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Endophytic bacteria in Halogeton glomeratus from mining . . . Our findings might corroborate the notion that heavy metal stress in the soil can markedly facilitate the migration of an unclassified second most abundant species of Cyanobacteria, residing within the roots of H glomeratus, to aerial tissues, where the stress from heavy metals was diminished
Halophyte Halogeton glomeratus, a promising candidate for . . . Therefore, we confirmed H glomeratus can remove the Na and heavy metals from heavy metal-polluted saline soils, effectively prevent the accumulation of salts in the topsoil, and tolerate heavy metal stress
Endophytic bacteria for drug discovery and bioremediation of heavy metals Endophytic bacteria can escalate the amount of dissolved heavy metals in the soil, as well as boost heavy metal absorption and transport to stems and leaves In phytoremediation initiatives, increasing heavy metal concentration in stems and leaves will help with pollution cleanup
Endophytic bacteria in Halogeton glomeratus from mining areas are . . . Semantic Scholar extracted view of "Endophytic bacteria in Halogeton glomeratus from mining areas are mainly Sphingomonas pseudosanguinis, with a Cyanobacteria moving from roots to leaves to avoid heavy metals" by Xisheng Tai et al