Effect of silicon on morphological, physiological and biochemical characteristics in salinity tolerance in indica rice

ORYZA- An International Journal on Rice Pub Date : 2023-03-30 DOI:10.35709/ory.2023.60.1.9

Roshini D, A. J

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Abstract

Silicon application can increase plant tolerance to abiotic stress and enhance productivity. Seeds of two Rice varieties (ADT53: salinity susceptible and Co 53: salinity tolerance) were exposed to different concentrations of NaCl (25, 50, 75 and 100 mM), Silicon (Sodium metasilicate; 1, 1.5 and 2 mM) and a combination of both NaCl and Silicon to investigate the effect of silicon on seed germination, morphological, physiological and biochemical characteristics under salinity stress imposed for 15 days and also subjected to fresh water alone (control). Application of silicon enhances the germination rate of ADT 53 and Co 53 (90%) in 50mM NaCl + 2mM Si. Maximum shoot length was observed in ADT 53 (6.54 cm) and Co 53 (10 cm) in 25 mM NaCl + 2mM Si. Maximum root length was observed in ADT 53 (12.9 cm) and Co 53 (10 cm) in 50mM NaCl + 1mM Si. ADT 53 (33.3%) showed the highest percentage of chlorophyll-a in 25 mM NaCl + 1 mM Si and Co 53 (30%) in 75mM NaCl + 2 mM Si 100 mM NaCl + 2 mM Si. The highest percentage of Chlorophyll b was observed in ADT 53 (104%) in 25 mM NaCl + 2mM Si and Co 53 (95%) in 100 mM NaCl + 2 mM Si. Total chlorophyll content was maximum in ADT 53 (133%) in 25mM NaCl + 2mM Si and Co 53 (130%) in 75 mM NaCl + 2mM Si. Maximum carotenoid was observed in ADT 53 (240%) in 100 mM NaCl + 1.5 mM Si and Co 53 (273%)in 25 mM NaCl + 2 mM Si. Chlorophyll stability index was increased in ADT 53 (185.7%) in 100 mM NaCl + 2 mM Si and Co 53 (205.38%) in100 mM NaCl + 1.5 mM Si. Proline content was decreased in ADT 53(13%) in 25 mM NaCl + 1.5 mM Si and Co 53 (11%) in 100 mM NaCl + 1.5mM Si. MDA was found low in ADT 53 (11%) in 100 mM NaCl + 1.5 mM Si for and Co 53 (14%) in 50 mM NaCl + 2 mM Si. CAT activity was found low in ADT 53 (14%) in 25mM NaCl + 1.5 mM Si and Co 53 (16%) in 25 mM NaCl + 2 mM Si , 100 mM NaCl + 1.5mM Si. ADT 53 showed the on-par performance with salinity tolerant variety Co 53.

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硅对籼稻耐盐性形态生理生化特性的影响

施硅可以提高植物对非生物胁迫的耐受性，提高产量。将两个水稻品种ADT53(盐敏感)和co53(耐盐)的种子分别暴露于不同浓度的NaCl(25、50、75和100 mM)、硅(偏硅酸钠;在盐胁迫15 d和单独淡水处理(对照)条件下，研究了硅对种子萌发、形态、生理生化特性的影响。在50mM NaCl + 2mM Si条件下，施用硅提高了adt53和co53的发芽率(90%)。在25 mM NaCl + 2mM Si条件下，ADT 53 (6.54 cm)和Co 53 (10 cm)的茎长最大。在50mM NaCl + 1mM Si条件下，ADT 53 (12.9 cm)和Co 53 (10 cm)的根长最大。25 mM NaCl + 1 mM Si中ADT 53(33.3%)和75mM NaCl + 2 mM Si (100 mM NaCl + 2 mM Si)中Co 53(30%)的叶绿素a含量最高。在25 mM NaCl + 2mM Si条件下，adt53的叶绿素b含量最高(104%)，在100 mM NaCl + 2mM Si条件下，co53的叶绿素b含量最高(95%)。总叶绿素含量在25mM NaCl + 2mM Si条件下最高，为133%，在75mm NaCl + 2mM Si条件下最高，为130%。在100 mM NaCl + 1.5 mM Si条件下，adt53的类胡萝卜素含量最高(240%)，在25 mM NaCl + 2 mM Si条件下，co53的类胡萝卜素含量最高(273%)。在100 mM NaCl + 2 mM Si和100 mM NaCl + 1.5 mM Si条件下，adt53的叶绿素稳定性指数分别提高了185.7%和205.38%。25 mM NaCl + 1.5mM Si处理下ADT 53脯氨酸含量降低13%，100 mM NaCl + 1.5mM Si处理下co53脯氨酸含量降低11%。在100 mM NaCl + 1.5 mM Si溶液中，adt53的MDA含量低(11%)，而在50 mM NaCl + 2 mM Si溶液中，co53的MDA含量低(14%)。在25mM NaCl + 1.5mM Si条件下，adt53的CAT活性较低(14%)，而在25mM NaCl + 2 mM Si、100 mM NaCl + 1.5mM Si条件下，co53的CAT活性较低(16%)。adt53与耐盐品种co53表现出相当的性能。

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ORYZA- An International Journal on Rice

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