英语释义

1. algae (such as diatoms or chlorellas) not visible to the unaided eye

片语

available microalgae可利用微藻

ice microalgae冰藻

Schizochytrium microalgae裂壶藻

Arctic microalgae北极微藻

sea microalgae海洋微藻

Immobilized microalgae固定化微藻

MicroAlgae Cultivation微藻养殖

bait microalgae饵料微藻

Energizing Microalgae盐藻弹力精华

英汉例句

• the model established could potentially be applied to rational design of the mpbr, high-density culture of microalgae and efficient removal of co2.

  所提出的模型对膜式光生物反应器的优化设计、微藻的高密度培养，及co_2去除能力预测具有参考意义。

• as a environmental factor, the salinities affect the toxicity of the dichlorvos to the microalgae hardly.

  本文对不同盐度下敌敌畏对海水小球藻的毒性效应进行了研究。

• the two species of marine microalgae showed significant differences in fat-ty acids composition.

  两种微藻脂肪酸组成显示出明显的种间差异。

• antarctic ice microalgae refers to micro algae which lives in the antarctic sea ice, the sea ice edge or water.

  南极冰藻就是指生活在南极海冰、海冰边缘或海水中的一大类微藻。

• microalgae mainly involving benthic diatoms are rich in nutrients contributing to growth and metamorphosis of juveniles.

  底栖硅藻为主的微藻类，其营养丰富，有利于幼鲍的生长与变态；

• the microalgae are the key primary producer of antarctic biological chain, and the antarctic ice algae are good indicator species for the ecological environment.

  南极生物链中的关键初级生产力是微藻，南极冰藻是极好的生态指示种。

• during 1994-1995, the toxic effect of parathion on two marine microalgae was analyzed with acute toxicity and biochemistry methods.

  于1994—1995年，运用急性毒性实验及生化方法对扁藻和杜氏藻的对硫磷毒性效应进行研究。

• experimental data were also used to verify the model which could potentially be applied to rational design of the photobioreactor, high-density culture of microalgae and efficient removal of co_2.

  模拟结果和实验数据基本吻合，所提出的模型对光生物反应器的优化设计、微藻的高密度培养，及co_2去除能力预测具有参考意义。

• there are many kinds of algae in vast sea area and the inland water in china, such as brown alga, green alga, red alga, blue- green alga and microalgae and so on.

  在我国辽阔的海域及内陆水域中生长着多种藻类，如褐藻、绿藻、红藻及蓝藻、微藻等，其中产量较大的有海带、裙带菜和紫菜，在海藻化工上多用于生产碘、胶、醇。

• marine microalgae are most primary producer in marine ecosystem, and also are most important sources of marine bioactive materials.

  海洋微藻是海洋生态系统中最主要的初级生产者，也是海洋生物资源的重要来源。

• some microalgae can grow mixotrophically and heterotrophically on organic carbon, which can compensate for the light limitation of autotrophication, and also improve the epa-yielding.

  许多微藻具有利用有机碳进行兼养和异养的能力，可以弥补自养培养光限制的不足，并且提高了epa产量。

• the saturated and polar fractions account for 1. 14% and 31. 17% of the bio-oils of microalgae on average.

  微藻热解所得的生物质燃油饱和烃含量平均为1.14%，非烃含量平均为31.17%；

• the effect of different concentrations of penicillin on the culture and preservation of three commonly used sea microalgae is studied in this paper.

  本文采用青霉素处理三种常用海洋微藻，研究不同青霉素浓度对处理藻类的培养与保存的影响。

• spirulina is a blue-green microalgae that is a natural source of essential phytonutrients, protein and amino acids.

  螺旋藻是蓝绿微藻，是基本植物营养素，蛋白质，胺基酸的天然来源。

• the extinction spectra of two species of microalgae suspension were inspected.

  研究了两种微藻液消光系数的波长分布特征。

• to conserve microalgae , it is optimum to place them in an ice-box under -30℃ with conservative glycerine and the survival rates of both kinds of algae are 95% and 93% respectively.

  保存方法以加入保护剂甘油并置于-30℃冰箱中效果最好，小球藻和球等鞭金藻的存活率分别为95%和93%；

• microalgae has the ability to degrade and accumulate organic pollutants.

  微藻具有富集和降解有机污染物的能力。

• several kinds of typical methods of maintenance microalgae species are presented, including succeeding preservation , immobilization storage and cryopreservation.

  本文介绍了微藻保种的几种常用方法，包括继代保存、固定化保存和超低温保存。

• objective: the optimization of the co-immobilization conditions of a bait microalgae and probiotics.

  目的：一株饵料微藻与益生菌混合固定化培养条件的优化。