Source Contributions to Carbon Monoxide Concentrations During KORUS-AQ Based on CAM-chem Model Applications

Wenfu Tang; Louisa K. Emmons; Avelino F. Arellano; Benjamin Gaubert; Christoph Knote; Simone Tilmes; Rebecca R. Buchholz; Gabriele G. Pfister; Glenn S. Diskin; Donald R. Blake; Nicola J. Blake; Simone Meinardi; Joshua P. DiGangi; Yonghoon Choi; Jung Hun Woo; Cenlin He; Jason R. Schroeder; Inseon Suh; Hyo Jung Lee; Hyun Young Jo; Yugo Kanaya; Jinsang Jung; Youngjae Lee; Danbi Kim

doi:10.1029/2018JD029151

Source Contributions to Carbon Monoxide Concentrations During KORUS-AQ Based on CAM-chem Model Applications

Wenfu Tang, Louisa K. Emmons, Avelino F. Arellano, Benjamin Gaubert, Christoph Knote, Simone Tilmes, Rebecca R. Buchholz, Gabriele G. Pfister, Glenn S. Diskin, Donald R. Blake, Nicola J. Blake, Simone Meinardi, Joshua P. DiGangi, Yonghoon Choi, Jung Hun Woo, Cenlin He, Jason R. Schroeder, Inseon Suh, Hyo Jung Lee, Hyun Young JoYugo Kanaya, Jinsang Jung, Youngjae Lee, Danbi Kim

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Abstract

We investigate regional sources contributing to CO during the Korea United States Air Quality (KORUS-AQ) campaign conducted over Korea (1 May to 10 June 2016) using 17 tagged CO simulations from the Community Atmosphere Model with chemistry (CAM-chem). The simulations use three spatial resolutions, three anthropogenic emission inventories, two meteorological fields, and nine emission scenarios. These simulations are evaluated against measurements from the DC-8 aircraft and Measurements Of Pollution In The Troposphere (MOPITT). Results show that simulations using bottom-up emissions are consistently lower (bias: −34 to −39%) and poorer performing (Taylor skill: 0.38–0.61) than simulations using alternative anthropogenic emissions (bias: −6 to −33%; Taylor skill: 0.48–0.86), particularly for enhanced Asian CO and volatile organic compound (VOC) emission scenarios, suggesting underestimation in modeled CO background and emissions in the region. The ranges of source contributions to modeled CO along DC-8 aircraft from Korea and southern (90°E to 123°E, 20°N to 29°N), middle (90°E to 123°E, 29°N to 38.5°N), and northern (90°E to 131.5°E, 38.5°N to 45°N) East Asia (EA) are 6–13%, ~5%, 16–28%, and 9–18%, respectively. CO emissions from middle and northern EA can reach Korea via transport within the boundary layer, whereas those from southern EA are transported to Korea mainly through the free troposphere. Emission contributions from middle EA dominate during continental outflow events (29–51%), while Korean emissions play an overall more important role for ground sites (up to 25–49%) and plumes within the boundary layer (up to 25–44%) in Korea. Finally, comparisons with four other source contribution approaches (FLEXPART 9.1 back trajectory calculations driven by Weather Research and Forecasting (WRF) WRF inert tracer, China signature VOCs, and CO to CO₂ enhancement ratios) show general consistency with CAM-chem.

Original language	English
Pages (from-to)	2796-2822
Number of pages	27
Journal	Journal of Geophysical Research: Atmospheres
Volume	124
Issue number	5
DOIs	https://doi.org/10.1029/2018JD029151
State	Published - Mar 16 2019
Externally published	Yes

Keywords

CAM-chem
KORUS-AQ
carbon monoxide
emissions
model evaluation
source contribution

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10.1029/2018JD029151

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Tang, W., Emmons, L. K., Arellano, A. F., Gaubert, B., Knote, C., Tilmes, S., Buchholz, R. R., Pfister, G. G., Diskin, G. S., Blake, D. R., Blake, N. J., Meinardi, S., DiGangi, J. P., Choi, Y., Woo, J. H., He, C., Schroeder, J. R., Suh, I., Lee, H. J., ... Kim, D. (2019). Source Contributions to Carbon Monoxide Concentrations During KORUS-AQ Based on CAM-chem Model Applications. Journal of Geophysical Research: Atmospheres, 124(5), 2796-2822. https://doi.org/10.1029/2018JD029151

@article{4e19c4e9ac9246b4a43165f2b1739c96,

title = "Source Contributions to Carbon Monoxide Concentrations During KORUS-AQ Based on CAM-chem Model Applications",

abstract = "We investigate regional sources contributing to CO during the Korea United States Air Quality (KORUS-AQ) campaign conducted over Korea (1 May to 10 June 2016) using 17 tagged CO simulations from the Community Atmosphere Model with chemistry (CAM-chem). The simulations use three spatial resolutions, three anthropogenic emission inventories, two meteorological fields, and nine emission scenarios. These simulations are evaluated against measurements from the DC-8 aircraft and Measurements Of Pollution In The Troposphere (MOPITT). Results show that simulations using bottom-up emissions are consistently lower (bias: −34 to −39\%) and poorer performing (Taylor skill: 0.38–0.61) than simulations using alternative anthropogenic emissions (bias: −6 to −33\%; Taylor skill: 0.48–0.86), particularly for enhanced Asian CO and volatile organic compound (VOC) emission scenarios, suggesting underestimation in modeled CO background and emissions in the region. The ranges of source contributions to modeled CO along DC-8 aircraft from Korea and southern (90°E to 123°E, 20°N to 29°N), middle (90°E to 123°E, 29°N to 38.5°N), and northern (90°E to 131.5°E, 38.5°N to 45°N) East Asia (EA) are 6–13\%, \textasciitilde{}5\%, 16–28\%, and 9–18\%, respectively. CO emissions from middle and northern EA can reach Korea via transport within the boundary layer, whereas those from southern EA are transported to Korea mainly through the free troposphere. Emission contributions from middle EA dominate during continental outflow events (29–51\%), while Korean emissions play an overall more important role for ground sites (up to 25–49\%) and plumes within the boundary layer (up to 25–44\%) in Korea. Finally, comparisons with four other source contribution approaches (FLEXPART 9.1 back trajectory calculations driven by Weather Research and Forecasting (WRF) WRF inert tracer, China signature VOCs, and CO to CO2 enhancement ratios) show general consistency with CAM-chem.",

keywords = "CAM-chem, KORUS-AQ, carbon monoxide, emissions, model evaluation, source contribution",

author = "Wenfu Tang and Emmons, \{Louisa K.\} and Arellano, \{Avelino F.\} and Benjamin Gaubert and Christoph Knote and Simone Tilmes and Buchholz, \{Rebecca R.\} and Pfister, \{Gabriele G.\} and Diskin, \{Glenn S.\} and Blake, \{Donald R.\} and Blake, \{Nicola J.\} and Simone Meinardi and DiGangi, \{Joshua P.\} and Yonghoon Choi and Woo, \{Jung Hun\} and Cenlin He and Schroeder, \{Jason R.\} and Inseon Suh and Lee, \{Hyo Jung\} and Jo, \{Hyun Young\} and Yugo Kanaya and Jinsang Jung and Youngjae Lee and Danbi Kim",

note = "Publisher Copyright: {\textcopyright}2019. The Authors.",

year = "2019",

month = mar,

day = "16",

doi = "10.1029/2018JD029151",

language = "English",

volume = "124",

pages = "2796--2822",

journal = "Journal of Geophysical Research: Atmospheres",

issn = "2169-897X",

publisher = "Wiley-Blackwell Publishing Ltd",

number = "5",

}

Tang, W , Emmons, LK, Arellano, AF, Gaubert, B, Knote, C, Tilmes, S , Buchholz, RR , Pfister, GG, Diskin, GS, Blake, DR, Blake, NJ, Meinardi, S, DiGangi, JP, Choi, Y, Woo, JH, He, C, Schroeder, JR, Suh, I, Lee, HJ, Jo, HY, Kanaya, Y, Jung, J, Lee, Y & Kim, D 2019, 'Source Contributions to Carbon Monoxide Concentrations During KORUS-AQ Based on CAM-chem Model Applications', Journal of Geophysical Research: Atmospheres, vol. 124, no. 5, pp. 2796-2822. https://doi.org/10.1029/2018JD029151

TY - JOUR

T1 - Source Contributions to Carbon Monoxide Concentrations During KORUS-AQ Based on CAM-chem Model Applications

AU - Tang, Wenfu

AU - Emmons, Louisa K.

AU - Arellano, Avelino F.

AU - Gaubert, Benjamin

AU - Knote, Christoph

AU - Tilmes, Simone

AU - Buchholz, Rebecca R.

AU - Pfister, Gabriele G.

AU - Diskin, Glenn S.

AU - Blake, Donald R.

AU - Blake, Nicola J.

AU - Meinardi, Simone

AU - DiGangi, Joshua P.

AU - Choi, Yonghoon

AU - Woo, Jung Hun

AU - He, Cenlin

AU - Schroeder, Jason R.

AU - Suh, Inseon

AU - Lee, Hyo Jung

AU - Jo, Hyun Young

AU - Kanaya, Yugo

AU - Jung, Jinsang

AU - Lee, Youngjae

AU - Kim, Danbi

PY - 2019/3/16

Y1 - 2019/3/16

N2 - We investigate regional sources contributing to CO during the Korea United States Air Quality (KORUS-AQ) campaign conducted over Korea (1 May to 10 June 2016) using 17 tagged CO simulations from the Community Atmosphere Model with chemistry (CAM-chem). The simulations use three spatial resolutions, three anthropogenic emission inventories, two meteorological fields, and nine emission scenarios. These simulations are evaluated against measurements from the DC-8 aircraft and Measurements Of Pollution In The Troposphere (MOPITT). Results show that simulations using bottom-up emissions are consistently lower (bias: −34 to −39%) and poorer performing (Taylor skill: 0.38–0.61) than simulations using alternative anthropogenic emissions (bias: −6 to −33%; Taylor skill: 0.48–0.86), particularly for enhanced Asian CO and volatile organic compound (VOC) emission scenarios, suggesting underestimation in modeled CO background and emissions in the region. The ranges of source contributions to modeled CO along DC-8 aircraft from Korea and southern (90°E to 123°E, 20°N to 29°N), middle (90°E to 123°E, 29°N to 38.5°N), and northern (90°E to 131.5°E, 38.5°N to 45°N) East Asia (EA) are 6–13%, ~5%, 16–28%, and 9–18%, respectively. CO emissions from middle and northern EA can reach Korea via transport within the boundary layer, whereas those from southern EA are transported to Korea mainly through the free troposphere. Emission contributions from middle EA dominate during continental outflow events (29–51%), while Korean emissions play an overall more important role for ground sites (up to 25–49%) and plumes within the boundary layer (up to 25–44%) in Korea. Finally, comparisons with four other source contribution approaches (FLEXPART 9.1 back trajectory calculations driven by Weather Research and Forecasting (WRF) WRF inert tracer, China signature VOCs, and CO to CO2 enhancement ratios) show general consistency with CAM-chem.

AB - We investigate regional sources contributing to CO during the Korea United States Air Quality (KORUS-AQ) campaign conducted over Korea (1 May to 10 June 2016) using 17 tagged CO simulations from the Community Atmosphere Model with chemistry (CAM-chem). The simulations use three spatial resolutions, three anthropogenic emission inventories, two meteorological fields, and nine emission scenarios. These simulations are evaluated against measurements from the DC-8 aircraft and Measurements Of Pollution In The Troposphere (MOPITT). Results show that simulations using bottom-up emissions are consistently lower (bias: −34 to −39%) and poorer performing (Taylor skill: 0.38–0.61) than simulations using alternative anthropogenic emissions (bias: −6 to −33%; Taylor skill: 0.48–0.86), particularly for enhanced Asian CO and volatile organic compound (VOC) emission scenarios, suggesting underestimation in modeled CO background and emissions in the region. The ranges of source contributions to modeled CO along DC-8 aircraft from Korea and southern (90°E to 123°E, 20°N to 29°N), middle (90°E to 123°E, 29°N to 38.5°N), and northern (90°E to 131.5°E, 38.5°N to 45°N) East Asia (EA) are 6–13%, ~5%, 16–28%, and 9–18%, respectively. CO emissions from middle and northern EA can reach Korea via transport within the boundary layer, whereas those from southern EA are transported to Korea mainly through the free troposphere. Emission contributions from middle EA dominate during continental outflow events (29–51%), while Korean emissions play an overall more important role for ground sites (up to 25–49%) and plumes within the boundary layer (up to 25–44%) in Korea. Finally, comparisons with four other source contribution approaches (FLEXPART 9.1 back trajectory calculations driven by Weather Research and Forecasting (WRF) WRF inert tracer, China signature VOCs, and CO to CO2 enhancement ratios) show general consistency with CAM-chem.

KW - CAM-chem

KW - KORUS-AQ

KW - carbon monoxide

KW - emissions

KW - model evaluation

KW - source contribution

UR - https://www.scopus.com/pages/publications/85062778220

U2 - 10.1029/2018JD029151

DO - 10.1029/2018JD029151

M3 - Article

AN - SCOPUS:85062778220

SN - 2169-897X

VL - 124

SP - 2796

EP - 2822

JO - Journal of Geophysical Research: Atmospheres

JF - Journal of Geophysical Research: Atmospheres

IS - 5

ER -

Source Contributions to Carbon Monoxide Concentrations During KORUS-AQ Based on CAM-chem Model Applications

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