介绍了小球藻异养培养的营养需求,条件控制以及应用前景。
The nutritional substances and the control of conditions on the heterotrophy of Chlorella are reviewed, and its applications are introduced.
培养工艺研究与化学组成分析将为植物激素应用于小球藻的异养培养奠定基础。
Both the culture technology researches and the constituent analyses will lay a foundation for the application of plant hormones in the heterotrophic culture of Chlorella vulgaris.
与其它叶黄素源相比,小球藻具有生长迅速、可进行异养培养、含游离叶黄素等优势。
Chlorella is noted for its high cellular lutein content, which makes it a potential resource for lutein production.
研究了植物激素IBA与6 - BA对摇瓶分批流加异养培养小球藻的生长及化学组成的影响。
The effects of plant hormones, IBA and 6-ba, on the flask fed-batch heterotrophic culture and the constituents of Chlorella vulgaris were researched in this paper.
对突变体的分析,有以下新结果:突变体都能进行光合自养,但无论在异养培养基上还是自养培养基上,和对照相比,其生长速度非常缓慢;
The new results were obtained as follows: All the mutants could be grown photoautotrophically. However, their growth speed was very slow either on HS or TAP medium as compared with the control;
对具有80%的同步硝化反硝化(SND)效果的MBR系统中存在的异养硝化菌进行了分离培养,并对其硝化特性进行了研究。
The heterotrophic nitrification bacteria existed in MBR system possessing SND effect of 80% was isolated and cultured; and its mortifying characteristic was studied.
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。
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.
通过添加不同营养盐类的纯种和自然培养试验,对异养细菌生长的限制因子进行了研究。
Restricting factors of bacteria growth were studied by pure culture and natural culture test.
通过添加不同营养盐类的纯种和自然培养试验,对异养细菌生长的限制因子进行了研究。
Restricting factors of bacteria growth were studied by pure culture and natural culture test.
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