Limb–nadir matching using non-coincident NO<sub>2</sub> observations: proof of concept and the OMI-minus-OSIRIS prototype product

Limb–nadir matching using non-coincident NO<sub>2</sub> observations: proof of concept and the OMI-minus-OSIRIS prototype product

<p class="p">A variant of the limb–nadir matching technique for deriving tropospheric NO<sub>2</sub> columns is presented in which the stratospheric component of the NO<sub>2</sub> slant column density (SCD) measured by the Ozone Monitoring Instrument (OMI) is...

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Main Authors: C. Adams, E. N. Normand, C. A. McLinden, A. E. Bourassa, N. D. Lloyd, D. A. Degenstein, N. A. Krotkov, M. Belmonte Rivas, K. F. Boersma, H. Eskes
Format: Article
Language:English
Published: Copernicus Publications 2016-08-01
Series:Atmospheric Measurement Techniques
Online Access:http://www.atmos-meas-tech.net/9/4103/2016/amt-9-4103-2016.pdf
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spelling doaj-086543dc5c0b4a7988b63a779fe9ceb92020-11-24T22:48:14ZengCopernicus PublicationsAtmospheric Measurement Techniques1867-13811867-85482016-08-01984103412210.5194/amt-9-4103-2016Limb–nadir matching using non-coincident NO<sub>2</sub> observations: proof of concept and the OMI-minus-OSIRIS prototype productC. Adams0E. N. Normand1C. A. McLinden2A. E. Bourassa3N. D. Lloyd4D. A. Degenstein5N. A. Krotkov6M. Belmonte Rivas7K. F. Boersma8H. Eskes9Institute of Space and Atmospheric Studies, University of Saskatchewan, Saskatoon, CanadaInstitute of Space and Atmospheric Studies, University of Saskatchewan, Saskatoon, CanadaAir Quality Research Division, Environment Canada, Toronto, Ontario, CanadaInstitute of Space and Atmospheric Studies, University of Saskatchewan, Saskatoon, CanadaInstitute of Space and Atmospheric Studies, University of Saskatchewan, Saskatoon, CanadaInstitute of Space and Atmospheric Studies, University of Saskatchewan, Saskatoon, CanadaNASA Goddard Space Flight Center, Greenbelt, MD, USARoyal Netherlands Meteorological Institute (KNMI), De Bilt, the NetherlandsRoyal Netherlands Meteorological Institute (KNMI), De Bilt, the NetherlandsRoyal Netherlands Meteorological Institute (KNMI), De Bilt, the Netherlands<p class="p">A variant of the limb–nadir matching technique for deriving tropospheric NO<sub>2</sub> columns is presented in which the stratospheric component of the NO<sub>2</sub> slant column density (SCD) measured by the Ozone Monitoring Instrument (OMI) is removed using non-coincident profiles from the Optical Spectrograph and InfraRed Imaging System (OSIRIS). In order to correct their mismatch in local time and the diurnal variation of stratospheric NO<sub>2</sub>, OSIRIS profiles, which were measured just after sunrise, were mapped to the local time of OMI observations using a photochemical box model. Following the profile time adjustment, OSIRIS NO<sub>2</sub> stratospheric vertical column densities (VCDs) were calculated. For profiles that did not reach down to the tropopause, VCDs were adjusted using the photochemical model. Using air mass factors from the OMI Standard Product (SP), a new tropospheric NO<sub>2</sub> VCD product – referred to as OMI-minus-OSIRIS (OmO) – was generated through limb–nadir matching. To accomplish this, the OMI total SCDs were scaled using correction factors derived from the next-generation SCDs that improve upon the spectral fitting used for the current operational products. One year, 2008, of OmO was generated for 60° S to 60° N and a cursory evaluation was performed. The OmO product was found to capture the main features of tropospheric NO<sub>2</sub>, including a background value of about 0.3 × 10<sup>15</sup> molecules cm<sup>−2</sup> over the tropical Pacific and values comparable to the OMI operational products over anthropogenic source areas. While additional study is required, these results suggest that a limb–nadir matching approach is feasible for the removal of stratospheric NO<sub>2</sub> measured by a polar orbiter from a nadir-viewing instrument in a geostationary orbit such as Tropospheric Emissions: Monitoring of Pollution (TEMPO) or Sentinel-4.http://www.atmos-meas-tech.net/9/4103/2016/amt-9-4103-2016.pdf
collection DOAJ
language English
format Article
sources DOAJ
author C. Adams
E. N. Normand
C. A. McLinden
A. E. Bourassa
N. D. Lloyd
D. A. Degenstein
N. A. Krotkov
M. Belmonte Rivas
K. F. Boersma
H. Eskes
spellingShingle C. Adams
E. N. Normand
C. A. McLinden
A. E. Bourassa
N. D. Lloyd
D. A. Degenstein
N. A. Krotkov
M. Belmonte Rivas
K. F. Boersma
H. Eskes
Limb–nadir matching using non-coincident NO<sub>2</sub> observations: proof of concept and the OMI-minus-OSIRIS prototype product
Atmospheric Measurement Techniques
author_facet C. Adams
E. N. Normand
C. A. McLinden
A. E. Bourassa
N. D. Lloyd
D. A. Degenstein
N. A. Krotkov
M. Belmonte Rivas
K. F. Boersma
H. Eskes
author_sort C. Adams
title Limb–nadir matching using non-coincident NO<sub>2</sub> observations: proof of concept and the OMI-minus-OSIRIS prototype product
title_short Limb–nadir matching using non-coincident NO<sub>2</sub> observations: proof of concept and the OMI-minus-OSIRIS prototype product
title_full Limb–nadir matching using non-coincident NO<sub>2</sub> observations: proof of concept and the OMI-minus-OSIRIS prototype product
title_fullStr Limb–nadir matching using non-coincident NO<sub>2</sub> observations: proof of concept and the OMI-minus-OSIRIS prototype product
title_full_unstemmed Limb–nadir matching using non-coincident NO<sub>2</sub> observations: proof of concept and the OMI-minus-OSIRIS prototype product
title_sort limb–nadir matching using non-coincident no<sub>2</sub> observations: proof of concept and the omi-minus-osiris prototype product
publisher Copernicus Publications
series Atmospheric Measurement Techniques
issn 1867-1381
1867-8548
publishDate 2016-08-01
description <p class="p">A variant of the limb–nadir matching technique for deriving tropospheric NO<sub>2</sub> columns is presented in which the stratospheric component of the NO<sub>2</sub> slant column density (SCD) measured by the Ozone Monitoring Instrument (OMI) is removed using non-coincident profiles from the Optical Spectrograph and InfraRed Imaging System (OSIRIS). In order to correct their mismatch in local time and the diurnal variation of stratospheric NO<sub>2</sub>, OSIRIS profiles, which were measured just after sunrise, were mapped to the local time of OMI observations using a photochemical box model. Following the profile time adjustment, OSIRIS NO<sub>2</sub> stratospheric vertical column densities (VCDs) were calculated. For profiles that did not reach down to the tropopause, VCDs were adjusted using the photochemical model. Using air mass factors from the OMI Standard Product (SP), a new tropospheric NO<sub>2</sub> VCD product – referred to as OMI-minus-OSIRIS (OmO) – was generated through limb–nadir matching. To accomplish this, the OMI total SCDs were scaled using correction factors derived from the next-generation SCDs that improve upon the spectral fitting used for the current operational products. One year, 2008, of OmO was generated for 60° S to 60° N and a cursory evaluation was performed. The OmO product was found to capture the main features of tropospheric NO<sub>2</sub>, including a background value of about 0.3 × 10<sup>15</sup> molecules cm<sup>−2</sup> over the tropical Pacific and values comparable to the OMI operational products over anthropogenic source areas. While additional study is required, these results suggest that a limb–nadir matching approach is feasible for the removal of stratospheric NO<sub>2</sub> measured by a polar orbiter from a nadir-viewing instrument in a geostationary orbit such as Tropospheric Emissions: Monitoring of Pollution (TEMPO) or Sentinel-4.
url http://www.atmos-meas-tech.net/9/4103/2016/amt-9-4103-2016.pdf
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