精喹禾灵的水生植物毒性研究+文献综述
毕业论文关键词: 精喹禾灵;绿色微囊藻;生态毒性;抑制
Acute Toxicity of Quizalofop-p-ethyl on Aquatic Plant
Abstract: Microcystis viridis is the longest harmful cyanobacteria in Chaohu cyanobacteria of dominant species in central. It produce more toxicity than Microcystis aeruginosa. However,studies of Microcystis viridis is less. With the intensification of inland water eutrophication caused by harmful algal blooms has become a frequent occurrence of environmental issues of common concern at home and abroad, including microcystis blooms is the most serious category in freshwater bodies, since these water bloom widespread and most toxigenic greater dangers, which poses a potential environmental risk of a large number of residues in the environment. Green algae as a biological model, the degree of oxidative damage by measuring algal cells inside and outside the algal cells microcystin LR content Quizalofop green Microcystis growth inhibition effect Quizalofop protein content, the study herbicide quizalofop ecotoxicity of cyanobacteria. The results show: 0.5 mg / L of Quizalofop can stimulate the growth of green Microcystis cells, while green microcystin at prolonged exposure to high concentrations Quizalofop its growth was inhibited. Probed into the future research directions, aimed to provide valuable reference for the ecological risk assessment of the antibiotics.
KeyWords: Quizalofop-p-ethyl;Microcystis viridis;Ecological toxicity;Inhibit
目 录
1. 引言(绪论) 1
1.1 除草剂的污染现状 1
1.2除草剂对淡水藻类的毒性效应 1
1.2.1除草剂结构及其作用机制对毒性的影响 1
1.2.2除草剂作用浓度对毒性的影响 1
1.2.3藻种及其基本细胞组分对除草剂的影响 2
1.2.4环境因子对除草剂毒性的影响 2
1.2.5作用时间 3
1.3除草剂对淡水藻类的毒性机理 3
1.3.1除草剂对藻类的固氮作用影响 3
1.3.2除草剂对藻类的光合作用影响 3
1.3.3除草剂对生物膜作用机理 3
1.3.4除草剂对藻类生化组分的影响 3
1.4 精喹禾灵的污染现状 3
1.5 精喹禾灵的理化性质和药理毒理 4
1.5.1 精喹禾灵的理化性质 5
1.5.2 精喹禾灵的药理毒理 5
1.6 精喹禾灵的生态毒性 5
1.6.1 精喹禾灵对微生物的生态毒性 5
1.6.2 精喹禾灵对植物的生态毒性 5
1.6.3 精喹禾灵对动物的生态毒性 5
1.6.4 精喹禾灵对人体的生态毒性 5