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机译:识别玉米( zea mays i> zea mays l.)近交系通过磷利用的分析适应了低p病症, 根酸化和钙流入
Horticultural Sciences DepartmentUniversity of Florida32611 Gainesville Florida USA;
Agricultural and Biological Engineering DepartmentUniversity of Florida32611 Gainesville Florida USA;
Horticultural Sciences DepartmentUniversity of Florida32611 Gainesville Florida USA;
Horticultural Sciences DepartmentUniversity of Florida32611 Gainesville Florida USA;
Horticultural Sciences DepartmentUniversity of Florida32611 Gainesville Florida USA;
buffered low P solution; relative biomass; root electrophysiology; root morphology;
机译:识别玉米( zea mays i> zea mays l.)近交系通过磷利用的分析适应了低p病症, 根酸化和钙流入
机译:用于气相饱和H的柔性管的低合金钢的腐蚀机理 2 sub> 2 S / CO. 2 sub> 2 和H. 2 sub> 2 S / CO. 2 sub> 2 - 饱和盐水条件
机译:
机译:玉米(Zea mays L.),芸苔(Brassica napus L.)和向日葵(Helianthus annuus L.)中的磷-锌相互作用
机译:钙流入,自由基产生和替代途径活性的调节与脱落酸提高玉米(Zea mays L.)培养细胞的耐寒性有关。
机译:氮剥夺期间两个玉米(Zea mays L.)近交种的外源15NO3-内流和内源14NO3-外流
机译:结合高地适应玉米(ZEA 5月L.)近交系的谷物产量和屈服相关性状的能力