Dear Colleagues,

Considering the global increment of soil and water pollution, efforts have been focused on the development of different techniques for soil and water restoration, bioremediation being preferred to other physicalchemical processes because it is more cost-effective and eco-friendlier.   

Bioremediation strategies allow treating contaminated media using microorganisms, plants or microbial or plant enzymes to degrade, remove or immobilize contaminants. These technologies can be applied to soil and water systems, in situ or ex situ, to either reduce the numbers of contaminants to levels with no toxicological effect or even completely remove them. In the last 20 years, bioremediation has gained increasing scientific attention, and significant advances have been made. However, there are still some limitations, especially, in the use of bioremediation in field scale due to the fact that suitable environmental conditions for these biological processes are often lacking at specific contaminated sites, resulting in lower-than-expected bioremediation efficiencies. Selection of adapted microorganisms or plants, natural metabolic inhibition, non-availability of suitable nutrient levels, and environmental conditions are some of the issues that need further research in order to improve the performance of bioremediation strategies. Additionally, research in this area should aim at developing new bioremediation strategies that allow the effective removal of emerging organic contaminants and complex mixtures. Special attention should be given to the formation of intermediate products, even more toxic than their parent compounds.

This Special Issue of Applied Sciences is a forum for a discussion around the advances and new technology development in bioremediation. Papers dealing with the aforementioned limitations and challenges are invited. Also relevant are studies about bioavailability as a validation tool of bioremediation effectiveness. Research articles covering the field application of new and sustainable bioremediaton strategies will be primarily considered. Likewise, critical review articles which describe the current state of the art will be welcome, mainly those dealing with economic, regulatory, and social perception issues.

Dr. Laura Delgado-Moreno
Guest Editor

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• biostimulation
• bioaugmention
• phytoremediation
• mycoremediation
• bioavailability
• organic and inorganic contaminantants