如何有效控制蓝藻水华污染和去除微囊藻毒素是摆在中外环境科学领域的一个难题。
How to control HCB and remove MC is an unsolved problem in the field of environmental science all over the world.
目的了解有毒蓝藻水华频繁暴发的太湖流域周边城市水源水和饮用水中微囊藻毒素(MC)的含量。
ObjectiveTo investigate the level of microcystins(MC)in source and drinking water of a city along Lake Tiahu where toxic water blooms frequently occurred.
太湖水华蓝藻主要由铜绿微囊藻、水华鱼腥藻和水华束丝藻等藻类组成,是太湖流域的夏季主要污染物之一。
Cyanobacteria bloom in Tai Lake, mainly composed of Microcystis aeruginosa, Anabaena flos-aquae and Aphanizomenon flos-aquae, is one of the main pollutants in Tai Lake in summer.
蓝藻“水华”含有毒素,微囊藻毒素分子量为904,实验中可使小白鼠肝脏充血肿大致死。
The water bloom of blue algae can produce toxin and the molecular amount of toxin is 904.
凤凰山水库2009年2月初发生局部微囊藻水华,主要原因是较好的水体稳定性(高水位,较长的水力滞留时间,较低的入库流量和降雨量),以及水温的迅速回升。
Microcystis-bloom in Fenghuangshan reservoir occurred in Feb. -2009, long water retention time, low precipitation and inflow, high temperature were the main reasons.
通过室内模拟的方法研究了在磷质量浓度不同的水体条件下,在铜绿微囊藻水华形成过程中微囊藻的增殖特征及细胞内磷、可溶性磷的变化特征。
The effects of different phosphorus concentrations of water system on DTP, P-in-cell content of tissues (QP) and cell multiplication of Microcystis aeruginosa were studied in laboratory experiments.
利用放线菌的代谢产物特异性抑制或杀死微囊藻是一条治理水华的新思路。
It was a novel idea to control the growth of Microcystis with actinomycete.
利用放线菌的代谢产物特异性抑制或杀死微囊藻是一条治理水华的新思路。
It was a novel idea to control the growth of Microcystis with actinomycete.
应用推荐