淀山湖水质富营养化和微囊藻毒素污染水平

研究淀山湖不同季节水体中总磷(TP)、总氮(TN)、pH、水温、透明度(SD)、叶绿素a(Chl-a)含量和优势藻种等富营养化相关指标;在培养条件下,研究不同温度、光照、氮磷浓度对铜绿微囊藻的生长及微囊藻毒素LR(MC-LR)产生的影响;研究藻细胞密度和微囊藻毒素LR浓度的相关关系.结果表明:淀山湖水质已呈富营养化状态,春末和夏季水质和水文条件适合藻类生长.湖水TN和TP年平均值分别达1.93mg/L和0.18mg/L,TN和TP的年超标率达93.5%和92.2%.TP的高峰期比施肥的高峰期延迟出现约一个月,说明沿湖农业对富营养化指标的影响较大.淀山湖常年生长的藻类分别是蓝绿藻、硅藻、隐藻和裸藻等,夏季水华中可见污染指示藻如微囊藻、鱼腥藻和针杆藻等产毒藻.培养条件下,铜绿微囊藻在25℃和3000lx时生长最快,但产毒量却分别在20℃和5000lx时达到最大值;合适其生长和产毒的氮、磷浓度分别为650μmol/L和6.5μmol/L.现场和实验室条件下,均发现磷为藻类生长的限制因子,微囊藻毒素-LR浓度与藻细胞密度或铜绿微囊藻细胞密度之间存在正相关关系,提示可以用藻细胞密度来估算水中毒素的浓度.

Eutrophication and pollution level of microcystin in Dianshan Lake

A survey was conducted in Dianshan Lake to study the eutrophication indexes including total phosphorus (TP), total nitrogen (TN), pH, temperature, diaphaneity and chlorophyll-a level and dominant algae in seasons. The impacts of temperature, light, nitrogen and phosphorus on growth of and microcystin LR production by Microcystis aeraginosa strain under laboratory conditions were studied. Relationship between algal cell density and concentration of microcystin LR were studied. Results suggest that water in Dianshan Lake was eutrophicated. The suitable seasons for algae growth are the end of spring and summer. The annual average of TP and TN were 1.93 mg/L and 0.18 mg/L respectively. And 93.5 and 92.2 percent of TP and TN were higher than the criteria for the third class water body. Significant impact from agriculture was indicated since the peak of algae laged one month after the maxium use of fertilizer. The dominant algae in Dianshan Lake were cyanobacteria, bacillariophyta, cryptophyta and euglenophyta. Microcystis, anabaena and synedra, which excrete toxins and indicate water pollution, and are dominant algae species in summer. M. aeraginosa strain had a biggest growth rate at temperature of 25 degrees C and light intensity of 3 0001x, while microcystin LR production contents reached maximum at 20 degrees C and 5000lx respectively. The optimum TP and TN concentrations for growth of and toxin production by M. aeraginosa were found to be 650 micromol/L and 6.5 micromol/L respectively. TP is suspected to be the limiting factor for the growth of algae both in field and laboratory conditions. Positive correlations between total microcystin LR concentrations and algae cell density or M. aeraginosa cell densities are found. The algae cell density can be used to predict the level of algal toxins in water.