这两种鱼会使浮游植物群落向不同的方向演替。
Both species of fish make the phytoplankton communities succession towards different directions.
监测围隔中引入鱼以后浮游植物群落在大小结构方面的变化。
To monitor the change in the size structure of phytoplankton community in enclosures after the introduction of fish.
浮游植物群落盘绕在在2010年2月18日的阿拉伯海上,形成翠绿缎带般的纷乱涡流。
Phytoplankton swirled across the Arabian Sea on February 18, 2010, drawn into thin green ribbons by turbulent eddies.
用显微测量粒径分析法 ,测量出各种类的粒径参数 ,可以较准确地推算出浮游植物群落粒级结构。
This indicates that when we study the size fractions of phytoplankton, it is necessary to mend it by microscopical sizing method.
得出倾角,叶绿素,溶解氧,盐度,光量子,温度为浮游植物群落的主要影响因子(P<0.01)。
The results showed that angle, ChlFlu, DO, salinity, P. quantum and temperature were the main factors affecting the structure of phytoplankton community (P<0.01).
同时,结合历史监测数据(1996 ~ 2005年)分析表明,调查海域浮游植物群落结构已经发生改变。
At the same time, an evaluation of long-term monitoring data (1996 ~ 2005) showed that phytoplankton community structure had been changed.
浮游植物是滤食性贝类的主要饵料,也是海洋主要的初级生产者,因此研究贝类养殖对浮游植物群落的影响具有重要的科学意义。
Phytoplankton is the main food to the bivalve filter-feeders and the marine primary producer, so the impacts on the phytoplankton community by scallop culture deserve studying.
浮游植物是滤食性贝类的主要饵料,也是海洋主要的初级生产者,因此研究贝类养殖对浮游植物群落的影响具有重要的科学意义。
Phytoplankton is the main food to the bivalve filter-feeders and the marine primary producer, so the impacts on the phytoplankton community by scallop culture deserve studying.
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