Please use this identifier to cite or link to this item: http://hdl.handle.net/20.500.11765/12880
New observations of NO2 in the upper troposphere from TROPOMI
Title: New observations of NO2 in the upper troposphere from TROPOMI
Authors: Marais, Eloise A.Roberts, John F.Ryan, Robert G.Eskes, Henk J.Boersma, K. FolkertChoi, SungyeonJoiner, JoannaAbuhassan, NaderRedondas, Alberto ORCID RESEARCHERID Autor AEMETGrutter, MichelCede, AlexanderGómez, LauraNavarro Comas, Mónica
Keywords: TROPOMI; Upper troposphere; Cloud-slicing
Issue Date: 2021
Publisher: European Geosciences Union
Citation: Atmospheric Measurement Techniques. 2021, 14(3), p. 2389–2408
Publisher version: https://dx.doi.org/10.5194/amt-14-2389-2021
Abstract: Nitrogen oxides (NOx≡NO+NO2) in the NOx-limited upper troposphere (UT) are long-lived and so have a large influence on the oxidizing capacity of the troposphere and formation of the greenhouse gas ozone. Models misrepresent NOx in the UT, and observations to address deficiencies in models are sparse. Here we obtain a year of near-global seasonal mean mixing ratios of NO2 in the UT (450–180 hPa) at 1∘×1∘ by applying cloud-slicing to partial columns of NO2 from TROPOMI. This follows refinement of the cloud-slicing algorithm with synthetic partial columns from the GEOS-Chem chemical transport model. TROPOMI, prior to cloud-slicing, is corrected for a 13 % underestimate in stratospheric NO2 variance and a 50 % overestimate in free-tropospheric NO2 determined by comparison to Pandora total columns at high-altitude free-tropospheric sites at Mauna Loa, Izaña, and Altzomoni and MAX-DOAS and Pandora tropospheric columns at Izaña. Two cloud-sliced seasonal mean UT NO2 products for June 2019 to May 2020 are retrieved from corrected TROPOMI total columns using distinct TROPOMI cloud products that assume clouds are reflective boundaries (FRESCO-S) or water droplet layers (ROCINN-CAL). TROPOMI UT NO2 typically ranges from 20–30 pptv over remote oceans to >80 pptv over locations with intense seasonal lightning. Spatial coverage is mostly in the tropics and subtropics with FRESCO-S and extends to the midlatitudes and polar regions with ROCINN-CAL, due to its greater abundance of optically thick clouds and wider cloud-top altitude range. TROPOMI UT NO2 seasonal means are spatially consistent (R=0.6–0.8) with an existing coarser spatial resolution (5∘ latitude × 8∘ longitude) UT NO2 product from the Ozone Monitoring Instrument (OMI). UT NO2 from TROPOMI is 12–26 pptv more than that from OMI due to increase in NO2 with altitude from the OMI pressure ceiling (280 hPa) to that for TROPOMI (180 hPa), but possibly also due to altitude differences in TROPOMI and OMI cloud products and NO2 retrieval algorithms. The TROPOMI UT NO2 product offers potential to evaluate and improve representation of UT NOx in models and supplement aircraft observations that are sporadic and susceptible to large biases in the UT.
Sponsorship : This research has been supported by the European Research Council under the European Union’s Horizon 2020 research and innovation programme (through the Starting Grant awarded to Eloise A. Marais, UpTrop (grant no. 851854)).
URI: http://hdl.handle.net/20.500.11765/12880
ISSN: 1867-1381
1867-8548
Appears in Collections:Artículos científicos 2019-2021


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