铜、镉对鲫组织超氧化物歧化酶活性的影响
THE EFFECTS OF Cu2+、Cd2+ ON SUPEROXIDE ACTIVITIES IN CARASSIUS AURATUS
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Keywords:
- Copper /
- Cadmium /
- Superoxidase /
- Carassius auratus
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[1] Zhen J S,Zhou J Y. Heavy Metais of Aqueous Environment In China[M]. Beijing: China Environmental Science Press,1992.[陈静生,周家义. 中国水环境重金属研究. 北京:中国环境科学出版社,1992][2] Burgeot T,Anderson B G.Bioindicators of pullutant exposure in the northwestern Mediteranean Sea[J]. Mar Ecol Prog Ser,1996,131:125-141[3] Cossu C,Bazzaz M B, Govindjee A. Glutathione reductase,selenium-dependent glutathione peroxidase,glutathione levels,and lipid peroxidation in freshwater bivalves,Unio tumidus,as biomarkers of aquatic contamination in field studies[J]. Ecotox Environ Safe,1997,38:122-131[4] Livingstone D R,Archibald S,Chipman K L et al. Antioxidant enzymes in liver of dab Limanda Limanda from the North Sea[J].Mar Ecol Prog Ser,1992,91:97-104[5] Zhu G L,Zhong H W,Zhang A Q.Plant physiology experiment[M].Beijing:Beijing university Press,1990[朱广廉,钟海文,张爱琴. 植物生理学实验. 北京:北京大学出版社,1990][6] Ku B. Means of biology Chemistry[M]. Beijing:People Press,1977[库柏. 生物化学工具(M). 北京:人民出版社,1977][7] Liang T,Tao S,Lin J Z. Accumulation of Copper in the fish body with gill removed and the fish gill[J]. Acta Ecologica Sinica,1999,19(5):[梁涛,陶澍,林健枝. 鱼体(去鳃)和鱼鳃对不同形态铜的积累特征. 生态学报,1999,19(5):][8] Mark Macnair. Tansley Review No.49:The Genetics of Metal Tolerance in Vascular Plants. New Phytophysio.,1993,124:541-559[9] Cumming J R,Tomsett A B. Metal tolerance in plants:signal transduction and accumulation mechanisms. In:Adriano D.D(ed.)Biogeochemistry of trace metals. Boca Raton:Lewis Publishers,1992,329-364 Zhen J S,Zhou J Y. Heavy Metais of Aqueous Environment In China[M]. Beijing: China Environmental Science Press,1992.[陈静生,周家义. 中国水环境重金属研究. 北京:中国环境科学出版社,1992][2] Burgeot T,Anderson B G.Bioindicators of pullutant exposure in the northwestern Mediteranean Sea[J]. Mar Ecol Prog Ser,1996,131:125-141[3] Cossu C,Bazzaz M B, Govindjee A. Glutathione reductase,selenium-dependent glutathione peroxidase,glutathione levels,and lipid peroxidation in freshwater bivalves,Unio tumidus,as biomarkers of aquatic contamination in field studies[J]. Ecotox Environ Safe,1997,38:122-131[4] Livingstone D R,Archibald S,Chipman K L et al. Antioxidant enzymes in liver of dab Limanda Limanda from the North Sea[J].Mar Ecol Prog Ser,1992,91:97-104[5] Zhu G L,Zhong H W,Zhang A Q.Plant physiology experiment[M].Beijing:Beijing university Press,1990[朱广廉,钟海文,张爱琴. 植物生理学实验. 北京:北京大学出版社,1990][6] Ku B. Means of biology Chemistry[M]. Beijing:People Press,1977[库柏. 生物化学工具(M). 北京:人民出版社,1977][7] Liang T,Tao S,Lin J Z. Accumulation of Copper in the fish body with gill removed and the fish gill[J]. Acta Ecologica Sinica,1999,19(5):[梁涛,陶澍,林健枝. 鱼体(去鳃)和鱼鳃对不同形态铜的积累特征. 生态学报,1999,19(5):][8] Mark Macnair. Tansley Review No.49:The Genetics of Metal Tolerance in Vascular Plants. New Phytophysio.,1993,124:541-559[9] Cumming J R,Tomsett A B. Metal tolerance in plants:signal transduction and accumulation mechanisms. In:Adriano D.D(ed.)Biogeochemistry of trace metals. Boca Raton:Lewis Publishers,1992,329-364
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