An environmental field assessment of soil quality and phytoremediation of toxic metals from saline soil by selected halophytes.

The current study has aims to investigate the soil quality and phytoextraction of cadmium (Cd), chromium (Cr), and lead (Pb) from saline soils using Alhagi maurorum (camelthorn), Tamarix aphylla (saltcedar), Salvadora persica (mustard bush), and Suaeda nigra (bush seep weed). The saline bulk soil, rhizospheric soil, and different parts of selected plants were oxidized using the acid mixture and determined Cd, Cr, and Pb by atomic absorption spectrometry. The bio-concentration factor (BCF) and translocation factor (T F ) of also examined. The quality parameters of soil like pH (< 8.5), and electrical conductivity (EC; > 4.00 dS m -1 ) indicated the soil is saline. The salinity of soil was lower the organic matters, and total nitrogen contents in studied saline bulk soil due to deterioration condition of soils. However, the rhizospheric soil showed the improved quality of saline soil reflected the good phytoextraction of salts from saline soil. The high contents of Cd in roots and shoots (1.02 and 0.65 µg g -1 ) of Alhagi maurorum , Cr in the roots and shoots (6.20, and 6.75 µg g -1 ) of Tamarix aphylla and Pb in the roots and shoots (5.63, and 5.75 µg g -1 ) of Suaeda nigra . The BCF and T F showed the Tamarix aphylla and Alhagi maurorum for Pb, Alhagi maurorum , and Salvadora persica for Cr considered as hyperaccumulator plants. Based on BCF and T F values of Alhagi maurorum , Tamarix aphylla for Cd, and Salvadora persica for Cr and Pb have the efficiency to uptake toxic metals from saline soil. Thus, it can be concluded that selected plant species may have ability for the phytoextraction the Cd, Cr and Pb from saline soil.