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研究生: 呂宗翰
Tsung-Han Lu
論文名稱: 淡水河流域及其河口近岸海域沉積物汞之時空變化
Temporal and spatial variations of Hg in sediments of the DanShuei watershed and adjacent coastal area, Taiwan
指導教授: 曾鈞懋
Tseng, Chun-Mao
余英芬
Yu, Ein-Fen
學位類別: 碩士
Master
系所名稱: 海洋環境科技研究所
Graduate Institute of Marine Environmental Science and Technology
論文出版年: 2013
畢業學年度: 101
語文別: 中文
論文頁數: 84
中文關鍵詞: 時空分布淡水河流域八里污水處理廠海洋放流管通量
英文關鍵詞: Hg, Temporal and Spatial Distribution, DanShuei River, Bali Wastewater Treatment Plant, Ocean Outfall, Flux
論文種類: 學術論文
相關次數: 點閱:180下載:20
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  • 本研究分析2009年淡水河流域及其河口近岸海域之表層沉積物中總汞、鋁、銅、鋅、鉛、鎘、有機碳、總氮等含量及粒徑分布,以了解總汞在研究區域內空間分布及時間變化、污染情形與通量變化。本研究結果顯示表層沉積物總汞濃度平均值為61 ± 42 ng g-1 (範圍介於6 ~ 284 ng g-1),而總汞濃度最高值分別位於主河道鄰近獅子頭抽水站及近岸海域之隸屬八里污水處理廠放流管附近區域,其主要受到上述設施排放大量含汞之廢污水所致。另一方面,表層沉積物顆粒大小及有機碳分別與總汞具有良好的正向線性關係,表示顆粒大小及有機碳皆為影響總汞空間分布變化的主要控制因子。在近岸海域其總汞濃度之時間變化的部分,根據單因子變異數分析(One-way ANOVA)的結果顯示2009年近岸海域內表層沉積物總汞並無明顯的顯著差異,即無明顯的季節變化性存在。由本研究區域內表層沉積物總汞的EF (0.18 ~ 6.47)及Igeo (-3.32 ~ 2.24)之結果顯示,淡水河流域之主河道靠近獅子頭抽水站之河段及河口近岸海域的放流管附近區域皆有明顯的汞富集現象存在。另外,主成份分析(PCA)的結果除了指出顆粒大小及有機碳為影響表層沉積物總汞及其他重金屬之空間分布的主要二個因子之外,同時顯示本研究區域內重金屬總汞、銅、鋅、鉛、鎘的污染情形亦相當嚴重。最後,藉由本研究結果以估算近岸海域之海洋放流管附近區域的正常年年度顆粒態及總汞通量。就總汞而言,通量計算所概括之區域內主要的總汞輸入源為海洋放流管( ~428 kg yr-1,占總輸入量之88%)及淡水河(56 kg yr-1,占總輸入量之12 %);另一方面,主要的輸出源為此區域內總汞經沉降並累積於表層沉積物的部分為5 kg yr-1,而經計算而得到之移出此區域送入外海的總汞通量約為479 kg yr-1,其中顆粒態汞約238 kg yr-1 (占總汞49.7 %)。其顯示自淡水河及海洋排放管所輸入的總汞大約有98.9% (顆粒態汞:97.9 %)在海洋放流管附近區域被移除。儘管有高達 98 %以上的顆粒態或總汞被移除,但遺留下來的部分仍造成近岸海域受到相當程度的汞污染,顯示八里污水處理廠之海洋放流管的放流水對淡水河流域及其河口近岸海域之影響不言而喻。

    The spatial and temporal distributions of Hg in surficial sediments in the DanShuei River and adjacent coastal area (i.e., ocean outfall area) off the northern Taiwan were investigated in 2009. In addition, heavy metals (Al, Cu, Cd, Pb, Zn) and geochemical parameters (TOC, TN, grain size) were measured to examine the controlling mechanisms, to assess the extent of Hg contamination and further estimate the one-box Hg budget around the ocean outfall area. Results showed that total Hg in all sediments ranged from 6 to 284 ng g-1 and averaged 61 ± 42 ng g-1 (n=93). The high Hg levels were observed within the River near Shizitou wastewater pumping station, and ocean outfall of the Bali wastewater treatment plant (Bali WTP), respectively. The Hg well correlated with mud fraction (< 63μm) and TOC in sediments, suggesting they both significantly affect the spatial distribution of Hg. According to one-way ANOVA analysis, there were no significant differences in seasonal changes of Hg around the coastal area. The assessments of enrichment factor (0.18 ~ 6.47) and geoaccumulation index (-3.32 ~ 2.24) of Hg both showed that contamination of Hg in the middle of the DanShuei estuarine and coastal areas near the ocean outfall are severe. That is due to the Hg inputs into the estuarine and near-shore environments of the DanShuei River as a result of human activities (e.g., wastewater discharges). Furthermore, through the analysis of PCA, the results not only further demonstrate both fine fractions and TOC regulating the spatial distribution of Hg but also assure the DanShuei River and adjacent coastal area receiving trace metal pollution (e.g., Cu, Cd, Hg, Zn). Finally, based on the Hg data obtained in this study, the one-box annual particulate and total Hg budgets around the ocean outfall area were constructed. The principal inputs of total Hg( ~484 kg yr-1) to the ocean outfall area are from the DanShuei River ( ~56 kg yr-1; 12 % of total inputs) and the Bali WTP ( ~428 kg yr-1; 88 %), respectively. On the other hand, the major sink of total Hg into surficial sediments is ~5 kg yr-1. Consequently, about 99 % ( ~479 kg yr-1) of the total Hg inputs was removed away from the ocean outfall area.

    中文摘要 i Abstract ii 目錄 iv 表目錄 viii 圖目錄 ix 附錄目錄 x 第一章 緒論 1 1.1 汞污染的危害 1 1.2 汞之生地化循環 2 1.3 汞在水體環境中的污染來源 4 1.4 河口環境的重要性 5 1.5 影響沉積物中汞含量差異之可能因子 5 1.6 淡水河流域及其河口近岸海域之污染相關研究回顧 8 1.7 研究動機暨目的 10 第二章 背景與研究方法 14 2.1 研究區域背景資料 14 2.1.1 淡水河系 14 2.1.2 地理地質環境 14 2.1.3 氣候與水文 14 2.1.4 八里污水處理廠暨海洋放流管 15 2.2 採樣地點與時間 15 2.3 樣品前處理 16 2.4 分析方法與流程 16 2.4.1 量測項目 16 2.4.2 試劑與標準品 16 2.4.3 器材準備與清洗 20 2.4.4 沉積物顆粒全消化 20 2.4.5 沉積物總汞濃度測定分析 21 2.4.6 沉積物之其他相關輔助資料 22 2.4.7 主成份分析(Principal Component Analysis, PCA) 23 第三章 研究結果 27 3.1 淡水河河口近岸海域 27 3.1.1 含泥量 27 3.1.2 TOC含量、TN含量 27 3.1.3 總汞(Hg) 28 3.1.4 鋁(Al)及其他金屬[銅(Cu)、鋅(Zn)、鉛(Pb)、鎘(Cd)] 28 3.2 淡水河流域 29 3.2.1 含泥量 29 3.2.2 TOC含量、TN含量 29 3.2.3 總汞(Hg) 30 3.2.4 鋁(Al)及其他金屬[銅(Cu)、鋅(Zn)、鉛(Pb)、鎘(Cd)] 30 第四章 討論 39 4.1 表層沉積物含泥量、TOC、TN之空間分布變化 39 4.1.1 近岸海域 39 4.1.2 淡水河流域 41 4.2 表層沉積物總汞(Hg)之空間分布與季節性變化及其控制因子 43 4.2.1 表層沉積物總汞(Hg)之空間分布變化 43 4.2.2 近岸海域表層沉積物總汞空間分布差異之比較 44 4.2.3 近岸海域表層沉積物總汞(Hg)之季節性變化 49 4.2.4 影響表層沉積物總汞(Hg)空間分布變化之受控因子 49 4.2.5 與世界各地不同區域之比較 51 4.3 表層沉積物重金屬銅(Cu)、鋅(Zn)、鉛(Pb)、鎘(Cd)之空間分布與季節性 變化及彼此間相關性 55 4.3.1 表層沉積物重金屬銅(Cu)、鋅(Zn)、鉛(Pb)、鎘(Cd)之空間分布 變化 55 4.3.2 近岸海域表層沉積物重金屬銅(Cu)、鋅(Zn)、鉛(Pb)、鎘(Cd)之 季節性變化 56 4.3.3 表層沉積物重金屬銅(Cu)、鋅(Zn)、鉛(Pb)、鎘(Cd)彼此間相關性 57 4.4 表層沉積物總汞之污染現況評估 58 4.4.1 富集因子(Enrichment Factor, EF) 58 4.4.2 地質累積指數(Index of Geoaccumulation, Igeo) 60 4.4.3 汞之污染超量值(Excess Hg, Hgex) 60 4.5 主成份分析(PCA) 61 4.6 近岸海域海放管附近區域之正常年顆粒態汞與總汞的輸入、輸出及埋藏 通量 64 4.6.1 正常年之顆粒態汞與總汞的年度通量平衡計算 64 4.6.2 正常年顆粒態汞與總汞之年度通量比較 65 4.7 八里污水處理廠對近岸海域環境所可能造成影響之評估 70 第五章 結論 71 參考文獻 73 附錄 82

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