Nickel uptake in hydroponics and elemental profile in relation to cultivation reveal variability in three Hypericum species

Plant Physiol Biochem. 2022 Aug 15:185:357-367. doi: 10.1016/j.plaphy.2022.06.009. Epub 2022 Jun 9.

Abstract

The Hypericum species (H. perforatum, H. olympicum, and H. orientale) were cultured in hydroponics with excess nickel (Ni, 1 or 100 μM Ni) to compare the metallic and metabolite content. Identical species were collected outdoor to assess the same parameters (including uranium and lanthanides) with total of 53 elements. The results showed that Ni was less accumulated in shoots in hydroponics (translocation factor of 0.01-0.25) and the highest absolute amount was detected in H. olympicum. Essential elements were typically depleted by Ni excess, but Co and Na increased. Soluble phenols, sum of flavonols and catechin rather increased in response to Ni but quercetin glycosides and free amino acids decreased in the shoots of H. olympicum mainly. Comparison of laboratory and outdoor growing plants showed more phenols in outdoor samples but not in H. olympicum and individual metabolites differed too. Plants cultured in hydroponics contained lower amount of non-essential, toxic and rare earth elements (30-100-fold) and shoot bioaccumulation factor in outdoor samples was low for most elements (<0.01) but not for Cd and Pt. Data reveal that H. olympicum is a potent source of phenolic metabolites whereas H. orientale accumulates many elements (38 out of 53 elements).

Keywords: Bioremediation; Heavy metals; Medicinal plants; Phenolic metabolites; Rare earth elements.

MeSH terms

  • Hydroponics
  • Hypericum* / metabolism
  • Nickel / metabolism
  • Phenols / metabolism
  • Plant Roots / metabolism
  • Plants / metabolism

Substances

  • Phenols
  • Nickel