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References (44)
-
Sang-Sam Lee, Y. Chun, J. Nam, Soon-Ung Park, Eun Lee (2005)
Estimation of Dry Deposition during Asian Dust Events in Spring of 2002Journal of the Meteorological Society of Japan, 83
-
(2006)
Instruction manual for the UM-MCIP meteorological pre-processor -
D. Byun, K. Schere (2006)
Review of the Governing Equations, Computational Algorithms, and Other Components of the Models-3 Community Multiscale Air Quality (CMAQ) Modeling SystemApplied Mechanics Reviews, 59
-
H. In, Soon-Ung Park (2003)
The soil particle size dependent emission parameterization for an Asian dust (Yellow Sand) observed in Korea in April 2002Atmospheric Environment, 37
-
Y. Shao, M. Klose, K. Wyrwoll (2013)
Recent global dust trend and connections to climate forcingJournal of Geophysical Research: Atmospheres, 118
-
I. Uno, Zifa Wang, M. Chiba, Y. Chun, S. Gong, Y. Hara, E. Jung, S. Lee, Ming Liu, M. Mikami, S. Music, S. Nickovic, S. Satake, Y. Shao, Zhenxin Song, N. Sugimoto, T. Tanaka, D. Westphal (2006)
Dust model intercomparison (DMIP) study over Asia: OverviewJournal of Geophysical Research, 111
-
Y. Shao, Yan Yang, Jianjie Wang, Zhenxin Song, L. Leslie, C. Dong, Zhihuang Zhang, Zhaohui Lin, Y. Kanai, S. Yabuki, Y. Chun (2003)
Northeast Asian dust storms: Real‐time numerical prediction and validationJournal of Geophysical Research, 108
-
Y. Kurosaki, M. Mikami (2003)
Recent frequent dust events and their relation to surface wind in East AsiaGeophysical Research Letters, 30
-
H. Kwon, Soo‐Hun Cho, Y. Chun, F. Lagarde, G. Pershagen (2002)
Effects of the Asian dust events on daily mortality in Seoul, Korea.Environmental research, 90 1
-
Eun-Hee Lee, Erdenebayar Munkhtsetseg, Seungbum Kim, J. Ha, Sang-Sam Lee, Y. Chun (2013)
Numerical simulation and evaluation of Asian dust events observed in Mongolia in spring 2011Asia-Pacific Journal of Atmospheric Sciences, 49
-
Youngsin Chun, Kyung Boo, Jiyoung Kim, Soon Park, Meehye Lee (2001)
Synopsis, transport, and physical characteristics of Asian dust in KoreaJournal of Geophysical Research, 106
-
T. Davies, M. Cullen, A. Malcolm, M. Mawson, A. Staniforth, A. White, N. Wood (2005)
A new dynamical core for the Met Office's global and regional modelling of the atmosphereQuarterly Journal of the Royal Meteorological Society, 131
-
Soon-Ung Park, H. In (2003)
Parameterization of dust emission for the simulation of the yellow sand (Asian dust) event observed in March 2002 in KoreaJournal of Geophysical Research, 108
-
Sang-Sam Lee, Eun-Hee Lee, B. Sohn, H. Lee, J. Cho, S. Ryoo (2017)
Improved Dust Forecast by Assimilating MODIS IR-Based Nighttime AOT in the ADAM2 ModelSola, 13
-
Soon-Ung Park, A. Choe, Eun-Hee Lee, Moon-Soo Park, Xingzhuo Song (2010)
The Asian Dust Aerosol Model 2 (ADAM2) with the use of Normalized Difference Vegetation Index (NDVI) obtained from the Spot4/vegetation dataTheoretical and Applied Climatology, 101
-
(2002)
Atmos -
Jianping Huang, P. Minnis, B. Lin, Tianhe Wang, Y. Yi, Yongxiang Hu, S. Sun-Mack, K. Ayers (2006)
Possible influences of Asian dust aerosols on cloud properties and radiative forcing observed from MODIS and CERESGeophysical Research Letters, 33
-
Soon-Ung Park, Eun-Hee Lee (2004)
Parameterization of Asian dust (Hwangsa) particle-size distributions for use in dust emission modelsAtmospheric Environment, 38
-
I. Uno, S. Satake, G. Carmichael, Youhua Tang, Zifa Wang, T. Takemura, N. Sugimoto, A. Shimizu, T. Murayama, T. Cahill, S. Cliff, M. Uematsu, S. Ohta, P. Quinn, T. Bates (2004)
Numerical study of Asian dust transport during the springtime of 2001 simulated with the Chemical Weather Forecasting System (CFORS) modelJournal of Geophysical Research, 109
-
Xiaoye Zhang, S. Gong, S. Gong, T. Zhao, R. Arimoto, Yaqiang Wang, Z. Zhou (2003)
Sources of Asian dust and role of climate change versus desertification in Asian dust emissionGeophysical Research Letters, 30
-
H. In, Soon-Ung Park (2002)
A simulation of long-range transport of Yellow Sand observed in April 1998 in KoreaAtmospheric Environment, 36
-
G. Shepherd, E. Terradellas, A. Baklanov, Utchang Kang, W. Sprigg, S. Nickovic, A. Boloorani, A. Al-Dousari, S. Basart, A. Benedetti, A. Sealy, Daniel Tong, Xiaoye Zhang, J. Shumake-Guillemot, Ke-qiang Zhang, P. Knippertz, Abdulkareem Mohammed, M. Al-Dabbas, Leilei Cheng, S. Otani, Feng Wang, Chengyi Zhang, S. Ryoo, Cha Joowan (2016)
Global assessment of sand and dust storms -
Xunming Wang, Fahu Chen, Z. Dong (2006)
The relative role of climatic and human factors in desertification in semiarid ChinaGlobal Environmental Change-human and Policy Dimensions, 16
-
Cheng-long Zhou, S. Gong, Xiaoye Zhang, Y. Wang, T. Niu, Hongli Liu, T. Zhao, Yuanqin Yang, Q. Hou (2007)
Development and evaluation of an operational SDS forecasting system for East Asia: CUACE/DustAtmospheric Chemistry and Physics, 8
-
C. Claiborn, D. Finn, T. Larson, J. Koenig (2000)
Windblown Dust Contributes to High PM25 ConcentrationsJournal of the Air & Waste Management Association, 50
-
(2010)
andCoauthors, 2010:Asian dust storm and pulmonary -
S. Kashima, T. Yorifuji, Sanghyuk Bae, Y. Honda, Y. Lim, Yun-Chul Hong (2016)
Asian dust effect on cause-specific mortality in five cities across South Korea and JapanAtmospheric Environment, 128
-
(2001)
Boxplots of PM 10 of MEP (black) and ADAM2 (red) in case of a hit, miss, false alarm (FA), or correct rejection (CR) over each region -
Eun-Hee Lee, J. Ha, Sang-Sam Lee, Y. Chun (2013)
PM10 data assimilation over south Korea to Asian dust forecasting model with the optimal interpolation methodAsia-Pacific Journal of Atmospheric Sciences, 49
-
Yun-Chul Hong, Xiaochuan Pan, Su-Young Kim, Kwangsik Park, Eun-Jung Park, Xiaobin Jin, S. Yi, Yoon Kim, Choonghee Park, Sanghwan Song, Ho Kim (2010)
Asian Dust Storm and pulmonary function of school children in Seoul.The Science of the total environment, 408 4
-
Cheol-Hee Kim, Hyo-Jung Lee (2013)
Numerical simulations of Asian dust events: A Lagrangian Dust Model and its applicationsAsia-Pacific Journal of Atmospheric Sciences, 49
-
Eun-Hee Lee, B. Sohn (2011)
Recent increasing trend in dust frequency over Mongolia and Inner Mongolia regions and its association with climate and surface condition changeAtmospheric Environment, 45
-
Yaqiang Wang, Xiaoye Zhang, S. Gong, Cheng-long Zhou, X. Hu, H. Liu, T. Niu, Yuanqin Yang (2007)
Surface observation of sand and dust storm in East Asia and its application in CUACE/DustAtmospheric Chemistry and Physics, 8
-
J. Plaza, M. Pujadas, F. Gómez-Moreno, Miguel Sánchez, B. Artíñano (2011)
Mass size distributions of soluble sulfate, nitrate and ammonium in the Madrid urban aerosolAtmospheric Environment, 45
-
Y. Shao, C. Dong (2006)
A review on East Asian dust storm climate, modelling and monitoringGlobal and Planetary Change, 52
-
Y. Kurosaki, M. Shinoda, M. Mikami (2011)
What caused a recent increase in dust outbreaks over East Asia?Geophysical Research Letters, 38
-
Soon-Ung Park, A. Choe, Moon-Soo Park (2011)
Asian dust depositions over the Asian region during March 2010 estimated by ADAM2Theoretical and Applied Climatology, 105
-
T. Tanaka, M. Chiba (2005)
Global Simulation of Dust Aerosol with a Chemical Transport Model, MASINGAR( ADEC-Aeolian Dust Experiment on Climate Impact-)Journal of the Meteorological Society of Japan, 83
-
Sang Kim, Soon-chang Yoon, A. Jefferson, J. Ogren, E. Dutton, Jae-Gwang Won, Y. Ghim, Byung-il Lee, Jin-Seok Han (2005)
Aerosol optical, chemical and physical properties at Gosan, Korea during Asian dust and pollution episodes in 2001Atmospheric Environment, 39
-
Jiyoung Kim (2008)
Transport routes and source regions of Asian dust observed in Korea during the past 40 years (1965–2004)Atmospheric Environment, 42
-
Eun-Hee Lee, Seungbum Kim, J. Ha, Y. Chun (2012)
Performance Analysis of Simulation of Asian Dust Observed in 2010 by the all-Season Dust Forecasting Model, UM-ADAM2Atmosphere, 22
-
S. Gong, X. Zhang (2007)
CUACE/Dust – an integrated system of observation and modeling systems for operational dust forecasting in AsiaAtmospheric Chemistry and Physics, 8
-
D. Giannadaki, A. Pozzer, J. Lelieveld (2013)
Modeled global effects of airborne desert dust on air quality and premature mortalityAtmospheric Chemistry and Physics, 14
-
Xuelei Zhang, Lijing Zhao, D. Tong, Guangjian Wu, M. Dan, B. Teng (2016)
A Systematic Review of Global Desert Dust and Associated Human Health Effects, 7
- Publisher
- American Meteorological Society
- Copyright
- Copyright © American Meteorological Society
- ISSN
- 1520-0434
- eISSN
- 1520-0434
- DOI
- 10.1175/WAF-D-19-0008.1
- Publisher site
- See Article on Publisher Site
Abstract
AbstractThis study evaluates the Korea Meteorological Administration (KMA) Asian Dust Aerosol Model 2 (ADAM2) for Asian dust events over the dust source regions in northern China during the first half of 2017. Using the observed hourly particulate matter (PM) concentration from the China Ministry of Environmental Protection (MEP) and station weather reports, we find that a threshold value of PM10–PM2.5 = 400 μg m−3 works well in defining an Asian dust event for both the MEP-observed and the ADAM2-simulated data. In northwestern China, ADAM2 underestimates the observed dust days mainly due to underestimation of dust emissions; ADAM2 overestimates the observed Asian dust days over Manchuria due to overestimation of dust emissions. Performance of ADAM2 in estimating Asian dust emissions varies quite systematically according to dominant soil types within each region. The current formulation works well for the Gobi and sand soil types, but substantially overestimates dust emissions for the loess-type soils. This suggests that the ADAM2 model errors are likely to originate from the soil-type-dependent dust emissions formulation and that the formulation for the mixed and loess-type soils needs to be recalibrated. In addition, inability to account for the concentration of fine PMs from anthropogenic sources results in large false-alarm rates over heavily industrialized regions. Direct calculation of PM2.5 in the upcoming ADAM3 model is expected to alleviate the problems related to anthropogenic PMs in identifying Asian dust events.
Journal
Weather and Forecasting – American Meteorological Society
Published: Dec 9, 2019