4.7 Article

Interactions between the Hyperaccumulator Noccaea caerulescens and Brassica juncea or Lupinus albus for Phytoextraction

Journal

AGRONOMY-BASEL
Volume 10, Issue 9, Pages -

Publisher

MDPI
DOI: 10.3390/agronomy10091367

Keywords

phytoremediation; trace elements; soil contamination; cocultivation; rhizosphere

Funding

  1. Spanish Ministry of Science and Innovation
  2. EU (FEDER funds) [CTM2010 21922-C02-01, CTM2013-48697-C2-1-R]

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Trace-element-contaminated soils cause environmental concern and represent a source of contamination for surrounding areas. Phytoremediation uses plants to diminish the environmental risks associated with this contamination. When the final aim is the extraction of the pollutants, this technique requires the use of plants that are able to accumulate high concentrations of the target elements in their aerial part, while producing high plant biomass. Here, pot experiments were carried out in order to determine the interaction between a hyperaccumulator (Nocaea caerulescens) and a metal excluder (Lupinus albus) or an accumulator (Brassica juncea) species regarding their trace element accumulation/exclusion capacity when sharing the rhizosphere. The plants were grown alone or were cocultivated in soils with different levels of trace element contamination. The Zn concentration inN. caerulescensplants was lower in cocultivation withB. junceathan when they were grown alone, indicating competition between the two species for Zn uptake. Contrastingly, when grown withL. albus, the Zn concentrations inN. caerulescensplants were higher than when grown alone. Therefore, under climatic conditions adequate forN. caerulescensgrowth, cocultivation withL. albuscould favor Zn phytoextraction, while in the case ofB. juncea, crop rotation rather than cocultivation is recommended for efficient phytoextraction.

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