Amplicon Sequencing Reveals Microbiological Signatures in Spent Nuclear Fuel Storage Basins

Bagwell, Christopher E.; Noble, Peter A.; Milliken, Charles E.; Li, Dien; Kaplan, Daniel I.

doi:10.3389/fmicb.2018.00377

Title: Amplicon Sequencing Reveals Microbiological Signatures in Spent Nuclear Fuel Storage Basins

Journal Article · Fri Mar 09 00:00:00 EST 2018 · Frontiers in Microbiology

DOI:https://doi.org/10.3389/fmicb.2018.00377· OSTI ID:1439101

Bagwell, Christopher E. ^[1]; Noble, Peter A. ^[2]; Milliken, Charles E. ^[3]; Li, Dien ^[3]; Kaplan, Daniel I. ^[3]

Pacific Northwest National Lab. (PNNL), Richland, WA (United States)
Univ. of Washington, Seattle, WA (United States)
Savannah River National Lab., Aiken, SC (United States)

Water quality is an important determinant for the structural integrity of alloy cladded fuels and assemblies during long-term wet storage. Detailed characterization of a water filled storage basin for spent nuclear reactor fuel was performed following the formation and proliferation of an amorphous white flocculent. White precipitant was sampled throughout the storage basin for chemical and spectroscopic characterization, and environmental DNA was extracted for 454 pyrosequencing of bacterial 16S rRNA gene diversity. Accordingly, spectroscopic analyses indicated the precipitant to be primarily amorphous to crystalline aluminum (oxy) hydroxides with minor associated elemental components including Fe, Si, Ti, and U. High levels of organic carbon were co-localized with the precipitant relative to bulk dissolved organic concentrations. Bacterial densities were highly variable between sampling locations and with depth within the water filled storage basin; cell numbers ranged from 4 × 10³to 4 × 104 cells/mL. Bacterial diversity that was physically associated with the aluminum (oxy) hydroxide complexes exceeded an estimated 4,000 OTUs/amplicon library (3% cutoff) and the majority of sequences were aligned to the families Burkholderiaceae (23%), Nitrospiraceae (23%), Hyphomicrobiaceae (17%), and Comamonadaceae (6%). We surmise that episodic changes in the physical and chemical properties of the basin contribute to the polymerization of aluminum (oxy) hydroxides, which in turn can chemisorb nutrients, carbon ligands and bacterial cells from the surrounding bulk aqueous phase. As such, these precipitants should establish favorable microhabitats for bacterial colonization and growth. Comparative analyses of 16S rRNA gene amplicon libraries across a selection of natural and engineered aquatic ecosystems were performed and microbial community and taxonomic signatures unique to the spent nuclear fuel (SNF) storage basin environment were revealed. These insights could spur the development of tractable bio-indicators that are specific of and diagnostic for water quality at discrete locations and finer scales of resolution, marking an important contribution for improved water quality and management of SNF storage facilities.

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Research Organization:: Pacific Northwest National Laboratory (PNNL), Richland, WA (United States); Savannah River Site (SRS), Aiken, SC (United States)

Sponsoring Organization:: USDOE

Grant/Contract Number:: AC05-76RL01830; AC09-08SR22470

OSTI ID:: 1439101

Alternate ID(s):: OSTI ID: 1427456

Report Number(s):: PNNL-SA-130553; SRNL-STI-2017-00717; TRN: US1900556

Journal Information:: Frontiers in Microbiology, Vol. 9; ISSN 1664-302X

Publisher:: Frontiers Research FoundationCopyright Statement

Country of Publication:: United States

Language:: English

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Cited by: 6 works

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