1) food algae and red tide algae
赤潮藻与非赤潮藻
2) red tide microalgae
赤潮微藻
1.
Interaction of UV-B radiation enhancement and athracene on the growth of three species of red tide microalgae;
UV-B辐射增强和蒽对3种赤潮微藻生长的相互作用
3) red tide algae
赤潮藻
1.
Advances of research on effects of red tide algae on the feeding, egg production and hatching of copepods;
赤潮藻对桡足类摄食、产卵及孵化影响的研究进展
2.
Advances in molecular detection techniques for red tide algae
赤潮藻的分子生物学检测技术
3.
In this paper in vivo fluorescence excitation spectra were measured and the discrimination method of the red tide algae was established by the similarity index of spectra.
基于这三种赤潮藻的活体叶绿素荧光激发光谱,通过计算光谱相似性指数对其进行识别。
4) harmful algae
赤潮藻
1.
Study on automatic recognition for harmful algae images;
赤潮藻类图像自动识别的研究
2.
Four species of representative harmful algae from the East China Sea,Skeletonema costatum,Pseudo-nitzschia pungens,Prorocentrum donghaiense and Alexandrium catenella,were choosen as the target species.
以我国东海海域近年来的4种代表性赤潮藻(硅藻中肋骨条藻和尖刺拟菱形藻、甲藻东海原甲藻和链状亚历山大藻)作为研究对象,测定和对比了其细胞氮磷营养储存能力及藻细胞利用胞内储存营养进行生长繁殖的生长潜力。
3.
Various technics of genetic and molecular markers are extensively used for phylogenetic analysis of red-tide algae providing their morphological identification with a complementary tool and playing an important role in the revelation of the harmful algae diversity.
各种遗传标记及分子标记技术被广泛地用于赤潮藻的分子系统学研究,为形态鉴定方法提供了辅助依据,对揭示赤潮生物的多样性有重大的推动作用。
5) HAB algae
赤潮藻
1.
In a batch culture experiment, it was tested the effects of Pb(Ⅱ) on the growth of 2 species of HAB algaes(Chaetoceros curvisetus, Skeletonema costatum) at different concentrations of micro nutrients(NO 3-N and PO 4-P).
采用抑制率 重金属离子浓度的对数方程拟合求算出 3种浓度营养盐 (NO3 -N、PO4-P)条件下Pb(Ⅱ )对 2种赤潮藻的 96hEC50 值 ,分别为 83 73 ,2 5 63 ,2 3 0 7;185 2 3 ,10 44 5 ,3 494μg·dm-3 ,并根据方程应用origin 7。
2.
The effect of the ratio variation of nitrate and phosphate on the growth of 3 species of HAB algae (Nitzschia closterium, Chaetoceros curvisetus, Skeletonema costatum) is studied and batch culture experiments are conducted.
应用 1次培养实验方法研究了不同组成磷酸盐 (PO4- P)和硝酸盐 (NO3 - N)对新月菱形藻、旋链角毛藻和中肋骨条藻 3种海洋赤潮藻生长的影响。
3.
In order to understand the mechanism of HAB outbrake to answer why one or several HAB species can overwhelm others and become dominant, both batch culture experiment in laboratory and mesocosm experiment in East China Sea are conducted to study the effects of dissolved inorganic nutrients composition on the growth of common HAB algae in East China Sea.
本文针对东海赤潮生物在特定环境条件下,如何发展成为优势种形成赤潮的营养盐影响机制问题,采用实验室单种一次培养与现场围隔生态实验相结合的实验方法,研究了无机溶解态营养盐组成对东海典型赤潮藻生长的影响。
6) red tide algae
赤潮藻类
1.
Adaptive and competitive strategies of red tide algae;
赤潮藻类的适应与竞争策略
2.
Tolerance response model of N/P ratios for red tide algae
赤潮藻类的氮磷比耐受性响应模型
补充资料:赤潮
赤潮 red tide 水域中某些浮游生物暴发性繁殖引起的水色异常和水质恶化的现象。又称红潮。主要发生在近海海域。可引起赤潮的生物有60多种,如腰鞭毛虫、裸甲藻、短裸甲藻、棱角藻、原甲藻、角刺藻等。海域一旦发生赤潮,即可使所在水域缺氧,而阻碍其他生物体的呼吸,甚至使之窒息死亡。而且,部分赤潮生物体内或其代谢产物中含有生物毒素,常会引起鱼、贝类死亡。赤潮海域,水体恶臭,鱼虾绝迹。产生赤潮的原因与海洋遭受污染有关,即由于氮、磷、碳等大量营养物质排入海洋,使海洋富营养化,为赤潮生物大量繁殖提供了条件。防止海域污染是避免发生赤潮的重要措施。
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参考词条