| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 5515403 | Plant Physiology and Biochemistry | 2017 | 10 Pages |
â¢Metallicolous (MP, MB) and nonmetallicolous (NM) Echium vulgare plants were examined.â¢Higher biomass was noted in MP and MB compared with NM population under HM stress.â¢Zn translocation to shoots but Pb retention in roots were remarkable for MP and MB.â¢Organic acid accumulation increased under acute metal stress in metallicolous plants.â¢Zn and Pb stress enhanced secondary metabolite concentrations in all populations.
The aim of the study was to determine the response of metallicolous and nonmetallicolous Echium vulgare L. populations to chronic multi-metal (Zn, Pb, Cd) and acute Zn (200, 400 μM) and Pb (30, 60 μM) stress. Three populations of E. vulgare, one from uncontaminated and two from metal-contaminated areas, were studied. Two types of experiments were performed - a short-term hydroponic experiment with acute Zn or Pb stress and a long-term manipulative soil experiment with the use of soils from the sites of origin of the three populations. Growth parameters, such as shoot and root fresh weight and leaf area, as well as organic acid accumulation were determined. Moreover, the concentration of selected secondary metabolites and antioxidant capacity in the three populations exposed to Pb or Zn excess were measured. Both metallicolous populations generally achieved higher biomass compared with the nonmetallicolous population cultivated under metal stress in hydroponics or on metalliferous substrates. Plants exposed to Pb or Zn excess or contaminated soil substrate exhibited higher malate and citrate concentrations compared with the reference (no metal stress) plants. It was observed that Zn or Pb stress increased accumulation of allantoin, chlorogenic and rosmarinic acids, total phenolics, and flavonoids. Moreover, it was shown that Pb sequestration in the roots or Zn translocation to the shoots may play a role in enhanced metal tolerance of metallicolous populations under acute Pb/Zn stress.
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