image: Biochar-driven rhizoremediation of soil contaminated with organic pollutants: engineered solutions, microbiome enrichment, and bioeconomic benefits for ecosystem restoration
Credit: Nandita Das & Piyush Pandey
Soil pollution from pesticides, pharmaceuticals, and industrial chemicals is a growing threat to global food security and public health. With nearly 80 percent of agricultural soils containing traces of organic contaminants, researchers are looking for sustainable ways to restore damaged land. A new study in Biochar highlights an emerging solution that pairs plant-microbe partnerships with biochar, an engineered carbon-rich material, to detoxify polluted soils while supporting plant growth and economic resilience.
The review, led by Nandita Das and Piyush Pandey, explores how combining biochar with rhizoremediation, a nature-based process that uses plant roots and beneficial microbes to break down pollutants, can greatly enhance soil restoration. Biochar acts as both a catalyst and a habitat for microbes, improving soil structure, nutrient availability, and the bioavailability of pollutants for microbial degradation. This synergy accelerates the breakdown of contaminants such as crude oil, pesticides, polycyclic aromatic hydrocarbons (PAHs), antibiotics, and plastic residues.
“Biochar doesn’t just trap pollutants—it creates a thriving environment where plants and microbes can work together to clean the soil naturally,” said Pandey. “This approach supports ecosystem restoration while aligning with circular bioeconomy goals.”
The study highlights how biochar’s porous structure and surface chemistry can be fine-tuned through “bioengineering” to optimize contaminant removal. Meta-omics tools—such as metagenomics and metabolomics—help researchers identify the most active microbial communities in the biochar-enhanced rhizosphere. These insights pave the way for designing precision remediation strategies suited to different pollutants and soil types.
Beyond its environmental benefits, the biochar market itself is expanding rapidly, valued at 2.05 billion USD in 2023 and projected to nearly double by 2032. Its increasing use in agriculture and waste management demonstrates how sustainable technologies can also generate economic opportunities.
The authors emphasize that integrating biochar into rhizoremediation offers a scalable, low-cost, and eco-friendly route for restoring contaminated soils. By turning agricultural residues and organic waste into high-value remediation materials, the approach contributes to carbon sequestration, climate mitigation, and biodiversity protection.
“This is not just soil cleanup—it’s ecosystem healing,” said Das. “Biochar-assisted rhizoremediation brings us closer to a future where pollution control and sustainable agriculture go hand in hand.”
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Journal Reference: Das, N., Pandey, P. Biochar-driven rhizoremediation of soil contaminated with organic pollutants: engineered solutions, microbiome enrichment, and bioeconomic benefits for ecosystem restoration. Biochar 7, 101 (2025). https://doi.org/10.1007/s42773-025-00491-x
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About Biochar
Biochar is the first journal dedicated exclusively to biochar research, spanning agronomy, environmental science, and materials science. It publishes original studies on biochar production, processing, and applications—such as bioenergy, environmental remediation, soil enhancement, climate mitigation, water treatment, and sustainability analysis. The journal serves as an innovative and professional platform for global researchers to share advances in this rapidly expanding field.
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Journal
Biochar
Method of Research
Literature review
Subject of Research
Not applicable
Article Title
Biochar-driven rhizoremediation of soil contaminated with organic pollutants: engineered solutions, microbiome enrichment, and bioeconomic benefits for ecosystem restoration
Article Publication Date
28-Aug-2025