Verification of Chemical Transport Models for PM2.5 Chemical Composition Using Simultaneous Measurement Data over Japan

Morino, Yu; Nagashima, Tatsuya; Sugata, Seiji; Sato, Kei; Toko, Kiyoshi; Noguchi, Tadayoshi; Takami, Akinori; Tanimoto, Hiroshi; Ohara, Toshimasa

doi:10.4209/aaqr.2015.02.0120

Cited by 32 publications

(47 citation statements)

References 30 publications

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“…Threedimensional model simulations implementing this scheme show increased mass concentrations of organics, yielding better agreement with observations over the United States, Europe, and at a global scale (e.g., Fountoukis et al, 2011;Jathar et al, 2011;Ahmadov et al, 2012;Barbet et al, 2016). Recently, the VBS scheme has been introduced into regional model simulations for East Asia (Matsui et al, 2014;Morino et al, 2014Morino et al, , 2015Han et al, 2016;Lin et al, 2016). As some of these studies focused on urban conditions, only a subset has analyzed the regional-scale features in the context of continental outflows from East Asia.…”

Section: Introductionmentioning

confidence: 88%

“…Tai (36.27°N, 117.10°E; 1545 m above sea level (asl)), Shandong Province, China. Morino et al (2015) used filter analysis data from six remote/rural sites in Japan (Tsushima, Oki, Kyotango, Tateyama, Sado, and Rishiri). Clearly more observational data from the East China Sea region are desired to obtain a better context, particularly for occasions of transport of continental air masses with high aerosol loadings.…”

Section: Introductionmentioning

confidence: 99%

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Observed and Modeled Mass Concentrations of Organic Aerosols and PM2.5 at Three Remote Sites around the East China Sea: Roles of Chemical Aging

Kanaya

Matsui

Taketani

et al. 2017

Aerosol Air Qual. Res.

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Severe PM 2.5 air pollution over the Asian continent is occasionally transported across the East China Sea by the westerly winds to Japan, continuing for long distances over the Pacific Ocean. Despite such polluted air masses causing health issues, conventional models tend to underestimate levels of organic aerosols (OA) and PM 2.5 . Here, PM 2.5 and its major components recorded during three field campaigns carried out at Fukue Island (32.75°N, 128.68°E), Japan (spring 2009), Rudong (32.25°N, 121.37°E), China (spring 2010), and Jeju (33.35°N, 126.39°E), Korea (autumn 2012) around the East China Sea were used to test the performance of the Weather Research and Forecasting-Chem/ATRAS-MOSAIC model. Overall, model performance was improved by introducing chemical aging represented by a volatility basis-set scheme, whereby median values of the model/observation ratio for OA were raised to 0.34-1.28 from 0.30-0.35 in the case of conventional settings. In particular, the levels of OA at the Fukue site and daytime buildup of the OA levels at all three sites were reproduced by the model. OA levels were still sometimes underestimated. This suggests that either emission rates of organic precursors are being underestimated or other pathways of OA formation are also important. Our analysis also indicates that this region is characterized by high OH concentrations, promoting chemical aging. The predictions of PM 2.5 levels in the model also improved, with median values of the model/observation ratio shifting from 0.67-0.91 to 0.68-0.95, when chemical aging of OA was taken into account.

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Section: Introductionmentioning

confidence: 88%

Section: Introductionmentioning

confidence: 99%

Observed and Modeled Mass Concentrations of Organic Aerosols and PM2.5 at Three Remote Sites around the East China Sea: Roles of Chemical Aging

Kanaya

Matsui

Taketani

et al. 2017

Aerosol Air Qual. Res.

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“…In particular, issues related to semi-volatile and condensable organic compounds have been extensively studied in Japan [15] and worldwide, e.g., [16]. On the other hand, issues related to vertical diffusion and secondary inorganic aerosols remain unsolved.…”

Section: History Of Model Inter-comparison Related To Japanmentioning

confidence: 99%

“…On the other hand, issues related to vertical diffusion and secondary inorganic aerosols remain unsolved. Although the implications of dry deposition velocities of NH 3 and HNO 3 were adapted to the air quality study in Japan [15,17], specific measurements are urgently required to increase our understanding of the behavior of fine particulate nitrate. In addition, photochemical ozone was not targeted, and comparisons with models other than CMAQ was scarce in UMICS.…”

Section: History Of Model Inter-comparison Related To Japanmentioning

confidence: 99%

Overview of Model Inter-Comparison in Japan’s Study for Reference Air Quality Modeling (J-STREAM)

et al. 2018

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Abstract:The inter-comparison of regional air quality models is an effective way to understand uncertainty in ambient pollutant concentrations simulated using various model configurations, as well as to find ways to improve model performance. Based on the outcomes and experiences of Japanese projects thus far, a new model inter-comparison project called Japan's study for reference air quality modeling (J-STREAM) has begun. The objective of J-STREAM is to establish reference air quality modeling for source apportionment and effective strategy making to suppress secondary air pollutants including PM 2.5 and photochemical ozone in Japan through model inter-comparison. The first phase focuses on understanding the ranges and limitations in ambient PM 2.5 and ozone concentrations simulated by participants using common input datasets. The second phase focuses on issues revealed in previous studies in simulating secondary inorganic aerosols, as well as on the three-dimensional characteristics of photochemical ozone as a new target. The third phase focuses on comparing source apportionments and sensitivities under heavy air pollution episodes simulated by participating models. Detailed understanding of model performance, uncertainty, and possible improvements to urban-scale air pollution involving secondary pollutants, as well as detailed sector-wise source apportionments over megacities in Japan are expected.

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“…Volatility basis-set (VBS) models have improved the prediction of atmospheric SOA levels by accounting for the decrease in SOA volatility with photochemical aging . Our group recently compared 25 the results of VBS model simulations with observational data from several urban and rural sites leeward of mainland East Asia (Morino et al, 2015). The VBS model improved the prediction of ambient organic aerosol levels in spring and summer, but still included large uncertainties.…”

Section: Introductionmentioning

confidence: 99%

Lower than expected volatility of secondary organic aerosols formed during α-pinene ozonolysis

Sato¹,

Fujitani²,

Inomata³

et al. 2017

Preprint

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Abstract.Traditional yield curve analysis shows that semi-volatile organic compounds are a major component of secondary organic aerosols (SOAs). We investigated the volatility distribution of SOAs from α-pinene 10 ozonolysis using positive electrospray ionization mass analysis and dilution-and heat-induced evaporation measurements. Laboratory chamber experiments were conducted on α-pinene ozonolysis, in the presence and absence of OH scavengers. Among these, we identified not only semi-volatile products, but also less volatile highly oxygenated molecules (HOMs) and dimers. Ozonolysis products were further exposed to OH radicals to check the effects of photochemical aging. HOMs were also formed during OH-initiated photochemical aging. 15Most HOMs that formed from ozonolysis and photochemical aging had ten or less carbons. SOA particle evaporation after instantaneous dilution was measured at <1% and ~40% relative humidity. The particle volume fraction remaining decreased with time and stabilised more than 3 h after dilution. The formation of compounds less volatile than of semi-volatile products, and the slow SOA evaporation, contradict the assumptions of current atmospheric simulation models. 20

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Verification of Chemical Transport Models for PM2.5 Chemical Composition Using Simultaneous Measurement Data over Japan

Cited by 32 publications

References 30 publications

Observed and Modeled Mass Concentrations of Organic Aerosols and PM2.5 at Three Remote Sites around the East China Sea: Roles of Chemical Aging

Observed and Modeled Mass Concentrations of Organic Aerosols and PM2.5 at Three Remote Sites around the East China Sea: Roles of Chemical Aging

Overview of Model Inter-Comparison in Japan’s Study for Reference Air Quality Modeling (J-STREAM)

Lower than expected volatility of secondary organic aerosols formed during α-pinene ozonolysis

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