Megacity Emissions and Lifetimes of Nitrogen Oxides Probed from Space

Beirle, Steffen; Boersma, K. Folkert; Platt, U.; Lawrence, M. G.; Wagner, Thomas

doi:10.1126/science.1207824

Cited by 477 publications

(652 citation statements)

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“…By providing the means to distinguish sources, long-term trends can be used to evaluate the changes of emissions driven by regulatory programs (Kim et al, 2006), technological controls (e.g., Russell et al, 2012), and economic activity (e.g., Russell et al, 2012;de Foy et al, 2016;Duncan et al, 2016). Whether considering daily measurements or analysis of long term monthly averages, instruments like OMPS NM provide a well-characterized, quantitatively stable measurement reflecting a balance of NO 2 emissions and removal at spatial scales of ∼25 km, with some limited information on pollutant transport (e.g., Beirle et al, 2011;Valin et al, 2013Valin et al, , 2014de Foy et al, 2016). As such, the measurements available from the past have not been sufficient to address the more pressing air quality management needs: the ability to distinguish sources within urban airsheds, characterization of local mesoscale flow patterns on pollutant transport, quantification of NO 2 removal mechanisms (e.g., Valin et al, 2013), or better characterization of photochemical ozone production to NO x (NO + NO 2 ) or VOC control strategies (e.g., Martin et al, 2004;Duncan et al, 2010;Jin et al, 2017;Schroeder et al, 2017).…”

Section: Resultsmentioning

confidence: 99%

“…Harmonizing atmospheric composition retrievals among LEO and GEO sensors is also necessary for effective utilization of the LEO and GEO measurements. The spatial (<10 km) and temporal (hourly) requirements for air quality measurements have largely been determined by the desire to resolve the processes affecting the emissions, lifetime and transport of tropospheric NO 2 (e.g., Beirle et al, 2011;Valin et al, 2011bValin et al, , 2013de Foy et al, 2015) because of its fundamental role in the formation of tropospheric O 3 and particulate matter. There have been a variety of approaches for validating NO 2 products retrieved from LEO platforms (e.g., Bucsela et al, 2008Bucsela et al, , 2013Irie et al, 2008;Boersma et al, 2009;Lamsal et al, 2010;Russell et al, 2011;Travis et al, 2016).…”

Section: Introductionmentioning

confidence: 99%

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The Dawn of Geostationary Air Quality Monitoring: Case Studies From Seoul and Los Angeles

Judd

Al-Saadi

Valin

et al. 2018

Front. Environ. Sci.

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With the near-future launch of geostationary Earth orbit (GEO) pollution monitoring satellite instruments over North America, East Asia, and Europe, the air quality community is preparing for an integrated global atmospheric composition observing system at unprecedented spatial and temporal resolutions. One of the ways that NASA has supported this community preparation is through demonstration of future space-borne capabilities using the Geostationary Trace gas and Aerosol Sensor Optimization (GeoTASO) airborne instrument. This paper integrates repeated high-resolution NO 2 maps from GeoTASO, ground-based Pandora spectrometers data, and low Earth orbit (LEO) measurements from the Ozone Mapping and Profiler Suite, for case studies over two regions: the Seoul Metropolitan Area, South Korea on June 9th, 2016 and Los Angeles Basin, California on June 27th, 2017. This dataset provides a unique opportunity to illustrate how GEO air quality monitoring platforms and ground-based remote sensing networks will close the current spatiotemporal observation gap. In both areas, the earliest morning maps exhibit spatial patterns similar to emission source areas (e.g., urbanized valleys, roadways, major airports) and change later in the day due to boundary layer dynamics, transport, and/or chemistry. On June 9th, 2016, GeoTASO observes NO 2 accumulating within the Seoul Metropolitan Area, while NO 2 peaks in the morning and decreases throughout the afternoon in the Los Angeles Basin on June 27th, 2017. The nominal resolution of GeoTASO is finer than will be obtained from GEO platforms, but when NO 2 data over Los Angeles are up-scaled to the expected resolution of TEMPO, spatial features discussed are preserved. Pandora instruments installed in both metropolitan areas capture the diurnal patterns observed by GeoTASO, continuously and over longer time periods and will play a critical role in validation of the next generation of satellite measurements. These case studies demonstrate the diversity of diurnal patterns in two urbanized regions and associates them with meteorology Judd et al.Dawn of Geostationary Air Quality Monitoring or anthropogenic patterns, hinting at the spatial and temporal richness of the upcoming GEO observations. LEO measurements, despite their inability to capture the diurnal patterns at fine spatial resolution, will be essential for intercalibrating the GEO radiances and cross-validating the GEO retrievals in an integrated global observing system.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

The Dawn of Geostationary Air Quality Monitoring: Case Studies From Seoul and Los Angeles

Judd

Al-Saadi

Valin

et al. 2018

Front. Environ. Sci.

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“…The lifetime of NO 2 ranges from around 8 h in a typical planetary boundary layer scenario to a few days in the upper troposphere (Ehhalt et al, 1992;Beirle et al, 2011).…”

Section: Published By Copernicus Publications On Behalf Of the Europementioning

confidence: 99%

Systematic analysis of tropospheric NO<sub>2</sub> long-range transport events detected in GOME-2 satellite data

et al. 2014

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Abstract.Intercontinental long-range transport (LRT) events of NO 2 relocate the effects of air pollution from emission regions to remote, pristine regions. We detect transported plumes in tropospheric NO 2 columns measured by the GOME-2/MetOp-A instrument with a specialized algorithm and trace the plumes to their sources using the HYSPLIT Lagrangian transport model. With this algorithm we find 3808 LRT events over the ocean for the period 2007 to 2011. LRT events occur frequently in the mid-latitudes, emerging usually from coastal high-emission regions. In the free troposphere, plumes of NO 2 can travel for several days to the polar oceanic atmosphere or to other continents. They travel along characteristic routes and originate from both continuous anthropogenic emission and emission events such as bush fires. Most NO 2 LRT events occur during autumn and winter months, when meteorological conditions and emissions are most favorable. The evaluation of meteorological data shows that the observed NO 2 LRT is often linked to cyclones passing over an emission region.

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“…20 On this factual basis, we provide a novel interpretation of recently reported data on the quantication of the unknown HONO daytime source, 26 and seasonally-averaged daytime NO 2 decay lifetimes over several megacities. 51 …”

Section: 21415mentioning

confidence: 99%

Tropospheric aerosol as a reactive intermediate

et al. 2013

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Megacity Emissions and Lifetimes of Nitrogen Oxides Probed from Space

Cited by 477 publications

References 16 publications

The Dawn of Geostationary Air Quality Monitoring: Case Studies From Seoul and Los Angeles

The Dawn of Geostationary Air Quality Monitoring: Case Studies From Seoul and Los Angeles

Systematic analysis of tropospheric NO<sub>2</sub> long-range transport events detected in GOME-2 satellite data

Tropospheric aerosol as a reactive intermediate

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Megacity Emissions and Lifetimes of Nitrogen Oxides Probed from Space

Cited by 477 publications

References 16 publications

The Dawn of Geostationary Air Quality Monitoring: Case Studies From Seoul and Los Angeles

The Dawn of Geostationary Air Quality Monitoring: Case Studies From Seoul and Los Angeles

Systematic analysis of tropospheric NO&lt;sub&gt;2&lt;/sub&gt; long-range transport events detected in GOME-2 satellite data

Tropospheric aerosol as a reactive intermediate

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Systematic analysis of tropospheric NO<sub>2</sub> long-range transport events detected in GOME-2 satellite data