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研究生:陳詩嵐
研究生(外文):ShIh -Lan Chen
論文名稱:醛類有機毒物之單一及混合毒性
論文名稱(外文):Toxicity assessment of aldehyde chemicals
指導教授:陳重元
指導教授(外文):Chung- Yuan Chen
學位類別:碩士
校院名稱:國立交通大學
系所名稱:環境工程所
學門:工程學門
學類:環境工程學類
論文種類:學術論文
論文出版年:2003
畢業學年度:91
語文別:中文
中文關鍵詞:毒性試驗藻類
外文關鍵詞:aldehydetoxic testalgal
相關次數:
  • 被引用被引用:1
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  • 下載下載:22
  • 收藏至我的研究室書目清單書目收藏:0
本研究利用密閉式藻類毒性試驗,以11種醛類有機毒性物質為主要對象,探討其單一毒性效應,並選用Acetonitrile及Malnonotrile兩種腈類化合物與五種簡單醛類化合物:Formaldehyde、Acetaldehyde、Butyraldehyde、Propionaldehyde及Glutaraldehyde進行混合毒性試驗研究。
在單一試驗的結果顯示,除了2-Pyridinecarboxaldehyde外,皆在以溶氧變化量為試驗終點時得到較敏感之EC50值。而在物種間的比較則發現以藻類為受體進行毒性試驗之敏感性較Carp及水蚤差,可是較哺乳類動物:老鼠及兔子,以及水體生物:Minnow、綠藻類、Microtox都佳,顯示其存在被選擇為受體之優越性。進行QSARs模式分析得到去除outlier後迴歸式之相關係數有大幅提升的現象,在採用兩個參數:log P及Elumo進行三維之response-surface迴歸分析則觀察到相同之狀況,相關係數R2在去除outlier後可由0.24上升至0.83。
在混合毒性部分,毒性效應最強的協同作用主要出現在以溶氧變化量為試驗終點的情況下並佐以大斜率(斜率大於2)加上小斜率(斜率小於2)的組合時最易觀察到。若將兩種腈類化合物分開來觀察其混合後之效應,結果顯示:若是以Acetonitrile混合醛類有機物,則混合效應多是拮抗效應;而在醛類毒物和Malononitrile混合所生之效應則是以相加作用為主。這與Microtox之試驗結果並不一致,探討其原因可能是和不同物種對毒性物質之容忍度亦不相同所導致。此外,去除在兩種試驗終點表現一致的組別後,亦發現剩下的組別裡有75%的實驗結果是以溶氧變化量為試驗終點時較為敏感。

The aim of this study is to use a close system algal toxic test to assess the toxicity of aldehyde chemicals, and evaluate the joint action of aldehyde toxicants with cyanogenic organic chemicals.
In aldehyde chemicals, experimental results indicated that more sensitive outcomes were based on DO. When compared to other species, our results were more sensitive than Minnow, other green algal, Microtox, rat and rabbit but carp and daphnia, apparently it is a great microorganism for toxic test. Quantitative structure-activity relationships (QSAR)showed that toxicity values were highly correlated with log P and a two parameter QSAR model was obtained with the inclusion of Elumo.
In binary toxicity test, the results indicated that great than additive effect always occurred when these mixed chemicals with steep slope and flat slope. If combined Acetonitrile and aldehyde chemicals, antagonism effect were found; when aldehyde chemicals mixed with Malononitrile got more additive effect. The different outcomes between Microtox and Raphidocelis subcapitata toxic test maybe result from different tolerance to difference microorganism.

表次 頁次
中文摘要……………………………………………………………………I
英文摘要……………………………………………………………………II
目錄…………………………………………………………………………III
表目錄………………………………………………………………………VI
圖目錄………………………………………………………………………Ⅶ
第一章 前言
1.1 研究緣起 1
1.2 研究目的 3
第二章 文獻回顧
2.1 混合毒性理論 4
2.2 QSARs模式與混合毒性之實驗驗證 5
2.2.1 QSARs簡介 5
2.2.2 混合試驗驗證
2.3 藻類毒性試驗 8
2.3.1 藻類毒性試驗概述 8
2.3.2 毒性試驗物種 9
2.4揮發性有機物藻類毒性試驗 11
第三章 基本理論
3.1 毒性物質劑量-反應模式 13
3.2 混合毒性理論 14
3.2.1 反應性親電性毒性作用 14
3.2.2 非交互作用混合毒性理論 14
3.2.3 交互作用混合毒性理論 15
3.2.4 混合毒性效應與ρ、λ的關係 16
3.3 混合毒性指 18
3.3.1 混合毒性單位 18
3.3.2 Isobologram 18
第四章 實驗設備與實驗方法
4.1 實驗設備及藥品 21
4.2 試驗藻種 22
4.3 培養基質的配製 24
4.4 試驗毒物 25
4.5 實驗前準備 27
4.6 實驗條件之控制 29
4.7 實驗步驟 29
4.7.1 連續式母槽之培養 29
4.7.2 藻類毒性試驗 30
4.7.3 實驗之QA/QC 34
第五章 結果與討論
5.1 醛類毒性物質單一毒性試驗數據 36
5.2 毒性試驗之相關性 46
5.2.1 毒性數據之QSAR 46
5.2.2 物種間敏感性的比較 51
5.3 混合毒性實驗數據 51
5.4 Isobologram 55
第六章 結論與建議
6.1結論 65
6.2建議 66
參考文獻 68
附錄一
附錄二
附錄三

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