机译:CuO纳米颗粒在肝硬化中的叶面吸收,生物转化和影响。 Ramosa Hort。
South China Normal Univ Sch Life Sci Key Lab Ecol & Environm Sci Guangdong Higher Educ Guangzhou 510631 Peoples R China;
South China Normal Univ Sch Life Sci Key Lab Ecol & Environm Sci Guangdong Higher Educ Guangzhou 510631 Peoples R China;
South China Normal Univ Sch Life Sci Key Lab Ecol & Environm Sci Guangdong Higher Educ Guangzhou 510631 Peoples R China;
South China Normal Univ Sch Life Sci Key Lab Ecol & Environm Sci Guangdong Higher Educ Guangzhou 510631 Peoples R China;
South China Normal Univ Sch Life Sci Key Lab Ecol & Environm Sci Guangdong Higher Educ Guangzhou 510631 Peoples R China;
Univ Toulouse Jean Jaures Ctr Etud & Rech Travail Org Pouvoir CERTOP UMR5044 5 Allee Antonio Machado F-31058 Toulouse 9 France|Univ Toulouse INP ENSAT Ave Agrobiopole F-31326 Auzeville Tolosane France;
COMSATS Univ Islamabad Dept Environm Sci Vehari Campus Vehari 61100 Pakistan;
South China Normal Univ Sch Life Sci Key Lab Ecol & Environm Sci Guangdong Higher Educ Guangzhou 510631 Peoples R China;
Nanoparticles; Foliar exposure; Subcellular distribution; Chemical speciation; Oxidative stress;
机译:聚乙烯微塑料对生菜中邻苯二甲酸二正丁酯植物毒性的影响(Lactuca sativa L. var。ramosa Hort)
机译:氧化锌纳米颗粒缓解了镉的生物利用度并铅的生物利用度,并改变了水块生长莴苣中铁的吸收(Lactuca sativa L. Var。龙鲑)
机译:通过种子和叶面24-表油菜素内酯处理减轻莴苣(苜蓿 i> L。var。Crispa)的盐胁迫。
机译:水管理,雾化和Ca叶面应用对Romaine Lettuce(Lactuca Sativa L.)的铸件
机译:生菜(Lactuca sativa L.)中大量营养素的吸收:光合作用,溶液浓度和供应时间的影响。
机译:水稻幼苗硒纳米粒子的摄取易位和生物转化(Oryza Sativa L.)
机译:氧化锌纳米粒子缓解了镉的生物利用度并导致的生物利用度,并改变了水块生长莴苣中铁的吸收(Lactuca sativa L. Var。龙鲑鱼)