Alleviation of Salinity Hazards in Different Maize Genotypes Using Inorganic Ions (Ca++ and K+)

Pakistan journal of scientific and industrial research Pub Date : 2020-07-15 DOI:10.52763/PJSIR.BIOL.SCI.63.2.2020.100.104

M. Suhaib, Asma Mujtaba, Masooma Munir, Z. A. Saqib

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引用次数: 1

Abstract

A hydroponic experiment was conducted to evaluate and compare the efficiency of Ca and K ions and different maize genotypes with imposed salinity. Two levels of K+ and Ca++ (5 and 10 mM) each were tested on two maize genotypes (Pioneer-3335 and Syngenta-8441) under 100 mM NaCl stress. Saline treatment adversely affected the plant physiological parameters and disturbed the ionic balance and resulted in poor plant growth. However, Syngenta-8441 was more prone to salt stress as compared to Pioneer-3335. Both of the inorganic ions showed significant effects on physiological and ionic components of both genotypes. Among the inorganic ions K was found to be more efficient than Ca in improving the plant growth. Improved physiological and ionic traits were observed more significant with 10 mM K ion treatment followed by 5 mM K. Among Ca treatments higher level of Ca (10 mM) showed more significant results as compared to 5mM Ca++. This study revealed that Ca++ and K+ both are compulsory for maintaining the crop growth because of their mutual effects under salt stress. However, the alleviative efficiency of K is far better than Calcium but its (Ca++) role could not be neglected, while regarding genotypic differential response imposes the fact that Pioneer-3335 is more tolerant to salinity menace as compared to Syngenta- 8441 but both of the genotypes were significant in their recovery from stress to applied Ca++ and K+.

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无机离子(Ca++和K+)缓解不同基因型玉米盐害的研究

通过水培试验，比较了不同玉米基因型对钙离子、钾离子的处理效率。以先锋-3335和先正达-8441两种玉米基因型为材料，在100 mM NaCl胁迫下，分别测定了5和10 mM的K+和Ca+水平。生理盐水处理对植物生理参数产生不利影响，扰乱了离子平衡，导致植物生长不良。然而，先正达-8441比先锋-3335更容易受到盐胁迫。无机离子对两种基因型的生理和离子组分均有显著影响。在无机离子中，钾离子对植物生长的促进作用优于钙离子。10 mM钾离子处理和5mM钾离子处理对水稻生理和离子性状的改善更为显著。在钙处理中，高钙(10 mM)处理比5mM钙离子处理效果更显著。研究表明，在盐胁迫下，Ca++和K+都是维持作物生长所必需的。然而，钾的缓解效果远远好于钙，但其(Ca++)的作用不可忽视，而基因型差异反应表明，先锋-3335比先正达- 8441对盐威胁的耐受性更强，但两种基因型在胁迫下对Ca++和K+的恢复都很显著。

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Pakistan journal of scientific and industrial research

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