Foliar spray of plant growth regulating compounds including antioxidants is an effective strategy to overcome the adverse effects of environmental constraints on different plants. A field experiment was conducted on May - July 2017 at the experimental farm in Paluh Merbau Village Deli Serdang (EC 6 - 7 dS/m). The aim was to study the effects of foliar spray of α-tocopherol (0, 250, 500, 500 ppm) on vegetative growth and some chemical constituents of 2 soybean genotypes (Grobogan x Grobogan and Grobogan x Anjasmoro) under salt stress (EC 6 - 7 dS/m). Most of morphological and biochemical parameters were significantly affected by application of α-tocopherol. The α-tocopherol at 500 ppm recorded the best value of root fresh weight, shoot and root dry weight, number of leaves, chlorophyll b, and soluble protein content. There was significant difference found between plants treated with α-tocopherol in terms of number of branch, shoot fresh weight, and chlorophyll a. Soybean genotypes showed diverse morphology and physiological responses to salt stress. Grobogan x Anjasmoro genotype was salt-sensitive based on all variable, while Grobogan x Grobogan genotype was more tolerant based on morphological and biochemical characters.
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机译:植物生长调节化合物在内的叶面喷雾剂,包括抗氧化剂是克服不同植物环境限制的不利影响的有效策略。野外实验于2017年5月至2017年7月进行了Paluh Merbau Village Deli Serdang(EC 6 - 7 DS / M)的实验农场。目的是研究叶酚(0,250,500,500ppm)对盐胁迫下2种大豆基因型(Grobogan X Grobogan和Grobogan X Anjasmoro)对植物生长和一些化学成分的影响(EC 6 - 7 ds / m)。 α-生育酚施用,大多数形态和生化参数受到显着影响。 500ppm的α-生育酚记录了根部鲜重,芽和根系干重,叶子,叶绿素B和可溶性蛋白质含量的最佳值。在分支数量的α-生育酚处理的植物之间发现植物之间存在显着差异,拍摄鲜重和叶绿素a。大豆基因型显示出不同的形态和生理反应对盐胁迫。 Grobogan x Anjasmoro基因型基于所有变量盐敏感,而Grobogan X Grobogan基因型基于形态学和生物化学特性更耐受。
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