Abstract
Water scarcity and high input costs have compelled farmers to use untreated wastewater and industrial effluents to increase profitability of their farms. Normally, these effluents improve crop productivity by serving as carbon source for microbes, providing nutrients to plants and microbes, and improving soil physicochemical and biological properties. They, however, may also contain significant concentrations of potential heavy metals, the main inorganic pollutants affecting plant systems, in addition to soil deterioration. The continuous use of untreated industrial wastes and agrochemicals may lead to accumulation of phytotoxic concentration of heavy metals in soils. Phytotoxic concentration of heavy metals in soils has been reported in Pakistan along the road sides and around metropolitan areas, which may cause its higher accumulation in edible plant parts. A number of bacterial that can induce heavy metal tolerance in plants due to their ability to produce phytohormones strains have been reported. Inoculation of crop plants with these microbes can help to improve their growth and productivity under normal, as well as stressed, conditions. This review reports the recent developments in heavy metal pollution as one of the major inorganic sources, the response of plants to these contaminants, and heavy metal stress mitigation strategies. We have also summarized the exogenous application of phytohormones and, more importantly, the use of phytohormone-producing, heavy metal-tolerant rhizobacteria as one of the recent tools to deal with heavy metal contamination and improvement in productivity of agricultural systems.
Highlights
Climate change is among the leading factors affecting water availability
Heavy metals are among the most dangerous potential inorganic pollutants, which can enter into food chain through contamination of soil water and air
The problem is more severe around the metropolitan areas and big cities with heavy industries
Summary
Climate change is among the leading factors affecting water availability. Water scarcity for irrigation is a result of drought spells, depletion of surface and ground water resources, and shifting of fresh water for domestic and industrial use [1]. The continuous use of untreated industrial wastes and agrochemicals may lead to accumulation of phytotoxic concentration of heavy metals in soils [7] These metals, when taken up by plants, become a part of food chain and affect humans and animals. [37], Ralstonia [38], Exiguobacterium [39], Stenotrophomonas, Morganella and Providencia [40], Enterobacter [11,41], Leifsonia [42], Burkholderia phytofirmans PsJn [31], Burkholderia cepacia [43] Pseudomonas fluorescens [44], and Pseudomonas aeruginosa [45] These strains have been well documented to have multifarious plant growth-promoting traits, in additions to phytohormone producing ability, and can be used to develop biofertilizer for inducing heavy metal stress tolerance in crop plants. Special attention has been given to the potentials of exogenous application of phytohormones, especially the phytohormones producing plant growth and promoting rhizobacteria in remediation of metal polluted soils and healthier crop production
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