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Recycling fly ash from coal or biomass combustion for nutrient recovery and enhanced food production in acidic agroecosystems: A multi-level meta-analysis

Jelena Horvatinec, Sanja Stipičević, Marija Sigurnjak Bureš, Martin Brtnický, Jiří Holátko, Jiří Kučerík, Jacek Buczny, Gabrijel Ondrašek

2025Renewable and Sustainable Energy Reviews12 citationsDOIOpen Access PDF

Abstract

Fly ash (FA) is a powdered, alkaline, and potentially hazardous co-product that remains largely underutilized and is predominantly disposed of in landfills, posing environmental risks. In this study, we conducted a meta-analysis of 1,482 studies sourced from leading scientific databases to quantify the impacts of FA application on soil nutrient levels and plant yield across various agro-ecological conditions. The results revealed a significant positive impact of FA on soil nutrient content, increasing Ca by 3.7-fold, P by 3-fold, K by 22 %, Mg by 11.2 %, and C by 0.82 %. However, FA application had a negative impact on soil N content, reducing it by 9.7 %, likely due to: i) elevated soil pH, which accelerates ammonia (NH 3 ) volatilization, stimulates nitrification followed by nitrate (NO 3 − ) leaching, and promotes denitrification under anaerobic conditions, leading to gaseous N losses; and ii) increased salinity and iii) potential heavy metal toxicity at higher FA application rates, both of which further suppress microbial activity and impair N mineralization. Despite this drawback, soil amelioration with FA significantly increased plant yield by 56 %. A multi-moderator approach revealed significant interactions between soil, FA type/dosage, experimental conditions, and plant species, underscoring the complexity of FA's impact. The mechanisms behind these effects are interrelated and include fast hydrolysis of the Ca-/Mg-/K-/P-mineral-rich FA matrix, ion exchange at the soil-FA interface, reduced leaching, improvement in soil structure and water-air relations, all of which contribute to improved nutrient availability, microbial activity, and soil fertility. Given its significant potential for reuse as a soil amendment, FA could contribute to food security by increasing crop production in widely cultivated acidic and nutrient-deficient agroecosystems, while also supporting a circular economy. However, further research is needed to explore the long-term sustainability and environmental safety of FA, including its broader ecological implications.

Topics & Concepts

AgroecosystemFly ashEnvironmental scienceBiomass (ecology)NutrientCombustionCoalWaste managementProduction (economics)AgronomyAgricultureChemistryEcologyBiologyEngineeringMacroeconomicsOrganic chemistryEconomicsCoal and Its By-productsWaste Management and Environmental Impact
Recycling fly ash from coal or biomass combustion for nutrient recovery and enhanced food production in acidic agroecosystems: A multi-level meta-analysis | Litcius