The Effects of Biochar on the Revival and Performance of an Organohalide-Respiring Mixed Culture

Weilun Zhao; Hongyu Dang; Han Cao; Sumbul Hafeez; Wenqing Xu; Timothy E Mattes

doi:10.1021/acs.est.5c13638

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The Effects of Biochar on the Revival and Performance of an Organohalide-Respiring Mixed Culture

Journal article

Open access

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The Effects of Biochar on the Revival and Performance of an Organohalide-Respiring Mixed Culture

Weilun Zhao, Hongyu Dang, Han Cao, Sumbul Hafeez, Wenqing Xu and Timothy E Mattes

Environmental science & technology

04/03/2026

DOI: 10.1021/acs.est.5c13638

PMCID: PMC13085523

PMID: 41930942

Appears in UI Libraries Support Open Access

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Abstract

Anaerobic reductive dechlorination of chlorinated ethenes (CEs) in groundwater, driven by bioaugmentation of organohalide-respiring bacteria (OHRB), can stall when OHRB abundance and activity are low, leading to incomplete dechlorination and daughter-product accumulation. Pyrogenic carbonaceous matter (PCM), increasingly applied as CE sorbents in groundwater, may enhance OHRB performance. We evaluated how poplar biochars pyrolyzed from 350 to 900 °C influence ethene formation and methanogenesis in an anaerobic tetrachloroethene (PCE)─dechlorinating consortium with initially low OHRB activity. The stressed consortium accumulated -dichloroethene and produced no ethene in controls without biochar (no materials and sand), but completely dechlorinated PCE to ethene in all biochar treatments. Compared to controls, OHRB in biochar treatments more strongly expressed genes for biofilm formation, resuscitation, cobalamin transport and salvage, and pilus formation, indicating their involvement in OHRB revival in the presence of biochar. Ethene production rates were higher with less apolar biochars produced at 350-500 °C (5.1-5.6 μmol/bottle/day) than with more apolar biochars produced at 700-900 °C (3.2-3.7 μmol/bottle/day). A positive correlation between ethene formation rate and biochar pore size suggests that CE pore-filling and desorption hysteresis affect ethene production. These results identify material properties that can be tuned to enhance targeted biological activity and inform PCM-based CE bioremediation strategies.

Bioremediation

Dehalococcoides

biochar

methanogens

reductive dehalogenase

SDC-9

UIOWA OA Agreement

Details

Title: Subtitle: The Effects of Biochar on the Revival and Performance of an Organohalide-Respiring Mixed Culture
Creators: Weilun Zhao - University of Iowa
Hongyu Dang - University of Iowa
Han Cao - Villanova University
Sumbul Hafeez - Villanova University
Wenqing Xu - Villanova University
Timothy E Mattes - University of Iowa
Resource Type: Journal article
Publication Details: Environmental science & technology
DOI: 10.1021/acs.est.5c13638
PMID: 41930942
PMCID: PMC13085523
NLM abbreviation: Environ Sci Technol
ISSN: 1520-5851
eISSN: 1520-5851
Publisher: American Chemical Society
Grant note: National Institute of Environmental Health Sciences: R01ES032671
We acknowledge funding from the National Institute of Environmental Health Sciences (Grant No. R01ES032671). The University of Iowa Institute of Human Genetics (IIHG) Genomics Division assisted with qPCR and sequencing efforts. We thank Paul Hatzinger and Simon Vainberg of APTIM for providing SDC-9 cultures for our study.
Language: English
Electronic publication date: 04/03/2026
Academic Unit: Civil and Environmental Engineering; IIHR--Hydroscience and Engineering
Record Identifier: 9985149575502771

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