
trajectory statistic
0485
0768
Fox Lake
Yukon
Alaska
Online Access:http://hdl.handle.net/1807/36064
id ftcanadathes:oai:collectionscanada.gc.ca:OTU.1807/36064
record_format openpolar
spelling ftcanadathes:oai:collectionscanada.gc.ca:OTU.1807/36064 2023-05-15T18:49:05+02:00 Proximity to Potential Sources and Mountain Cold-trapping of Semi-volatile Organic Contaminants Westgate, John Norman Wania, Frank 2013-06 http://hdl.handle.net/1807/36064 en_ca eng http://hdl.handle.net/1807/36064 semi-volatile contaminants airshed trajectory mountain cold-trapping pertingency receptor model back-trajectory polycyclic aromatic hydrocarbon polychlorinated biphenyl box model brominated flame retardant BFR PCB PAH SVOC geodesic trajectory statistic 0485 0768 Thesis 2013 ftcanadathes 2013-11-23T23:26:48Z If sufficiently persistent, semi-volatile organic contaminants (SVOCs) can travel long distances through the atmosphere from their points of release and become concentrated in cold, remote regions. As air is sampled for SVOCs to establish both their presence and the success of emission reduction efforts, it becomes helpful to determine sampling site proximity to sources and the origin of the sampled air masses. Comparing three increasingly sophisticated methods for quantifying source proximity of sampling locations, it was judged necessary to account for the actual history of the sampled air through construction of an airshed, especially if wind is highly directional and population distribution is very non-uniform. The airshed concept was improved upon by introducing a ‘geodesic’ grid of equally spaced cells, rather than a simple latitude/longitude grid, to avoid distortion near Earth’s poles and to allow for the comparison of airshed shapes. Assuming that a perfectly round airshed reveals no information about sources allows the significance of each cell of an airshed to be judged based on its departure from roundness. Combining air-mass histories with a 2 year-long series of SVOC air concentrations at Little Fox Lake in Canada’s Yukon Territory did not identify distinct source regions for most analytes, although γ-hexachlorocyclohexane appears to originate broadly in north-eastern Russia and/or Alaska. Based on this remoteness from sources, the site is judged to be well suited to monitor changes in the hemispheric background concentrations of SVOCs. A model-based exploration revealed wet-gaseous deposition as the dominant process responsible for cold-trapping SVOCs in mountain soils. Such cold trapping is particularly effective if precipitation rate increases with altitude and if temperature differences along the mountain are large. Considerable sensitivity of the modeled extent of cold-trapping to parameters as diverse as scale, mean temperature, atmospheric particle concentration and time relative to emission maxima is consistent with the wide variety of observed enrichment behaviour. Concentration gradients of polycyclic aromatic hydrocarbons and polychlorinated biphenyls in air and soil measured on four Western Canadian mountains with variable distance from sources revealed source proximity as the main driver of concentrations at both the whole-mountain scale and along individual mountain transects. Thesis Alaska Yukon Theses Canada/Thèses Canada (Library and Archives Canada) Fox Lake ENVELOPE(-94.803,-94.803,56.000,56.000) Yukon
institution Open Polar
collection Theses Canada/Thèses Canada (Library and Archives Canada)
op_collection_id ftcanadathes
language English
topic semi-volatile
contaminants
airshed
trajectory
mountain
cold-trapping
pertingency
receptor model
back-trajectory
polycyclic aromatic hydrocarbon
polychlorinated biphenyl
box model
brominated flame retardant
BFR
PCB
PAH
SVOC
geodesic
trajectory statistic
0485
0768
spellingShingle semi-volatile
contaminants
airshed
trajectory
mountain
cold-trapping
pertingency
receptor model
back-trajectory
polycyclic aromatic hydrocarbon
polychlorinated biphenyl
box model
brominated flame retardant
BFR
PCB
PAH
SVOC
geodesic
trajectory statistic
0485
0768
Westgate, John Norman
Proximity to Potential Sources and Mountain Cold-trapping of Semi-volatile Organic Contaminants
topic_facet semi-volatile
contaminants
airshed
trajectory
mountain
cold-trapping
pertingency
receptor model
back-trajectory
polycyclic aromatic hydrocarbon
polychlorinated biphenyl
box model
brominated flame retardant
BFR
PCB
PAH
SVOC
geodesic
trajectory statistic
0485
0768
description If sufficiently persistent, semi-volatile organic contaminants (SVOCs) can travel long distances through the atmosphere from their points of release and become concentrated in cold, remote regions. As air is sampled for SVOCs to establish both their presence and the success of emission reduction efforts, it becomes helpful to determine sampling site proximity to sources and the origin of the sampled air masses. Comparing three increasingly sophisticated methods for quantifying source proximity of sampling locations, it was judged necessary to account for the actual history of the sampled air through construction of an airshed, especially if wind is highly directional and population distribution is very non-uniform. The airshed concept was improved upon by introducing a ‘geodesic’ grid of equally spaced cells, rather than a simple latitude/longitude grid, to avoid distortion near Earth’s poles and to allow for the comparison of airshed shapes. Assuming that a perfectly round airshed reveals no information about sources allows the significance of each cell of an airshed to be judged based on its departure from roundness. Combining air-mass histories with a 2 year-long series of SVOC air concentrations at Little Fox Lake in Canada’s Yukon Territory did not identify distinct source regions for most analytes, although γ-hexachlorocyclohexane appears to originate broadly in north-eastern Russia and/or Alaska. Based on this remoteness from sources, the site is judged to be well suited to monitor changes in the hemispheric background concentrations of SVOCs. A model-based exploration revealed wet-gaseous deposition as the dominant process responsible for cold-trapping SVOCs in mountain soils. Such cold trapping is particularly effective if precipitation rate increases with altitude and if temperature differences along the mountain are large. Considerable sensitivity of the modeled extent of cold-trapping to parameters as diverse as scale, mean temperature, atmospheric particle concentration and time relative to emission maxima is consistent with the wide variety of observed enrichment behaviour. Concentration gradients of polycyclic aromatic hydrocarbons and polychlorinated biphenyls in air and soil measured on four Western Canadian mountains with variable distance from sources revealed source proximity as the main driver of concentrations at both the whole-mountain scale and along individual mountain transects.
author2 Wania, Frank
format Thesis
author Westgate, John Norman
author_facet Westgate, John Norman
author_sort Westgate, John Norman
title Proximity to Potential Sources and Mountain Cold-trapping of Semi-volatile Organic Contaminants
title_short Proximity to Potential Sources and Mountain Cold-trapping of Semi-volatile Organic Contaminants
title_full Proximity to Potential Sources and Mountain Cold-trapping of Semi-volatile Organic Contaminants
title_fullStr Proximity to Potential Sources and Mountain Cold-trapping of Semi-volatile Organic Contaminants
title_full_unstemmed Proximity to Potential Sources and Mountain Cold-trapping of Semi-volatile Organic Contaminants
title_sort proximity to potential sources and mountain cold-trapping of semi-volatile organic contaminants
publishDate 2013
url http://hdl.handle.net/1807/36064
long_lat ENVELOPE(-94.803,-94.803,56.000,56.000)
geographic Fox Lake
Yukon
geographic_facet Fox Lake
Yukon
genre Alaska
Yukon
genre_facet Alaska
Yukon
op_relation http://hdl.handle.net/1807/36064
_version_ 1766242544599957504

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