1) chlorella method
小球藻法
2) Chlorella pyrenoidosa
小球藻
1.
Optimization of Culture Parameters for Heterotrophic Cultivation of Chlorella pyrenoidosa and Lutein Production;
小球藻异养生长及叶黄素合成量影响因子的优化研究
2.
Toxic effects of trichloroisocyanuric acid and ciprofloxacin hydrochloride on a freshwater alga,chlorella pyrenoidosa;
三氯异氰尿酸与盐酸环丙沙星对蛋白核小球藻的毒性效应
3.
Isolation,purification and property of anti-oxidation of the proteins from Chlorella pyrenoidosa;
小球藻蛋白质的分离、纯化及抗氧化特性
3) Chlorella vulgaris
小球藻
1.
Hyperspectral quantitative models for Chlorophyll-a of Chlorella vulgaris and Microcystis aeruginosa;
小球藻和铜绿微囊藻的高浓度Chl-a高光谱定量模型
2.
Characteristics of Adsorption and Desorption of Lead on Live Chlorella vulgaris;
活性小球藻对铅离子的吸附与解吸特征研究
3.
The effect of cadmium on the uptake rates of phosphorus by Chlorella vulgaris under different conditions;
不同环境下镉对小球藻吸收磷速率的影响
4) Chlorella
[英][klə'relə] [美][klə'rɛlə]
小球藻
1.
CO_2 removal from air by means of a chlorella-based photobioreactor;
小球藻光生物反应器脱除空气中二氧化碳的研究
2.
Study on the N,P purification ability of Chlorella;
小球藻净化污水中氮磷能力的研究
3.
Study on the N,P Purification Ability of Chlorella under Autotrophic Condition;
自养条件下小球藻净化氮磷能力的研究
5) Chlorella spp
小球藻
1.
Study on mechanism bioaccumulation of Chlorella spp.;
小球藻生物富集锌、镉机制的研究
2.
Effect of NaHCO_3 Concentration on the Growth of Pyramidomonas sp.,Chlorella spp. and Nitzschia Closterium;
NaHCO_3浓度对塔胞藻、小球藻和新月菱形藻生长的影响
6) Chlorella sp
小球藻
1.
Aldoses Composition of Polysaccharides in Colloids Produced by Chlorella sp. and Isochrysis galbana;
小球藻和球等鞭金藻胶体中多糖的醛糖组成
2.
Study on the adsorption of Cu~2+ in water with Chlorella sp.;
小球藻生物吸附废水中铜的研究
3.
Preliminary study on the factors influencing the adsorption of Pb~(2+) on Chlorella sp;
小球藻吸附水中Pb~(2+)影响因素的初步研究
补充资料:小球藻法
分子式:
CAS号:
性质:利用小球藻体内叶绿素含量与某除草剂浓度成负相关的原理,测定除草剂活性的生物测定法。方法为将单细胞小球藻(Chlorella vulgais)原液或藻种接种在培养液中,培养至旺盛生长,再将定量藻液移至存有培养液的三角瓶中培养24h,分离、存放后提取叶绿素,测定在665nm下的透光率,求出叶绿素含量,计算IC50值。
CAS号:
性质:利用小球藻体内叶绿素含量与某除草剂浓度成负相关的原理,测定除草剂活性的生物测定法。方法为将单细胞小球藻(Chlorella vulgais)原液或藻种接种在培养液中,培养至旺盛生长,再将定量藻液移至存有培养液的三角瓶中培养24h,分离、存放后提取叶绿素,测定在665nm下的透光率,求出叶绿素含量,计算IC50值。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条