以 HPLC-ICP-MS 分析微量有機錫農藥之方法建立

Shu-Huei Wu; 吳淑憓

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/56455

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	顏瑞泓(Jui-Hung Yen)
dc.contributor.author	Shu-Huei Wu	en
dc.contributor.author	吳淑憓	zh_TW
dc.date.accessioned	2021-06-16T05:29:26Z	-
dc.date.available	2019-08-25
dc.date.copyright	2014-08-25
dc.date.issued	2014
dc.date.submitted	2014-08-13
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Pharmacology & toxicology 82:23-7. Kline E. R., A. W. Jarvinen, and M. L. Knuth. 1989. Acute toxicity of triphenyltin hydroxide to three cladoceran species. Environmental Pollution 56:11-17. Kotrebai M., M. Birringer, J. F. Tyson, E. Block, and P. C. Uden. 2000. Selenium speciation in enriched and natural samples by HPLC-ICP-MS and HPLC-ESI-MS with perfluorinated carboxylic acid ion-pairing agents. Analyst 125:71-78. Kumar U. T., J. G. Dorsey, J. A. Caruso, and E. H. Evans. 1993. Speciation of inorganic and organotin compounds in biological samples by liquid chromatography with inductively coupled plasma mass spectrometric detection. Journal of Chromatography A 654:261-8. Lin J. L., and S. Hsueh. 1993. Acute nephropathy of organotin compounds. American Journal of Nephrology 13:124-128. Lin T. J., D. Z. Hung, C. H. Kao, W. H. Hu, and D. Y. Yang. 1998. Unique cerebral dysfunction following triphenyltin acetate poisoning. Human & experimental toxicology 17:403-5. Loch J. P. G., P. A. Greve, and S. van der Berg. 1990. Accumulation and leaching of the fungicide fentin acetate and intermediates in sandy soils. Water, Air and Soil Pollution 53:119-129. Madsen A. D., W. Goessler, S. N. Pedersen, and K. A. Francesconi. 2000. Characterization of an algal extract by HPLC-ICP-MS and LC-electrospray MS for use in arsenosugar speciation studies. Journal of Analytical AtomicSpectrometry 15:657-662. Rivas C., L. Ebdon, E. H. Evans, and S. J. Hill. 1996. An evaluation of reversed-phase and ion-exchange chromatography for use with inductively coupled plasma-mass spectrometry for the determination of organotin compounds. Applied Organometallic Chemistry 10:61-68. Roberts T. R., and D. H. Hutson. 1999a. Miscellaneous fungicides. Metabolic Pathways of Agrochemicals: Part 2: Insecticides and Fungicides. Roberts, T. R.; Hutson, D. H.; Lee, P. W.; Nicholls, P. H.; Plimmer, J. R., Eds. The Royal Society of Chemistry. p 1375-1452. Roberts T. R., and D. H. Hutson. 1999b. Organotin insecticides. Metabolic Pathways of Agrochemicals: Part 2: Insecticides and Fungicides. Roberts, T. R.; Hutson, D. H.; Lee, P. W.; Nicholls, P. H.; Plimmer, J. R., Eds. The Royal Society of Chemistry. p 523-534. Rottmann L., and K. Heumann. 1994. Development of an on-line isotope dilution technique with HPLC/ICP-MS for the accurate determination of elemental species. Fresenius Journal of Analytical Chemistry 350:221-227. Sta‥b J. A., M. J. M. Rozing, B. van Hattum, W. P. Cofino, and U. A. T. Brinkman. 1992. Normal-phase high-performance liquid chromatography with UV irradiation, morin complexation and fluorescence detection for the determination of organotin pesticides. Journal of Chromatography A 609:195-203. Tas J. W., A. Opperhuizen, and W. Seinen. 1990. Uptake and elimination kinetics of triphenyltin hydroxide by two fish species. Toxicological & Environmental Chemistry 28:129-141. Van der Kerk G., and J. Luitjen. 1954. The biocidal properties of organotin compounds. Applied Chemistry 4:314-319. Wahlen R., and T. Catterick. 2003. Comparison of different liquid chromatography conditions for the separation and analysis of organotin compounds in mussel and oyster tissue by liquid chromatography-inductively coupled plasma mass spectrometry. Journal of Chromatography B 783:221-229. Wu R. M., Y. C. Chang, and H. C. Chiu. 1990. Acute triphenyltin intoxication: a case report. Journal of Neurology, Neurosurgery, and Psychiatry 53:356-7. Yang H.-J., S.-J. Jiang, Y.-J. Yang, and C.-J. Hwang. 1995. Speciation of tin by reversed phase liquid chromatography with inductively coupled plasma mass spectrometric detection. Analytica Chimica Acta 312:141-148. Yen J. H., C. C. Tsai, C. C. Su, and Y. S. Wang. 2001. Environmental dissipation of fungicide triphenyltin acetate and its potential as a groundwater contaminant. Ecotoxicology and Environmental Safety 49:164-70. Yu Z.-H., M. Jing, G. Wang, H.-M. Qiu, Y.-L. Huang, and X.-R. Wang. 2008. 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dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/56455	-
dc.description.abstract	近年來國內農藥抽檢多次查獲殺菌劑三苯醋錫，顯示環境中可能殘留禁用的有機錫農藥。由於錫具有一般金屬不易分解及在環境中會累積的特性，其毒性可經食物鏈生物濃縮與累積效應進而危害各種生物及生態系統。然而目前對於環境中殘留有機錫農藥的檢驗方法尚未建立，因此本研究欲探討以高效能液相層析串聯感應耦合電漿質譜法進行土壤中有機錫農藥分析的可行性。除了禁用的三苯醋錫外，本研究亦針對目前國內可合法使用的有機錫殺螨劑芬佈賜進行試驗。研究中使用逆相層析管柱 Agilent Poroshell 120 EC-C18 及 Merck LichrospherR 100 RP-8 分別進行兩種有機錫農藥的分離。結果顯示，殺菌劑三苯醋錫的最適分析條件為以甲醇與 1% 氯化鈉緩衝溶液作為移動相，搭配 Agilent Poroshell 120 EC-C18，流速為 0.5 mL/min。殺螨劑芬佈賜的最適分析條件則為以氰甲烷與 0.6% 氯化鈉緩衝溶液作為移動相，搭配 Merck LichrospherR 100 RP-8，流速為 0.5 mL/min。此外，三苯醋錫及芬佈賜在檢量線範圍 0-500 μg/L 的相關係數平方值分別為 0.9994 及 0.9988，且低濃度範圍的相關係數平方值皆大於 0.997，顯示此兩種農藥與其分析方法的反應訊號呈現良好線性關係，線性範圍廣。三苯醋錫及芬佈賜標準品的儀器偵測極限分別為 1 及 7.5 μg/L。而土壤中有機錫農藥的萃取結果顯示，索氏萃取法較超音波震盪法及往返式震盪法的萃取效果佳，可有效自土壤中萃取有機錫農藥。其中，三苯醋錫的最適合萃取條件為以甲醇搭配索氏萃取法萃取 6 小時，其回收率為 104.84 ± 12.32%；芬佈賜的最適萃取條件則為以正己烷與丙酮比例 90/10 (v/v) 萃取 8 小時，經溶劑置換後，其回收率為 97.79 ± 9.60%。三苯醋錫及芬佈賜的方法偵測極限分別為 1.017 及 8.932 μg/L，且此方法藉由土壤真實樣品的分析可有效獲得驗證。因此利用 HPLC 串聯 ICP-MS 進行土壤中微量有機錫農藥的分析具有可行性。	zh_TW
dc.description.abstract	A banned organotin pesticide, fentin acetate, was found on random inspection of pesticides in Taiwan recently. It implies that the prohibited organotin pesticides could spread over in environment. Due to the common properties of metals, such as resistance and accumulation in environment, tin could damage the bio- and eco-system through bioconcentration and bioaccumulation. In this research, a method based on high-performance liquid chromatography-inductively coupled plasma mass spectrometric (HPLC-ICP-MS) analysis was established for the analysis of organotin compounds, including fentin acetate and a acaricide fenbutatin oxide which can be legally used in Taiwan. Several conditions of HPLC were optimized for organotin pesticides. The results showed that the optimum conditions to analyze fentin acetate for type of separating column, composition of mobile phase, and flow rate, were Agilent Poroshell 120 EC-C18, 90/10 methanol/sodium chloride buffer solution, and 0.5 mL/min, respectively. While the optimum conditions to analyze fenbutatin oxide were for type of separating column, composition of mobile phase, and flow rate, were Merck LichrospherR 100 RP-8, 80/20 acetonitrile/sodium chloride buffer solution, and 0.5 mL/min, respectively. Successful analysis of organotin pesticides by HPLC-ICP-MS was performed. The coefficient of determination (r2) of two pesticides were up to 0.998, indicating good linearity of calibration curves. Instrument detection limit for fentin acetate and fenbutatin oxide were 1 and 7.5 μg/L, respectively. Compared to ultrasonic extraction and shaking extraction, soxhlet extraction was the best way to extract organotin pesticides from soil. The recovery for fentin acetate was 104.84%, while fenbutatin oxide was 97.79%. Method detection limit for fentin acetate and fenbutatin oxide were 1.017 and 8.932 μg/L, respectively.	en
dc.description.provenance	Made available in DSpace on 2021-06-16T05:29:26Z (GMT). No. of bitstreams: 1 ntu-103-R01623002-1.pdf: 1580104 bytes, checksum: 1245027fd29db183f9d7d763a1c16c4f (MD5) Previous issue date: 2014	en
dc.description.tableofcontents	摘要 ------------------------------------------------------------------------------------------------- I Abstract------------------------------------------------------------------------------------------- III 目錄 ----------------------------------------------------------------------------------------------- IV 圖目錄 -------------------------------------------------------------------------------------------- VI 表目錄 ------------------------------------------------------------------------------------------ VIII 一、前言 ------------------------------------------------------------------------------------------ 1 二、文獻回顧 ------------------------------------------------------------------------------------ 2 (一) 有機錫化合物 ------------------------------------------------------------------------ 2 (二) 有機錫化合物對自然生態的衝擊 ----------------------------------------------- 4 (三) 有機錫化合物與農業的關係 ----------------------------------------------------- 8 1. 有機錫殺菌劑 ------------------------------------------------------------------ 8 2. 有機錫殺螨劑 ------------------------------------------------------------------ 8 (四) 有機錫農藥於環境的流布與宿命 --------------------------------------------- 11 (五) 有機錫農藥的檢測 ----------------------------------------------------------------- 15 三、研究目的 ----------------------------------------------------------------------------------- 18 四、材料與方法 -------------------------------------------------------------------------------- 19 (一) 儀器材料 ----------------------------------------------------------------------------- 19 (二) 藥品及試劑 -------------------------------------------------------------------------- 20 (三) 方法 ----------------------------------------------------------------------------------- 22 1. 以 HPLC-ICP-MS 分析有機錫農藥標準品 ---------------------------- 22 2. 土壤樣品中有機錫農藥的檢測 -------------------------------------------- 25 五、結果與討論 -------------------------------------------------------------------------------- 31 (一) 以 HPLC-ICP-MS 分析有機錫農藥標準品 ---------------------------------- 31 1. HPLC 管柱的測試----------------------------------------------------------- 31 2. HPLC 移動相的測試與調整 ---------------------------------------------- 35 3. 檢量線製作 -------------------------------------------------------------------- 40 4. 儀器偵測極限 ----------------------------------------------------------------- 40 5. 準確度及精密度建立 -------------------------------------------------------- 40 6. 滯留時間測試 ----------------------------------------------------------------- 44 (二) 土壤樣品中有機錫農藥的檢測 ------------------------------------------------- 45 1. 土壤萃取測試 ----------------------------------------------------------------- 45 2. 方法偵測極限 ----------------------------------------------------------------- 48 3. 準確度及精密度建立 -------------------------------------------------------- 48 六、結論 ----------------------------------------------------------------------------------------- 51 七、參考文獻 ----------------------------------------------------------------------------------- 52
dc.language.iso	zh-TW
dc.title	以 HPLC-ICP-MS 分析微量有機錫農藥之方法建立	zh_TW
dc.title	Detection techniques for analyzing trace organotin pesticides by HPLC-ICP-MS	en
dc.type	Thesis
dc.date.schoolyear	102-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	王一雄(Yei-Shung Wang),李國欽,袁紹英,何明勳
dc.subject.keyword	有機錫化合物,三苯醋錫,芬佈賜,高效液相層析串聯感應耦合電漿質譜儀,	zh_TW
dc.subject.keyword	Organotin compounds,Fentin acetate,Fenbutatin oxide,HPLC-ICP-MS,	en
dc.relation.page	56
dc.rights.note	有償授權
dc.date.accepted	2014-08-14
dc.contributor.author-college	生物資源暨農學院	zh_TW
dc.contributor.author-dept	農業化學研究所	zh_TW
顯示於系所單位：	農業化學系

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