Eff ects of Endophytes on Dysphania ambrosioides Heavy Metal Tolerance and Accumulation under Multi-heavy Metal Stress

Abstract: H igh concentration of h eavy metal (HM) is toxic to the plant and endophytes can improve host plants HM tolerance. In the present study, the role of endophytes FT2G7 (Phomopsis columnaris) and FT2G24 (Setophoma terrestris) on host plant Dysphania ambrosioides HM tolerance was evaluated under m ulti-HMs stress through pot experiments. The results showed that regardless at lower or higher multi-HMs stress, inoculation of isolate(s) improved host plants growth and HM tolerance through regulating their antioxidan… Show more

“…Several plant growths promoting bacteria from the genus Pseudomonas , Streptomyces , Bacillus, and Methylobacterium have been isolated with the potential of HM-tolerance and the mitigation of adverse effects of HMs on plant hosts [ 96 ]. Recently, Tang and coworkers [ 169 ] studied the prospects of endophytes, Phomopsis columnaris, and Setophoma terrestris isolated from Dysphania ambrosioides in bioaccumulation under multiple HM stresses and metal tolerances. The results showed that the beneficial effects of endophyte inoculation improved plant growth and HM tolerance via antioxidant mechanisms.…”

“…The results showed that the beneficial effects of endophyte inoculation improved plant growth and HM tolerance via antioxidant mechanisms. In addition, multi-isolate inoculation in the plant host had better effects than a single isolate on the host plant [ 169 ]. Further studies by Bibi et al [ 170 ] discussed the efficient biodegradation of Cr metal in the contaminated soil via fungal endophytes, and 114 fungal endophyte strains were isolated from different plant species, namely Zea mays , Beta vulgare , Saccharum officinarum , Ficus carica , Parthenium argentatum , Cucurbita maxima, and Colocasia esculenta .…”

Trends in Harnessing Plant Endophytic Microbiome for Heavy Metal Mitigation in Plants: A Perspective

“…Several plant growths promoting bacteria from the genus Pseudomonas , Streptomyces , Bacillus, and Methylobacterium have been isolated with the potential of HM-tolerance and the mitigation of adverse effects of HMs on plant hosts [ 96 ]. Recently, Tang and coworkers [ 169 ] studied the prospects of endophytes, Phomopsis columnaris, and Setophoma terrestris isolated from Dysphania ambrosioides in bioaccumulation under multiple HM stresses and metal tolerances. The results showed that the beneficial effects of endophyte inoculation improved plant growth and HM tolerance via antioxidant mechanisms.…”

“…The results showed that the beneficial effects of endophyte inoculation improved plant growth and HM tolerance via antioxidant mechanisms. In addition, multi-isolate inoculation in the plant host had better effects than a single isolate on the host plant [ 169 ]. Further studies by Bibi et al [ 170 ] discussed the efficient biodegradation of Cr metal in the contaminated soil via fungal endophytes, and 114 fungal endophyte strains were isolated from different plant species, namely Zea mays , Beta vulgare , Saccharum officinarum , Ficus carica , Parthenium argentatum , Cucurbita maxima, and Colocasia esculenta .…”

Trends in Harnessing Plant Endophytic Microbiome for Heavy Metal Mitigation in Plants: A Perspective