Inter-comparison of elemental and organic carbon mass measurements from three North American national long-term monitoring networks at a co-located site

Chan Tak W.; Huang Lin; Banwait Kulbir; Zhang Wendy; Ernst Darrell; Wang Xiaoliang; Watson John G.; Chow Judith C.; Green Mark; Czimczik Claudia I.; Santos Guaciara M.; Sharma Sangeeta; Jones Keith

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Inter-comparison of elemental and organic carbon mass measurements from three North American national long-term monitoring networks at a co-located site

机译：在共同位于北美国家长期监测网络中的元素和有机碳质量测量的互相差异

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Carbonaceous aerosol is a major contributor to the total aerosol load and being monitored by diverse measurement approaches. Here, 10 years (2005-2015) of continuous carbonaceous aerosol measurements collected at the Centre of Atmospheric Research Experiments (CARE) in Egbert, Ontario, Canada, on quartz-fiber filters by three independent networks (Interagency Monitoring of Protected Visual Environments, IMPROVE; Canadian Air and Precipitation Monitoring Network, CAPMoN; and Canadian Aerosol Baseline Measurement, CABM) were compared. Specifically, the study evaluated how differences in sample collection and analysis affected the concentrations of total carbon (TC), organic carbon (OC), and elemental carbon (EC). Results show that different carbonaceous fractions measured by various networks were consistent and comparable in general among the three networks over the 10-year period, even with different sampling systems/frequencies, analytical protocols, and artifact corrections. The CAPMoN TC, OC, and EC obtained from the DRI model 2001 thermal- optical carbon analyzer following the IMPROVE-TOR protocol (denoted as DRI-TOR) method were lower than those determined from the IMPROVE_A TOR method by 17 %, 14 %, and 18 %, respectively. When using transmittance for charring correction, the corresponding carbonaceous fractions obtained from the Sunset-TOT were lower by as much as 30%, 15 %, and 75 %, respectively. In comparison, the CABM TC, OC, and EC obtained from a thermal method, EnCan-Total-900 (ECT9), were higher than the corresponding fractions from IMPROVE_A TOR by 20 %-30 %, 0 %15 %, and 60 %-80 %, respectively. Ambient OC and EC concentrations were found to increase when ambient temperature exceeded 10 degrees C. These increased ambient concentrations of OC during summer were possibly attributed to secondary organic aerosol (SOA) formation and forest fire emissions, while elevated EC concentrations were potentially influenced by forest fire emissions and increased vehicle emissions. Results also show that the pyrolyzed organic carbon (POC) obtained from the ECT9 protocol could provide additional information on SOA although more research is still needed.

机译：碳质气溶胶是全气溶胶载荷的主要因素，并通过各种测量方法监测。在这里，在加拿大安大略省安大略省Ontario的大气研究实验（护理）中收集的10年（2005-2015）连续碳质气溶胶测量，由加拿大安大略省，由三个独立网络（受保护的视觉环境的间歇监测，改善;加拿大空气和降水监控网络，CAPMON;和加拿大气溶胶基线测量，CABM）进行了比较。具体地，该研究评估了样品收集和分析的差异影响了总碳（TC），有机碳（OC）和元素碳（EC）的浓度。结果表明，由于不同的采样系统/频率，分析协议和伪影校正，各种网络通过各种网络测量的不同碳质馏分在10年内的三个网络中一致而符合和可比。从改进的转矩（表示为DRI-TOR）方法之后的DRI模型2001热光学碳分析仪中获得的CAPMON TC，OC和EC低于从改进的方法测定17％，14％，分别为18％。在使用透射率进行炭化校正时，从日落-TOT获得的相应碳质级分分为多达30％，15％和75％。相比之下，从热方法中获得的CABM TC，OC和EC Encan-Total-900（Ect9）高于来自改进的相应级分20％-30％，0％15％和60％分别为-80％。当环境温度超过10摄氏度时发现环境oc和EC浓度增加。夏季期间的这些oc的这些增加的环境浓度可能归因于二次有机气溶胶（SOA）形成和森林火灾排放，而EC浓度潜在受森林的影响火灾排放量增加。结果还表明，虽然仍需要更多的研究，但从Ect9协议获得的热解的有机碳（POC）可以提供有关SOA的额外信息。

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《Atmospheric Measurement Techniques 》 |2019年第8期| 共18页
作者
Chan Tak W.; Huang Lin; Banwait Kulbir; Zhang Wendy; Ernst Darrell; Wang Xiaoliang; Watson John G.; Chow Judith C.; Green Mark; Czimczik Claudia I.; Santos Guaciara M.; Sharma Sangeeta; Jones Keith;
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Environm &

Climate Change Canada Climate Res Div Climate Chem Measurements &

Res 4905 Dufferin St Toronto ON M3H 5T4 Canada;

Environm &

Climate Change Canada Climate Res Div Climate Chem Measurements &

Res 4905 Dufferin St Toronto ON M3H 5T4 Canada;

Environm &

Climate Change Canada Air Qual Res Div Measurements &

Anal Res Sect 4905 Dufferin St Toronto ON M3H 5T4 Canada;

Environm &

Climate Change Canada Climate Res Div Climate Chem Measurements &

Res 4905 Dufferin St Toronto ON M3H 5T4 Canada;

Environm &

Climate Change Canada Climate Res Div Climate Chem Measurements &

Res 4905 Dufferin St Toronto ON M3H 5T4 Canada;

Desert Res Inst Environm Anal Facil Div Atmospher Sci 2215 Raggio Pkwy Reno NV 89512 USA;

Desert Res Inst Environm Anal Facil Div Atmospher Sci 2215 Raggio Pkwy Reno NV 89512 USA;

Desert Res Inst Environm Anal Facil Div Atmospher Sci 2215 Raggio Pkwy Reno NV 89512 USA;

Desert Res Inst Environm Anal Facil Div Atmospher Sci 2215 Raggio Pkwy Reno NV 89512 USA;

Univ Calif Irvine Earth Syst Sci Irvine CA 92697 USA;

Univ Calif Irvine Earth Syst Sci Irvine CA 92697 USA;

Environm &

Climate Change Canada Climate Res Div Climate Chem Measurements &

Res 4905 Dufferin St Toronto ON M3H 5T4 Canada;

Meteorol Serv Canada Predict Serv Directorate Predict Serv Operat West Appl Environm Predict Sci Pacific &

Yukon 201-401 Burrard St Vancouver BC V6C 3S5 Canada;

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1. Inter-comparison of elemental and organic carbon mass measurements from three North American national long-term monitoring networks at a co-located site [J] . Chan Tak W., Huang Lin, Banwait Kulbir, Atmospheric Measurement Techniques . 2019 ,第8期

机译：在共同位于北美国家长期监测网络中的元素和有机碳质量测量的互相差异
2. Comparison of co-located refractory black carbon (rBC) and elemental carbon (EC) mass concentration measurements during field campaigns at several European sites [J] . Pileci Rosaria E., Spindler Gerald, Wehner Birgit, Atmospheric Measurement Techniques . 2021 ,第2期

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3. Comparison of co-located refractory black carbon (rBC) and elemental carbon (EC) mass concentration measurements during field campaigns at several European sites [J] . Pileci Rosaria E., Spindler Gerald, Wehner Birgit, Atmospheric Measurement Techniques Discussions . 2021 ,第2期

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4. Inter-comparison of Black Carbon and Elemental Carbon Measurement Methods [C] . Brandon Feenstra, Andrea Polidori, Philip Fine, Air quality measurement methods and technology conference . 2013

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5. Trends, Optical Properties, and Source Contributions to Elemental and Organic Carbon Influencing the North American Arctic [D] . Barrett, Tate E. 2016

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6. Combining Positive Matrix Factorization and Radiocarbon Measurements for Source Apportionment of PM2.5 from a National Background Site in North China [O] . Xiaoping Wang, Zheng Zong, Chongguo Tian, -1

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7. Inter-comparison of the Elemental and Organic Carbon Mass Measurements from Three North American National Long-term Monitoring Networks [O] . Tak W. Chan, Lin Huang, Kulbir Banwait, 2019

机译：三北美国家长期监测网络中元素和有机碳质量测量的互相差异

Inter-comparison of elemental and organic carbon mass measurements from three North American national long-term monitoring networks at a co-located site

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