Long-range air pollution transport in East Asia during the first week of the COVID-19 lockdown in China
暂无分享,去创建一个
S. Griffith | N. Lin | Sheng-Hsiang Wang | Wei-Syun Huang | Kuo-En Chang | Ying-Chieh Chen | T. Lin | Chia-Ching Lin
[1] M. C. Ooi,et al. Air quality changes during the COVID-19 lockdown over the Yangtze River Delta Region: An insight into the impact of human activity pattern changes on air pollution variation , 2020, Science of The Total Environment.
[2] Kangping Cui,et al. Impact of the COVID-19 Event on Air Quality in Central China , 2020 .
[3] P. Grenier,et al. Long-range transport of legacy organic pollutants affects alpine fish eaten by ospreys in western Canada. , 2020, The Science of the total environment.
[4] Hongliang Zhang,et al. Severe air pollution events not avoided by reduced anthropogenic activities during COVID-19 outbreak , 2020, Resources, Conservation and Recycling.
[5] Joshua S. Fu,et al. Analysis of air quality and health co-benefits regarding electric vehicle promotion coupled with power plant emissions , 2020, Journal of Cleaner Production.
[6] Cheng-Hsuan Lu,et al. Investigation of long-range transported PM2.5 events over Northern Taiwan during 2005–2015 winter seasons , 2019, Atmospheric Environment.
[7] G. Evans,et al. Transboundary and traffic influences on air pollution across two Caribbean islands. , 2019, The Science of the total environment.
[8] J. Chow,et al. Characteristics of atmospheric PM2.5 composition during the implementation of stringent pollution control measures in shanghai for the 2016 G20 summit. , 2019, The Science of the total environment.
[9] Meng Li,et al. Trends in China's anthropogenic emissions since 2010 as the consequence of clean air actions , 2018, Atmospheric Chemistry and Physics.
[10] P. Lin,et al. Differentiating between local and remote pollution over Taiwan. , 2018, Aerosol and air quality research.
[11] Xiaoyang Yang,et al. Concentrations of metallic elements in long-range-transported aerosols measured simultaneously at three coastal sites in China and Japan , 2018, Journal of Atmospheric Chemistry.
[12] Ming Luo,et al. Trans-boundary air pollution in a city under various atmospheric conditions. , 2018, The Science of the total environment.
[13] A. Takami,et al. Chemical characterization of wintertime aerosols over Islands and mountains in East Asia: Impacts of the continental Asian outflow , 2017 .
[14] Sui Yan. The “APEC blue” , 2017 .
[15] Ling-yan He,et al. Differentiating local and regional sources of Chinese urban air pollution based on the effect of the Spring Festival , 2017 .
[16] G. Carmichael,et al. MIX: a mosaic Asian anthropogenic emission inventory under the international collaboration framework of the MICS-Asia and HTAP , 2017 .
[17] J. Schauer,et al. Relative impact of emissions controls and meteorology on air pollution mitigation associated with the Asia-Pacific Economic Cooperation (APEC) conference in Beijing, China. , 2016, The Science of the total environment.
[18] Y. Kurosaki,et al. Nitrate transboundary heavy pollution over East Asia in winter , 2016 .
[19] M. Yen,et al. Transport characteristics of Chinese haze over Northern Taiwan in winter, 2005–2014 , 2016 .
[20] Xingying Zhang,et al. The “APEC Blue” phenomenon: Regional emission control effects observed from space , 2015 .
[21] David G. Streets,et al. Aura OMI observations of regional SO2 and NO2 pollution changes from 2005 to 2015 , 2015 .
[22] Y. Sadanaga,et al. Light absorption and morphological properties of soot-containing aerosols observed at an East Asian outflow site, Noto Peninsula, Japan , 2015 .
[23] Kihong Park,et al. Chemical characteristics of long-range-transported fine particulate matter at Gosan, Jeju Island, in the spring and fall of 2008, 2009, 2011, and 2012 , 2015, Journal of the Air & Waste Management Association.
[24] M. Hayashi,et al. Impact of long-range transport of aerosols on the PM2.5 composition at a major metropolitan area in the northern Kyushu area of Japan , 2014 .
[25] Chuan-Yao Lin,et al. Increase of Ambient PCDD/F Concentrations in Northern Taiwan during Asian Dust Storm and Winter Monsoon Episodes , 2014 .
[26] C. Chou,et al. Impact of urbanization on the air pollution “holiday effect” in Taiwan , 2013 .
[27] Zifa Wang,et al. Impact of different transport mechanisms of Asian dust and anthropogenic pollutants to Taiwan , 2012 .
[28] L. Emmons,et al. The Model of Emissions of Gases and Aerosols from Nature version 2.1 (MEGAN2.1): an extended and updated framework for modeling biogenic emissions , 2012 .
[29] Chiang-Hsing Yang,et al. Estimated Effects of Asian Dust Storms on Spatiotemporal Distributions of Clinic Visits for Respiratory Diseases in Taipei Children (Taiwan) , 2012, Environmental health perspectives.
[30] Kentaro Hayashi,et al. Deposition velocity of PM2.5 sulfate in the summer above a deciduous forest in central Japan , 2010 .
[31] James R. Campbell,et al. Impact of Asian dust and continental pollutants on cloud chemistry observed in northern Taiwan during the experimental period of ABC/EAREX 2005 , 2010 .
[32] John C. Gille,et al. Satellite observations of changes in air quality during the 2008 Beijing Olympics and Paralympics , 2009 .
[33] J. W. Munger,et al. Ozone Air Quality During the 2008 Beijing Olympics: Effectiveness of Emission Restrictions , 2009 .
[34] Chang-Chuan Chan,et al. Simulation of long-range transport aerosols from the Asian Continent to Taiwan by a southward Asian high-pressure system. , 2008, The Science of the total environment.
[35] S. Liu,et al. Implications of the chemical transformation of Asian outflow aerosols for the long-range transport of inorganic nitrogen species , 2008 .
[36] N. Lin,et al. Rainwater chemistry at a high‐altitude station, Mt. Lulin, Taiwan: Comparison with a background station, Mt. Fuji , 2008 .
[37] Chang-Chuan Chan,et al. Increasing cardiopulmonary emergency visits by long-range transported Asian dust storms in Taiwan. , 2008, Environmental research.
[38] N. Sugimoto,et al. Long-range transport of Asian dust and air pollutants to Taiwan: observed evidence and model simulation , 2006 .
[39] H. Hansson,et al. Speciation and origin of PM10 and PM2.5 in selected European cities , 2004 .
[40] Mar Viana,et al. Speciation and origin of PM10 and PM2.5 in Spain , 2004 .
[41] Roland R. Draxler,et al. Evaluation of an ensemble dispersion calculation , 2003 .
[42] L. Gray,et al. A dose-response analysis of the reproductive effects of a single gestational dose of 2,3,7,8-tetrachlorodibenzo-p-dioxin in male Long Evans Hooded rat offspring. , 1997, Toxicology and applied pharmacology.
[43] B. Bush,et al. PCB levels in egg yolks associated with embryonic mortality and deformity of hatched chicks , 1973, Archives of environmental contamination and toxicology.
[44] C. Yuan,et al. Inter-correlation of Chemical Compositions, Transport Routes, and Source Apportionment Results of Atmospheric PM2.5 in Southern Taiwan and the Northern Philippines , 2019, Aerosol and Air Quality Research.
[45] G. Sheu,et al. Four-year Measurements of Wet Mercury Deposition at a Tropical Mountain Site in Central Taiwan , 2019, Aerosol and Air Quality Research.
[46] F. Cheng,et al. Synoptic Weather Patterns and Associated Air Pollution in Taiwan , 2019, Aerosol and Air Quality Research.
[47] Nawaf I. Blaisi,et al. Source Identification of Episodic Rain Pollutants by New Approach: Combining Satellite Observations and Backward Air Mass Trajectories , 2019, Aerosol and Air Quality Research.
[48] M. Hayashi,et al. Aerial Observation of Atmospheric Nanoparticles on Fukue Island, Japan , 2019, Aerosol and Air Quality Research.
[49] Jong-Jae Lee,et al. Meteorological Overview and Signatures of Long-range Transport Processes during the MAPS-Seoul 2015 Campaign , 2018 .
[50] Tang-Huang Lin,et al. A Simulation Study on PM2.5 Sources and Meteorological Characteristics at the Northern Tip of Taiwan in the Early Stage of the Asian Haze Period , 2017 .
[51] Gan Zhang,et al. Atmospheric deposition of polychlorinated dibenzo-p-dioxins and dibenzofurans (PCDD/Fs) in Guangzhou, China , 2007 .
[52] Jeffrey M. Vukovich,et al. The Implementation of BEIS3 within the SMOKE modeling framework , 2002 .
[53] M. Gilbertson. Etiology of chick edema disease in Herring Gulls in the lower Great Lakes , 1983 .
[54] G. Sheu,et al. Four-year Measurements of Wet Mercury Deposition at a Tropical 1 Mountain Site in Central Taiwan 2 3 , 2022 .