Comparative studies on the effects of biochar and cow dung amendments on the mobility, bioavailability and toxicity of heavy metals in lead-acid contaminated soil

Abstract: This study compared the heavy metals remediation potency of biochar and cow dung in soils contaminated by lead-acid batteries. Soil samples were gathered from three different battery charging shops in Benin City at the depth of 0-15cm using systematic grid sampling method. Hardwood was pyrolyzed at 350°C for 80minutes and cow dung was air dried and pound into powder. The soil was characterized using standard methods, and was fractionated using modified European Community Bureau of Reference (BCR) three-step se… Show more

“…But the application of acidified cow dung slurry alone and amended with molasses and SOB mitigated the adverse effects of HMs on the growth attributes of ryegrass. The findings of this study are somewhat similar to those observed by Jacob et al [53], who checked the effect of cow dung application in ameliorating the hazardous impacts of Pb, Cd, and Cr on the growth of maize plants grown in contaminated soil. Their results indicated that the cow dung application remediated the heavy metal-induced toxic effects on the maize plant and improved its growth.…”

Acidified Cow Dung-Assisted Phytoextraction of Heavy Metals by Ryegrass from Contaminated Soil as an Eco-Efficient Technique

“…But the application of acidified cow dung slurry alone and amended with molasses and SOB mitigated the adverse effects of HMs on the growth attributes of ryegrass. The findings of this study are somewhat similar to those observed by Jacob et al [53], who checked the effect of cow dung application in ameliorating the hazardous impacts of Pb, Cd, and Cr on the growth of maize plants grown in contaminated soil. Their results indicated that the cow dung application remediated the heavy metal-induced toxic effects on the maize plant and improved its growth.…”

Acidified Cow Dung-Assisted Phytoextraction of Heavy Metals by Ryegrass from Contaminated Soil as an Eco-Efficient Technique

“…Studies have shown that the use of biosolids and manures in agricultural practices can lead to the contamination of food crops with heavy metals, contributing to adverse health effects, such as cancer, among the Nigerian population (Wei et al, 2010;Onakpa et al, 2018). Additionally, the mobility and availability of heavy metals in contaminated wetland soil remediated with biochar-compost and the leaching of heavy metals in sandy soil after the application of composts produced from various organic materials have been investigated, highlighting the potential risks associated with heavy metal contamination from biosolids and manures in agricultural soils (Adesodun and Mbagwu, 2008;Odoemelam and Ajunwa, 2008;Christian et al, 2021;Jacob et al, 2022). Furthermore, the evaluation of pig manure for environmental or agricultural applications through gasification and soil leaching experiments has demonstrated the potential for reducing heavy metal concentrations in leachates, indicating the importance of proper manure management to mitigate heavy metal pollution in soils (Vamvuka and Raftogianni, 2021).…”

Addressing Heavy Metal Pollution in Nigeria: Evaluating Policies, Assessing Impacts, and Enhancing Remediation Strategies