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W3174669801 startingPage "9864" @default.
W3174669801 abstract "Effective bioremediation of hydrocarbons requires innovative approaches to minimize phosphate precipitation in soils of different buffering capacities. Understanding the mechanisms underlying sustained stimulation of bacterial activity remains a key challenge for optimizing bioremediation—particularly in northern regions. Positron emission tomography (PET) can trace microbial activity within the naturally occurring soil structure of intact soils. Here, we use PET to test two hypotheses: (1) optimizing phosphate bioavailability in soil will outperform a generic biostimulatory solution in promoting hydrocarbon remediation and (2) oligotrophic biostimulation will be more effective than eutrophic approaches. In so doing, we highlight the key bacterial taxa that underlie aerobic and anaerobic hydrocarbon degradation in subarctic soils. In particular, we showed that (i) optimized phosphate bioavailability outperformed generic biostimulatory solutions in promoting hydrocarbon degradation, (ii) oligotrophic biostimulation is more effective than eutrophic approaches, and (iii) optimized biostimulatory solutions stimulated specific soil regions and bacterial consortia. The knowledge gleaned from this study will be crucial in developing field-scale biodegradation treatments for sustained stimulation of bacterial activity in northern regions." @default.
W3174669801 created "2021-07-05" @default.
W3174669801 creator A5010200512 @default.
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W3174669801 creator A5057156357 @default.
W3174669801 creator A5069938210 @default.
W3174669801 date "2021-06-25" @default.
W3174669801 modified "2023-10-18" @default.
W3174669801 title "Soil Buffering Capacity Can Be Used To Optimize Biostimulation of Psychrotrophic Hydrocarbon Remediation" @default.
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W3174669801 doi "https://doi.org/10.1021/acs.est.1c01113" @default.
W3174669801 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/34170682" @default.
W3174669801 hasPublicationYear "2021" @default.