生态环境学报
生態環境學報
생태배경학보
ECOLOGY AND ENVIRONMENT
2013年
10期
1711-1716
,共6页
杜俊俏%刁晓平%郑鹏飞%李玉虎%冯少君%韦双双
杜俊俏%刁曉平%鄭鵬飛%李玉虎%馮少君%韋雙雙
두준초%조효평%정붕비%리옥호%풍소군%위쌍쌍
芘%马氏珠母贝%鳃%肝胰腺%抗氧化酶
芘%馬氏珠母貝%鰓%肝胰腺%抗氧化酶
비%마씨주모패%새%간이선%항양화매
Pyrene%Pinctada martensi%gill%hepatopancreas%antioixdant enzymes
在实验生态条件下,采用生态毒理学方法,选用海洋环境中常见的有机污染物多环芳烃芘(Pyrene),以马氏珠母贝(Pinctada martensi)为实验材料进行毒理实验。研究了芘不同质量浓度(8、16、32和64μg·L-1)、不同时间(7,10 d)的胁迫对马氏珠母贝鳃和肝胰腺组织中超氧化物歧化酶(SOD)、过氧化物酶(POD)和谷胱甘肽过氧化物酶(GPx)3种抗氧化酶活性的影响。结果表明:3种酶在不同组织和不同胁迫时间的敏感性有所差异,在芘胁迫马氏珠母贝第7天,鳃组织中 SOD、POD、GPx 3种酶活性主要表现为诱导现象,高质量浓度组对3种酶活性均具有极显著诱导作用(p<0.01),而芘胁迫对肝胰腺3种酶活性的影响主要表现为抑制作用,且POD酶活性表现最敏感,在较低浓度组就被显著抑制(p<0.01);到染毒第10天,鳃组织中SOD、GPx两种酶诱导作用明显,POD诱导现象不显著(p>0.05),肝胰腺中3种酶活性与对照组相比诱导明显,并表现出一定的剂效关系。两种组织中SOD和GPx活性的变化具有一定的同步性。通过比较最低可观察效应质量浓度(LOEC),发现在第7天,鳃组织中敏感性强弱表现为SOD=POD>GPx,肝胰腺中表现为POD>GPx>SOD,而到第10d,两组织中敏感性又分别表现为GPx>SOD>POD,GPx=SOD>POD。因此,在较短的暴露时间,POD酶活性可作为芘胁迫对马氏珠母贝的生物标志物,而对于较长时间的染毒实验,可选用 GPx 酶作为芘胁迫对马氏珠母贝的生物标志物以监测海洋环境芘污染。
在實驗生態條件下,採用生態毒理學方法,選用海洋環境中常見的有機汙染物多環芳烴芘(Pyrene),以馬氏珠母貝(Pinctada martensi)為實驗材料進行毒理實驗。研究瞭芘不同質量濃度(8、16、32和64μg·L-1)、不同時間(7,10 d)的脅迫對馬氏珠母貝鰓和肝胰腺組織中超氧化物歧化酶(SOD)、過氧化物酶(POD)和穀胱甘肽過氧化物酶(GPx)3種抗氧化酶活性的影響。結果錶明:3種酶在不同組織和不同脅迫時間的敏感性有所差異,在芘脅迫馬氏珠母貝第7天,鰓組織中 SOD、POD、GPx 3種酶活性主要錶現為誘導現象,高質量濃度組對3種酶活性均具有極顯著誘導作用(p<0.01),而芘脅迫對肝胰腺3種酶活性的影響主要錶現為抑製作用,且POD酶活性錶現最敏感,在較低濃度組就被顯著抑製(p<0.01);到染毒第10天,鰓組織中SOD、GPx兩種酶誘導作用明顯,POD誘導現象不顯著(p>0.05),肝胰腺中3種酶活性與對照組相比誘導明顯,併錶現齣一定的劑效關繫。兩種組織中SOD和GPx活性的變化具有一定的同步性。通過比較最低可觀察效應質量濃度(LOEC),髮現在第7天,鰓組織中敏感性彊弱錶現為SOD=POD>GPx,肝胰腺中錶現為POD>GPx>SOD,而到第10d,兩組織中敏感性又分彆錶現為GPx>SOD>POD,GPx=SOD>POD。因此,在較短的暴露時間,POD酶活性可作為芘脅迫對馬氏珠母貝的生物標誌物,而對于較長時間的染毒實驗,可選用 GPx 酶作為芘脅迫對馬氏珠母貝的生物標誌物以鑑測海洋環境芘汙染。
재실험생태조건하,채용생태독이학방법,선용해양배경중상견적유궤오염물다배방경비(Pyrene),이마씨주모패(Pinctada martensi)위실험재료진행독리실험。연구료비불동질량농도(8、16、32화64μg·L-1)、불동시간(7,10 d)적협박대마씨주모패새화간이선조직중초양화물기화매(SOD)、과양화물매(POD)화곡광감태과양화물매(GPx)3충항양화매활성적영향。결과표명:3충매재불동조직화불동협박시간적민감성유소차이,재비협박마씨주모패제7천,새조직중 SOD、POD、GPx 3충매활성주요표현위유도현상,고질량농도조대3충매활성균구유겁현저유도작용(p<0.01),이비협박대간이선3충매활성적영향주요표현위억제작용,차POD매활성표현최민감,재교저농도조취피현저억제(p<0.01);도염독제10천,새조직중SOD、GPx량충매유도작용명현,POD유도현상불현저(p>0.05),간이선중3충매활성여대조조상비유도명현,병표현출일정적제효관계。량충조직중SOD화GPx활성적변화구유일정적동보성。통과비교최저가관찰효응질량농도(LOEC),발현재제7천,새조직중민감성강약표현위SOD=POD>GPx,간이선중표현위POD>GPx>SOD,이도제10d,량조직중민감성우분별표현위GPx>SOD>POD,GPx=SOD>POD。인차,재교단적폭로시간,POD매활성가작위비협박대마씨주모패적생물표지물,이대우교장시간적염독실험,가선용 GPx 매작위비협박대마씨주모패적생물표지물이감측해양배경비오염。
The toxicological experiment of pearl oyster Pinctada martensi in the experimental conditions exposed by the marine pollutant Polycyclic aromatic hydrocarbon-Pyrene was examed using the method of ecotoxicology. After exposure to four different Pyr concentrations (8, 16, 32 and 64 μg·L-1)and two different times(7, 10 d), the activities of antioxidant enzymes superoxide dismutase (SOD), peroxidase(POD) and glutathione peroxidase (GPx) in gill and hepatopancreas of Pinctada martensi were evaluated. The results showed that:the sensitivity of enzyme activitis varies during time-depentent changes and different tissues. In 7d, The activities of superoxide dismutase (SOD)、peroxidase(POD)and glutathione peroxidase (GPx) in gill were induced and there was a significant effect at higher concentration(p<0.01), while the activities were inhibited in hepatopancrea, the POD activity was the most sensitive and significantly inhibited at lower concentration(p<0.01);In 10d,both SOD and GPx activities were induced in gill, yet there was no significant effect in POD(p> 0.05), compared to the control group, three enzymes activities were induced remarkably, there existed a significant concentration-effect relationship between enzymes activities and the concentration of Pyrene. These changes in SOD and GPx activities in gill and hepatopancreas tissues occurred synchronously. Finally, comparison of the lowest-observed-effect concentration (LOEC) indicated that the sensitivity of three enzymes to was SOD=POD>GPx, which was POD>GPx>SOD in hepatopancrea, at 10d, the sensitivity in two tissues was GPx>SOD>POD, GPx=SOD>POD, respectively. Thus, in a relatively short exposure time, POD activity as a biomarker could better indicate the ecotoxicological effect of Pyrene in pearl oyster, while for a longer time exposure experiments, the GPx enzyme can be used as one of the biomarkers for monitoring marine Pyrene contamination .
