Litcius/Paper detail

Heavy metal induced stress on wheat: phytotoxicity and microbiological management

Asfa Rizvi, Almas Zaidi, Fuád Ameén, Bilal Ahmed, Muneera D. F. Alkahtani, Mohd. Saghir Khan

2020RSC Advances231 citationsDOIOpen Access PDF

Abstract

food chain, human and animal health. Therefore, the metal induced phytotoxicity problems warrant urgent and immediate attention so that the physiological activities of microbes, nutrient pool of soils and concurrently the production of wheat are preserved and maintained in a constantly deteriorating environment. To mitigate the magnitude of metal induced changes, certain microorganisms have been identified, especially those belonging to the plant growth promoting rhizobacteria (PGPR) group endowed with the distinctive property of heavy metal tolerance and exhibiting unique plant growth promoting potentials. When applied, such metal-tolerant PGPR have shown variable positive impact on wheat production, even in soils contaminated with metals, by supplying macro and micro nutrients and secreting active biomolecules like EPS, melanins and metallothionein (MTs). Despite some reports here and there, the phytotoxicity of metals to wheat and how wheat production in metal-stressed soil can be enhanced is poorly explained. Thus, an attempt is made in this review to better understand the mechanistic basis of metal toxicity to wheat, and how such phytotoxicity can be mitigated by incorporating microbiological remediation strategies in wheat cultivation practices. The information provided here is likely to benefit wheat growers and consequently optimize wheat production inexpensively under stressed soils.

Topics & Concepts

PhytotoxicityThreatened speciesHeavy metalsEnvironmental scienceMetalAgronomyEnvironmental chemistryChemistryBiologyEcologyHabitatOrganic chemistryHeavy metals in environmentHeavy Metals in PlantsCoal and Its By-products