Surface Ozone Problem in Two Polluted Regions in China and VOGA-NCP 2013 Summer Campaign

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Surface Ozone Problem in Two Polluted Regions in China and VOGA-NCP 2013 Summer Campaign Liang Ran Key Laboratory of Middle Atmosphere and Global Environment Observation (LAGEO) Institute of Atmospheric Physics (IAP), Chinese Academy of Sciences (CAS) Email: shirleyrl@mail.iap.ac.cn 2013-Apr-12 BIRA/IASB

Personal Infos 2002.09-2006.07 B. S. Department of Astronomy, School of Physics, Peking University (PKU) Major in : Astrophysics Specialty: Star Formation 2006.09-2012.7 Ph. D. Department of Atmospheric and Oceanic Sciences, School of Physics, PKU Major in: Atmospheric Physics & Atmospheric Environment Specialty: Atmospheric Chemistry 2012.7- Assistant Research Scientist Key Laboratory of Middle Atmosphere and Global Environment Observation (LAGEO) Institute of Atmospheric Physics (IAP), Chinese Academy of Sciences (CAS)

Outline Introduction Surface Ozone Problem in China Background Spatial and Temporal Characteristics of Ozone and Its Precursors Ozone Precursor Sensitivity VOGA-NCP 2013 Summer Campaign Motivation Preparation

Introduction IAP, CAS (1928-) Physical and Chemical Processes Interactions LAGEO 1. Process of Middle Atmosphere Its Synoptic and Climatic Effects 2. Remote Sensing of Atmospheric Radiation and Atmospheric Environment 3. Lightning Physics 4. Advanced Observational Techniques Figure Source : http://english.iap.cas.cn/.

Introduction Observational System Tethered Balloon System; Unmanned Aircraft; Instrumentation Aerosol-Cloud-Radiation Observation Platform. Ozone Sonde; LIDAR (355 nm); Instruments for Surface Gases and Aerosols Measurements. Figure Source : http://lageo.iap.ac.cn/index.php/index.

Introduction Monitoring Sites Xinglong (40 23 N,117 35 E, 960m a.s.l.) Background Site ARONET(AErosol RObotic NETwork) Xianghe (39 47 N,116 57 E, 95m a.s.l.) Supersite

Outline Introduction Surface Ozone Problem in China Background Spatial and Temporal Characteristics of ozone and its precursors Ozone precursor sensitivity VOGA-NCP 2013 Summer Campaign Motivation Preparation

Background Ozone Photochemical Production NOx + VOCs/CO + hv O 3 VOCs: Volatile Organic Compounds NOx: Nitrogen Oxides, NOx=NO+NO 2 Ozone Precursors A sketch of ozone photochemical cycle.

Background Ozone precursor relationship Highly nonlinear Crucial for ozone control strategies Typical ozone isopleths. Source: Rethinking the ozone problem in urban and regional air pollution, 1991.

Background Sources of ozone precursors AVOC (Anthropogenic VOC) (Biogenic VOC) BVOC (Upper) Anthropogenic sources of NOx and VOCs. Source: http://www.epa.gov/oaqps001/gooduphigh/bad.html. (Right) Some biogenic sources of VOCs.

Background SCIAMACHY NO 2 for 2004 in China. Figure source: http://www.temis.nl/products/no2.html. Environmental issues in China Rapid Urbanization & Industrialization Significant increase in precursor emissions

Background The North China Plain (NCP) The Yangtze River Delta (YRD) HaChi (Haze in China) Project Wuqing District of Tianjin(39º23 N, 117º01 E) Winter and Summer, 2009 ACP-Special Issue Haze in China (HaChi2009-2010) Editors: V.-M. Kerminen, D. Covert, and E. Swietlicki Chongming Baoshan Dongtan Mirage-Shanghai Project Fall, 2009 Xujiahui Pudong Jinshan ACP-Special Issue Atmospheric impacts of Eastern Asia megacities Editors: A. B. Guenther, C. H. Song, X. Tie, T. Wang, and K. Schaefer Average distribution of NO 2 tropospheric column amount (OMI, Resolution: 0.25 0.25 ) in the NCP and YRD. Source: Xu et al., Atmos. Chem. Phys., 11, 4353-4369, 2011.

Ozone and its precursors in NCP and YRD Probability distributions (5 ppbv per bin) of (a)(c) ozone and (b) NOx in July-August 2009 (Tianjin: 2010).

Ozone and its precursors in NCP and YRD

Gas pollutants in NCP July 2009

Characteristics of ozone and its precursors Ozone episodes frequently encountered during the campaign Occurrences of running 8-hour averages in excess of 80 ppbv lasted for more than 4 hrs on about 2/3 of the campaign days Persisting high ozone exposure risks for vegetation and outdoor human activities Averagely, NOx exhibited a double-peak diurnal pattern Conversion of NO to NO 2 quite efficient in the daytime (a) Durations of ozone 8-hour exceedances over 80 ppbv on each day. (b) Average diurnal cycle of ozone and NOx during the HaChi summer campaign.

Characteristics of ozone and its precursors Averages of total VOCs were170 ppbv, 650 ppbc and 220 Propy-Equiv ppbc No apparent differences in composition at different periods of time On the ppbc scale, major components were alkanes & aromatics While alkenes & aromatics dominated in the contribution to total reactivity Key species (~70%) 2-butenes, isoprene, trimethylbenzenes xylenes, 3-methylhexane, n-hexane, toluene (a) Time series of total VOCs in Wuqing, in ppbc and Propy-Equiv ppbc units. (b) VOC composition based on ppbc and k OH scale.

Ozone precursor sensitivity Examination of measured VOCs/NOx ratios ~10 NOx-limited Model simulations Box model (NCAR Master Mechanism) coupled with a TUV model NOx-limitation confirmed A sensitivity to the changes in VOC reactivity was also found NCAR-MM model simulation results. Six cases are based on measurements of VOCs on each day of August 7-12, with all other parameters set to be the same. The square markers are selected cases for NOx = 5, 10, 15, 20, 30, 40 and 60 ppbv.

Outline Introduction Surface Ozone Problem in China Background Spatial and Temporal Characteristics of ozone and its precursors Ozone precursor sensitivity VOGA-NCP 2013 Summer Campaign Motivation Preparation

Motivation VOGA-NCP Vertical Observation of Gas pollutants and Aerosols in the North China Plain Primary Aerosols + SOA Cloud Cloud PBL Radiation Emissions Primary Trace Gases Secondary Trace Gases Vertical Mixing Wet/Dry Deposition Surface

Site and Measurements Surface measurements 1. Trace gases (O 3, NOx, CO, SO 2, VOCs) 2. Aerosols (PNSD, Optical Properties, Activation Properties) 3. Radiation (Visible, UVB) Vertical Measurements-Tethered Balloon 1. in-situ Aerosol measurement: OPC, BC 2. Bag Sampler: sub-miron aerosol PNSD, Activation Properties 2. Ozone sonde 3. NO 2 sonde Gucheng (GCH), a rural site Weili Lin, et al, Characteristics of gaseous pollutants at Gucheng, a rural site southwest of Beijing, J. Geophy. Res., 2009.

Observations at Xianghe Site Surface Trace gases O 3, NOx, CO, SO 2 : May-Oct. (long term if possible) VOCs: depends Surface Aerosols PNSD, Optical Properties, Activation Properties: long term Vertical Profiles of Aerosols LIDAR: long term Radiation Visible, UVB: long term

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