Ancelet, T., Davy, P. K., Trompetter, W. J., Markwitz, A., 2014, “Sources of particulate matter pollution in a small new zealand city”, Atmospheric Pollution Research, Vol. 5, pp. 572-580.
Bern, C. R., Walton-Day, K., Naftz, D. L., 2019, “Improved enrichment factor calculations through principal component analysis: Examples from soils near breccia pipe uranium mines, Arizona, USA”, Environmental Pollution, Vol. 248, pp. 90-100.
Castell, N., Schneider, P., Grossberndt, S., Fredriksen, M. F., Sousa-Santos, G., Vogt, M., Bartonova, A., 2018, “Localized real-time information on outdoor air quality at kindergartens in Oslo, Norway using low-cost sensor nodes”, Environmental Research, Vol. 165, pp. 410-419.
Clements, A. L., Reece, S., Conner, T., Williams, R., 2019, “Observed data quality concerns involving low-cost air sensors”, Atmospheric Environment: X, Vol. 3, pp. 100034.
Canha, N., Alves, A. C., Marta, C. S., Lage, J., Belo, J., Faria, T., Verde, S. C., Viegas, C., Alves, C., Almeida, S. M., 2020, “Compliance of indoor air quality during sleep with legislation and guidelines – A case study of Lisbon dwellings”, Environmental Pollution, Vol. 264, pp.114619.
Davy, P. K., Ancelet, T., Trompetter, W. J., Markwitz, A., Weatherburn, D. C., 2012, “Composition and source contributions of air particulate matter pollution in a New Zealand suburban town”, Atmospheric Pollution Research, Vol. 3, pp. 143-147.
Datta, A., Suresh, R., Gupta, A., Singh, D., Kulshrestha, P., 2017, “Indoor air quality of non-residential urban buildings in Delhi, India”, International Journal of Sustainable Built Environment, Vol. 6, pp. 412-420.
de Rooij, M. M. T., Smit, L. A. M., Erbrink, H. J., Hagenaars, T. J., Hoek, G., Ogink, N. W. M., Winkel, A., Heederik, D. J. J., Wouters, I. M. 2019, “Endotoxin and particulate matter emitted by livestock farms and respiratory health effects in neighboring residents”, Environment International, Vol. 132, pp. 105009.
Guo, C., Zhang, Z., Lau, A. K. H., Lin, C. Q., Chuang, Y. C., Chan, J., Jiang, W. K., Tam, T., Yeoh, E. K., Chan, T. C., Chang, L. Y., Lao, X. Q., 2018, “Effect of long-term exposure to fine particulate matter on lung function decline and risk of chronic obstructive pulmonary disease in Taiwan: a longitudinal, cohort study”, The Lancet Planetary Health, Vol. 2, pp. e114-e125.
Harrison, R. M., Yin, J., 2000, “Particulate matter in the atmosphere: Which particle properties are important for its effects on health?”, Science of the Total Environment, Vol. 249, pp. 85-101.
Hu, Z., Wang, J., Chen, Y., Chen, Z., Xu, S., 2014, “Concentrations and source apportionment of particulate matter in different functional areas of Shanghai, China”, Atmospheric Pollution Research, Vol. 5, pp. 138-144.
Heimann, I., Bright, V. B., McLeod, M. W., Mead, M. I., Popoola, O. A. M., Stewart, G. B.,Jones, R. L. 2015, “Source attribution of air pollution by spatial scale separation using high spatial density networks of low cost air quality sensors”, Atmospheric Environment, Vol. 113, pp. 10-19.
Hopke, P. K., Dai, Q., Li, L., Feng, Y., 2020, “Global review of recent source apportionments for airborne particulate matter”, Science of the Total Environment journal, Vol. 740, pp. 140091.
Jedrychowski, W., Perera, F., Mrozek-Budzyn, D., Mroz, E., Flak, E., Spengler, J. D., Edwards, S., Jacek, R., Kaim, I., Skolicki, Z., 2009, “Gender differences in fetal growth of newborns exposed prenatally to airborne fine particulate matter”, Environmental Research, Vol. 109, pp. 447-456.
Jeong, C. H., McGuire, M. L., Herod, D., Dann, T., Dabek–Zlotorzynska, E., Wang, D., Ding, L., Celo, V., Mathieu, D., Evans, G., 2011, “Receptor model based identification of PM2.5 sources in Canadian cities”, Atmospheric Pollution Research, Vol. 2, pp. 158-171.
Karagulian, F., Belis, C. A., Dora, C. F. C., Prüss-Ustün, A. M., Bonjour, S., Adair-Rohani, H., Amann, M., 2015, “Contributions to cities' ambient particulate matter (PM): A systematic review of local source contributions at global level”, Atmospheric Environment journal, Vol. 120, pp. 475-483.
Kim, D., Chen, Z., Zhou, L. F., Huang, S. X., 2018, “Air pollutants and early origins of respiratory diseases”, Chronic Diseases and Translational Medicine, Vol. 4, pp. 75-94.
Kirrane, E. F., Luben, T. J., Benson, A., Owens, E. O., Sacks, J. D., Dutton, S. J., Madden, M., Nichols, J. L., 2019, “A systematic review of cardiovascular responses associated with ambient black carbon and fine particulate matter”, Environment International, Vol. 127, pp. 305-316.
Kaivonen, S., Ngai, E. C. H., 2019, “Real-time air pollution monitoring with sensors on city bus”, Digital Communications and Networks, Vol. 6, pp. 23-30.
Klemt, W. H., Kay, M. L., Wiklund, J. A., Wolfe, B. B., Hall, R. I., 2020, “Assessment of vanadium and nickel enrichment in Lower Athabasca River floodplain lake sediment within the Athabasca Oil Sands Region (Canada)”, Environmental Pollution, Vol. 265, pp. 114920.
Kim, I. S., Yang, P. S., Lee, J., Yu, H. T., Kim, T. H., Uhm, J. S., Kim, J. Y., Pak, H. N., Lee, M. H., Joung, B., 2020, “Long-term fine particulate matter exposure and cardiovascular mortality in the general population: a nationwide cohort study”, Journal of Cardiology, Vol. 75, pp. 549-558.
Loosmore, G. A., Hunt, J. R., 2000, “Dust resuspension without saltation”, Journal of Geophysical Research Atmospheres, Vol. 105, pp. 20663-20671.
Lung, S. C. C., Kao, M. C., 2003, “Worshippers’ Exposure to Particulate Matter in Two Temples in Taiwan”, Journal of the Air and Waste Management Association, Vol. 53, pp.130-135.
Lim, J. M., Lee, J. H., Moon, J. H., Chung, Y. S., Kim, K. H., 2010, “Source apportionment of PM10 at a small industrial area using Positive Matrix Factorization”, Atmospheric Research, Vol. 95, pp. 88-100.
Lung, S. C. C., Hsiao, P. K., Wen, T. Y., Liu, C. H., Fu, C. B., Cheng, Y. T., 2014, “Variability of intra-urban exposure to particulate matter and CO from Asian-type community pollution sources”, Atmospheric Environment, Vol. 83, pp. 6-13.
Liu, H., Xu, C., Jiang, Z. Y., Gu, A., 2016, “Association of polycyclic aromatic hydrocarbons and asthma among children 6-19 years: NHANES 2001-2008 and NHANES 2011-2012”, Respiratory Medicine, Vol. 110, pp. 20-27.
Landis, M. S., Patrick, P. J., Graney, J. R., White, E. M., Edgerton, E. S., Legge, A., Percy, K. E., 2017, “Source apportionment of ambient fine and coarse particulate matter at the Fort McKay community site, in the Athabasca Oil Sands Region, Alberta, Canada”, Science of the Total Environment journal, Vol. 584-585, pp. 105-117.
Li, T., Hu, R., Chen, Z., Li, Q., Huang, S., Zhu, Z., Zhou, L. F., 2018, “Fine particulate matter (PM2.5): The culprit for chronic lung diseases in China”, Chronic Diseases and Translational Medicine, Vol. 4, pp. 176-186.
Lim, C. C., Kim, H., Vilcassim, M. J. R., Thurston, G. D., Gordon, T., Chen, L. C., Lee, K., Heimbinder, M., Kim, S. Y., 2019, “Mapping urban air quality using mobile sampling with low-cost sensors and machine learning in Seoul, South Korea”, Environment International, Vol. 131, pp. 105022.
Murillo, J. H., Roman, S. R., Marin, J. F. R., Ramos, A. C., Jimenez, S. B., Gonzalez, B. C., Baumgardner, D. G., 2013, “Chemical characterization and source apportionment of PM10 and PM2.5 in the metropolitan area of Costa Rica, Central America”, Atmospheric Pollution Research, Vol. 4, pp. 181-190.
Onat, B., Sahin, U. A., Akyuz, T., 2013, “Elemental characterization of PM2.5 and PM1 in dense traffic area in Istanbul, Turkey”, Atmospheric Pollution Research, Vol. 4, pp. 101-105.
Owoade, K. O., Hopke, P. K., Olise, F. S., Ogundele, L. T., Fawole, O. G., Olaniyi, B. H., Jegede, O. O., Ayoola, M. A., Bashiru, M. I., 2015, “Chemical compositions and source identification of particulate matter (PM2.5 and PM2.5–10) from a scrap iron and steel smelting industry along the Ife–Ibadan highway, Nigeria”, Atmospheric Pollution Research, Vol. 6, pp. 107-119.
Oliveira, M., Slezakova, K., Delerue-Matos, C., Pereira, M. C., Morais, S., 2019, “Children environmental exposure to particulate matter and polycyclic aromatic hydrocarbons and biomonitoring in school environments: A review on indoor and outdoor exposure levels, major sources and health impacts”, Environment International, Vol. 124, pp. 180-204.
Omokungbe, O. R., Fawole, O. G., Owoade, O. K., Popoola, O. A. M., Jones, R. L., Olise, F. S., Ayoola, M. A., Abiodun, P. O., Toyeje, A. B., Olufemi, A. P., Sunmonu, L. A., Abiye, O. E., 2020, “Heliyon Analysis of the variability of airborne particulate matter with prevailing meteorological conditions across a semi-urban environment using a network of low-cost air quality sensors”, Heliyon, Vol. 6, pp. e04207.
Police, S., Sahu, S. K., Pandit, G. G., 2016, “Chemical characterization of atmospheric particulate matter and their source apportionment at an emerging industrial coastal city, Visakhapatnam, India”, Atmospheric Pollution Research, Vol. 7, pp. 725-733.
Popoola, O. A. M., Carruthers, D., Lad, C., Bright, V. B., Mead, M. I., Stettler, M. E. J., Saffell, J. R., Jones, R. L., 2018, “Use of networks of low cost air quality sensors to quantify air quality in urban settings”, Atmospheric Environment, Vol. 194, pp. 58-70.
Rodins, V., Lucht, S., Ohlwein, S., Hennig, F., Soppa, V., Erbel, R., Jöckel, K. H., Weimar, C., Hermann, D. M., Schramm, S., Moebus, S., Slomiany, U., Hoffmann, B., 2020, “Long-term exposure to ambient source-specific particulate matter and its components and incidence of cardiovascular events – The Heinz Nixdorf Recall study”, Environment International, Vol. 142, pp. 105854.
Shah, M. H., Shaheen, N., Nazir, R., 2012, “Assessment of the trace elements level in urban atmospheric particulate matter and source apportionment in Islamabad, Pakistan”, Atmospheric Pollution Research, Vol. 3, pp. 39-45.
Shen, D., Wu, S., Dai, P. Y., Li, Y. S., Li, C. M., 2018, “Distribution of particulate matter and ammonia and physicochemical properties of fine particulate matter in a layer house”, Poultry Science, Vol. 97, pp. 4137-4159.
Vossler, T., Cernikovsky, L., Novak, J., Placha, H., Krejci, B., Nikolova, I., Chalupnickova, E., Williams, R., 2015, “An investigation of local and regional sources of fine particulate matter in Ostrava, the Czech Republic”, Atmospheric Pollution Research, Vol. 6, pp. 454-463.
Wu, J. Z., Ge, D. D., Zhou, L. F., Hou, L. Y., Zhou, Y., Li, Q. Y., 2018, “Effects of particulate matter on allergic respiratory diseases”, Chronic Diseases and Translational Medicine, vol. 4, Issue 2, pp. 95-102, June.
Zhou, Y., Guo, J., Wang, Z., Zhang, B., Sun, Z., Yun, X., Zhang, J., 2020, “Levels and inhalation health risk of neonicotinoid insecticides in fine particulate matter (PM2.5) in urban and rural areas of China”, Environment International, Vol. 142, pp. 105822.
呂益成,2019,應用物聯網感測器評估大氣戴奧辛濃度並確認其可行性,國立屏東科技大學,碩士論文。陳茂雄,2016,高雄港空氣污染排放對於港區周圍地區空氣品質之影響分析,輔英科技大學,碩士論文。謝幼屏,2011,因應穀物運送貨櫃化之港埠營運策略,交通部運輸研究所。
行政院環境保護署,2012,臺灣空氣品質標準;臺灣室內空氣品質標準,https://law.moj.gov.tw/LawClass/LawAll.aspx?pcode=O0020007。
行政院農委會,2014,統計及出版品,https://www.coa.gov.tw/ws.php?id=8。
交通部統計查詢網,2020,港口進出貨物裝卸量,https://stat.motc.gov.tw/mocdb/stmain.jsp?sys=100。
東森國際公司,2020,倉儲事業倉儲設施,https://www.emic.com.tw/equipment.php。
美國環境保護署(EPA),2015,國家環境空氣質量標準(NAAQS),https://www.epa.gov/criteria-air-pollutants/naaqs-table。
臺灣區雜糧發展基金會,2018-2020,農情報導,https://www.tgfdf.org.tw/news.php?year=2020。