Nickel and zinc absorption and growth of Atlantic Forest trees cultivated in polluted soil

Background and aims The Brazilian Atlantic Forest has been affected by the deposition of Ni and Zn, among other heavy metals adsorbed on atmospheric particles, which can be incorporated into the soil. If available in the soil, they can be absorbed by plant roots. The study aimed at testing experimen...

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Bibliographic Details
Published in:Plant and soil 2022-02, Vol.471 (1-2), p.463-475
Main Authors: Brandão, Solange E., Barbosa, Geane M., Siqueira, Matheus C., de O. A. Campos, Rafaela, Dalsin, Ana C. F., Rinaldi, Mirian C. S., Domingos, Marisa
Format: Article
Language:English
Subjects:
absorption
Aerosols
Agriculture
Analysis
Bioavailability
biomass
Biomedical and Life Sciences
Branches
Ecology
Fertilization
forests
Growth
Growth rate
Heavy metals
Hydroxides
Indigenous species
Leaves
Life Sciences
Measurement
Methods
Nickel
Organic matter
pioneer species
Plant Physiology
Plant roots
Plant Sciences
Plant species
Plant-soil relationships
polluted soils
Regular Article
Roots
Soil pollution
Soil Science & Conservation
Soils
Translocation
Trees
Zinc
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Summary:Background and aims The Brazilian Atlantic Forest has been affected by the deposition of Ni and Zn, among other heavy metals adsorbed on atmospheric particles, which can be incorporated into the soil. If available in the soil, they can be absorbed by plant roots. The study aimed at testing experimentally the hypotheses: 1) Ni and Zn depositions increase their bioavailable fractions in the soil; 2) pioneer tree species absorb Ni and Zn from the soil in higher level and less growth changes than non-pioneer species. Methods The experiment was carried out with six pioneer and non-pioneer species native to the Atlantic Forest, grown for 90 days in: soil with balanced fertilization (control) and in soil enriched with Ni, Zn or Ni + Zn. At the end, the concentrations of Ni and Zn were determined in four soil fractions (F1: soluble; F2: linked to oxides/hydroxides; F3: linked to organic matter: F4: residual metals) and in leaves, stems/branches and roots. Mobility factors in soil, concentration ratios between treatments and respective controls, translocation efficiency and relative growth rate in height, leaf number and total biomass were also calculated. Results The results showed that Ni and Zn concentrations increased significantly in the bioavailable soil fractions (F1, F2). The absolute content of Ni and Zn in the plants directly reflected the soil level in the available forms. Conclusions Pioneer tree species absorb Ni and Zn in higher level and show less changes in growth than non-pioneer tree species.
ISSN:0032-079X
1573-5036
DOI:10.1007/s11104-021-05228-w