Mercury Phytotoxicity and Tolerance in Three Wild Plants during Germination and Seedling Development.

By examining plant responses to heavy metal stress during the early stages of the life cycle, we can predict their tolerance and survival in polluted areas as well as their potential for bioremediation. The objective of our study was to evaluate the effect of exposure to mercury (Hg) on the germination and in vitro development of three plant species: , (Asteraceae), and (Malvaceae). These are wild ecotypes adapted to local edaphoclimatic conditions in southern Ecuador, an area which has been historically affected by artisanal and small-scale gold mining (SSGM). For comparison, we additionally used a known Hg-tolerant plant, (Asteraceae). We tested biorelevant concentrations of Hg, equivalent to those occurring in soils affected by SSGM, i.e., up to 4.0 mg/L of Hg. The relative inhibitory effects of the treatments (0.6, 2.0, and 4.0 mg/L of Hg) on the germination percentage were most evident in , followed by , while and were not affected. In terms of the time needed to reach 50% germination (T50), exposed to higher concentrations of Hg showed an increase in T50, while showed a significant reduction compared to the control treatment. The reduction in radicle length at 4.0 mg/L Hg compared to the control was more evident in (86%) than in (55.3%) and (31.5%). We concluded that, in a scenario of Hg contamination in the evaluated concentration range, the grass and the tree could have a higher probability of establishment and survival.