| 1. | Physiological effects of lanthanum on cyanobacterium
稀土元素镧对满江红鱼腥藻的生理影响 |
| 2. | Physiological effects of lanthanum on cyanobacterium anabaena azollae
稀土元素镧对满江红鱼腥藻的生理影响 |
| 3. | Rare earth element ; cyanobacterium ; physiological effects ; bioaccumulation
稀土元素蓝藻生理影响富集作用 |
| 4. | Biosorption of six heavy metals by biomass of cyanobacterium spirulina maxima
对六种重金属离子的生物吸附作用 |
| 5. | Experiments of the influence of rare earth element lanthanum on the growth , chlorophyll a and oxygen production of cyanobacterium
的生理影响和满江红鱼腥藻对镧的富集作用进行了研究。 |
| 6. | Lichens symbiotic associations between an alga or cyanobacterium ( the photobiont ) and a fungus ( the mycobiont )
地衣:蓝、绿藻类(共生光合生物)和真菌(地衣共生菌)所形成的共生复合体。 |
| 7. | Ge - xian - mi ( nostoc ) is an edible cyanobacterium . it occupies a prestigious position in chinese human social behavior and has been used as a food delicacy or ingredient of chinese medicine since the eastern jin dynasty
葛仙米( nostoc )是一种珍稀的食用蓝藻,自东晋( 317 - 420ad )开始即被作为一种美食和中草药成份,在国人的社会生活中占有一定地位。 |
| 8. | Tolerance to and effects of the freezing stress in a desiccation - tolerant , terrestrial cyanobacterium , nostoc commune , and in a desiccation - sensitive species , synechocystis sp . pcc6803 , were studied by measuring their photosynthetic activities and fluorescence emission spectra
通过检测光合成活性和荧光发射光谱等研究冰结胁迫对蓝藻地衣( nostoccommune )和单细胞集胞藻( synechocystissp . pcc6803 )的影响。 |
| 9. | A strain of bloom cyanobacterium ( blue - green alga ) , microcystis aeruginosa , which dominated in an eutrophic pond , was isolated and purified for physiological study in laboratory conditions . various environment factors , like light , temperature , nutrient , cu2 + , ect were tested for growth and lexicological effects of m . aeruginosa
在纯化培养的基础上,我们开展了光照、温度、营养盐及cu ~ ( 2 + )对该铜绿微囊藻生长及毒理学影响的研究。光照、温度及营养盐对铜绿微囊藻生长影响1 |
| 10. | Under mixed culturing conditions , it was observed that bacterial number rapidly incre ; ised soon after the lysing of host cells . on the contrary , while the non - host cyanobacterium ( i . e . anabaena flos - aquae ) was incubated in the mix culturing system , the breeding of the bacteria could be inhibited . it may be suggested from the result above that cyanophage could bring about the changes in microorganism populations
调查结果显示, 19个采集的水样中有6个含有裂解织线藻的噬藻体,而且水样未经浓缩即能裂解宿主,说明噬藻体在淡水中分布较广泛,裂解性也较强;混合培养条件下的研究结果表明,噬藻体裂解宿主后,细菌数量快速增加,而当培养系统中有非宿主藻类存在时,细菌的增殖则受到非宿主藻的抑制,说明噬藻体可以显著改变系统中微生物的种群结构。 |
