Microbial bioremediation of multimetal contaminated wastewater can mitigate its
environmental toxicity and human health risk. A multimetal tolerating fungus Aspergillus …

In the present study, Aspergillus fumigatus (Genbank accession no. KX365202), was used
for heavy metal removal in a hexa-metal system containing mixture of six heavy metals (Cu …

Heavy metals like chromium (Cr (VI)) and cadmium (Cd (II)) which are supposed to be
indigenous components of rocks, are no longer bound to their place of origin thus …

Hexavalent chromium reduction by microbes can mitigate the chromium toxicity to the
environment. In the present study Cr [VI] tolerant fungal isolate (CR500) was isolated from …

Myco-remediation of heavy metals using indigenous fungi of different petroleum refining
areas in Egypt was applied. Among the physicochemical parameters determined in these …

A total of twenty-five isolates of fungi from the wastewater and sludge samples of a steel
industry were screened for their resistance to Cu (II) and Ni (II). Three strains were finally …

The present work investigated the utilization of dead biomass of the highly multi-heavy
metals tolerant indigenous fungal strain NRCA8 isolated from the mycobiome of fertilizer …

Cadmium is one of the most toxic contaminant causing many problems to human health and
the environment. These days the world is moving toward ecofriendly and efficient techniques …

The present study is targeted towards development of a three member fungal consortium for
effective removal of metals [Cr 6+ and Cu 2+] and dyes [AB and PO] from mixed waste …

The biomass of filamentous fungi is an important cost-effective biomass for heavy metal
biosorption. However, use of free fungal cells can cause difficulties in the separation of …