Adriana Turmero scite author profile

A set of chemical, physical and microbial characteristics of different burnt soils from Sierra de Aznalcóllar (Sevilla, Spain) affected by one or two sequential fires, were analysed and compared with those of their respective control soils. A decrease in total organic carbon was observed in burnt soils, which could be attributed to the impact of the fires on vegetation cover. Biomass (estimated as viable and culturable microorganisms), substrate-induced respiration (SIR) and activity of different soil enzymes involved in carbon, nitrogen and phosphorus cycles were determined to assess

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Physico-chemical and microbial perturbations of Andalusian pine forest soils following a wildfire

Rodríguez

González‐Pérez

Turmero

et al. 2018

Science of The Total Environment

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Wildfires are a recurrent disturbance in Mediterranean forests, triggered by high fuel load, high environmental temperature and low humidity. Although, human intervention is behind the initiation of most fire episodes, the situation is likely to worsen in the future due to the effects of climate change in the Mediterranean "hot-spot". Here we study chemical, physical and microbial characteristics of burnt soils from two well differentiated sites at Sierra de Cazorla, Segura and Las Villas Natural Park, Andalusia, (Spain) affected and unaffected by a wildfire, and followed their evolution for three years. The soils affected by a severe surface burn showed a significant increase in organic matter after 3years from the fire. Viable bacteria and fungi also increased, especially 2-3years post-burning. Substrate induced respiration (SIR) also increased significantly in burnt soil from site 1 (rendzina on carbonate) while a significant decrease was observed in the burnt soils sampled from site 2 (calcic luvisols) in samples taken one month after the wildfire. A recovery in both SIR and organic matter was observed after 2 and 3years. Of seven soil enzymes studied, only phosphatase activity was significantly higher in most burnt soils over the three years. Analysis of bacterial community diversity using clone libraries showed a recovery in the number of phyla in burnt soils after 2 and 3years in both sites, with an increase in Proteobacteria and Firmicutes and a decrease in Acidobacteria phyla. For Bacteroidetes, the percentages were lower in most burnt samples. This study reveals that if wildfire increases the organic matter availability, then the microbial community responds with increased activity and biomass production. Although fire exerts an initial impact on the soil bacterial community, its structure and functional profile soon recovers (after 2-3years) contributing to soil recovery.

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Influence of xenobiotic contaminants on landfill soil microbial activity and diversity

Pérez-Leblic

Turmero

Hernández

et al. 2012

Journal of Environmental Management

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Adriana Turmero

Wildfire effects on the microbial activity and diversity in a Mediterranean forest soil

Physico-chemical and microbial perturbations of Andalusian pine forest soils following a wildfire

Influence of xenobiotic contaminants on landfill soil microbial activity and diversity

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