Assessment of ground-based atmospheric observations for verification of greenhouse gas emissions from an urban region

International agreements to limit greenhouse gas emissions require verification to ensure that they are effective and fair. Verification based on direct observation of atmospheric greenhouse gas concentrations will be necessary to demonstrate that estimated emission reductions have been actualized i...

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Veröffentlicht in:	Proceedings of the National Academy of Sciences - PNAS 2012-05, Vol.109 (22), p.8423-8428
Hauptverfasser:	McKain, Kathryn, Wofsy, Steven C., Nehrkorn, Thomas, Eluszkiewicz, Janusz, Ehleringer, James R., Stephens, Britton B.
Format:	Artikel
Sprache:	eng
Schlagworte:	Atmosphere - analysis Atmospheric circulation Atmospheric models Atmospherics Carbon dioxide Carbon Dioxide - analysis Cities Downtowns Emissions Environmental Monitoring - methods Geography Greenhouse Effect Greenhouse gas emissions Measurement Meteorology Modeling Models, Theoretical Observational research Physical Sciences Pollutant emissions Seasons Simulation Simulations Social Sciences Urban areas Urbanization Utah
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container_title	Proceedings of the National Academy of Sciences - PNAS
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creator	McKain, Kathryn Wofsy, Steven C. Nehrkorn, Thomas Eluszkiewicz, Janusz Ehleringer, James R. Stephens, Britton B.
description	International agreements to limit greenhouse gas emissions require verification to ensure that they are effective and fair. Verification based on direct observation of atmospheric greenhouse gas concentrations will be necessary to demonstrate that estimated emission reductions have been actualized in the atmosphere. Here we assess the capability of ground-based observations and a highresolution (1.3 km) mesoscale atmospheric transport model to determine a change in greenhouse gas emissions over time from a metropolitan region. We test the method with observations from a network of CO₂ surface monitors in Salt Lake City. Many features of the CO₂ data were simulated with excellent fidelity, although data-model mismatches occurred on hourly timescales due to inadequate simulation of shallow circulations and the precise timing of boundary-layer stratification and destratif¡cation. Using two optimization procedures, monthly regional fluxes were constrained to sufficient precision to detect an increase or decrease in emissions of approximately 15% at the 95% confidence level. We argue that integrated column measurements of the urban dome of CO₂ from the ground and/or space are less sensitive than surface point measurements to the redistribution of emitted CO₂ by small-scale processes and thus may allow for more precise trend detection of emissions from urban regions.
doi_str_mv	10.1073/pnas.1116645109
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source	MEDLINE; JSTOR Archive Collection A-Z Listing; PubMed Central; Alma/SFX Local Collection; Free Full-Text Journals in Chemistry
subjects	Atmosphere - analysis Atmospheric circulation Atmospheric models Atmospherics Carbon dioxide Carbon Dioxide - analysis Cities Downtowns Emissions Environmental Monitoring - methods Geography Greenhouse Effect Greenhouse gas emissions Measurement Meteorology Modeling Models, Theoretical Observational research Physical Sciences Pollutant emissions Seasons Simulation Simulations Social Sciences Urban areas Urbanization Utah
title	Assessment of ground-based atmospheric observations for verification of greenhouse gas emissions from an urban region
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