文中最后讨论了植物耐虫性在害虫综合治理中的重要性及应用前景。
The importance and application prospects of plant tolerance in integrated pest management were also discussed.
土壤营养水平对植物耐虫性表达的影响大于温度,增施磷、钾肥可增加植物的耐虫性。
Soil nutrient level has stronger effects on plant tolerance expression than temperature. High concentration of phosphorus and potassium increases tolerance level.
被称为福氏耐格里阿米巴的变形虫在美国杀死了23人。
The amoeba called Naegleria fowleri killed 23 people in the United States.
迄今为止,已经针对农作物的耐除草剂、抗虫和抗病毒的特性以及采后品质进行了基因操作。
To date, crops have been engineered for herbicide tolerance, insect and virus resistance and post-harvest quality.
以基因工程技术植入的抗虫与耐除草剂能力万一失效,使基改作物突然变得异常脆弱,这种机率又有多大?
What are the odds that the genetically engineered traits will lose their ability to protect against insects and invasive weeds, leaving GM plants suddenly vulnerable?
高耐黑腐病,抗甘蓝黄萎病,抗虫性好。
High resistance to corrosion resistant black disease, broccoli verticillium wilt, insect resistance of good.
实验结果还表明温度与盐度存在交互作用,温度升高降低了纽虫的耐盐性。
Present results suggest that the interaction of temperature and salinity on the lethal effects on P. simulus is significant (P<0.01).
实验结果还表明温度与盐度存在交互作用,温度升高降低了纽虫的耐盐性。
Present results suggest that the interaction of temperature and salinity on the lethal effects on P. simulus is significant (P<0.01).
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