这些研究可以了解盐场水体的盐度变化后,海洋微藻的生长和演替状况,有助于盐场海水养殖。
When the water salinity changes, the growth and succession of Marine micro algae would be known from those studies, and those results would help to make success of aquaculture.
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。
The effect of different concentrations of penicillin on the culture and preservation of three commonly used sea microalgae is studied in this paper.
论述海洋微藻的用途,开发利用现状,大 容量培养和生物活性物质提取的生物技术,并指出了开发利用的广阔前景。
The usage, status of the development of microalgae and the biotechnology in mass culture and the extraction of bioactive molecules contained in microalgae are reviewed in this paper.
对几种海洋微藻进行培养,对数期末期收获,提取脂肪酸后利用气相色谱法测定,结果表明海洋微藻可以作为EPA和DHA的生物替代资源。
Some strains of Marine algaes was cultured and harvested at exponential time. The fatty acids ware detected by GC. The results showed that Marine algaes could be a biological substitute resource.
海洋微生物化学:微藻活性产物化学及微藻可再生能源利用。
Marine Microbiological chemistry: Microalgal bioactive product chemistry and renewable energy from microalgae.
海洋微生物化学:微藻活性产物化学及微藻可再生能源利用。
Marine Microbiological chemistry: Microalgal bioactive product chemistry and renewable energy from microalgae.
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