海球藻 的英文怎麼說
中文拼音 [hǎiqiúzǎo]
海球藻
英文
halosphaera-
Frame - building organisms mostly are sphinctozoa, inozoa, hydrozoa, tabulozoa. binding organisms mainly are bluegreen algae, tubiphytes and tabulozoa. accessory organisms are bryozoa, brachiopoda, foraminifera, echinodermata, etc. what ' s more, biota are different with various reef facies
在各相帶內,生物組合也迥然不同,礁相以底棲生物為主,盆地相以海綿骨針、鈣球、放射蟲為特徵,而礁后相則以裸海松藻、有孔蟲、蜓類、棘皮類為特徵。And the effects of ballmilling, floatation and weight - selection, acid treatment and heat treatment on the specific surface and adsorbability of the natural minerals have been studied further, especially on diatomite and sepiolite
並進一步研究了球磨、浮選和重選、酸處理、熱處理等前處理對天然礦物的比表面和吸附性的影響,並著重討論了前處理條件對硅藻土和海泡石的吸附性能的影響。Contains extracts from three natural sources - dunaliella salina algae, palm fruit oil and marigold flowers ? that are beneficial to body parts with dense blood capillaries, such as eye cells
提煉自三種天然濃縮素,包括杜氏海藻、棕櫚果油及萬壽菊,對微絲血管密集的部位如眼球細胞起重要保護作用。The condition of profiles in outer station did n ' t change much in spring cruise, but showed more variable in near - shore stations when observed in different time. fluorescent characteristic per cell can be obtained by flowcytometric analysis. based on fluorescence data of synechococcus of all stations, two distinctly pigment - containing cell types coexisting can be found in some stations of east china sea, which located in all depth of p3, mixlayer of e7, 40 - meter depth of e6 of autumn cruise and in mixlayer of p2 of spring cruise
通過對流式細胞計測量的細胞熒光結果來看,在秋季的p3 、 e7整個混合層、 e6站40米層,春季的p2站均發現有兩群不同色素含量的聚球藻( high一pe和low一pe )共存現象,極有可能分別屬于不同品系,春季共存站位位置比秋季時更靠外,表明在秋季p3 、 e7等站位的共存是季節性現象,可能與此季節黑潮次表層水沿陸架坡涌升入侵到中陸架有關,水團的運動及混合使從外海遷移而來的high一pe與近岸的low一pe得以共存,在春季,由於長江沖淡水的日漸強盛,在中陸架區的共存區域有所外移。The plants of chroococcaceae new to the coast of china
中國海生色球藻科植物新記錄The complex microspheres based on sodium alginate ( al ) and soy protein isolated ( spi ) were prepared by crosslinking the mixing solution with ca ( superscript 2 + )
摘要利用鈣離子交聯海藻酸鈉大豆分離蛋白共混溶液,制得海藻酸鈉大豆分離蛋共混凝膠微球。The twins were now playing in the most approved brotherly fashion, till at last master jacky who was really as bold as brass there was no getting behind that deliberately kicked the ball as hard as ever he could down towards the seaweedy rocks
現在這對雙生兄弟無比和睦地玩耍著,接著,魯莽到了家的傑基公子故意使出吃奶的力氣把球猛地朝著覆滿海藻的巖石踢去。Chapter two is the research results and discussion, which consist of distributions of cell density, fluorescent characteristic per cell of ultraphytoplankton. synechococcus and picoeukaryotes are abundant in all stations of east china sea and yellow sea, and prochlorococcus ca n ' t be found in near - shore stations
第二章為在東、黃海所做工作的主要成果闡述,主要分析了由流式細胞計獲得的超微型浮游植物細胞密度、單細胞熒光在各站位的分佈特徵,結果如下:聚球藻( synechococcusspResults showed that these algae have different ability in resisting uv - b enhancement : spirulina plalensis > nanochloropsis sp > chaetoceros gracilis > proroceatrum micans > phaeocystis globosa scherffel. uv can destroy ch1a, making ch1a content decrease
結果表明這五種藻類抗uv - b的能力大小的順序為:鈍頂螺旋藻微綠球藻纖細角刺藻海洋原甲藻球形棕囊藻。Cell density of picoeukaryotes also changed much between two seasons. in autumn a high value in yellow sea was observed in el station, 0. 31 104cells / ml, and increased from e4 to outer station in east china sea, the highest value was found in p2, 0
原綠球藻並不是分佈於所有站位,兩航次在黃海的e1 、 e2 、 e3站位均未檢測到原綠球藻,秋季在東海的p3 、 e7 、 e6 、 p2四站位檢測到了其存在,且密度由里向外逐漸增大,最後在p2站表層密度超過了聚球藻。The community structure of ultraphytoplankton is very different in autumn and spring concluded by data comparison of two cruises. the cell density of synechococcus in autumn is significantly higher than that in spring. during autumn cruise a high value synechococcus density was observed by flow cytometry in upper layer of e2 and e6, which was 25
秋季及春季航次結果表明兩季節超微型浮游植物群落結構有很大不同,秋季各站位聚球藻密度明顯高於春季,秋季在黃海e2站的上混合層、東海e6站表層均檢測到密度高值,最高分別達25 . 73 10 ~ 4cells ml 、 15 . 92 10 ~ 4cells ml ,而在春季時聚球藻密度較大值是在東海e6 、 p2站,但在表層僅為2 . 46 10 ~ 4和2 . 01 10 ~ 4cells ml ,其餘站位平均值均在1 . 00 10 ~ 4cells ml以下。Methods using biocompatible alginate as microsphere material and hemoglobin as drug model, protein - loaded microspheres were prepared by an improved technology based on electrostatic droplet generation via designing components of gelation solution
方法以生物相容性優良的海藻酸鹽為載體材料,以血紅蛋白為藥物模型,通過設計凝膠浴配方,採用靜電液滴形成工藝制備包封蛋白質藥物的微球載體。With an increase of spi content, the interactions among components change, resulting in various micro - structure of the complex microspheres
結果表明,海藻酸鈉和大豆分離蛋白質量配比的不同以及各組分間相互作用的變化,微球呈現不同的微觀結構。分享友人