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The effects of adsorptive materials on microbial community composition and PAH degradation at the sediment capewater interface
引用本文:Giovanna Pagnozzi,Danny D.Reible,Kayleigh Millerick. The effects of adsorptive materials on microbial community composition and PAH degradation at the sediment capewater interface[J]. 国际泥沙研究, 2021, 36(4): 555-565. DOI: 10.1016/j.ijsrc.2020.10.006
作者姓名:Giovanna Pagnozzi  Danny D.Reible  Kayleigh Millerick
作者单位:Civil;Geosyntec Consultants
基金项目:financially supported by the Department of Civil,Construction&Environmental Engineering at Texas Tech University(Lubbock,Texas)。
摘    要:Capping with layers of inert or adsorptive materials is used to control the release of polycyclic aromatic hydrocarbons(PAH)in sediment but little is known about microbial degradation processes in these materials.A rich native microbial community inhabits the sediment bed,and capping media can influence enrichment and biodegradation activity of benthic microorganisms.The aim of this study was to evaluate the effects of capping media(sand,organoclay,and powdered activated carbon[PAC])on microbial communities under oxic conditions typical of the capewater interface,where naphthalene degradation(model PAH)is likely to be maximized.Bench scale experiments compared naphthalene concentrations,nahAc biomarker abundance,microbial community composition,and cellular attachment in systems amended with adsorptive and non-adsorptive capping materials.Results indicate that activated carbon promoted and enhanced bioactivity;PAC treatments showed high biodegradation rates,nahAc biomarker levels,and attached biological growth consistent with enrichment of the PAHdegrading genus Pseudomonae.In contrast,sand did not enhance biological activity compared to media-free systems.Naphthalene strongly influenced microbial community composition at the species level in all treatments except organoclay,which promoted biological signatures commonly associated with impeding degradation activity.Data overall suggest that adsorptive capping materials can both promote(PAC)and inhibit(organoclay)bioactivity in the surficial layer of caps,indicating that media selection is critical to the design of bioactive capping systems.

关 键 词:SEDIMENTS  Capping  Aerobic  biodegradation  PAH  PAC
收稿时间:2020-07-17

The effects of adsorptive materials on microbial community composition and PAH degradation at the sediment cap–water interface
Giovanna Pagnozzi,Danny D. Reible,Kayleigh Millerick. The effects of adsorptive materials on microbial community composition and PAH degradation at the sediment cap–water interface[J]. International Journal of Sediment Research, 2021, 36(4): 555-565. DOI: 10.1016/j.ijsrc.2020.10.006
Authors:Giovanna Pagnozzi  Danny D. Reible  Kayleigh Millerick
Affiliation:1. Civil, Environmental, and Construction Engineering, Texas Tech University, Lubbock, TX, 79409, USA;2. Geosyntec Consultants, Seattle, WA, 98101, USA
Abstract:Capping with layers of inert or adsorptive materials is used to control the release of polycyclic aromatic hydrocarbons (PAH) in sediment but little is known about microbial degradation processes in these materials. A rich native microbial community inhabits the sediment bed, and capping media can influence enrichment and biodegradation activity of benthic microorganisms. The aim of this study was to evaluate the effects of capping media (sand, organoclay, and powdered activated carbon [PAC]) on microbial communities under oxic conditions typical of the cap–water interface, where naphthalene degradation (model PAH) is likely to be maximized. Bench scale experiments compared naphthalene concentrations, nahAc biomarker abundance, microbial community composition, and cellular attachment in systems amended with adsorptive and non-adsorptive capping materials. Results indicate that activated carbon promoted and enhanced bioactivity; PAC treatments showed high biodegradation rates, nahAc biomarker levels, and attached biological growth consistent with enrichment of the PAH-degrading genus Pseudomonae. In contrast, sand did not enhance biological activity compared to media-free systems. Naphthalene strongly influenced microbial community composition at the species level in all treatments except organoclay, which promoted biological signatures commonly associated with impeding degradation activity. Data overall suggest that adsorptive capping materials can both promote (PAC) and inhibit (organoclay) bioactivity in the surficial layer of caps, indicating that media selection is critical to the design of bioactive capping systems.
Keywords:Sediments  Capping  Aerobic biodegradation  PAH  PAC
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