Litcius/Paper detail

Differential Growth and Metal Accumulation Response of<i>Brachiaria Mutica</i>and<i>Leptochloa Fusca</i>on Cadmium and Lead Contaminated Soil

Sana Ullah, Rehmat Ali, Sajid Mahmood, Muhammad Atif Riaz, Kalsoom Akhtar

2020Soil and Sediment Contamination An International Journal26 citationsDOI

Abstract

This work aims to assess growth, physiology, and metal uptake response of Brachiaria mutica and Leptochloa fusca under different contamination levels of Cd (10 and 50 mg kg−1) and Pb (50 and 250 mg kg−1) stress. Results of pot trial showed increasing metal concentration affected B. mutica more as compared to L. fusca. In B. mutica metal stress substantially reduced shoot dry biomass, root dry biomass, total chlorophylls, and carotenoids contents by 89%, 85%, 65%, and 61%, respectively, while enhanced the SOD activity up to 62 U min−1 g−1 FW. L. fusca showed better growth, chlorophylls and carotenoid contents, SOD activity (up to 79 U min−1 g−1 FW), shoot metal uptake potential (Cd 110 µg pot−1, Pb 91.57 µg pot−1), and root metal concentration (Cd 126 mg kg−1 dm, Pb 117 mg kg−1 dm) compared to B. mutica under Pb and Cd stress. While both grass species showed metal translocation factor less than unity under all levels of metal stress. Keeping in view the above results, it is concluded that L. fusca having better growth and physiology with TF < 1 could be used for phytostabilization of Pb and Cd to reclaim the soil having moderate to lower levels of contamination.

Topics & Concepts

BrachiariaCadmiumShootCarotenoidPhytoremediationChemistryMetalDry weightAnimal scienceHorticultureBotanySoil contaminationAgronomyContaminationBiologyFood scienceEnvironmental chemistryHeavy metalsForageEcologyOrganic chemistryHeavy metals in environmentPlant Stress Responses and TolerancePlant Micronutrient Interactions and Effects