The role of auxins and auxin-producing bacteria in the tolerance and accumulation of cadmium by plants

Cadmium (Cd) is one of the most toxic heavy metals for plant physiology and development. This review discusses Cd effects on auxin biosynthesis and homeostasis, and the strategies for restoring plant growth based on exogenous auxin application. First, the two well-characterized auxin biosynthesis pathways in plants are described, as well as the effect of exogenous auxin application on plant growth. Then, review describes the impacts of Cd on the content, biosynthesis, conjugation, and oxidation of endogenous auxins, which are related to a decrease in root development, photosynthesis, and biomass production. Finally, compelling evidence of the beneficial effects of auxin-producing rhizobacteria in plants exposed to Cd is showed, focusing on photosynthesis, oxidative stress, and production of antioxidant compounds and osmolytes that counteract Cd toxicity, favoring plant growth and improve phytoremediation efficiency. Expanding our understanding of the positive effects of exogenous auxins application and the interactions between bacteria and plants growing in Cd-polluted environments will allow us to propose phytoremediation strategies for restoring environments contaminated with this metal. © 2021, The Author(s), under exclusive licence to Springer Nature B.V.

Auxin-producing PGPR; Auxins; Cadmium; Phytoremediation cadmium; growth regulator; growth response; homeostasis; physiological response; phytoremediation; tolerance; antioxidant; cadmium; indoleacetic acid derivative; bacterium; bioremediation; metabolism; plant; Antioxidants; Bacteria; Biodegradation, Environmental; Cadmium; Indoleacetic Acids; Plants

VIVO