Migration behavior and in-situ bioremediation of chlorinated hydrocarbon solvent in vadose zone: a review北大核心CSCD

It is of great significance for in-situ bioremediation to clarify the migration behavior and biodegradation laws of chlorinated hydrocarbon solvents (CHS) in the vadose zone. We systematically summarized the phase distribution of CHS, the interaction between different phases, and the migration characteristics and clarified the evolution rules of CHS under different phases in the polluted vadose zone. CHS exists in the vadose zone as the NAPL, dissolved phase, adsorbed phase, gas phase, and other phases, where there are three decay evolution stages: early, middle, and late stages. Phase change and diffusion matrix size are important indicators at different stages; at the same time, gas, solid, liquid and NAPL phase CHS have a variety of interactive relationships in the vadose zone. Subsequently, the characteristics of the three main biological metabolic pathways of CHS in the vadose zone–aerobic co-metabolism, direct oxidation and anaerobic reduction, and dechlorination–and their influencing factors were summarized. Generally speaking, the anaerobic dechlorination capacity decreases with a decrease in the number of chlorine atoms, whereas the aerobic degradation capacity increases with a decrease in the number of chlorine atoms. The current status of in-situ remediation of CHS in the vadose zone was summarized using biostimulation and bioaugmentation methods, indicating that adding nutrient substances and injecting anaerobic dechlorination strains of Dehalococcoides are effective means of remediation. Simultaneously, the factors influencing the biodegradation of CHS in the vadose zone were elaborated to acquire a systematic insight into the significance of redox characteristics (oxygen) on the degradation of CHS. Finally, research on the biodegradation of CHS in the vadose zone is prospected, and it is necessary to carry out research on the interactive relationship between different phases of CHS, the data monitoring of CHS, the structure of the functional bacterial community, and research and development of active strains to provide theoretical guidance for the in-situ remediation of CHS in the vadose zone. © 2022 Science Press. All rights reserved.