生态环境学报
生態環境學報
생태배경학보
Ecology and Environment Sciences
2015年
8期
1361-1365
,共5页
许文武%侯梅芳%潘栋宇%周建
許文武%侯梅芳%潘棟宇%週建
허문무%후매방%반동우%주건
芘%斜生栅藻%急性毒性%光合色素%回归分析
芘%斜生柵藻%急性毒性%光閤色素%迴歸分析
비%사생책조%급성독성%광합색소%회귀분석
pyrene%Scenedesmus Obliquus%acute toxicity%pigments%regression analysis
多环芳烃是自然界中常见的有机污染物.以多环芳烃(芘)为研究对象,采用实验室培养斜生栅藻(Scenedesmus obliquus)的方法,测定藻细胞密度和光合色素(叶绿素a、叶绿素b、类胡萝卜素)含量的变化,研究不同质量浓度芘对斜生栅藻的毒性效应,设置5个芘质量浓度梯度(5、10、20、30、50 mg·L-1)和1个对照组,通过同期生长的处理组与对照组的藻细胞数进行比较以及抑制率计算对实验结果分析.结果表明:芘对斜生栅藻的生长有一定的抑制作用,随着芘质量浓度增加,斜生栅藻生长受到抑制作用越明显,呈现出良好时间-效应和剂量-效应的关系;经回归分析,求得2 d,4 d和6 d芘抑制斜生栅藻生长的半抑制浓度(EC50)分别为44.07,29.23和20.99 mg·L-1.斜生珊藻的生长率随处理浓度的增加而逐渐降低.同时通过肉眼和显微镜观察,发现斜生栅藻藻的颜色随芘浓度增加从翠绿色变为白色.芘处理斜生栅藻6d后,斜生栅藻光合色素含量和Ca/Cb随芘浓度增加而明显下降,并且变化趋势与生长率基本一致.其中斜生栅藻的叶绿素a含量的减少比叶绿素b和类胡萝卜素快.芘可能通过抑制藻的光合作用产生毒害效应,从而抑制藻类生长.
多環芳烴是自然界中常見的有機汙染物.以多環芳烴(芘)為研究對象,採用實驗室培養斜生柵藻(Scenedesmus obliquus)的方法,測定藻細胞密度和光閤色素(葉綠素a、葉綠素b、類鬍蘿蔔素)含量的變化,研究不同質量濃度芘對斜生柵藻的毒性效應,設置5箇芘質量濃度梯度(5、10、20、30、50 mg·L-1)和1箇對照組,通過同期生長的處理組與對照組的藻細胞數進行比較以及抑製率計算對實驗結果分析.結果錶明:芘對斜生柵藻的生長有一定的抑製作用,隨著芘質量濃度增加,斜生柵藻生長受到抑製作用越明顯,呈現齣良好時間-效應和劑量-效應的關繫;經迴歸分析,求得2 d,4 d和6 d芘抑製斜生柵藻生長的半抑製濃度(EC50)分彆為44.07,29.23和20.99 mg·L-1.斜生珊藻的生長率隨處理濃度的增加而逐漸降低.同時通過肉眼和顯微鏡觀察,髮現斜生柵藻藻的顏色隨芘濃度增加從翠綠色變為白色.芘處理斜生柵藻6d後,斜生柵藻光閤色素含量和Ca/Cb隨芘濃度增加而明顯下降,併且變化趨勢與生長率基本一緻.其中斜生柵藻的葉綠素a含量的減少比葉綠素b和類鬍蘿蔔素快.芘可能通過抑製藻的光閤作用產生毒害效應,從而抑製藻類生長.
다배방경시자연계중상견적유궤오염물.이다배방경(비)위연구대상,채용실험실배양사생책조(Scenedesmus obliquus)적방법,측정조세포밀도화광합색소(협록소a、협록소b、류호라복소)함량적변화,연구불동질량농도비대사생책조적독성효응,설치5개비질량농도제도(5、10、20、30、50 mg·L-1)화1개대조조,통과동기생장적처리조여대조조적조세포수진행비교이급억제솔계산대실험결과분석.결과표명:비대사생책조적생장유일정적억제작용,수착비질량농도증가,사생책조생장수도억제작용월명현,정현출량호시간-효응화제량-효응적관계;경회귀분석,구득2 d,4 d화6 d비억제사생책조생장적반억제농도(EC50)분별위44.07,29.23화20.99 mg·L-1.사생산조적생장솔수처리농도적증가이축점강저.동시통과육안화현미경관찰,발현사생책조조적안색수비농도증가종취록색변위백색.비처리사생책조6d후,사생책조광합색소함량화Ca/Cb수비농도증가이명현하강,병차변화추세여생장솔기본일치.기중사생책조적협록소a함량적감소비협록소b화류호라복소쾌.비가능통과억제조적광합작용산생독해효응,종이억제조류생장.
Polycyclic aromatic hydrocarbons (PAHs) are common contaminants in nature. In this study, a laboratory culture was conducted to examine the toxicity effects of pyrene under different mass concentrations on the growth and the contents of pigments ofScenedesmus obliquus. The exposure mass concentrations of pyrene were 0, 5, 10, 20, 30, 50 mg·L-1. Comparing the numbers of the cells of the treatment with that of the control group at the same time, the data were analysed by the calculating of IR so on. The results showed that the growth of algae was inhibited by pyrene and decreased with the increase of pyrene mass concentration, exhibiting a good time-effect and concentration-effect manners. The 2 d, 4 d and 6 d-EC50 ofScenedesmus obliquuswere 44.07, 29.23 and 20.99 mg·L-1 respectively by regression analysis, The algae growth rates decreased with the increasing of pyrene mass concentration. It can be seen that the color of algal cells changed from green to white. Meanwhile, the contents of the pigments were examined. The total content of pigments and the ratio between chlorophyll a and chlorophyll b decreased significantly with the increasing of pyrene mass concentration and the trends of change were coincident with their specific growth rate. The experimental results indicated that chlorophyll a contents ofScenedesmus obliquus reduced faster than those of chlorophyll b and carotenoid. The ecotoxic effects of pyrene might be ascribed to the inhibition of the algal photosynthesis by pyrene.
