Journal
JOURNAL OF PLANT NUTRITION AND SOIL SCIENCE
Volume 178, Issue 2, Pages 312-319Publisher
WILEY-V C H VERLAG GMBH
DOI: 10.1002/jpln.201400418
Keywords
halophyte; salinity; split-root system; nitrogen; photosynthetic nitrogen-use efficiency
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Funding
- Tunisian Ministry of Higher Education and Scientific Research [LR10CBBC02]
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Using a split-root system, we aimed to identify the limiting factors for the growth of the halophyte Atriplex portulacoides L. under extreme salinity (800 mM NaCl) conditions. One half of the root system was immersed in complete nutrient solution at 0 or 800 mM NaCl and the other half was immersed in NaCl-free medium, containing all nutrients or deprived of potassium (K+) or calcium (Ca2+) or nitrogen (N). Data indicate that at high salinity levels A. portulacoides growth is limited by the restrictions imposed by NaCl on N uptake. Next, the alleviation of the adverse impact by salt stress (800 mM NaCl) on plant growth was investigated through urea (U) and/or thiourea (TU) external addition through foliar application. Whether separately or supplied together, both components mitigated the negative impact of salinity on the plant growth by significantly improving the photosynthetic activity parameters [CO2 assimilation rate, stomatal conductance and maximum quantum efficiency of PSII photochemistry (F-v/F-m)], as well as shoot N concentration and the photosynthetic nitrogen-use efficiency (PNUE). A concomitant increase of protein and free amino acid concentrations was also observed. As a whole, the present study highlights the significance of N in A. portulacoides response to high salinity and suggests that combined application of U and TU could promote the growth of this halophyte potentially useful for saline soil reclamation and revegetation purposes.
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