Soleyman Dayani scite author profile

Distichlis spicata and Suaeda aegyptiaca are two potential halophytic plant species for bioremediation of salt degraded soils, and development of saline agriculture. The physiological responses of the species to different levels of salinity (EC 0, 12, 24, 36, and 48 dS/m) in a controlled environment experiment were studied. Both species showed a high level of tolerance to elevated concentrations of salt in the irrigation water. The shoot fresh and dry weights in S. aegyptiaca increased till 36 dS/m and were sustained under 48 dS/m while in D. spicata, both parameters decreased as salinity increased. Glycine betaine accumulation did not change in D. spicata with increasing salinity, whereas proline content revealed a marked increase of 7.13 fold in 48 dS/m salinity compared to the control, which showed its critical osmoprotection role in the plant. In S. aegyptiaca, both osmolytes content significantly increased at high salinity levels (36 and 48 dS/m) up to 3.22 and 2.0 folds, respectively. Overall, S. aegyptiaca had a better potential of Na phytoremediation, and tolerated higher salinity compared to D. spicata. In contrast, the vigorous root and rhizome growth in D. spicata made it a proper solution for protecting the soils against further erosion under saline conditions.

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Efficiency of Light-Emitting Diodes for Future Photosynthesis

Dayani¹,

Heydarizadeh²,

Sabzalian³

2018

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CRISPR/Cas9 Genome Editing in Bread Wheat (Triticum aestivum L.) Genetic Improvement

Dayani

Rahimmalek

Mazaheri-Tirani

2019

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Soleyman Dayani

Genetic diversity and species differentiation of medicinal plant Persian Poppy (Papaver bracteatum L.) using AFLP and ISSR markers

In vitro effect of zinc oxide nanoparticles on Nicotiana tabacum callus compared to ZnO micro particles and zinc sulfate (ZnSO4)

Comparison ofDistichlis spicataandSuaeda aegyptiacain response to water salinity: Candidate halophytic species for saline soils remediation

Efficiency of Light-Emitting Diodes for Future Photosynthesis

CRISPR/Cas9 Genome Editing in Bread Wheat (Triticum aestivum L.) Genetic Improvement

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