Abstract
Contamination of the environment with metals, their adverse impact on plant performance and transmission to the human food chain through crops and vegetables are important concerns worldwide. Although the literature on metal contamination, toxicity and plant response to this stress factor is quite abundant, there are very limited reports on the phenomenon of plant recovery after metal stress. The present article reviews available literature on the recovery process examined in various plant species, in response to several metals (Al, Cd, Cu, Ni, Pb, Zn), applied at different concentrations and treatment duration. The reviewed studies have been carried out in laboratory conditions. However, it should be highlighted that although metal stress is not as transient as most of other stress factors (e.g., drought, heat, chilling), metal concentration in the soil may still decrease due to, e.g., leaching to lower soil layers or uptake by organisms. Thus, in natural conditions, plants may be subjected to post-metal-stress conditions. The review also discusses the mechanism behind efficient recovery and the impact of post metal stress on future plant performance—possible acquisition of stress memory, adaptation to unfavorable conditions and cross-tolerance towards other stress factors.
Highlights
Contamination of the environment with metals/metalloids is one of the important concerns worldwide
The results revealed that the most rapid and efficient recovery has been observed in the case of exposure to Ni
Several studies evidence that plants are capable of efficient recovery even from relatively severe stress conditions
Summary
Contamination of the environment with metals/metalloids is one of the important concerns worldwide. Elevated levels of these elements in the soil have been detected in various regions of the world. In Africa, the most widespread contaminants include Cd and Pb, other metals/metalloids such as Hg and As are detected in specific locations. The pollution of the environment resulted in metal accumulation in crops, fish, cattle and eventually humans [2]. The aim of the present article is to review the information on plant recovery after metal stress. It is highlighted that past exposure to metals might leave relatively stable imprints in plants affecting their future performance and stress response
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