![Sample our Environment & Agriculture journals, sign in here to start your access, latest two full volumes FREE to you for 14 days]({"type":"image" , "src" : "/sda/5934/TOC-Subject-Sample-2021-Environment-Agriculture.jpg"})
Abstract
The radioactive contamination has been reported frequently from agricultural lands and ground water. The main reason behind the radioactive pollution is unprotected mining of radioactive elements, unsafe discard of nuclear industrial waste, military applications, dumping of medically used radioisotopes, globally situated (>400) nuclear power plants and use of phosphate fertilizers in farming. Radionuclides are well known potent carcinogens that may cause the various types of cancers to human and animals due to the long exposure to radioactive contaminated sites. To get rid of from the radioactive pollution there is a need of practically successful and cost effective bioremediation technologies that should able to decontaminate the effected lands and water to benefit the mankind. Microbial and phytoremediation are well studied methods for decreasing or gradually eliminating the radioactive contaminants. In this review, we discussed the different strategies of microbial and phytoremediation of radionuclides and recent advancements, that can play the major role in bioremediation of soil and water.
Novelty statement
Different remediation technologies based on physical (precipitation, extraction and membrane separation technologies) and chemical (chemical extraction and leaching, hydrolysis, etc.) methods to remediate the radioactive compounds from soils and water are being developed and evaluated. Most of these technologies are cost intensive and only applicable to little contaminated sites. On the other hand phytoremediation and microbial bioremediation are scientifically proven for applying at large scale and economical. Phytoremediation is one of the bioengineering treatments in which terrestrial and aquatic plants have been successfully used for cleaning the radioactive pollutants from diverse environments. Present review article is a updating the recent developments came in the different bioremediation methods. Moreover aim of this manuscript is also emerging the research gaps and identified the future research frontiers to unlock the complexity of phyto and microbial remediation advancements. Although several plants and numerous bacteria and fungi have been identified as the potential radioactive accumulator but their complete mechanism of bioremediation is still unknown. Present article will help the researchers to understand the process of bioremediation of radionuclides in more depths and will aware about the requirements of the coming future.
Phyto and microbial bioremediation of radioactive elements, possibilities and challenges.
Causes of radioactive contamination in soil and water.
Nanophytoremediation is an advanced technology of phytoremediation.
Drawbacks of phytoremediation.
Highlights
Disclosure statement
The author confirms that this article content has no conflict of interest.