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Phytoremediation of Nickel-Contamination Using Helianthus annuus L. in Mediterranean Conditions
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Nickel contamination poses a serious risk to ecosystems and human health. Phytoremediation provides a sustainable solution. This study evaluates the ability of Helinathus annuus L. to tolerate and accumulate nickel under simulated Mediterranean and semi-arid conditions, representing a short-term contamination event with nickel-enriched irrigation. Laboratory experiments assessed growth, tolerance, and Ni distribution within plant tissues. Results showed that Ni uptake increased with concentration, mainly in roots, while translocation to aerial parts remained limited. The bioconcentration factors ranged from 1.32 to 2.55, and the translocation factors from 0.46 to 0.60, indicating efficient uptake but restricted metal mobility. Higher water availability enhanced Ni absorption, suggesting that soil moisture facilitates metal transport and root activity. Helinathus annuus L. demonstrated good tolerance at moderate Ni levels but reduced growth and accumulation efficiency at higher concentrations, confirming its potential for phytostabilization in Mediterranean soils affected by metal contamination.
Title: Phytoremediation of Nickel-Contamination Using Helianthus annuus L. in Mediterranean Conditions
Description:
Nickel contamination poses a serious risk to ecosystems and human health.
Phytoremediation provides a sustainable solution.
This study evaluates the ability of Helinathus annuus L.
to tolerate and accumulate nickel under simulated Mediterranean and semi-arid conditions, representing a short-term contamination event with nickel-enriched irrigation.
Laboratory experiments assessed growth, tolerance, and Ni distribution within plant tissues.
Results showed that Ni uptake increased with concentration, mainly in roots, while translocation to aerial parts remained limited.
The bioconcentration factors ranged from 1.
32 to 2.
55, and the translocation factors from 0.
46 to 0.
60, indicating efficient uptake but restricted metal mobility.
Higher water availability enhanced Ni absorption, suggesting that soil moisture facilitates metal transport and root activity.
Helinathus annuus L.
demonstrated good tolerance at moderate Ni levels but reduced growth and accumulation efficiency at higher concentrations, confirming its potential for phytostabilization in Mediterranean soils affected by metal contamination.
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