Litcius/Paper detail

A Solution to Chromium Toxicity? Unlocking the Multi-Faceted Role of Biochar

Muhammad Umair Hassan, Qitao Su

2026Plants7 citationsDOIOpen Access PDF

Abstract

Chromium (Cr) toxicity poses a significant challenge to agricultural productivity, human health, and food security. Biochar (BC) is a versatile amendment employed to alleviate Cr toxicity. Chromium stress impairs growth by inducing membrane damage and cellular oxidation, as well as inhibiting chlorophyll synthesis, photosynthetic efficiency, water uptake, and nutrient absorption. This review consolidates information on the mechanisms through which BC mitigates Cr stress. Biochar facilitates Cr immobilization by reduction, adsorption, precipitation, and complexation processes. It enhances growth by improving photosynthetic efficiency, water and nutrient uptake, osmolyte synthesis, and hormonal balance. Additionally, biochar promotes resilient bacterial communities that reduce Cr and enhance nutrient cycling. The effectiveness of BC is not universal and largely depends on its feedstock properties and pyrolysis temperature. This review provides insights into soil quality, plant function, and human health, which contribute to providing a comprehensive assessment of the capacity of BC to mitigate Cr toxicity. This review highlights that BC application can reduce Cr entry into the food chain, thus decreasing its health risk. This review also identifies knowledge gaps and outlines future research directions to increase the efficiency of BC in mitigating Cr toxicity. This review also offers insights into the development of eco-friendly measures to remediate Cr-polluted soils.

Topics & Concepts

BiocharNutrientChromiumAmendmentEnvironmental scienceEnvironmental chemistryPhotosynthesisChemistryAgriculturePhotobioreactorHuman healthPyrolysisBiomass (ecology)Slash-and-charBiofertilizerEssential nutrientNatural resource economicsRaw materialChlorophyllCarbon sequestrationEnvironmental protectionOsmolyteFood securityChromium effects and bioremediationPlant Stress Responses and ToleranceHeavy metals in environment