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Radioactive waste microbiology: predicting microbial survival and activity in changing extreme environments

Simon Gregory, Jessica R M Mackie, Megan J. Barnett

2024FEMS Microbiology Reviews12 citationsDOIOpen Access PDF

Abstract

The potential for microbial activity to occur within the engineered barrier system (EBS) of a geological disposal facility (GDF) for radioactive waste is acknowledged by waste management organizations as it could affect many aspects of the safety functions of a GDF. Microorganisms within an EBS will be exposed to changing temperature, pH, radiation, salinity, saturation, and availability of nutrient and energy sources, which can limit microbial survival and activity. Some of the limiting conditions are incorporated into GDF designs for safety reasons, including the high pH of cementitious repositories, the limited pore space of bentonite-based repositories, or the high salinity of GDFs in evaporitic geologies. Other environmental conditions such as elevated radiation, temperature, and desiccation, arise as a result of the presence of high heat generating waste (HHGW). Here, we present a comprehensive review of how environmental conditions in the EBS may limit microbial activity, covering HHGW and lower heat generating waste (LHGW) in a range of geological environments. We present data from the literature on the currently recognized limits to life for each of the environmental conditions described above, and nutrient availability to establish the potential for life in these environments. Using examples where each variable has been modelled for a particular GDF, we outline the times and locations when that variable can be expected to limit microbial activity. Finally, we show how this information for multiple variables can be used to improve our understanding of the potential for microbial activity to occur within the EBS of a GDF and, more broadly, to understand microbial life in changing environments exposed to multiple extreme conditions.

Topics & Concepts

Radioactive wasteLimitingEnvironmental scienceExtreme environmentNutrientBiochemical engineeringBiologyEcologyWaste managementBacteriaMechanical engineeringGeneticsEngineeringRadioactive element chemistry and processingRadioactive contamination and transferRadioactivity and Radon Measurements
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