Worm humus as a confining treatment for cadmium-contaminated soils in the Loreto Region, Peru

Research on cadmium contamination in agricultural soils has gained significant relevance by demonstrating that organic amendments are effective in immobilizing cadmium. In this study, the species brizanta (Brachiaria brizantha), a grass used in livestock activities, was selected and studied as a phy...

ver descrição completa

Detalhes bibliográficos
Autores: Ríos Paima, Kiara Melissa, Gonzales López, Andrés Erick
Formato: artículo
Estado:Versión publicada
Fecha de publicación:2025
País:Perú
Recursos:Universidad Nacional Intercultural Fabiola Salazar Leguía de Bagua
Repositorio:Revistas - Universidad Nacional Intercultural Fabiola Salazar Leguía de Bagua
Idioma:español
OAI Identifier:oai:revista.unibagua.edu.pe:article/343
Acesso em linha:https://revista.unibagua.edu.pe/index.php/dekamuagropec/article/view/343
Access Level:acceso abierto
Palavra-chave:Metales pesados
contaminación por cadmio
inmovilización de metales
Brachiaria brizantha
Heavy metals
cadmium contamination
metal immobilization
Descrição
Resumo:Research on cadmium contamination in agricultural soils has gained significant relevance by demonstrating that organic amendments are effective in immobilizing cadmium. In this study, the species brizanta (Brachiaria brizantha), a grass used in livestock activities, was selected and studied as a phytoremediation plant. The objective was to evaluate the effectiveness of earthworm humus in the remediation of cadmium contaminated soils, using Brachiaria brizantha as a biological indicator in the city of Yurimaguas. For the method, a randomized experiment was designed with four treatments: a control without humus (T0) and three doses of worm humus (T1: 5000g/m², T2: 10000g/m², T3: 15000g/m²) in soils with 1.5 ppm of cadmium. Plant growth and cadmium concentrations were monitored for four months. The results showed that T3 retained more cadmium in the soil (0.4467 mg/kg), while T2 and T0 presented greater accumulation in the plants (1.3367 mg/kg and 1.0367 mg/kg, respectively). A significant negative correlation was observed between cadmium in soil and plant (r=-0.714, p=0.009), and although there were no significant differences in growth, the relationship between cadmium in plant and dry weight (r=-0.620, p=0.031) suggests phytotoxic effects. It is concluded that vermicompost can modify the bioavailability of cadmium, offering a viable alternative for the remediation of soils contaminated with heavy metals. Likewise, the correlation of cadmium in the plant and dry weight does not significantly influence, indicating that as dry weight increases, the cadmium concentration of the plant decreases.