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Biogeochemical coupling of C/Fe in oil-polluted wetlands associated with iron reduction

Xiaolin Zhang, Wendan Xue, Guoliang Wang, Jie‐Liang Liang, Qi Wang, Yu‐Hao Li, Wensheng Shu, Qixing Zhou

2025Communications Earth & Environment27 citationsDOIOpen Access PDF

Abstract

Oil contamination in coastal wetlands jeopardizes these ecosystems and worsens climate warming. Here we analyze 87 metagenomic samples from representative Chinese wetland oilfields and find that genes associated with dissimilatory iron reduction respond to hydrocarbon levels. These genes were closely linked to the breakdown of organic matter into carbon dioxide and methane, highlighting the potential of dissimilatory iron reduction for degrading stubborn hydrocarbons and altering electron transfer pathways. Notably, Geobacter, a key genus for dissimilatory iron reduction, showed strong correlation with iron(II) production and hydrocarbon degradation. To validate these findings, a targeted enhancement of dissimilatory iron reduction with external iron oxide and Geobacter maximized carbon removal, transforming organic-bound fraction of iron into carbonate-bound fraction. The intensified iron reduction process reduced methane emissions by 38–40% and strengthened microbial interactions by redirecting electron transfer in carbon flow. Our study innovatively mitigates pollution and reduces methane emissions in oil-contaminated wetlands. Microorganisms play an important role in the degradation of petroleum-hydrocarbon in oil-polluted coastal wetlands through bio-geo-coupling of carbon and Fe(II), according to metagenomic analysis of 87 samples from Chinese wetland oilfields.

Topics & Concepts

Biogeochemical cycleEnvironmental chemistryEnvironmental scienceWetlandCoupling (piping)Reduction (mathematics)ChemistryEcologyMaterials scienceMetallurgyBiologyMathematicsGeometryEnvironmental remediation with nanomaterialsConstructed Wetlands for Wastewater TreatmentElectrokinetic Soil Remediation Techniques
Biogeochemical coupling of C/Fe in oil-polluted wetlands associated with iron reduction | Litcius