Laila Midhat
Cadi Ayyad University
8 Papers
Laila Midhat is an academic researcher from Cadi Ayyad University. The author has contributed to research in topics: Tailings & Phytoremediation. The author has an hindex of 5, co-authored 5 publications.
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Papers
Accumulation of heavy metals in metallophytes from three mining sites (Southern Centre Morocco) and evaluation of their phytoremediation potential.
TL;DR: Soils in the investigated sites proved to be deficient in major macronutrients and to contain toxic levels of Cu, Zn, Pb and Cd, and these tolerant and native plant species could be used as tools for an effective phytorestoration of metal-contaminated sites.
114
Assessment of heavy metals accumulation by spontaneous vegetation: Screening for new accumulator plant species grown in Kettara mine-Marrakech, Southern Morocco.
TL;DR: Using the most common criteria to classify the hyperaccumulator plants, these species can be classified as new accumulator plants of many heavy metals and be potentially used as remediation tools of metal-contaminated sites.
28
Phytostabilization of polymetallic contaminated soil using Medicago sativa L. in combination with powdered marble: Sustainable rehabilitation
TL;DR: Combining immobilization by powdered marble with phytostabilization by M. sativa L. could represent a viable method of rehabilitating acidic polymetallic mine tailings, and the stabilization of heavy metals.
19
Screening of new native metallophytes from copper abandoned mining site: Promising tool for phytoremediation
TL;DR: A field survey on abandoned mining site 'Bir Nehass‐Morocco' was conducted to identify new native metallophytes as a promising tool for phytoremediation as discussed by the authors .
6
Local Organo-Alkaline Waste for the Remediation of Mining Sites Polluted by Potentially Toxic Elements
Tenindja Louise Coulibaly,Laila Mandi,Abdessamad Hejjaj,Laila Midhat,Sofyan Sbahi,Abdelhay El Gharmali,Naaila Ouazzani +6 more
TL;DR: This study investigates the effectiveness of local organo-alkaline waste amendments (marble, snail shell, phosphate sludge, and sheep manure) in immobilizing potentially toxic elements (copper, zinc, lead) in mine tailings, demonstrating a synergistic reduction in metal concentrations and pH increase.