In artificial inoculation the fungus can be made invaded through wounds.
人工接种病菌可自伤口侵入。
Artificial inoculation test showed that wheat barley, rye and oat grass may be infected, but oat not.
人工接种可侵染小麦、大麦、黑麦,及燕麦草,但不侵染燕麦。
Artificial inoculation results showed that the bacteria could infect 14 plant species belonging to 7 families.
经人工接种试验,该病菌至少能为害7科14种植物。
Under the natural field condition of artificial inoculation, BC2001 presented the control rate of 57.8% on the nematode population.
在人工接种条件下,BC 2001菌在大田防治中对根结线虫虫口基数的相对抑制率达57.8%。
The induced disease appears as the difference of emergence rate by artificial inoculation in glasshouse, indicate the lose of sprouting ability and pre-emergence damping off.
在温室病原诱发接种条件下,发病表现为出苗率的差异,即丧失发芽能力或出苗前的猝倒。
It take about 12 days to succeed in cultivating bio-film using of the method of artificial inoculation with activated sludge, and the removal ratio of COD, NH3-N, gets to 72% and 60%.
折流式反应器采用“人工接种活性污泥”的挂膜启动方式所需时间较短,大约经过12天左右的时间即可挂膜成功,COD和氨氮去除率分别稳定在72%、60%左右。
Under artificial inoculation the pathogen could infect cereal plants such as sorghum sudangrass columbus grass corn foxtail millet pearl millet jobstears rice oat wheat and green foxtail.
人工接种条件下,病菌能侵染高粱、苏丹草、哥伦布草、玉米、谷子、珍珠粟、薏苡、水稻、燕麦、小麦、狗尾草等禾本科植物。
The pathogen of goose plague in Guizhou province is studied by inoculation of goose embryo, artificial duplicating case, observation of electron microscope and genome and structural protein analysis.
采用鹅胚接种、动物感染、电镜观察及病原核酸与结构蛋白分析等方法对贵州省某养殖场疑似小鹅瘟病例进行了病原的分离与鉴定。
The pathogen of goose plague in Guizhou province is studied by inoculation of goose embryo, artificial duplicating case, observation of electron microscope and genome and structural protein analysis.
采用鹅胚接种、动物感染、电镜观察及病原核酸与结构蛋白分析等方法对贵州省某养殖场疑似小鹅瘟病例进行了病原的分离与鉴定。
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