Rhizobia, which enter into symbiosis with legumes, can also interact with non-legumes and
promote plant growth. In this paper, we explored the effects of nickel (Ni, 200 µM) on …

Aims Ultramafic/serpentine soils constitute a stressful environment with many plant growth
constrains such as a lack of macronutrients and high levels of potentially toxic metals. We …

The Legume-Rhizobium symbiosis has been proposed as a promising technique for the
phytoremediation of contaminated soils due to its beneficial activity in symbiotic nitrogen …

A pot experiment was conducted to evaluate the potential of two plant growth promoting
rhizobacteria (PGPR) viz. Bacillus sp. CIK-516 and Stenotrophomonas sp. CIK-517Y for …

Plant growth-promoting rhizobacteria (PGPRs) have been utilized to immobilize heavy
metals, limiting their translocation in metal contaminated settings. However, studies on the …

Phytoremediation potential of plants can be enhanced in association with microbes. Further,
many plant growth-promoting rhizobacteria can improve growth under stress. The present …

Plant growth promoting rhizobacteria PGPR are known to influence plant growth by various
direct or indirect mechanisms. The present study aimed to isolate both nickel and cadmium …

Nickel (Ni) is an essential element for plant growth and is a constituent of several
metalloenzymes, such as urease, Ni-Fe hydrogenase, Ni-superoxide dismutase. However …

The contribution of rhizobia in the mitigation of non-enzymatic antioxidants against nitrogen
deficiency and heavy metal toxicity for legume plant is not clear. Therefore, it is hypothesized …

Metal hyperaccumulator plants like Alyssum murale have a remarkable ability to
hyperaccumulate Ni from soils containing mostly insoluble Ni. We have shown some …