This review presents a comprehensive summary of the latest research in the field of
bioremediation with filamentous fungi. The main focus is on the issue of recent progress in …

Recovering key metals from secondary sources is an indispensable strategy for preventing
metal shortages and reducing the risk of toxic releases into the environment. Metal mineral …

This article has reviewed the progress that has been made in bioleaching research of metals
using filamentous fungi. This review has focused on fungal bioleaching from various metal …

Owing to industrial evolution, a huge mass of toxic metals, including Co, Cu, Cr, Mn, Ni, Pb,
and Zn, and metalloids, such as As and Sb, has inevitably been released into the natural …

The accumulation of mine tailings on Earth is a serious environmental challenge. The
importance for the recovery of heavy metals, together with the economic benefits of precious …

This review paper explores the potential of bioleaching as a sustainable alternative for
recovering metals from solid matrices. With over 12 billion tons of solid waste annually …

E-waste, also known as waste from electrical and electronic equipment, is a solid waste that
accumulates quickly due to high demand driven by the market for replacing newer electrical …

In this study, bacterial leaching of zinc, copper and antimony from tetrahedrite concentrate
was investigated with mixed mesophilic and mixed moderately thermophilic …

The hostile environment of mine tailings contains unique microbial life capable of
bioleaching. The metagenomic analysis of such an environment provides an in-depth …

Microscopic fungi (micromycetes) play an important role in rock alteration, often leading to
the formation of insoluble biogenic oxalates on their surface. Oxalate crystallization under …