生态毒理学报
生態毒理學報
생태독이학보
ASIAN JOURNAL OF ECOTOXICOLOGY
2011年
1期
37-42
,共6页
周海龙%李国锋%黄仁良%崔嵩%刁晓平
週海龍%李國鋒%黃仁良%崔嵩%刁曉平
주해룡%리국봉%황인량%최숭%조효평
草履虫%滴滴涕%苯并芘%半数致死浓度%毒性机理
草履蟲%滴滴涕%苯併芘%半數緻死濃度%毒性機理
초리충%적적체%분병비%반수치사농도%독성궤리
Paramecium caudatum%dichlorodip heny ltrichloroethane(DDT)%benzo[a]pyrene(BaP)%median lethal concentration(LC50)%toxicity mechanism
滴滴涕和苯并芘这两种典型持久性有机污染物在环境中已广泛分布,因此,本研究利用单细胞真核模式生物-草履虫来研究其急性毒性效应,结果发现其毒性效应存在显著的剂量效应关系.DDT和BaP的半数致死浓度分别为126.012 mg·L-1和180.167 mg·L-1,且这两种污染物的浓度和概率间存在很好的线性关系.不同浓度的DDT和BaP对草履虫进行毒性作用时,草履虫呈现出不同的形态;比较而言,DDT的毒性作用更大.由于草履虫对这两种毒性物质作用的敏感性,因此,草履虫可作为一种敏感指示生物来评估POPs的长期危害.本研究为水污染的减排和生境的保护提供了一种新途径.最后,就这两种典型POPs对草履虫的毒性机理进行了讨论.
滴滴涕和苯併芘這兩種典型持久性有機汙染物在環境中已廣汎分佈,因此,本研究利用單細胞真覈模式生物-草履蟲來研究其急性毒性效應,結果髮現其毒性效應存在顯著的劑量效應關繫.DDT和BaP的半數緻死濃度分彆為126.012 mg·L-1和180.167 mg·L-1,且這兩種汙染物的濃度和概率間存在很好的線性關繫.不同濃度的DDT和BaP對草履蟲進行毒性作用時,草履蟲呈現齣不同的形態;比較而言,DDT的毒性作用更大.由于草履蟲對這兩種毒性物質作用的敏感性,因此,草履蟲可作為一種敏感指示生物來評估POPs的長期危害.本研究為水汙染的減排和生境的保護提供瞭一種新途徑.最後,就這兩種典型POPs對草履蟲的毒性機理進行瞭討論.
적적체화분병비저량충전형지구성유궤오염물재배경중이엄범분포,인차,본연구이용단세포진핵모식생물-초리충래연구기급성독성효응,결과발현기독성효응존재현저적제량효응관계.DDT화BaP적반수치사농도분별위126.012 mg·L-1화180.167 mg·L-1,차저량충오염물적농도화개솔간존재흔호적선성관계.불동농도적DDT화BaP대초리충진행독성작용시,초리충정현출불동적형태;비교이언,DDT적독성작용경대.유우초리충대저량충독성물질작용적민감성,인차,초리충가작위일충민감지시생물래평고POPs적장기위해.본연구위수오염적감배화생경적보호제공료일충신도경.최후,취저량충전형POPs대초리충적독성궤리진행료토론.
Dichlorodiphenyltrichloroethane (DDT) and Benzo[a]pyrene (BaP) are ubiquitous contaminants in the environment. Acute toxic effects of DDT and BaP on a model unicellular eukaryotic organism Paramecium caudatum were studied and a dose-dependent increase in toxicities was observed. The median lethal concentration (LC50) of DDT in 1h is 126.012 mg·L-1 and that of BaP is 180.167 mg·L-1. There exists a good linear relationship between probit and logarithm of concentrations of contaminants. Exposed to DDT and BaP at different concentrations, Poramecia caudctum exhibited some shapes. Comparably, DDT is more toxic to Parcmecium caudatum than that of BaP. Sensitive to both DDT and BaP suggests that Paramecium caudatum can be used as a sensitive indicator for early risk assessment of longterm hazards of POPs. These results provide a novel approach for developing a strategy for the abatement of water pollution and maintenance of ecosystem viability. Finally, the toxicity mechanism of two typical POPs in Paramecium caudatum is discussed.
