期刊
JOURNAL OF BASIC MICROBIOLOGY
卷 53, 期 2, 页码 163-174出版社
WILEY
DOI: 10.1002/jobm.201100586
关键词
Electrolyte leakage; Frankia; Na+ regulation; salinity stress; macronutrients; micronutrients
类别
资金
- DBT
- DST
- CSIR, New Delhi
The mechanism(s) underlying differential salt sensitivity/tolerance were investigated in the terms of altered morphological and physiological responses against salinity such as growth, electrolyte leakage, Na+ uptake, efflux, accumulation and intracellular concentrations of macronutrients among the Frankia strains newly isolated from Hippophae salicifolia D. Don. Growth was minimally reduced at 500 and 250mM NaCl respectively in HsIi10 and rest of the strains (HsIi2, HsIi8, HsIi9) which proved that 500 and 250mM NaCl are the critical concentrations for the respective strains. The differences in the sodium influx/efflux rate was responsible for the differential amount of remaining sodium among the frankial strains and might be one of the primary determinants for the reestablishment of macronutrients (Mg2+, Ca2+ and K+) during salinity. Secondly, the interactive effect of sodium influx/efflux rate, remaining sodium and intracellular macronutrients (Mg2+, Ca2+ and K+) concentration has been responsible for the extent of membrane damage and growth sustenance of the tolerant/sensitive frankial strains during salinity. HsIi10 showed better co-regulation of various factors and managed to tolerate salt stress up to considerable extent. Therefore, HsIi10 can serve as a potential biofertilizer in the saline soil.
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