机译:微藻悬浮液中磷饥饿的光学监测的可能性<重点型=“斜体”>小球藻 Emphasis> IPPAS C-1(叶绿素)
Departments of Biology Moscow State University;
Departments of Biology Moscow State University;
Departments of Biology Moscow State University;
Departments of Biology Moscow State University;
Departments of Biology Moscow State University;
Federal Research Center Fundamentals of Biotechnology Russian Academy of Sciences;
Institute of Bio- and Geosciences 2: Plant Sciences (IBG-2) Forschungszentrum Jülich (FZJ);
Departments of Biology Moscow State University;
microalgae; light scattering; phosphorus starvation; chlorophyll fluorescence; photobioreactor; Chlorella vulgaris;
机译:微藻悬浮液中磷饥饿的光学监测的可能性<重点型=“斜体”>小球藻 Emphasis> IPPAS C-1(叶绿素)
机译:通过添加微藻<重点型=“斜体”> Noholla寻常 Emphasis>生物质,改善了初榨橄榄油的氧化稳定性。
机译:使用<重点型=“斜体”>小黄类强调>和<重点类型=“斜体”> Cheredesmus Obliquus Emphasiss Emphasis ob> Chlerella obliquus Emphasis)的二氧化碳生物固定液和植物修复
机译:在线监测紫外光下采出水中油的光学方法
机译:微藻小球藻的N-聚糖属于寡甘露糖苷型但高度甲基化
机译:磷饥饿的光学监测的可能性悬浮液的微藻果蝇IPPAS C-1(叶绿素)