Litcius/Paper detail

Responses of<i>Eucalyptus globulus</i>and<i>Ficus nitida</i>to different potential of heavy metal air pollution

Ahmed El-Khatib, Naglaa Youssef, Nasser A.M. Barakat, Nesrin A. Samir

2020International Journal of Phytoremediation33 citationsDOI

Abstract

and to investigate the leaf features [leaf area (LA) and specific leaf area (SLA)] associated with the phytoremediation process. The findings may be useful for future surveillance as preliminary reference values for levels of heavy metals in urban and industrial settings. The levels of cadmium, lead and Cupper in plant leaf were determined. The results showed that heavy metals could inhibit the growth of plants including LA and SLA. The water content (WC) and photosynthetic pigments of Eucalyptus and Ficus decreased with the increased concentration of metals. Contrary to chlorophylls (a) and (b), carotenoids and chlorophyll ratio (a/b) showed a significant increase with increasing metals concentration especially that of Cd and Cu. Proline content was relatively increased and soluble carbohydrate content decreased in plants with high metal accumulation. Eucalyptus showed better tolerance capacity for Cd, Pb and Cu when compared to Ficus. The ability of Eucalyptus to accumulate and tolerate metal stress makes this species a good candidate to recuperate heavy metals-contaminated conditions.

Topics & Concepts

Eucalyptus globulusCadmiumPhytoremediationFicusEucalyptusCarotenoidBotanyPhotosynthesisChlorophyllHorticultureProlineMoraceaeChemistryPhotosynthetic pigmentHeavy metalsMetalEnvironmental chemistryBiologyAmino acidBiochemistryOrganic chemistryPlant Stress Responses and ToleranceLeaf Properties and Growth MeasurementPlant responses to elevated CO2