Characterizing Maize Genotypes for Salt Tolerance Using Morphological and Ionic Traits at Seedling Stage

S. S. Hussain, M. Rasheed, Z. I. Ahmed, G. Jilani
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Abstract

Maize crop is the third most important cereal crop, mostly grown for food, feed and fodder purpose. In spite of the fact the crop is susceptible to salt stress but exhibits a considerable genotypic variability for salt tolerance. The present study was carried out to determine to which extent the maize genotypes with contrasting morphological traits respond to salt stress. Seven days old seedlings of thirty maize genotypes were exposed to NaCl stress of EC less than 4 (control), equal to 8 and 12 dS m-1 for further 28 days in a temperature controlled greenhouse. The salt stress imposition was completed in two increments every other day from the date of planting. At the age of 35 days, the seedlings were evaluated for contrasting morphological traits. The genotypes exhibited considerable variations for each of the 10 measured morphological and ionic traits. PCA was employed to identify the most suitable morphological trait to be used as selection criterion for salt tolerance. Based on the PCA results, dry shoot weight (DSW) was used to classify thirty maize genotypes into salt-tolerant-T, moderately tolerant-MT and salt sensitive-S groups. Two (2) out of thirty genotypes i.e. SB-9617 and FH-949 had the highest average of percent dry shoot weight (PDSW) values > 70%  were classified as salt tolerant (T). The fifteen (15) genotypes showed average of PDSW values in the range of 55-69.9 % were classified as moderately tolerant (MT) by indicating the sequence order of salt tolerance as YH-1898 > MMRI-yellow > S-2002 > FH-988 > FH-1292 > HC-12 > MS-2018 > NCEV-1270-7 > Pahari > Pearl White > FH-1114 > NCEV-1270-3 > Iqbal > NCEV-1297 > DK-6724. However, thirteen (13) out of total thirty (30) genotypes attained the average PDSW values <55% were classified as salt sensitive (S) following the sequence order as NCEV-1530-9 > Composite > FRI-22 > Azam > MS-2015 > P-1543 > Neelum > Afgoi > Malka-2016 > MS-1501 > HNG > NCEV-1270-5 > NCEV-7004. It was also noticed that the declared salt tolerance was positively correlated with dry shoot weight (DSW), shoot length (SL), stem diameter (SD), fresh shoot weight (FSW), fresh root weight (FRW), dry roots weight (DRW), root length (RL), leaf area per plant (LA), number of leaves per plant (NL) and K+/Na+ ratio. The highest positive Pearson correlation coefficients were determined in LA vs SD (r=0.900), DSW vs SD (r=0.899), SL vs DSW (r=0.891), SL vs FSW (r=0.890) and DSW vs FSW (r=0.887). Additionally, the salt tolerant (T) group of genotypes maintained higher K+/Na+ ratios compared to moderately tolerant (MT) and salt sensitive (S) groups. The results clearly showed that dry shoot weight (DSW) could be viable option to classify maize genotypes into different salt tolerance groups and to identify the most suited and best adapted salt tolerant genotype for cultivation in saline soils. Furthermore, this scientific information could help the plant scientists to improve and develop the new salt tolerant cultivar.
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利用玉米幼苗期的形态和离子特性鉴定玉米耐盐基因型
玉米是第三大谷物作物,主要用于食品、饲料和饲料。尽管作物易受盐胁迫,但耐盐性表现出相当大的基因型变异。本研究旨在确定具有相反形态特征的玉米基因型对盐胁迫的反应程度。30个玉米基因型的7天龄幼苗在温控温室中暴露于EC小于4(对照)、等于8和12dSm-1的NaCl胁迫28天。从种植之日起,每隔一天以两个增量完成盐胁迫施加。在35天龄时,对幼苗进行对比形态特征评估。基因型在10个测量的形态和离子性状中的每一个都表现出相当大的变异。采用主成分分析法确定了最适合作为耐盐性选择标准的形态性状。基于主成分分析结果,利用干茎重(DSW)将30个玉米基因型分为耐盐性T组、耐中度MT组和耐盐性S组。30个基因型中,SB-9617和FH-949中有两(2)个具有最高平均干枝重百分比(PDSW)值>70%的基因型被归类为耐盐(T)。十五(15)个基因型的PDSW值平均在55-69.9%之间,通过表明耐盐性的顺序为YH-1898>MMRI黄>S-2002>FH-988>FH-1292>HC-12>MS-2018>NCEV-1270-7>Pahari>珍珠白>FH-1114>NCEV-1270-3>Iqbal>NCEV-1297>DK-6724,将其归类为中度耐受(MT)。然而,在总共三十(30)个基因型中,有十三(13)个获得了平均PDSW值Composite>FRI-22>Azam>MS-2015>P-1543>Neelum>Afgoi>Malka-2016>MS-1501>HNG>NCEV-1270-5>NCEV-7004。还注意到,所宣布的耐盐性与干茎重(DSW)、茎长(SL)、茎径(SD)、鲜茎重(FSW)、鲜根重(FRW)、干根重(DRW)、根长(RL)、单株叶面积(LA)、单株叶片数(NL)和K+/Na+比率呈正相关。LA与SD(r=0.900)、DSW与SD(r=0.899)、SL与DSW(r=0.891)、SL vs FSW(r=0.8 90)和DSW与FSW(r=0.887)的Pearson正相关系数最高。此外,与中度耐受(MT)和盐敏感(S)组相比,耐盐(T)基因型组保持较高的K+/Na+比率。结果清楚地表明,干茎重(DSW)可以将玉米基因型分为不同的耐盐组,并确定最适合和最适合在盐碱地种植的耐盐基因型。此外,这些科学信息可以帮助植物科学家改进和开发耐盐新品种。
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International Letters of Natural Sciences
International Letters of Natural Sciences MULTIDISCIPLINARY SCIENCES-
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