锦鲤硝化细菌是以最新的细菌分离培养技术,结合了活性光合成细菌及特殊粘着性硝化细菌;特别适合大型水槽及户外锦鲤池。
PSBIO Koi is an active Photosynthetic bacteria and Ana bacteria cultivated by the latest bacterium separation technology. Work efficiently in outdoor Koi pond.
本试验所建立的PCR方法与传统的细菌分离培养检测方法相比,减少了病原菌检测所需的时间和费用,并且敏感性和特异性都有所提高。
PCR technique in the experiment spends less time and cost detecting pathogens and enhances the sensitivity and specificity as compared with the traditional isolating culture method.
共18株细菌分离于轮虫培养池,其中,有一株产维生素b12的假单胞杆菌tp4对轮虫的生长繁殖有明显的促进作用。
Among 18 bacterial strains isolated from rotifer culture tank, one strain of Pseudomonas, TP4, a vitamin B12 producer, appeared a significant complementary effect on rotifer growth.
死亡羊尸检取脏器作细菌分离和培养,并做GICA和反应间接血凝(RIHA),检测FI抗原。
Autopsy sheep died from bacterial organ for the isolation and culture, and do GICA and indirect hemagglutination reaction (RIHA), FI antigen detection.
从酿酒废水的活性污泥中分离、培养得到纯化的紫色非硫细菌01s菌株,并用其处理高浓度有机酿酒废水。
Purified purple non-sulfur bacteria 01s strain was separated and fostered from activated sludge of brewery wastewater and used to treat high concentrated organic brewery wastewater.
目的:从泌尿生殖道分泌物中分离培养细菌、支原体及衣原体,了解细菌对多种抗菌药物的敏感情况。
Methods Bacteria, mycoplasma and chlamydia were isolated from the urogenital tract secretion by artifical culture, and their antibiotic susceptibility was detected by disk diffusion.
从高原湖泊滇池和阳宗海中分离到光合细菌,经过挑选后进行复合培养,投放入养殖热带鱼的水族箱。
Photosynthetic bacteria were separated from the Dianchi lake and Yangzonghai Lake-two plateau lakes, and then selected, cultured complexly in the water for breeding tropical fishes.
目的分离培养常温下能降解纤维素的细菌。
Objective To isolate and culture the bacteria that can degrade cellulose under room temperature.
从小麦根际土中分离得到一种能取食B1和B2两种细菌的土壤食细菌线虫,并在马铃薯蔗糖培养基上富化培养成功。
A soil bacterivorous nematode feeding on bacteria B1 and B2 was isolated from rhizosphere soil of wheat and cultured on potato sucrose agar medium(PSA).
首先使用特定的培养基,以及富集和分离技术,从青岛栈桥海域的底泥中分离出海洋光合细菌菌株;
Firstly marine PSB is separated and purified from sea mud around Qingdao Pier by specifically culture medium and means of agar dilution.
目的:寻找一种经济、简便分离培养细菌L型的方法。
Objective: To find a simple and economical method of dissociation of L-bacteria through blood AGAR cultivation.
方法对198例慢性咽炎患者的咽分泌物进行细菌培养、分离和鉴定。
METHODS A total of 198 patients with chronic pharyngitis were cultivated for bacterial culture and identification.
现代细菌学研究的方法学始于19世纪晚期,包括建立细菌染色方法和在培养基中进行微生物分离的技术,当时的培养基是用明胶和琼脂固化的营养物质。
The modern methods of bacteriological technique began in the late 19th century with the use of stains and the development of methods of cultivating organisms on plates of nutrients.
方法:对40例慢性泪囊炎患者的泪囊分泌物取样,进行细菌培养、分离、鉴定及药物敏感实验。
METHODS: Material of lacrimal secretion in 40 cases of patients with chronic dacryocystitis was sampled for bacterial culture, isolation, identification and drug sensitivity test.
方法回顾性调查中南大学湘雅三医院近五年间新生儿败血症血培养分离的细菌株。
Method A retrospective study of bacterial isolates from neonatal septicemia was conducted over a period of 5 years (1999~2004) at the Xiangya III Hospital of Central South University.
方法采用细菌培养、分离和鉴定以及K - B纸片扩散法,对分离菌进行药敏检测。
Methods the bacteria were separated by bacterial culture and the drug resistance test was conducted using K-B method.
结论血液培养的细菌种类多样,且分离率居前几位细菌的耐药率较高。
Conclusion Different bacteria can be isolated from blood cultured samples and have a rather high drug resistance.
方法收集化脓性淋巴结炎患者的脓液标本作分支杆菌和普通细菌培养,对分离出的阳性样品做菌种鉴定并进行细菌学分析。
Methods: Collect lymph suppurative infection of pus specimens for patients with normal bacterium mycobacterium cultivation, the positive samples strains identified by bacteriological and do.
从土壤中分离得到可在含酚培养基上生长的细菌。
Bacterial strains which can grow on the phenol-containing medium, were isolated from soil.
目的:探讨风湿性心脏病钙化心脏瓣膜中是否存在纳米细菌以及钙化心脏瓣膜中纳米细菌的分离、培养及鉴定。
Objective the aim of this study was to isolate, culture and identify the nanobacteria from human calcified heart valve of rheumatic heart disease.
方法留取下呼吸道感染患者的标本进行常规细菌培养分离,用珠海迪尔医学细菌鉴定对分离的菌株进行鉴定及药敏试验。
METHODS Specimens from patients with lower respiratory tract infection were obtained for routine bacterial culture and isolation. Identification of medical bacteria from Zhuhai DL medical Biotech Co.
方法对本院1 078例血培养标本细菌分离和耐药情况进行回顾性分析。
Methods Isolating bacteria in 1078 blood culture specimen in our hospital and its drug fast condition were analyzed retrospectively.
从生物制氢反应器中富集、分离培养发酵产氢细菌并发挥其最大产氢能力,可以提高高浓度有机废水制氢系统的产氢性能。
The use of the effluent from biohydrogen production reactor for producing microbial flocculants can decrease the production cost and realize the entirely clean production.
方法:增菌分离培养后,以血清学为初试验,全自动细菌生化分析仪为确定试验结果。
Methods: After isolating, culturing and serological test, the bacterium was identified by automatic biochemical analyzer.
方法:增菌分离培养后,以血清学为初试验,全自动细菌生化分析仪为确定试验结果。
Methods: After isolating, culturing and serological test, the bacterium was identified by automatic biochemical analyzer.
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