多溴二苯醚屬於持久性有機污染物一種，具不易分解特性易在環境中蓄積，
其在環境水體基質中濃度相對較低，一旦進入水體，水就變成促進PBDEs 遷移
的另一個重要動力。其中隨水或者水中懸浮顆粒物的流動遷移到遠方，或者被水
生動植物的吸收和收集，並通過食物鏈進入人體，這個過程和食物鏈相關而顯得
非常重要。本研究參考環保署公告污染場址之地下水或相關污染潛勢區域地表水，
選擇採樣點，進行22 處地下水及10 處地表水PBDEs 化合物之採樣監測，分析
結果顯示地下水檢測濃度介於9.91 ~64,711 pg/L，其中以焚化廠周邊GW15 監測點最高( 64,711 pg/L)；地表水檢測濃度介於30.3~41,200 pg/L，其中以河川地表水SW05 監測點最高( 41,200 pg/L)；在PBDEs 24 項化合物同源物分布趨勢方面，不管是地下水或地表水PBDEs 物種分布特性均以Deca-PBDE（BDE-209）為主要優勢物種，且為最大貢獻來源，平均占地下水所有多溴二苯醚80%及地表水所有多溴二苯醚之88%；水體中固/液相濃度分布方面，水中多溴二苯醚污染物固相濃度皆大於液相，平均固相約占77％而液相約占23％；由於地下水中PBDEs 污染物濃度較低，建議未來可針對水中懸浮微粒較高或潛在高污染場址之水體進行研究，以評估並建立國內各環境介質之PBDEs 指紋資料庫。

Polybrominated Diphenyl Ethers (PBDEs) are one kind of persistent organic pollutants. They are of relatively low concentration in polluted water because they are
not easy to break down but instead accumulate in groundwater and surface water.
However, water is an important carrier for the migration of PBDEs once they reach the water body. PBDEs flow along water or adhere to suspended particles and migrate in large distances. Some PBDEs might be consumed by marine organisms or plants andthen pass to human beings via the food chain. It is important to understand the concentrations and characteristics, of PBDEs in water bodies of Taiwan. 32 water samples including 22 groundwater and 10 surface water samples were collected at contaminated groundwater sites and potentially polluted water areas according to EPA’s
announcement. The PBDEs concentrations measured are between 9.91 and 64,711 pg/L for groundwater samples and GW15 sample collected from an incineration plant showed the highest concentration of 64,711 pg/L. For the surface water samples, PBDEs concentrations were within the range of 30.3-41,200 g/L and the SW05 monitoring point of the river water showed the highest PBDEs of 64,711 pg/L. Examination of
PBDE homolog distribution showed that Deca-PBDE (BDE-209) predominates in both groundwater and surface water samples. accounting for 80% of PBDEs in ground water
samples and 88% of PBDEs in surface water samples, Regarding the partitioning of PBDEs between solid and liquid phases in the water matrix, much higher distributions in solidphase is found in both ground water and surface water. In average, 77% of PBDEs exists in solids phase. Since groundwater has lower PBDEs, it suggests that future work should focus on the water sources with higher suspended particles or
potentially high pollution areas and applying the results obtained to establish the library
of PBDE fingerprints.

Butt, C. M., Diamond, M. L., Truong, J. M., Ikonomou, G., Schure, A. F. T.,
Spatial distribution of polybrominated diphenyl ethers in southern Ontario
as measured in indoor and outdoor window organic films. Environmental
Science and Technology, 38, 724-731 (2004).
Camino-Sánchez, F. J., Zafra-Gómez, A., Cantarero-Malagón, S., Vílchez, J. L.,
Validation of a method for the analysis of 77 priority persistent organic
pollutants in river water by stir bar sorptive extraction in compliance with
the European Water Framework Directive. Talanta, 89, 322-334 (2012).
Cetin, B., and Odabasi, M., Particle-phase dry deposition and air-soil gasexchange
of polybrominated diphenyl ethers (PBDEs) in Izmir, Turkey.
Environmental Science and Technology, 41, 986-4992 (2007).
Chen, S. J., Gao, X. J., Mai, B. X., Chen, Z. M., Luo, X. J., Sheng, G.Y., Fu, J.
M., Zeng, E. Y., Polybrominated diphenyl ethers in surface sediments of
the Yangtze River Delta: Levels, distribution and potential hydrodynamic
influence. Environmental Pollution, 144, 951-957(2006).
Cincinelli, A., Martellini, T., Misuri, L., Lanciotti, E., Sweetman, A., Laschi, S.,
Palchetti, I., PBDEs in Italian sewage sludge and environmental risk of
using sewage sludge for land application. Environmental Pollution, 161,
229-234(2012).
Cristale, J., Vázquez, A. G., Barata, C., Lacorte, S., Priority and emerging flame
retardants in rivers: Occurrence in water and sediment, Daphnia magna
toxicity and risk assessment. Environment International, 59, 232-
243(2013).
80
Deng, D., Chen, H., Tam, F. Y. N., Temporal and spatial contamination of
polybrominated diphenyl ethers in wastewater treatment plants in Hong
Kong. Science of the Total Environment, 502, 133-142(2015).
Darnerud, P. O., Toxic effects of brominated flame retardants in man and in
wildlife. Environment International, 29, 841-853(2003).
De Wit, C. A., An overview of brominated flame retardants in the environment.
Chemosphere, 46, 83-624(2002).
Eric, B., Sheryl, A. T., Gregg, T. T., Direct measurement of octanol-water
partition coefficients of some environmentally relevant brominated
diphenyl ether congeners. Chemosphere, 51, 563−567 (2003).
Eljarrat, E., Labandeira, A., Marsh, G., Raldúa, D., Barceló, D.,
Decabrominated diphenyl ether in river fish and sediment samples
collected downstream an industrial park. Chemosphere, 69, 1278-
1286(2007)
Gouin, T., Harner, T., Modelling the environmental fate of the polybrominated
diphenyl ethers. Environment International, 29, 717-724(2003).
Gouin, T., Thomas, G. O., Chaemfa, C., Harner, T., Mackay, D., Jones, K. C.,
Concentrations of decabromodiphenyl ether in air from Southern Ontario:
Implications for particle-bound transport. Chemosphere, 64, 256-
261(2006).
Hermanussen, S., Matthews, V., Päpke, O., Limpus, C. J., Gaus, C., Flame
retardants (PBDEs) in marine turtles, dugongs and seafood from
Queensland, Australia. Marine Pollution Bulletin, 57, 409-418(2008).
Huang, H., Zhang, S., Christie, P., Plant uptake and dissipation of PBDEs in the
soils of electronic waste recycling sites. Environmental Pollution, 159, 238-
243(2011).Ikonomou, M. G., Rayne, S., Addison, R. F., Exponential
increases of the brominated flame retardants,polybrominated diphenyl
81
ethers, in the Canadian Arctic from 1981 to 2000. Environmental Science and
Technology, 36, 1886-1892(2002).
Kajiwara, N., Kamikawa, S., Ramu, K., Ueno, D., Yamada, T. K., Subramanian,
A., Lam, P. K. S., Jefferson, T. A., Prudente, M., Chung, K. H., Tanabe, S.,
Geographical distribution of polybrominated diphenyl ethers (PBDEs) and
organochlorines in small cetaceans from Asian waters. Chemosphere, 64,
287-295(2006).
Kim, U. J., Yen, N. T., Oh, J. E., Hydroxylated, methoxylated, and parent
polybrominated diphenyl ethers (PBDEs) in the inland environment,
Korea, and potential OH- and MeO-BDE source. Environmental Science
and Technology, 48, 7245-7253 (2014).
Li, Y., Wei, G., Wang, X., Determination of decabromodiphenyl ether in water
samples by single ‐ drop microextraction and RP ‐ HPLC. Journal of
Separation Science, 30, 2698-2702(2007).
Liu, X., Li, J., Zhao, Z., Zhang, W., Lin, K., Huang, C., Wang, X., Solid-phase
extraction combined with dispersive liquid–liquid microextraction for the
determination for polybrominated diphenyl ethers in different
environmental matrices. Journal of Chromatography, 1216, 2220-
2226(2009).
Levison, J. K., Novakowski, K., Polybrominated diphenyl ethers (PBDEs) as a
potential groundwater contaminant. 2008 Joint Meeting of The Geological
Society of America, Soil Science Society of America, Gulf Coast
Association of Geological Societies with the Gulf Coast Section of SEPM
Houston, Texas, No. 66-9 (2008)
Levison, J. K., Anthropogenic impacts on sensitive fractured bedrock aquifers.
Queen’s University, A thesis submitted to the Department of Civil
Engineering in conformity with the requirements for the degree of Doctor
of Philosophy, Canada. (2009)
82
Levison, J. K, Novakowski, K., Reiner, E., Kolic, T., Potential of groundwater
contamination by polybrominated diphenyl ethers (PBDEs) in a sensitive
bedrock aquifer (Canada). Hydrogeology Journal, 367,401-412 (2012).
Mandalakis, M., Atsarou, V., Stephanou, E. G., Airborne PBDEs in specialized
occupational settings, houses and outdoor urban areas in Greece.
Environmental Pollution, 155, 375-382(2008a).
Meerts, I., Letcher, R. J., Hoving, S., Marsh, G., Bergman,A., Lemmen, J. G.,
Burg, B. V. D., Brouwer, A., In vitro estrogenicity of polybrominated
diphenyl ethers, hydroxylated PDBEs, and polybrominated bisphenol A
compounds. Environmental Health Perspectives, 109, 399-407(2001).
Miller, M. F., Chernyak, S. M., Domino, S. E., Batterman, S. A., Loch-Caruso,
R., Concentrations and speciation of polybrominated diphenyl ethers in
human amniotic fluid. Science of the Total Environment, 417–418, 294-
298(2012).
Moon, H. B., Choi, M., Yu, J., Jung, R.H., Choi, H.G., Contamination and
potential sources of polybrominated diphenyl ethers (PBDEs) in water and
sediment from the artificial Lake Shihwa, Korea”, Chemosphere, 88, 837-
843(2012).
Moon, H. B., Yoon, S.P., Jung, R.H., Choi, M., Wastewater treatment plants
(WWTPs) as a source of sediment contamination by toxic organic
pollutants and fecal sterols in a semi-enclosed bay in Korea”,
Chemosphere, 73, 880-889(2008).
Nieves, B. B., Patricia, P. B., Noelia, M. V. T., Roberto, R. G., Jos´e, L. M. V.,
Garrido, F., Highly sensitive determination of polybrominated diphenyl
ethers in surface water by GC coupled to high‐resolution MS according to
the EU Water Directive 2008/105/EC. Journal of Separation Science, 37, 69-
76 (2014).
83
Oros, D. R., Hoover,D., Rodigari, F., Crane, D., Sericano, J., Levels and
distribution of polybrominated diphenyl ethers in water, surface sediments,
and bivalves from the San Francisco Estuary. Environmental Science and
Technology, 39, 33-41(2005).
Pérez-Fuentetaja, A., Lupton, S., Clapsadl, M., Samara, F., Gatto, L.,
Biniakewitz, R., Aga, D. S., PCB and PBDE levels in wild common carp
(Cyprinus carpio) from eastern Lake Erie. Chemosphere, 81, 541-
547(2010).
Sacks, V. P., and Lohmann, R., “Freely dissolved PBDEs in water and porewater
of an urban estuary. Environmental Pollution, 162, 287-293(2012).
Strandberg, B., Dodder, N. G., Basu, I., Hites, R. A., Concentrations and spatial
variations of polybrominated diphenyl ethers and other organohalogen
compounds in Great Lakes air. Environmental Science and Technology,
35, 1078-1083(2001).
Sutton, R., Sedlak, M. D., Yee, D., Davis, J. A., Crane, D., Grace, R., Arsem,
N., Declines in polybrominated diphenyl ether contamination of San
Francisco Bay following Production Phase-Outs and Bans. Environmental
Science and Technology, 49, 777−784(2015).
Vigano, L., Roscioli, C., Erratico, C., Guzzella, L., Polybrominated diphenyl
ethers (PBDEs) and polychlorinated biphenyls (PCBs) in 0+ juvenile
cyprinids and sediments of the Po River. Archives of Environmental
Contamination and Toxicology, 55, 282-294(2008).
Venier, M., Dove, A., Romanak, K., Backus, S., & Hites, R., Flame Retardants
and legacy chemicals in Great Lakes’water. Environmental Science and
Technology, 48, 9563-9572 (2014).
84
Wan, Y., Wiseman, S., Chang, H., Zhang, X., Jones, P. D., Hecker, M., Kannan,
K., Tanabe, S., Hu, J., Lam, M. H., Origin of hydroxylated brominated
diphenyl ethers: natural compounds or man-made flame retardants.
Environmental Science and Technology, 43, 7536-7542(2009).
Wang, J., Lin, Z., Lin, K., Wang,C., Zhang, W., Cui, C., Lin, J., Dong, Q.,
Huang,C., Polybrominated diphenyl ethers in water, sediment, soil, and
biological samples from different industrial areas in Zhejiang, China.
Journal of Hazardous Materials, 197, 211-219(2011b).
Wang, M. S., Chen, S. J., Huang, K. L., Lai, Y. C., Chang-Chien, G. P., Tsai,
J.H., Lin, W. Y., Chang, K. C., Lee, J. T., Determination of levels of
persistent organic pollutants (PCDD/Fs, PBDD/Fs, PBDEs, PCBs, and
PBBs) in atmosphere near a municipal solid waste incinerator.
Chemosphere, 80, 1220-1226(2010).
Wen, S., Yang, F., Li, J. G., Gong, Y., Zhang, X. L., Hui, Y., Wu, Y. N., Zhao, Y.
F., Xu, Y., Polychlorinated dibenzo-p-dioxin and dibenzofurans
(PCDD/Fs), polybrominated diphenyl ethers (PBDEs), and
polychlorinated biphenyls (PCBs) monitored by tree bark in an E-waste
recycling area. Chemosphere ,74, 981-987(2009).
Wilford, B. H., Harner, T., Zhu, J., Shoeib, M., Jones, K. C., Passive sampling
survey of polybrominated diphenyl ether flame retardants in indoor and
outdoor air in Ottawa, Canada: Implications for sources and exposure.
environmental science and Technology, 38, 5312-5318(2004).
WIL Research Laboratories. 90-day dietary study in rats with
pentabromodiphenyl oxide (DE-71). Final report, Ashland, OH; 1984.
85
Wu, N., Herrmann, T., Paepke, O., Tickner, J., Hale, R., Harvey, E., Guardia, M.
L., McClean, M. D., Webster, T. F., Human exposure to PBDEs: associations
of PBDE body burdens with food consumption and house dust
concentrations. Environmental Science and Technology, 41, 1584-
1589(2007).
Wurla, O., Lamc, P. K.S., Obbarda J. P., Occurrence and distribution of
polybrominated diphenyl ethers (PBDEs) in the dissolved and suspended
phases of the sea-surface microlayer and seawater in Hong Kong, China.
Chemosphere, 65, 1660-1666( 2006).
Yang, C., Harrad,S., Abdallah, M. A. E., Desborough, J., Rose, N. L., Turner,S.
D., Davidson T. A., Goldsmith, B., Polybrominated diphenyl ethers
(PBDEs) in English freshwater lakes, 2008–2012. Chemosphere, 110, 41-
47(2014).
Yogui, G. T., and Sericano, J. L., Polybrominated diphenyl ether flame
retardants in lichens and mosses from King George Island, maritime
Antarctica. Chemosphere, 73, 1589-1593(2008).
Zhou, Y. Y., Zhang, C.Y., Yan, Z. G., Li, K. J., Wang, L., Xie, Y. B., Li, Z. L.,
and Yang, J., The use of copper(II) isonicotinate-based micro-solid-phase
extraction for the analysis of polybrominated diphenyl ethers in soils.
Analytica Chimica Acta, 747, 36-41(2012).
陈社军、田密、罗勇、林镇、罗孝俊、麦碧娴，多溴联苯醚在电子废弃物
拆卸地沉积物中的垂直分布，环境科学，第12 期，3088−3092 頁，
2010 年。
日本環境省水・大気環境局，平成25 年度臭素系ダイオキシン類排出実
態等調査結果報告書，2013 年。
86
日本環境省水・大気環境局，平成26 年度臭素系ダイオキシン類排出実
態等調査結果報告書，2014 年。
刘艺凯、唐建辉、潘晓辉、田崇国、陈颖军，环境中多溴联苯醚分析方法
的研究进展，环境化学，第31 卷，第12 期，2012 年
李俊璋、廖寶琦、洪崇峰、林家慶、楊淑瑤、陳泓翰，食品中多溴二苯醚
類 (PBDEs) 之監測及風險評估，行政院衛生署食品藥物管理局，2012
年。
李慈毅，戴奧辛類化合物及多溴二苯醚在國內湖泊底泥的歷史變動趨勢研
究---以翡翠水庫及日月潭水庫為例，國立中央大學環境工程研究所
在職專班碩士論文，2010 年。
彭瑞華， 「台灣河川底泥及魚體中持久性有機污染物的鑑定及檢測」，中
原大學化學研究所博士學位論文，2011 年。
劉志仁和李維豐，持久性有機污染物斯德哥爾摩公約記事，工安環保報導，
第32 期，10-13 頁，2006 年。
余剛、牛軍峰、黃俊，持久性有機污染物-新的全球性環境問題，科學出版
社，ISBN13：9787030148735，2007 年。
王聖瑋、陳盈孜、許國恩、朱敬平，地下水有害物質環境傳輸調查及管制
標準檢討計畫(第三期) ，行政院環境保護署，2014 年。
楊喜男、李其欣、鍾仁棋、彭瑞華，河川流域水質、底泥及生物體之環境
風險調查與綜合評估，行政院環境保護署環境檢驗所，2011.、2012
年。
環境檢驗所，監測井地下水採樣方法，NIEA W103.54B，2010 年。
http://www.niea.gov.tw/niea/pdf/WATER/W10354B.pdf
87
環境檢驗所，水中戴奧辛及呋喃採樣方法，NIEA W790.50B，2013 年。
http://www.niea.gov.tw/analysis/method/m_n_1.asp
環境檢驗所，多溴二苯醚檢測方法－氣相層析/高解析質譜法，NIEA
M802.00B， 20007 年。
http://www.niea.gov.tw/niea/REFSOIL/M80200B.htm