Organic amendments exacerbate the effects of silver nanoparticles on microbial biomass and community composition of a semiarid soil

 

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Detalles Bibliográficos
Autores: Montes de Oca-Vásquez, Gabriela, Solano-Campos, Frank, Jose-Roberto, Vega-Baudrit, López-Mondéjar, Rubén, Alonso, Vera, Moreno, José L., Bastida, Felipe
Formato: artículo
Fecha de Publicación:2020
Descripción:Increased utilization of silver nanoparticles (AgNPs) can result in an accumulation of these particles in the environment. The potential detrimental effects of AgNPs in soil may be associated with the low fertility of soils in semiarid regions that are usually subjected to restoration through the application of organic amendments. Microbial communities are responsible for fundamental processes related to soil fertility, yet the potential impacts of low and realistic AgNPs concentrations on soil microorganisms are still unknown. We studied the effects of realistic citrate-stabilized AgNPs concentrations (0.015 and 1.5 μg kg−1 ) at two exposure times (7 and 30 days) on a sandy clay loam Mediterranean soil unamended (SU) and amended with compost (SA). We assessed soil microbial biomass (microbial fatty acids), soil enzyme activities (urease, β-glucosidase, and alkaline phosphatase), and composition of the microbial community (bacterial 16S rRNA gene and fungal ITS2 sequencing) in a microcosm experiment. In the SA, the two concentrations of AgNPs significantly decreased the bacterial biomass after 7 days of incubation. At 30 days of incubation, only a significant decrease in the Gram+ was observed at the highest AgNPs concentration. In contrast, in the SU, there was a significant increase in bacterial biomass after 30 days of incubation at the lowest AgNPs concentration. Overall, we found that fungal biomass was more resistant to AgNPs than bacterial biomass, in both SA and SU. Further, the AgNPs changed the composition of the soil bacterial community in SA, the relative abundance of some bacterial taxa in SA and SU, and fungal richness in SU at 30 days of incubation. However, AgNPs did not affect the activity of extracellular enzymes. This study demonstrates that the exposure time and organic amendments modulate the effects of realistic concentrations of AgNPs in the biomass and composition of the microbial community of a Mediterranean soil.
País:Repositorio UNA
Institución:Universidad Nacional de Costa Rica
Repositorio:Repositorio UNA
Lenguaje:Inglés
OAI Identifier:oai:https://repositorio.una.ac.cr:11056/21067
Acceso en línea:http://hdl.handle.net/11056/21067
Access Level:acceso abierto
Palabra clave:ENGINEERED NANOPARTICLES
EMERGENT CONTAMINANTS
SOIL MICROORGANISMS
ORGANIC MATTER
BIODIVERSITY
MICROBIAL BIOMASS
BIODIVERSIDAD
NANOPARTÍCULAS