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Yousef Sohrabi

Yousef Sohrabi

Academic rank: Professor
ORCID:
Education: PhD.
ScopusId: 24559305600
HIndex:
Faculty: Faculty of Agriculture
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Research

Title
Effects of zinc application on growth, absorption and distribution of mineral nutrients under salinity stress in soybean (Glycine max L.)
Type
JournalPaper
Keywords
distribution, growth, mineral n utrients, salinity, soybean, uptake, zinc
Year
2014
Journal Journal of Plant Nutrition
DOI
Researchers Voriya Vaisani ، Yousef Sohrabi ، Gholamreza Heidari ، Adel Siosemardeh ، Hedieh Badakhshan

Abstract

The purpose of the present work was to evaluate effects of zinc application on growth and up-take and distribution of mineral nutrients under salinity stress [0, 33, 66, and 99 mM sodium chloride (NaCl)] in soybean plants. Results showed that, salinity levels caused a significant decrease in shoot dry and fresh weight in non-zinc application plants. W here as, zinc application on plants exposed to salinity stress improved the s hoot dry and fresh weight. Potassium (K) concentration, K/sodium (Na) and calcium (Ca)/Na ratios significantly decreased, while sodium (Na concentration increased in root shoot, and seed as soil salinity increased. Phosphorus (P) concentration significantly decreased in shoot under salinity stress. Moreover, calcium (Ca) significantly decreased in root, but increased in seed with increased salinization. Iron (Fe) concentration significantly decreased in all organs of plant (root, shoot, and seed) in response to salinity levels. Zinc (Zn) concentration of plant was not significantly affected by salinity stress. Copper (Cu) concentration significantly decreased by salinity in root. Nonetheless, manganese (Mn) concentration of root, shoot, and seed was not affected by experimental treatments. Zinc application increased Ca/Na (shoot and seed) ratio and K (shoot and seed), P (shoot), Ca root and seed), Zn (root, s hoot, and seed) and Fe (root and s hoot) concentration in soybean plants under salinity stress. Zinc application decreased Na concentration in shoot tissue.