中文摘要：

为揭示化感物质邻苯二甲酸二丁酯（dibutyl phthalate, DBP）对短裸甲藻（Gymnodinium breve）的抑制机制,研究了DBP对短裸甲藻丙二醛（malonaldehyde,MDA）含量、亚显微结构、不同超氧化物歧化酶（superoxide dismutase,SOD）的影响.结果表明,DBP引起了细胞MDA的积累,3mg·L-1的DBP处理组在72 h处出现最大值,为0.34 μmol·（109 cells）-1,是对照组的2.3倍; 细胞膜出现大量突起,细胞内形成大量液泡,膜结构解体最终空洞、死亡.CuZn-SOD位于藻细胞质,在DBP影响下,活性升高,表明藻细胞质（包括细胞膜）内积累的ROS诱导了酶的活性; 而位于线粒体的Mn-SOD活性降低,可能是由于ROS在线粒体内积累过度导致其失活,DBP可能通过作用于短裸甲藻线粒体和细胞膜,从而引起藻细胞氧化损伤,最终导致细胞空洞化死亡.该结果对赤潮化感抑制剂的实际应用具有理论指导作用.

英文摘要：

The aim of this study was to investigate the mechanism of inhibitory action of dibutyl phthalate （DBP） on red tide algae Gymnodinium breve. The effects of DBP on malonaldehyde, subcellular structure and superoxide dismutase （SOD） isoforms were investigated. The results showed that MDA accumulated in the algae cell under DBP exposure, and for the 3mg·L-1 DBP treated algae culture a peak value of 0.34 μmol·（109 cells）-1 occurred at 72 h, which was about 2.3 times than that of the control. TEM pictures showed the disruption of DBP on the subcellular structure of G. breve. A morphological phenomenon appeared that the algae cell was commonly found small tubules or apical parts around the cell membrane, and almost all normal cell organelles were indistinguishable finally. The activity of CuZn-SOD（main cytoplast located isoform with little in cloroplast） under DBP exposure was higher than that of the control, and no significant difference was observed on Fe-SOD（chloroplast located isoform） activity, but for the Mn-SOD（mitochondrial isoform）, the activity was significantly inhibited. These results indicated that DBP might inhibit the algae growth from the plasma membrane and the mitochondria, resulting in oxidative damage in algae cell and a final death. This paper will give a theoretical support to the practical usage of the allelochemical on red tide algae.