AUTHOR=Villafort Carvalho Mina Tomaz , Amaral Douglas C. , Guilherme Luiz R. G. , Aarts Mark G. M. 

TITLE=Gomphrena claussenii, the first South-American metallophyte species with indicator-like Zn and Cd accumulation and extreme metal tolerance

JOURNAL=Frontiers in Plant Science

VOLUME=4

YEAR=2013

URL=https://www.frontiersin.org/journals/plant-science/articles/10.3389/fpls.2013.00180

DOI=10.3389/fpls.2013.00180

ISSN=1664-462X

ABSTRACT=<p>Plant species with the capacity to tolerate heavy metals are potentially useful for phytoremediation since they have adapted to survive and reproduce under toxic conditions and to accumulate high metal concentrations. <italic>Gomphrena claussenii</italic> Moq., a South-American species belonging to the Amaranthaceae, is found at a zinc (Zn) mining area in the state of Minas Gerais, Brazil. Through soil and hydroponic experiments, the metal tolerance and accumulation capacities of <italic>G. claussenii</italic> were assessed and the effects on physiological characteristics were compared with a closely related non-tolerant species, <italic>G. elegans</italic> Mart. <italic>G. claussenii</italic> plants grown in soil sampled at the Zn smelting area accumulated up to 5318μgg<sup>-</sup><sup>1</sup> of Zn and 287 μg g<sup>-</sup><sup>1</sup> of cadmium (Cd) in shoot dry biomass after 30 days of exposure. Plants were grown in hydroponics containing up to 3000 μM of Zn and 100 μM of Cd for <italic>G. claussenii</italic> and 100 μM of Zn and 5 μM of Cd for <italic>G. elegans</italic>. <italic>G. claussenii</italic> proved to be an extremely tolerant species to both Zn and Cd, showing only slight metal toxicity symptoms at the highest treatment levels, without significant decrease in biomass and no effects on root growth, whereas the non-tolerant species <italic>G. elegans</italic> showed significant toxicity effects at the highest exposure levels. Both species accumulated more Zn and Cd in roots than in shoots. In <italic>G. elegans</italic>, over 90% of the Cd remained in the roots, but <italic>G. claussenii</italic> showed a root:shoot concentration ratio of around 2, with shoots reaching 0.93% Zn and 0.13% Cd on dry matter base. In <italic>G. claussenii</italic> shoots, the concentrations of other minerals, such as iron (Fe) and manganese (Mn), were only affected by the highest Zn treatment while in <italic>G. elegans</italic> the Fe and Mn concentrations in shoots decreased drastically at both Zn and Cd treatments. Taking together, these results indicate that <italic>G. claussenii</italic> is a novel metallophyte, extremely tolerant of high Zn and Cd exposure and an interesting species for further phytoremediation studies.</p>