On Aethalometer measurement uncertainties and an instrument correction factor for the Arctic

Several types of filter-based instruments are used to estimate aerosol light absorption coefficients. Two significant results are presented based on Aethalometer measurements at six Arctic stations from 2012 to 2014. First, an alternative method of post-processing the Aethalometer data is presented,...

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Published in:Atmospheric Measurement Techniques
Main Authors: J. Backman, L. Schmeisser, A. Virkkula, J. A. Ogren, E. Asmi, S. Starkweather, S. Sharma, K. Eleftheriadis, T. Uttal, A. Jefferson, M. Bergin, A. Makshtas, P. Tunved, M. Fiebig
Format: Article in Journal/Newspaper
Language:English
Published: Copernicus Publications 2017
Subjects:
Environmental engineering
TA170-171
Earthwork. Foundations
TA715-787
Arctic
Online Access:https://doi.org/10.5194/amt-10-5039-2017
https://doaj.org/article/ad92ba20fc474cac89a4745ab36835bc
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spelling ftdoajarticles:oai:doaj.org/article:ad92ba20fc474cac89a4745ab36835bc 2023-05-15T14:48:18+02:00 On Aethalometer measurement uncertainties and an instrument correction factor for the Arctic J. Backman L. Schmeisser A. Virkkula J. A. Ogren E. Asmi S. Starkweather S. Sharma K. Eleftheriadis T. Uttal A. Jefferson M. Bergin A. Makshtas P. Tunved M. Fiebig 2017-12-01T00:00:00Z https://doi.org/10.5194/amt-10-5039-2017 https://doaj.org/article/ad92ba20fc474cac89a4745ab36835bc EN eng Copernicus Publications https://www.atmos-meas-tech.net/10/5039/2017/amt-10-5039-2017.pdf https://doaj.org/toc/1867-1381 https://doaj.org/toc/1867-8548 doi:10.5194/amt-10-5039-2017 1867-1381 1867-8548 https://doaj.org/article/ad92ba20fc474cac89a4745ab36835bc Atmospheric Measurement Techniques, Vol 10, Pp 5039-5062 (2017) Environmental engineering TA170-171 Earthwork. Foundations TA715-787 article 2017 ftdoajarticles https://doi.org/10.5194/amt-10-5039-2017 2022-12-31T03:54:16Z Several types of filter-based instruments are used to estimate aerosol light absorption coefficients. Two significant results are presented based on Aethalometer measurements at six Arctic stations from 2012 to 2014. First, an alternative method of post-processing the Aethalometer data is presented, which reduces measurement noise and lowers the detection limit of the instrument more effectively than boxcar averaging. The biggest benefit of this approach can be achieved if instrument drift is minimised. Moreover, by using an attenuation threshold criterion for data post-processing, the relative uncertainty from the electronic noise of the instrument is kept constant. This approach results in a time series with a variable collection time (Δ t ) but with a constant relative uncertainty with regard to electronic noise in the instrument. An additional advantage of this method is that the detection limit of the instrument will be lowered at small aerosol concentrations at the expense of temporal resolution, whereas there is little to no loss in temporal resolution at high aerosol concentrations ( > 2.1–6.7 Mm −1 as measured by the Aethalometers). At high aerosol concentrations, minimising the detection limit of the instrument is less critical. Additionally, utilising co-located filter-based absorption photometers, a correction factor is presented for the Arctic that can be used in Aethalometer corrections available in literature. The correction factor of 3.45 was calculated for low-elevation Arctic stations. This correction factor harmonises Aethalometer attenuation coefficients with light absorption coefficients as measured by the co-located light absorption photometers. Using one correction factor for Arctic Aethalometers has the advantage that measurements between stations become more inter-comparable. Article in Journal/Newspaper Arctic Directory of Open Access Journals: DOAJ Articles Arctic Atmospheric Measurement Techniques 10 12 5039 5062
institution Open Polar
collection Directory of Open Access Journals: DOAJ Articles
op_collection_id ftdoajarticles
language English
topic Environmental engineering
TA170-171
Earthwork. Foundations
TA715-787
spellingShingle Environmental engineering
TA170-171
Earthwork. Foundations
TA715-787
J. Backman
L. Schmeisser
A. Virkkula
J. A. Ogren
E. Asmi
S. Starkweather
S. Sharma
K. Eleftheriadis
T. Uttal
A. Jefferson
M. Bergin
A. Makshtas
P. Tunved
M. Fiebig
On Aethalometer measurement uncertainties and an instrument correction factor for the Arctic
topic_facet Environmental engineering
TA170-171
Earthwork. Foundations
TA715-787
description Several types of filter-based instruments are used to estimate aerosol light absorption coefficients. Two significant results are presented based on Aethalometer measurements at six Arctic stations from 2012 to 2014. First, an alternative method of post-processing the Aethalometer data is presented, which reduces measurement noise and lowers the detection limit of the instrument more effectively than boxcar averaging. The biggest benefit of this approach can be achieved if instrument drift is minimised. Moreover, by using an attenuation threshold criterion for data post-processing, the relative uncertainty from the electronic noise of the instrument is kept constant. This approach results in a time series with a variable collection time (Δ t ) but with a constant relative uncertainty with regard to electronic noise in the instrument. An additional advantage of this method is that the detection limit of the instrument will be lowered at small aerosol concentrations at the expense of temporal resolution, whereas there is little to no loss in temporal resolution at high aerosol concentrations ( > 2.1–6.7 Mm −1 as measured by the Aethalometers). At high aerosol concentrations, minimising the detection limit of the instrument is less critical. Additionally, utilising co-located filter-based absorption photometers, a correction factor is presented for the Arctic that can be used in Aethalometer corrections available in literature. The correction factor of 3.45 was calculated for low-elevation Arctic stations. This correction factor harmonises Aethalometer attenuation coefficients with light absorption coefficients as measured by the co-located light absorption photometers. Using one correction factor for Arctic Aethalometers has the advantage that measurements between stations become more inter-comparable.
format Article in Journal/Newspaper
author J. Backman
L. Schmeisser
A. Virkkula
J. A. Ogren
E. Asmi
S. Starkweather
S. Sharma
K. Eleftheriadis
T. Uttal
A. Jefferson
M. Bergin
A. Makshtas
P. Tunved
M. Fiebig
author_facet J. Backman
L. Schmeisser
A. Virkkula
J. A. Ogren
E. Asmi
S. Starkweather
S. Sharma
K. Eleftheriadis
T. Uttal
A. Jefferson
M. Bergin
A. Makshtas
P. Tunved
M. Fiebig
author_sort J. Backman
title On Aethalometer measurement uncertainties and an instrument correction factor for the Arctic
title_short On Aethalometer measurement uncertainties and an instrument correction factor for the Arctic
title_full On Aethalometer measurement uncertainties and an instrument correction factor for the Arctic
title_fullStr On Aethalometer measurement uncertainties and an instrument correction factor for the Arctic
title_full_unstemmed On Aethalometer measurement uncertainties and an instrument correction factor for the Arctic
title_sort on aethalometer measurement uncertainties and an instrument correction factor for the arctic
publisher Copernicus Publications
publishDate 2017
url https://doi.org/10.5194/amt-10-5039-2017
https://doaj.org/article/ad92ba20fc474cac89a4745ab36835bc
geographic Arctic
geographic_facet Arctic
genre Arctic
genre_facet Arctic
op_source Atmospheric Measurement Techniques, Vol 10, Pp 5039-5062 (2017)
op_relation https://www.atmos-meas-tech.net/10/5039/2017/amt-10-5039-2017.pdf
https://doaj.org/toc/1867-1381
https://doaj.org/toc/1867-8548
doi:10.5194/amt-10-5039-2017
1867-1381
1867-8548
https://doaj.org/article/ad92ba20fc474cac89a4745ab36835bc
op_doi https://doi.org/10.5194/amt-10-5039-2017
container_title Atmospheric Measurement Techniques
container_volume 10
container_issue 12
container_start_page 5039
op_container_end_page 5062
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