蓝藻类

The phytoplankton community was mainly composed of Cyanophyceae, Euglenophyceae, Bacillariophyceae, and Chlorophyceae, and the dominant species were Oscillatoria subtillissima, Dactylococcopsis irregularis, Euglena caudata, Melosira granulata, Cyclotella meneghiniana, Chlorella vulgaris, and Scenedesmus quadricauda. The main environmental factors affecting the distribution of phytoplankton species in July were ammonium-nitrogen, dissolved oxygen, water temperature, and total phosphorus, while those in September were pH, water temperature, dissolved oxygen, transparency, and total nitrogen. Water transparency and zooplankton were the main factors affecting the biomass of Cryptophyceae, Pyrrophyceae, and Bacillariophyceae; while nitrogen, phosphorous, and dissolved oxygen were the main factors affecting the biomass of Cyanophyceae, Euglenophyceae, and Chlorophyceae.

结果表明：调查期间共鉴定出浮游植物384种，隶属于8门，浮游植物密度范围为2.01×105～57.60×105 cells·L-1；群落组成以蓝藻、裸藻、硅藻和绿藻为主，主要优势种有细微颤藻、无常蓝纤维藻、尾裸藻、颗粒直链藻、梅尼小环藻、普通小球藻、四尾栅藻等；7月影响浮游植物分布的主要环境因子依次为铵态氮、溶解氧、水温和总磷，而9月的pH值、水温、溶解氧、透明度和总氮含量对浮游植物的分布产生影响较大；其中，透明度和浮游动物量是影响隐藻、甲藻和硅藻藻类生物量的主要环境因子，而蓝藻、裸藻、绿藻主要受水体氮磷营养盐浓度和溶解氧的影响。

Phycocyanin not only was the most important light-harvesting protein of algae,but had most potential to be explored to be healthy food and medicine for people.

藻蓝蛋白不仅是藻类的主要捕光色素蛋白，而且具有重要的开发利用价值。

The interaction of Au with Phycocyanin was investigated by ultraviolet-visible,fluorescence and infrared spectra under the condition of 4 ℃ and without light.

藻蓝蛋白(phycocyanin，简称PC)是蓝藻、红藻等藻类中特有的捕光色素蛋白[1]，其质量分数约占藻体细胞干质量的18%，是一种重要的天然色素，在食品、化妆品等工业领域均有广泛应用[2]。

Wanfenghu reservoir has been polluted seriously, and waters are in a severe eutrophication condition. Whether physico-chemical indexes or biological indexes appraisal, it proved that the water quality of Wanfenghu is between IV-V. Wanfenghu contains high TN and TP which are 5 to 6 times of the national standard content, and the quantities construction of phytoplankton communities is deeply disequilibrium, the Cyanophyta and Charophyta occupying overwhelming

万峰湖水库已经受到了严重污染，水体处于严重富营养化状态，其水体中的溶解氧的三季变化范围在2.92-5.3mg·L之间、化学耗氧量三季平均值为34.77 mg·L~(-1)、总氮三季平均值为2.5 mg·L~(-1)、总磷的三季平均值为0.35 mg·L~(-1)、叶绿素a含量的三季平均值为23.64 mg·m~(-3)，以上各指标表明万峰湖水库水体处于Ⅳ-Ⅴ类水质；无论从浮游植物的群落数量上还是浮游植物种类组成上看，蓝藻和绿藻都占绝对优势，而其它各种藻类极少，是典型的蓝-绿藻型水

Manchurica, Eugonophyllum, cyanophyceae community and another is Formit-chevella community.

manchurica，叶状藻Eugonophyllum和菌藻类蓝细菌群落及珊瑚Formitchevella群落。

The research results indicate that LED integrated photopanel as interior illuminant, which emit monochromic light such as red light(660～680nm)and blue light(430～450nm), not only cover with spectrums absorbed by the plant or algae for photosynthesis, enhance the light energy absorbed by chlorophyll a and the growth of Spirulina platensis, increase greatly microalgal biomass and the its content of photosynthetic pigments; but also decrease enormously the absorption spectrums not need for photosynthesis, save energy at more than 38.75%.

从LED集成光电板的光电特性、光热效应、光衰减性、光辐射特征与植物和藻类光吸收特征的相匹配性及LED辐射单色光对螺旋藻的光合色素含量的影响等几方面，分析研究了LED集成光电板作为光生物反应器内部光源的特性及可行性，研究结果表明，LED集成光电板作为光生物反应器的内部光源，它所发射的单色光谱红光660～680nm、蓝光(430～450nm，不仅能覆盖植物和藻类光合作用所需要吸收的光谱能带，促进叶绿素a对光能的吸收和螺旋藻的生长，增强光合作用，使细胞生物量与光合色素含量显著提高；而且不被吸收的光谱减少，节能达38.75％，无疑它将是光生物反应器潜在最有效的光源。

A black layer rich in organic matter, is a complex combination of blue-green algae cells, white layer algae are bonded by being composed of carbonate particles.

黑色层富含有机质，是蓝绿藻细胞的复杂组合，白色层则由被藻类所粘结的碳酸盐微粒组成。

Oil is from the age of the ancient organic materials (mainly single-celled plants, such as blue - green seaweed; single-cell animals, such as foraminifera) deposition, after a long-term physical and chemical changes in production.

石油是由古地质年代有机物质（主要是单细胞植物，如蓝-绿海藻类；单细胞动物，如有孔虫类）沉积后，经过长期物理、化学变化而生成。

Some form symbiotic associations with algae or cyanobacteria to form lichens, while others form extremely important mycorrhizae with the roots of many plants, including most forest trees.

真菌是土壤和淡水中主要的分解者，一些与藻类或蓝细菌共生形成地衣，还有一些真菌与许多植物包括大多数林木的根形成大量的菌根。

Then, in February this year, blue was back after Spirulina, from blue-green lake algae, was identified as a source.

然后，在今年2月，蓝回后，螺旋藻，从蓝绿色的湖藻类，被确定为来源。

blue-green algae：蓝绿藻类

blue algae 蓝藻类 | blue green algae 蓝绿藻类 | blue gum 桉树蓝桉

chlorella：綠球藻

绿球藻(Chlorella)的发现人类使用微藻类历史最早可追溯自史前时代的狩猎民族,他们常采集土壤中的一种胶状性蓝绿藻(Nostoc Commune)食用,而有计划地大量培养微藻则始于第一次世界大战期间,德国哥庭根大学林纳德教授,

FAO：联合国粮食与农业组织

螺旋藻属蓝藻类,呈墨绿色,因呈螺旋开得名,其细胞长度不到1毫米,是地球上最早出现的原始生物之一,具有悠久的人类使用历史,现代营养学家称之为"人类营养的微型宝库",联合国粮食与农业组织,(FAO)誉之为"二十一世纪最理想和最

Laminaria：昆布

有些藻类可以食用 (如蓝绿藻的发菜 (Nostoc),褐藻的昆布(Laminaria) 和群带菜,红藻的头发菜 (Bangia)、紫菜 (Porphora)、龙须菜(Gracilaria) 和菩提藻 (Grateloupia) ,有些大型海藻可以当饲料,有些褐藻可以当肥料.

Cryptophyceae：隐藻纲

即被认为是原生动物(隐滴虫目(cryptomonadida)),亦被认为是藻类(隐藻纲(cryptophyceae))的小型双鞭毛生物. 生于淡水和海水中. 含有仅红藻和蓝绿藻才有的色素,有时栖生动物(动金甲藻(zooxanthella))体内,但不伤宿主.

cyanophyceae; bluegreen algae：蓝绿藻

天空蓝度术 cyanometry | 蓝绿藻 cyanophyceae; bluegreen algae | 蓝绿藻类 cyanophyta

Cyanophyceae; blue-green algae; Schizophyceae; Phycochromaceae：分裂藻类;蓝绿藻类;蓝藻类

含氰的 cyanophoric | 分裂藻类;蓝绿藻类;蓝藻类 Cyanophyceae; blue-green algae; Schizophyceae; Phycochromaceae | 蓝藻淀粉 cyanophycean starch

scytonema：双歧藻

在丝状形态结构,从生长细胞分裂出的细胞有连续不断的,有一次中断的,前者称为真分枝[蓝藻类,多列藻(Stigenema)],后者称为假分枝[蓝藻类,双歧藻(Scytonema)].

blossoming：开花

blossom drop 落花 | blossoming 开花 | blue algae 蓝藻类

eucaryote：真核生物

如红藻、绿藻、金藻、褐藻、甲藻、硅藻等都是真核生物(eucaryote)只有蓝绿藻和一些生活 无机动物中的原核绿藻是原核生物(procaryote),蓝藻也称蓝细菌(cyanobacteria),其他的藻类,如红藻、绿藻、金藻、褐藻、甲藻、硅藻等都是真核生物(eucaryote)