固定化藻菌对污染物的去除受污水营养比的影响。
The nutrient ratio of wastewater has some influence on removal efficiency of pollutants.
这是已报道蓝杆藻菌株中,批培养胞外多糖产量的最高纪录。
This was the highest exopolysaccharide yield produced by strains of Cyanothece obtained so far.
国内外对藻菌共生处理污水进行了大量实验室和试验性研究应用。
Many lab oratory or pilot scale studies on algal - bacterial symbiotic system for wastewater treatment have been developed.
同时,D1菌对于复合溶藻菌剂的抑制影响要大于T5菌的促进作用。
Meanwhile, the inhibit effect of bacteria D1 was greater than the promote effect of bacteria T5.
在厚壁休眠细胞如藻菌纲的厚孢子或接合子中明显的几层是常常能看见的。
Distinct layers are often visible in thick-walled resting cells such as chlamydospores or zygotes of phycomycetes.
菌剂复配方式为分别培养后投加,贫营养菌与溶藻菌的复配比为2:1。
The composite ratio of oligotrophic bacteria and algicidal strain is 2:1, after separately training.
一定时间后,藻菌共生之间可达到一种动态平衡,满足藻菌对二氧化碳和氧气的需求。
After a certain time, the concentration of DO and CO2 can achieve a dynamic equilibrium, which can meet the demand of bacteria and algae.
将一种由改性高分子材料制成的人工水草作藻菌生物膜的载体,来改善富营养化水体水质。
The quality of eutrophic waters was improved by the algae-bacterium biofilm, which covered over the artificial aquatic mat made from a kind of mend macromolecule material.
选择性技术可用于研发蓝藻菌株,这种菌株可以有效地利用Mg 2 +形成MgCO3。
Selective techniques could be used for developing cyanobacterial strains that will be able to effectively utilize free Mg2 + ions to form MgCO3.
地球最早的生命证据来自于澳大利亚被称为“叠层岩石”的蓝藻菌群化石,距今大约有34亿年。
The earliest evidence for life on Earth comes from fossilized MATS of cyanobacteria called stromatolites in Australia that are about 3.4 billion years old.
地球最早的生命证据来自于澳大利亚被称为“叠层岩石”的蓝藻菌群化石,距今大约有34亿年。
The earliest evidence for life on Earth comes from fossilized MATS of cyanobacteria called stromatolites in Australia that are about 3.4 billion years old.
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