机译:钾的光合耐受性提高了光合耐受性和棉花的功能叶中的焦化胁迫(
Key Laboratory of Crop Growth Regulation Ministry of Agriculture Nanjing Agricultural University;
Key Laboratory of Crop Growth Regulation Ministry of Agriculture Nanjing Agricultural University;
Key Laboratory of Crop Growth Regulation Ministry of Agriculture Nanjing Agricultural University;
Department of Crop and Soil Sciences University of Georgia;
Key Laboratory of Crop Growth Regulation Ministry of Agriculture Nanjing Agricultural University;
Key Laboratory of Crop Growth Regulation Ministry of Agriculture Nanjing Agricultural University;
Key Laboratory of Crop Growth Regulation Ministry of Agriculture Nanjing Agricultural University;
Cotton; Soil drought recovery; Photo-physiological activities; Antioxidants; Potassium application;
机译:钾的光合耐受性提高了光合耐受性和棉花的功能叶中的焦化胁迫(
机译:缺钾通过改变棉花水合物和棉蛋白质平衡(& ce:斜体> gossypium hirsutum& / ce:斜体> l.)来限制生殖成功。
机译:<![cdata [na
机译:干旱耐受素棉花的遗传研究(Gossypium hirsutum L.)
机译:干旱胁迫诱导棉花棉铃形成过程中表达的序列标签。
机译:GhABF2是bZIP转录因子可赋予棉花(Gossypium hirsutum L.)干旱和盐分耐受性
机译:叶酸和钾盐酸碱的裂缝胁迫减轻肺酸盐(<斜景> Vigna radiata Italic> L.)