Top-down estimate of China's black carbon emissions using surface observations: Sensitivity to observation representativeness and transport model error

Xuan Wang; Yuxuan Wang; Jiming Hao; Yutaka Kondo; Martin Irwin; J. William Munger; Yongjing Zhao

doi:10.1002/jgrd.50397

Top-down estimate of China's black carbon emissions using surface observations: Sensitivity to observation representativeness and transport model error

Xuan Wang, Yuxuan Wang^*, Jiming Hao, Yutaka Kondo, Martin Irwin, J. William Munger, Yongjing Zhao

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

17 Citations (Scopus)

Abstract

This study examines the sensitivity of top-down quantification of Chinese black carbon (BC) emissions to the temporal resolution of surface observations and to the transport model error associated with the grid resolution and wet deposition. At two rural sites (Miyun in North China Plain and Chongming in Yangtze River Delta), the model-inferred emission bias based on hourly BC observations can differ by up to 41% from that based on monthly mean observations. This difference relates to the intrinsic inability of the grid-based model in simulating high pollution plumes, which often exert a larger influence on the arithmetic mean of observations at monthly time steps. Adopting the variation of BC to carbon monoxide correlation slope with precipitation as a suitable measure to evaluate the model's wet deposition, we found that wet removal of BC in the model was too weak, due in part to the model's underestimation of large precipitation events. After filtering out the observations during high pollution plumes and large precipitation events for which the transport model error should not be translated into the emission error, the inferred emission bias changed from -11% (without filtering) to -2% (with filtering) at the Miyun site, and from -22% to +1% at the Chongming site. Using surface BC observations from three more rural sites (located in Northeast, Central, and Central South China, respectively) as constraints, our top-down estimate of total BC emissions over China was 1.800.65Tg/yr in 2006, 0.5% lower than the bottom-up inventory of Zhang et al. (2009) but with smaller uncertainty.

Original language	English
Pages (from-to)	5781-5795
Number of pages	15
Journal	Journal of Geophysical Research Atmospheres
Volume	118
Issue number	11
Online published	7 Jun 2013
DOIs	https://doi.org/10.1002/jgrd.50397
Publication status	Published - 16 Jun 2013
Externally published	Yes

Funding

This research was supported by the International Science & Technology Cooperation Program of China (2010DFA21300) and the CAS Strategic Priority Research Program (Grant XDA05100403). Y. Wang acknowledges additional support from the Ministry of Education of China (NCET-11-0280). Y. Kondo and M. Irwin were supported by the Ministry of Education, Culture, Sports, Science, and Technology (MEXT) of Japan, the strategic international cooperative program of the Japan Science and Technology Agency (JST), the global environment research fund of the Japanese Ministry of the Environment (A-0803 and A-1101), and the GRENE Arctic Climate Change Research Project. Trace gas measurements at the Miyun site were supported by the Harvard University Center for the Environment, Harvard Smeltzer Fund, and an anonymous private foundation, and data analyses were supported in part by a National Science Foundation grant ATM-0635548.

Research Keywords

BC
China
emissions
wet deposition
top-down
representativeness
AEROSOL EMISSIONS
CO EMISSIONS
RURAL SITE
ASIA
CONSTRAINTS
ABSORPTION
DEPOSITION
EFFICIENCY
INVENTORY
SATELLITE

Policy Impact

Cited in Policy Documents

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title = "Top-down estimate of China's black carbon emissions using surface observations: Sensitivity to observation representativeness and transport model error",

abstract = "This study examines the sensitivity of top-down quantification of Chinese black carbon (BC) emissions to the temporal resolution of surface observations and to the transport model error associated with the grid resolution and wet deposition. At two rural sites (Miyun in North China Plain and Chongming in Yangtze River Delta), the model-inferred emission bias based on hourly BC observations can differ by up to 41% from that based on monthly mean observations. This difference relates to the intrinsic inability of the grid-based model in simulating high pollution plumes, which often exert a larger influence on the arithmetic mean of observations at monthly time steps. Adopting the variation of BC to carbon monoxide correlation slope with precipitation as a suitable measure to evaluate the model's wet deposition, we found that wet removal of BC in the model was too weak, due in part to the model's underestimation of large precipitation events. After filtering out the observations during high pollution plumes and large precipitation events for which the transport model error should not be translated into the emission error, the inferred emission bias changed from -11% (without filtering) to -2% (with filtering) at the Miyun site, and from -22% to +1% at the Chongming site. Using surface BC observations from three more rural sites (located in Northeast, Central, and Central South China, respectively) as constraints, our top-down estimate of total BC emissions over China was 1.800.65Tg/yr in 2006, 0.5% lower than the bottom-up inventory of Zhang et al. (2009) but with smaller uncertainty.",

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language = "English",

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Top-down estimate of China's black carbon emissions using surface observations: Sensitivity to observation representativeness and transport model error. / Wang, Xuan; Wang, Yuxuan; Hao, Jiming et al.
In: Journal of Geophysical Research Atmospheres, Vol. 118, No. 11, 16.06.2013, p. 5781-5795.

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

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AU - Wang, Xuan

AU - Wang, Yuxuan

AU - Hao, Jiming

AU - Kondo, Yutaka

AU - Irwin, Martin

AU - Munger, J. William

AU - Zhao, Yongjing

PY - 2013/6/16

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AB - This study examines the sensitivity of top-down quantification of Chinese black carbon (BC) emissions to the temporal resolution of surface observations and to the transport model error associated with the grid resolution and wet deposition. At two rural sites (Miyun in North China Plain and Chongming in Yangtze River Delta), the model-inferred emission bias based on hourly BC observations can differ by up to 41% from that based on monthly mean observations. This difference relates to the intrinsic inability of the grid-based model in simulating high pollution plumes, which often exert a larger influence on the arithmetic mean of observations at monthly time steps. Adopting the variation of BC to carbon monoxide correlation slope with precipitation as a suitable measure to evaluate the model's wet deposition, we found that wet removal of BC in the model was too weak, due in part to the model's underestimation of large precipitation events. After filtering out the observations during high pollution plumes and large precipitation events for which the transport model error should not be translated into the emission error, the inferred emission bias changed from -11% (without filtering) to -2% (with filtering) at the Miyun site, and from -22% to +1% at the Chongming site. Using surface BC observations from three more rural sites (located in Northeast, Central, and Central South China, respectively) as constraints, our top-down estimate of total BC emissions over China was 1.800.65Tg/yr in 2006, 0.5% lower than the bottom-up inventory of Zhang et al. (2009) but with smaller uncertainty.

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KW - CO EMISSIONS

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KW - DEPOSITION

KW - EFFICIENCY

KW - INVENTORY

KW - SATELLITE

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M3 - RGC 21 - Publication in refereed journal

SN - 2169-897X

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JO - Journal of Geophysical Research Atmospheres

JF - Journal of Geophysical Research Atmospheres

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ER -

Top-down estimate of China's black carbon emissions using surface observations: Sensitivity to observation representativeness and transport model error

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