机译:通过调节植物激素,工程纳米材料抑制玫瑰叶的Podosphaera pannosa感染
China Agr Univ Beijing Key Lab Farmland Soil Pollut Prevent & Re Coll Resources & Environm Sci Beijing 100193 Peoples R China;
China Agr Univ Beijing Key Lab Dev & Qual Control Ornamental Cro Dept Ornamental Hort Coll Hort Beijing 100193 Peoples R China;
Connecticut Agr Expt Stn Dept Analyt Chem New Haven CT 06504 USA|Univ Massachusetts Stockbridge Sch Agr Amherst MA 01003 USA;
Connecticut Agr Expt Stn Dept Analyt Chem New Haven CT 06504 USA;
China Agr Univ Beijing Key Lab Farmland Soil Pollut Prevent & Re Coll Resources & Environm Sci Beijing 100193 Peoples R China;
Chinese Acad Fishery Sci Heilongjiang River Fisheries Res Inst Harbin 150070 Heilongjiang Peoples R China;
China Agr Univ Beijing Key Lab Dev & Qual Control Ornamental Cro Dept Ornamental Hort Coll Hort Beijing 100193 Peoples R China;
China Agr Univ Beijing Key Lab Farmland Soil Pollut Prevent & Re Coll Resources & Environm Sci Beijing 100193 Peoples R China;
Univ Massachusetts Stockbridge Sch Agr Amherst MA 01003 USA;
Carbon-based nanomaterials; Metal-based nanoparticles; Roses; Powdery mildew; Antifungal activity;
机译:工程纳米材料可通过调节植物激素来抑制玫瑰叶上的Podosphaera pannosa感染。
机译:玫瑰叶片对白粉病的抗药性反应(Podosphaera pannosa)。
机译:短暂暴露于补充UV-B辐射下抑制温室玫瑰中的白粉病(Podosphaera pannosa)
机译:特殊问题:精细和超精细-工程化纳米材料的新兴数据可能会改变我们如何将劳动者暴露量除尘
机译:气象因素对葡萄,樱桃和蛇麻草叶片上的刺孢子虫感染和产刺孢子虫,Pdosphaera Clandestina和Podosphaera macularis的影响。
机译:硅诱导的微型玫瑰和生物营养性病原体Podosphaera pannosa相互作用期间的抗真菌酚酸类黄酮和关键苯丙氨酸途径基因的变化。
机译:硅诱导的微型玫瑰与生物营养性病原体 Podosphaera pannosa em>相互作用期间,硅诱导的抗真菌酚酸,类黄酮和关键苯丙烷途径基因的变化