1) Nannochloropsis sp.YW0980
云微藻
2) algal dolomite
藻白云岩
1.
The dedolomitization of algal dolomite of Middle Cambrian in the Keping area,Tarim Basin,is firstly reported in this work.
去白云岩化限于渗透性较好的藻白云岩,并且只有靠近含膏层段的藻白云岩才发生去白云岩化。
3) microalgae
[,maikrəu'ældʒi:]
微藻
1.
The study of decontamination of microalgae to heavy metal ions in the ocean;
微藻对海水中重金属离子的净化作用研究
2.
Influence of environmental factors on removal of nitrogen and phosphorus by microalgae;
环境因素对微藻去除氮磷的影响
3.
The influence of lead on marine microalgae by a flow cytometry;
应用流式细胞仪研究Pb对海洋微藻生长的影响
4) microalga
微藻
1.
The production of lutein by microalga biotechnology;
叶黄素的微藻生物法生产技术
2.
Microalgal photosynthetic hydrogen production: the ultimate answer to global energy crisis?;
微藻光合作用制氢——能源危机的最终出路?
3.
lemaneiformis,especially their fresh tissues,significantly interfered with the growth of the co-cultured microalgae.
研究了2种大型海藻石莼(Ulva pertusa)和江蓠(Gracilaria lemaneiformis)对2种赤潮微藻:东海原甲藻(Prorocentrumdonghaiense)和塔玛亚历山大藻(Alexandum tamarense)生长的影响以及2种微藻之间的相互作用,结果发现:①在大藻(石莼或江蓠)-微藻(东海原甲藻或塔玛亚历山大藻)的共培养体系中,石莼和江蓠均能明显影响与其共培养的微藻的生长,石莼对微藻生长的影响强于江蓠的作用。
5) micro-algae
微藻
1.
This paper relates to pure and mixed cultures of Hyd-rodictyon reticulatum and micro-algae.
通过单独与混合培养实验,结果显示在适宜营养水平下,水网藻对氮、磷有较强的富集吸收能力;而来自微藻生长竞争的压力会促使水网藻对营养物的生态幅变窄,满足其最佳生长所需要的PO43-P从0。
2.
reticulatum and its metabolite to inhibit micro-algae growth.
通过围养水网藻并利用其代谢物抑制周围微藻的生长 ,同时采用人工收获水网藻的方式去除N、P等营养物质 ,是一种有效净化水源地水质的生态工程措施。
3.
Various materials without harm to activities of the organisms were chosen and tested to fix micro-algae.
通过用不损害生物活性的材料固定压载水样中的微藻,来寻找合适的固定液,并探讨最佳的固定方案。
6) micro algae
微藻
1.
Effects of different nitrogen on growth of micro algae;
不同氮源对微藻增殖的影响
2.
There have been only a few studies on the effect of urea on the growth of micro algae till now, but urea is often used in pond culture.
鉴于人们对有机氮影响微藻生长的研究较少,以及尿素在池塘养殖中的不断应用,研究了尿素对3种海洋微藻生长的影响情况。
3.
The future high-efficiency oasis will take micro algae as transformer to fix all -weather solar energy, and employ modern technology to made full use of illuminous and thermal resources and to increase photosy.
未来的高效绿洲,是用微藻做为太阳能转化器,全天候固定转化太阳能,广泛采用现代技术,把天赋的光热资源用一切可能的方式加以转化,用来提高光合作用的产出,把沙漠地区建成为人类创造食品和工业原料的新基地,变不毛之地为沃土。
补充资料:淡水藻微囊藻(Microcystis aeruginosa)
黎尚豪提供
[图]
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条