| dc.description.abstract | Salt stress severely reduces the production of soybean (Glycine
max) cultivar, an essential cash crop. High salt levels have
detrimental effects on growth, nodulation. Several studies have
shown that the tolerance to saltwater intrusion of many crops can be
induced by increasing activities of various antioxidant enzymes,
fortified the capacity to maintain ion and osmotic homeostasis, thus
metabolism in addition to structural adaptations. As salinity and
drought are known as osmotic stress and impose similar impacts on
plants, the aim of this study was to explore if the two soybean
cultivars that were previously identified with contrasting drought
tolerance would also display contrasting salinity tolerance abilities.
The investigation was carried out by comparing activities of major
antioxidants enzymes of between the MTD720 (drought-sensitive
cultivar) and DT51 (drought-tolerant cultivar). The obtained findings
revealed that MTD720 had lower activity levels of superoxide
dismutase, catalase, and peroxidase than DT51, especially under
high and/or long salinity treatment conditions, indicating a better
antioxidant defense in the drought-tolerant cultivar. However, more
replicates should be used to statistically identify any significant
difference between these two cultivars regarding antioxidant
activities. In addition, molecular and physiological investigations
could be performed in future studies to find out the underlying
mechanisms that DT51 relies on for responses against salinity stress. | en_US |
