Effect of nitrogen source and salinity level on salt accumulation of two chickpea genotypes |
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Authors: | Riad Z Baalbaki Rami A Zurayk Mohamed AM Adlan Mohan C Saxena |
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Institution: | 1. Faculty of Agricultural and Food Sciences , American University of Beirut , P.O. Box 11–02361, Beirut, Lebanon E-mail: riadbaal@aub.edu.lb);2. Faculty of Agricultural and Food Sciences , American University of Beirut , P.O. Box 11–02361, Beirut, Lebanon;3. Soil Science and Biochemistry Department , Agricultural Research Cooperation, Gezira Research Station , Wad Medani, Sudan;4. International Center for Agricultural Research in the Dry Areas (ICARDA) , P.O. Box 54663, Aleppo, Syria |
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Abstract: | This study aimed at investigating mechanisms of salt tolerance and ionic relations of chickpea (Cicer arietinum L.) cultivars with different nitrogen (N) sources. Two resistant genotypes, ILC‐205 and ILC‐1919, were subjected to four levels of salinity (0.5, 3.0, 6.0, and 9.0 dS m‐1). Nitrogen sources consisted of inoculation with two resistant Rhizobium strains, CP‐29 and CP‐32, mineral N additions, and no N application. Data was collected on root and shoot contents of sodium (Na+) chlorine, (Cl‐,) and potassium (K+), and shoot to root Na+ratio, as well as shoot K+ to Na+ ratio. Salinity affected shoot Na+ and Cl‐contents, but nodulating plants had higher shoot Na+ contents than plants supplied with mineral N. Shoot to root Na+ ratios were lower in the mineral N treatment than in nodulating treatments at 3.0 dS m‐1, indicating that root compartmentalization and shoot exclusion were only possible at low salinities. Potassium levels of nodulating plant shoots were lower than those of non‐nodulating plants only at low salinities. N‐source significantly affected shoot K+/Na+ ratio, with nodulating plants having lower ratios than non‐nodulating plants, indicating that rhizobial infection or nodule formation may lead to salt entry curtailing the selective ability of chickpea roots. |
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Keywords: | seed priming phosphorus uptake seedling growth |
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