Nitha B. and Geena George
Abstract
Xenobiotics due their persistence and potential toxicity in ecosystems pose a serious threat to the environment. It is crucial to identify efficient and long-lasting ways to remove these substances from the environment as anthropogenic activities keep bringing them in. Microbial biodegradation has surfaced as a viable environmentally benign approach to xenobiotic detoxification and degradation, utilizing inherent metabolic capacities of microorganisms to reduce pollution. Microorganisms with a variety of enzymatic pathways, especially bacteria, fungi, and archaea, can break down or convert xenobiotics into less hazardous chemicals. Because of their diverse metabolic repertoire, microbes can break down a broad spectrum of xenobiotics, such as heavy metals, hydrocarbons and chlorinated chemicals, via oxidation, reduction, hydrolysis and conjugation reactions. The intricacy and recalcitrance of some xenobiotics, environmental constraints that restrict microbial activity, and the possible ecological effects of introducing genetically modified microbes into natural ecosystems are some of the obstacles that microbial biodegradation must overcome despite its potential. Furthermore, the concentration of xenobiotics and chemical makeup, the existence of contaminants and the physicochemical characteristics of the surrounding environment all have an impact on how well the xenobiotic degrades through microbial action. In short, microbial biodegradation of xenobiotics offers a sustainable and eco-friendly approach to environmental cleanup, harnessing the power of microorganisms to detoxify and remove harmful pollutants from the contaminated sites. Thus this paper is an attempt to review and evaluate the potential of microbial biodegradation of xenobiotics as an alternative strategy to combat the ever increasing pollution maladies.