Metabolic and biochemical analyses reveal heavy metals tolerance mechanisms in Amaranthus retroflexus L.

Abstract

One of the most prevalent plant species in the contaminated area around a sewage dumping lake at Khulais (Jeddah, Saudi Arabia) in the Arabian desert eco-region was found to be Amaranthus retroflexus L. This plant has the capacity to bioaccumulate and bioremediate heavy metals. The current study, therefore, aimed at investigating the plant's defense mechanisms by conducting metabolic and biochemical assessments. To this end, A. retroflexus plants were collected from the sewage dumping lake of Khulais, across five sites at varying distances from the lake, each exhibiting different level of heavy metal. The results indicated an increase in antioxidant defense system emerged as a protection strategy for A. retroflexus plants against soil contaminations. This, for instance, included the increased synthesis of polyamines (e.g., putrescine, spermidine, and spermine by +9–63%), flavonoids (e.g., naringenin, kaempferol, luteolin, and rutin by +10–146%), and phenolic acids (e.g., chlorogenic acid, gallic acid, caffeic acid, p-coumaric acid, chicoric acid, rosmarinic acid, and protocatechuic acid), increased by 10–254%. Additionally, plants adjusted their metabolic processes by synthesizing various low molecular weight amino acids, including proline (+19–299%), phenylalanine (+98–240%), glutamate (+34–492%), arginine (+10–64%), and ornithine (+51–210%). The activity of the metabolic enzymes involved in metabolism of these amino acids was enhanced accordingly. It can be concluded that the synthesis of polyamines and amino acids can be coordinated and complemented to improve the tolerance of A. retroflexus to cope with heavy metal accumulation in contaminated soils.