1)Isochrysis galbana金藻
1.SEPARATING AND ANALYZING EPA FROM Isochrysis galbana;金藻中EPA的分离与分析
2.Four commercial species belonged to the first, second, third and fourth trophic levels in the waters of northern China seacoast were selected to form an artificial food chain, that is, Isochrysis galbana→Artemia salina→Ammodytes personatus→Sebastes fuscescens .选择我国北方海岸带水域中属于第一、二、三、四营养级的4个经济种,构成一个简单的人工食物链,即金藻→卤虫→玉筋鱼→黑鱼君。
3.It has the same structure and form as Isochrysis galbana Parke.金藻Isochrysisgalbanaparke8701是作者从天然海水中分离出来的单细胞饵料新品种。
英文短句/例句
1.Studies on Cyanobacterial Bloom Control by Copper Sulfate and a Golden Alga Poterioochromonas sp.;硫酸铜和金藻Poterioochromonas sp.控制蓝藻水华的研究
2.Allelophathy between the four species of marine microalgae and Isochrysis galbana球等鞭金藻与4种海洋微藻间的化感作用
3.Trophic Niche of Isochrysis Zhanjiangensis on Organic Carbon Compounds;湛江等鞭金藻有机碳营养生态位研究
4.Influence of Nitrogen,Phosphorus and Iron on Growth of Alga Pavlova gyrans氮、磷、铁对定鞭金藻生长速率的影响
5.Production and Releasing of the Growth-Inhibitor Formed by Isochrysis galbana球等鞭金藻生长抑制物的产生和释放
6.Isolation of Autoinhibitor Produced by Isochrysis Galbana and Its Physiological Effects on Microalgae;球等鞭金藻抑制物的分离提取及其对藻的生理影响
7.ESTABLISHMENT OF HIGH EFFICIENCY FOREIGN GENE TRANSFORMATION SYSTEM OF CHLAMYDOMONAS REINHARDTII AND STUDING ON GENE TRANSFORMATION OF DICRATERIA INORNATA;莱茵衣藻外源基因高效转化系统的建立及金藻转化方法的研究
8.COMPARISON BETWEEN THE TOXIC MICROCYTIS SPECIES AND NON-TOXIC MICROCYSTIS SPECIES ORIGINATED FROM THE COCULTURE OF MICROCYSTIS AND POTERIOOCHROMOAS SP.金藻吞噬微囊藻产生的无毒变异株与产毒原始株的比较
9.Inhibitory effects of growth-inhibitor isolated from Isochrysis galbana on its own cells球等鞭金藻生长抑制物对自身藻细胞的抑制效应
10.ULTRASTRUCTURAL DAMAGE OF ISOCHRYSIS GALBANA CELLS BY TRIPHENYLTIN CHLORIDE (TPTC)三苯基氯化锡对等鞭金藻细胞超微结构的影响
11.Cryopreservation of Two Golden-brown Algae (Chrysophyta) Used as Food in Mariculture by Encapsulation-vitrification;包埋玻璃化法冷冻保存两种饵料金藻的研究
12.A Study on the Biosorption of Several Metals at Alga(Ⅱ)---The Biosorption of Au (Ⅲ)by Alga(Anabaena)鱼腥藻对某些金属离子的吸附效应研究(Ⅱ)──鱼腥藻对金(Ⅲ)的吸附
13.A Study on Adsorption of Brilliant Blue Dye Wastewater Over Metal/Diatomite Sorbent金属/硅藻土吸附亮蓝染料废水研究
14.CURRENT STATUS AND PROSPECT OF STUDIES ON MICROALGAE STRESS BY HEAVY METALS重金属对微藻胁迫的研究现状及前景
15.Effect of pH on Cadmium Bio-sorption by Myriophyllum spicatumpH对穗花狐尾藻吸附重金属镉的影响
16.Banishment of Heavy Metals in Water Body by Algae and Hydrophyte藻类和水生植物对水体重金属的去除
17.Interaction of Gold Nanoparticles with R-phycoerythrin纳米金粒子与R-藻红蛋白的相互作用
18.Physiological Responses of Ceratophyllum Demersum under Different Concentrations of TP不同磷营养水平下金鱼藻的生理响应
相关短句/例句
Chrysophyta and Xanthophyta金藻及黄藻
1.Discussion on the reasons for Chrysophyta and Xanthophyta seldom growing in the water of mining subsidence area;金藻及黄藻类在煤矿塌陷区水域难生长的原因探讨
3)Ceratophyllum demersum金鱼藻
1.Study on allelochemicals in Ceratophyllum demersum;金鱼藻中抑藻化感物质的研究
2.Physiological responses of Ceratophyllum demersum under different nutritional conditions.;不同营养状态下金鱼藻的生理响应
3.SR-XRF element microanalysis of Ceratophyllum demersum gathered from the mid-part of Huai River;金鱼藻微量元素SR-XRF分析用于淮河中部重金属污染监测
4)golden algae金丝海藻
1.Analysis of nutritional components of golden algae;金丝海藻营养成分的分析
5)Ceratophyllum demersum L金鱼藻
1.Effects of Zn toxicity on Ceratophyllum demersum L under low pH value;模拟酸雨引起水体pH下降导致Zn对金鱼藻的毒害
2.Effects of the combinative pollution of mercury and cadmium on Ceratophyllum demersum L. and preliminary studies of its mechanism;汞、镉复合污染对金鱼藻的影响及其抗性机制的探讨
3.Changes of Cell Membrance Lipid Peroxidation and Activities of Antioxidant Enzyme Systems of Ceratophyllum demersum L. in Combinative Pollution of Cd~(2+) and Hg~(2+);Cd~(2+)、Hg~(2+)复合污染下金鱼藻的细胞膜脂过氧化和抗氧化酶活性的变化
6)hornwort[英]['h?:nw?:t][美]['h?rn,w?t]金鱼藻
1.The accumulation and disappearance dynamic of ~(14)C in water-hornwort system;~(14)C在水-金鱼藻系统中的消长动态
2.The distribution and accumulation dynamic of 14CO32- in red common carp and hornwort was studied by using isotope-tracer technology.本文采用同位素示踪技术研究了14CO32-在红鲤和金鱼藻中的分布与积累动态。
延伸阅读
金藻特征:金藻门植物由于色素体内含有的胡萝卜素类和叶黄素类占优势,所以呈黄绿色至金棕色。贮存养分为金藻糖(chrysose)和油。细胞壁通常由2个互相套合的半片所组成。壁上经常有硅质沉积。营养细胞具鞭毛或无,单生或连接成定形或不定形群体。有无性生殖和有性生殖。无性生殖在不运动种类中可以用游动孢子或不动孢子进行。有性生殖通常为具鞭毛或不具鞭毛的配子的同配作用,也有异配·卵配和自配的。共约6000多种,包括黄藻纲(Xanthophyceae)、金藻纲(Chrysophyceae)和硅藻纲(Bacillariophyceae)3纲。黄藻纲(Xanthophyceae)也叫不等鞭毛藻纲(Heterokontae)(一)特征色素体内主要含叶绿素a、e,β-卜胡萝卜素和异黄素(Hetroxanthin)。造粉核极少见。贮存养分是油。细胞壁含多量的果胶质,大多数细胞壁由2个半片套合而成。游动细胞具不等长的略偏于腹部一侧的2条鞭毛,极少数为1条鞭毛。无性生殖借游动孢子和不动孢子来进行。有性生殖仅在少数属中发现,几乎都为同配。但无隔藻科有卵配。(二)存在和分布绝大多数为淡水产,在各种大小软水中营附生生活和浮游生活;部分气生的黄藻。常生于树干、潮湿墙壁或和苔藓混生,有的在土表和某些土壤藻(Soil Algae)混生,有的生于溪流、池塘边以及树林下土壤表面。(三)分类及代表植物本纲主要依据藻体外形构造和某些生殖方式,分为异丝藻目及异管藻目等6目。金藻纲(Chrysophyceae)(-)特征由于色素体中的β-卜胡萝卜素和某些叶黄素占优势显出金棕色故名金藻。贮存养份是金藻糖(或称金藻淀粉)。运动性的细胞可以是1或2条鞭毛,极少数为3条鞭毛。内生孢子普遍发生。有性生殖尚缺少可靠的资料。金胞藻类(Chrysomonads)细胞裸而无壁,或有的金胞藻的原生质体外具开口而坚固的甲鞘,有一些金胞藻具果胶质衣鞘,其申含硅质鳞片;球形和丝状的种类有细胞壁。金胞藻大多数含1或2个金黄色的色素体。内生抱子(statospore)在本纲藻类中经常发生。有性生殖仅在少数属种中发现,都为同配。(二)存在和分布主要是淡水产。大多数种类生于软水或山间的冷水山溪和池塘中,往往在寒冷季节大量发生。湖泊种类生于表层之下,是寒冷季节重要的浮游藻。球形种类和丝状种类大多数发生于山间寒泉和溪流的石块、木椿上,形成胶质或皮壳状的团块。海洋种类主要是硅鞭藻科和球石藻科的藻类。硅藻纲(Bacillariophyceae)特征:硅藻(diatoms)是一类单细胞植物。许多种类可以连成各式各样的群体。细胞壁富含硅质。和淡海水中广为分布。少数种类可以生活于潮湿的土表。经济意义金藻门3纲大多数生于淡、海水中,是淡水和海洋动物直接、间接的饵料。古代硅藻大量沉积成为硅藻土,是现代工业重要的原料。可作硫酸工业的催化剂载体、建筑磨光材料、工业用过滤剂、吸附剂、保温材料;也可作造纸、橡胶、化妆品、火漆和涂料等的填充剂。地质古生物学方面利用硅藻化石作为研究地史、古地理、古气候的材料,硅藻化石也是地质勘探和矿藏开发经常注意的问题。硅藻约190多属,现代的约120属,有60~70属已绝灭,大部分古代硅藻和现代的相似。可靠的磋藻化石是在侏罗纪开始出现,白辈纪较为丰富,有60属左右。第三纪发现80多属。洪积期发现100多属。我国硅藻土资源是非常丰富的。仅吉林省更新世地层中就发现质量很好的硅藻土矿多处,此外,山东临汾、浙江舟山、陕西、海南岛等地都有很多硅藻土矿。
