Paper Details

PJB-2022-70

Comparison of physio-biochemical and antioxidant enzymes in maize during early growth stage in response to salt stress

Muhammad U. Chattha, Muhammad A. Khan, Imran Khan, Athar Mahmood, Muhammad B. Chattha, Muhammad U. Hassan, Walid Soufan, Mohammad Okla, Arpna Kumari, Disna Ratnasekera, Basharat Ali, Mostafa Shehata and Ayman Elsabagh
Abstract

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Salinity stress is a major threat to crops that is considerably limiting agricultural productivity across the globe. Salt stress affects the growth, physiological, biochemical, and metabolic processes of maize and thus leads to a serious reduction in final productivity. However, the maize genotypes differ significantly in terms of salinity tolerance. Therefore, this study wsa conducted to assess the impact of different levels (control, 6 dS m-1, 12 dS m-1) of salt stress on growth, and physio-biochemical traits of different maize hybrids (P-1543, FS-131, SB-9663, YH-1898, FH-1096, SB-794). The results delineated that salt stress (12 dS m-1) considerably increased the time to start germination (TSG), reduced germina-tion index (GI), and final germination percentage (FGP). Moreover, salt stress (12 dS m-1) also reduced root and shoot growth, biomass production, chlorophyll contents, relative water contents (RWC). Further, current results depicted that salt stress induced an increase in electrolyte leakage (EL) and activities of antioxidants (APX, CAT and POD). Similarly, the maize hybrids also had significant differences in the germination, growth and physio-biochemical traits. In comparison, hybrids FH-1096 and YH-1898 re-quired less TSG and had the highest GI and FGP, whereas hybrids P-1543 and FS-131 needed more TSG and had the lowest GI and FGP.. Likewise, the maximum chlorophyll, RWC, carotenoid and antioxidant enzymes activities were recorded in hybrid FH-1096. However, minimum chlorophyll, RWC, carotenoid and antioxidant enzymes activities and maximum EL was noticed in hybrids P-1543, FS-131 and SB-9663. Thus, on the basis of these findings it can be suggested that maize hybrids FH-1096 and YH-1898 can perform well under salt stress conditions.Salinity stress is a major hazard to crops, severely restricting agricultural productivity around the world. Salt stress has a negative impact on the growth, physiological, biochemical, and metabolic processes of maize, resulting in a significant loss in final crop productivity. However, the maize genotypes differ significantly in terms of salinity tolerance. Therefore, this study was conducted to assess the impact of different salinity levels (control, 6 dS m-1, 12 dS m-1) on growth, and physio-biochemical traits of different maize hybrids (P-1543, FS-131, SB-9663, YH-1898, FH-1096, SB-794). The results delineated that salt stress (12 dS m-1) considerably increased the time to start germination (TSG), reduced germination index (GI), and final germination percentage (FGP). Moreover, salt stress (12 dS m-1) also reduced root and shoot growth, biomass production, chlorophyll contents, and relative water contents (RWC). Further, current results depicted that salt stress induced an increase in electrolyte leakage (EL) and activities of antioxidants (APX, CAT and POD). Similarly, the maize hybrids also had significant differences in germination, growth and physio-biochemical traits. In comparison, hybrids FH-1096 and YH-1898 required less TSG and had the highest GI and FGP, whereas hybrids P-1543 and FS-131 needed more TSG and had the lowest GI and FGP. Likewise, the maximum chlorophyll, RWC, carotenoid and antioxidant enzymes activities were recorded in hybrid FH-1096. However, minimum chlorophyll, RWC, carotenoid and antioxidant enzymes activities and maximum EL was noticed in hybrids P-1543, FS-131 and SB-9663. Thus, on the basis of these findings, it can be suggested that maize hybrids FH-1096 and YH-1898 can show tolerance under salt stress conditions.

To Cite this article: Chattha, M.U., M. Khan, I. Khan, A. Mahmood, M.B. Chattha, M. Hassan, W. Soufan, M. Okla, A. Kumari, D. Ratnasekera, B. Ali, M. Shehata and A. Elsabagh. 2023. Comparison of physio-biochemical and antioxidant enzymes in maize during early growth stage in response to salt stress. Pak. J. Bot., 55(6): DOI: http://dx.doi.org/10.30848/PJB2023-6(19)
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