藻類生態學 的英文怎麼說
中文拼音 [zǎolèishēngtàixué]
藻類生態學
英文
ecology in algae- 藻 : 名詞1 [植物學] (藻類植物) algae 2 (生長在水中的綠色植物) aquatic plants 3 (華麗的文辭) lite...
- 類 : Ⅰ名1 (許多相似或相同的事物的綜合; 種類) class; category; kind; type 2 (姓氏) a surname Ⅱ動詞...
- 生 : Ⅰ動詞1 (生育; 生殖) give birth to; bear 2 (出生) be born 3 (生長) grow 4 (生存; 活) live;...
- 態 : 名詞1. (形狀; 狀態) form; condition; appearance 2. [物理學] (物質結構的狀態或階段) state 3. [語言學] (一種語法范疇) voice
- 學 : Ⅰ動詞1 (學習) study; learn 2 (模仿) imitate; mimic Ⅱ名詞1 (學問) learning; knowledge 2 (學...
- 藻類 : alga(e)藻類學 phycology; algology; 藻類學者 algologist; 藻類養殖 algal culture; 藻類植物 phycophyta; algae
- 生態學 : ecology; oecology; mesology; hexicology; bionomics; [脊椎] ethology生態學家 ecologist
- 生態 : organism s habits; modes of life and relation to their environment; ecology生態變異 ecocline; 生...
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The plan of the research institute becomes, in the near future, with the ocean chemistry, the development and engineering turn of halo bios resources, the ocean information technique processing, ocean environment and ecosystems protection, etc. aspect for center of research direction, and gradually formats the aspect advantages in using of the salt water and the half salt water ( the haloid water ) chemistry resources, the ecosystem system monitor and controlling, algae cultivating and biology active material, the development research of nourishment supplies and bio - products, the ocean environmental protection and ecology etc., end can become one of important bases in the ocean realm of nation and tianjin for high level creative talented person development, hi - technique research and result conversion, high decision advisory, and the double that attains the economic performance and social performances win
研究所計劃在不久的將來形成以海洋化學、海洋生物資源開發及工程化、海洋信息技術處理、海洋環境與生態保護等方面為中心的研究方向,並且逐步在鹹水及半鹹水(鹵水)化學資源利用,生態系統監測與調控;藻類培養及生物活性物質、營養物資及生物製品開發研究;灘塗資源開發利用;海洋環境保護和生態學等方面形成優勢,最終可以成為國家和天津市海洋領域高水平創新人才培養、高新技術研究和成果轉化、高層次決策咨詢的重要基地之一,達到經濟效益與社會效益的雙贏!In this study, genetic diversity of various strains of spirulina platensis is analyzed with rapd molecular marker and antibiotics marker, the results are compared with their morphologic characters, aimed at constructing a more reasonable classification criterion and knowing more about the genetic background of spirulina. additionally, it is found that under the cultivated condition the linear filament can retransite to the normal curved one which is similar to original spiral filament
本論文利用rapd分子標記及抗生素抗性標記分析了不同鈍頂螺旋藻品系的遺傳多態性,並與其形態學特徵進行了比較,以期建立更合理的螺旋藻分類方法及加深對螺旋藻遺傳背景的了解;同時,發現在養殖環境下變直藻絲體可以回變為正常螺旋形態的現象。Therefore, our cogonition on these experimental phenomena and laws makes a science base to further reveal the essence of eutrophication and provides an experimental base to implement bio - engeering technology of rebuilding and constructing waiter ecosystem, and also offters technologies for the microalgae controlled by the hydrodictyon reticulatum
因此,通過對這些現象與規律的實驗認識為進一步揭示富營養化的成因奠定科學基礎;為實現對水生生態系統的生物重建、組建等生態工程技術提供實驗基礎;也為利用藻類控藻提供技術支持。Ecological physiology in algae
藻類生理生態學Preliminary studies on the ecological characters of freshwater cyanophage were carried out under both field condition and culturing system. the field investigation result showed that 6 in 19 water samples contained cyanophages lysing plectonema and the lysis phenomenon were readily observed without concentrating the water
對淡水噬藻體的生態學進行了初步研究,包括淡水中噬藻體分佈及感染力的調查與人工混合培養條件下噬藻體裂解宿主引起微生物和藻類種群變化的研究。Research interest includes : taxonomy, ecology and molecular biology of marine diatoms and other phytoplanktons ; biodiversity of nanodiatoms and redtide organisms ; molecular and automatic identification of phytoplankton ; cloning and use of special genes from microalgae ; bioactive products from algae
研究硅藻浮游植物分類學、生態學和分子生物學;赤潮生物的鑒定與防治技術;海洋微藻特異基因克隆和利用;藻類活性物質開發利用;探索藻類在環保、漁業、水產、地質、保健食品、藥物開發等領域的應用和開發A number of factors will affect efficiency of the biosorption, and these factors were studied in chapter three, including the ph value, initial biomass loading and content of heavy metal ions, ion strength of the solution, etc. although the research for new and innovative treatment technologies has focus attention on the metal binding capacities of various biomass, the exact interaction between the ligands of the metal uptake process and the description of the thermal properties of the biosorption remain essentially unknown
藻類對重金屬離子的吸附效率受藻類細胞表面及溶液的物理化學狀態的影響,本文從ph 、藻粉的起始含量及重金屬離子的起始濃度、離子強度等四個方面做了研究。第四章是大型海藻生物吸附平衡的熱力學研究,我們對平衡數據做了langmuir方程的回歸分析,得到了兩種海藻吸附各重金屬離子的最大吸附容量;我們還以cu為例研究了溫度對吸附容量的影響,並計摘要算了其吸附熱。分享友人