Your search keyword '"Tania Pardo"' showing total 3 results

1. Efficiency of soil organic and inorganic amendments on the remediation of a contaminated mine soil: II. Biological and ecotoxicological evaluation

Author

Tania Pardo, Rafael Clemente, Maria Pilar Bernal, and Paula Alvarenga

Subjects

Environmental Engineering, Chemical Phenomena, Soil test, Swine, Environmental remediation, Health, Toxicology and Mutagenesis, Acid Phosphatase, Soil remediation, Indexação Scopus, Ecotoxicology, complex mixtures, Mining, Soil, Animals, Soil Pollutants, Environmental Chemistry, Ecotoxicity, Oligochaeta, Fertilizers, Soil health, Topsoil, beta-Glucosidase, Soil organic matter, fungi, Public Health, Environmental and Occupational Health, Environmental engineering, food and beverages, Soil chemistry, Oxides, Compost, General Medicine, General Chemistry, Calcium Compounds, Pollution, Humus, Manure, Soil conditioner, Biodegradation, Environmental, Heavy metals, Indexação ISI, Environmental science, Biological Assay, Pig slurry

Abstract

The feasibility of two organic materials (pig slurry and compost) in combination with hydrated lime for the remediation of a highly acidic trace elements (TEs) contaminated mine soil was assessed in a mesocosm experiment. The effects of the amendments on soil biochemical and ecotoxicological properties were evaluated and related with the main physicochemical characteristics of soil and soil solution. The original soil showed impaired basic ecological functions due to the high availability of TEs, its acidic pH and high salinity. The three amendments slightly reduced the direct and indirect soil toxicity to plants, invertebrates and microorganisms as a consequence of the TEs’ mobility decrease in topsoil, reducing therefore the soil associated risks. The organic amendments, especially compost, thanks to the supply of essential nutrients, were able to improve soil health, as they stimulated plant growth and significantly increased enzyme activities related with the key nutrients in soil. Therefore, the use of compost or pig slurry, in combination with hydrated lime, decreased soil ecotoxicity and seems to be a suitable management strategy for the remediation of highly acidic TEs contaminated soils.

Published

2014

2. Effects of compost, pig slurry and lime on trace element solubility and toxicity in two soils differently affected by mining activities

Author

Rafael Clemente, Tania Pardo, and M. Pilar Bernal

Subjects

Environmental Engineering, Nitrogen, Swine, Health, Toxicology and Mutagenesis, Plant Development, engineering.material, complex mixtures, Mining, Arsenic, Soil, Metals, Heavy, Animals, Soil Pollutants, Environmental Chemistry, Organic matter, Environmental Restoration and Remediation, Soil Microbiology, chemistry.chemical_classification, Soil health, Sewage, Compost, Soil organic matter, fungi, Public Health, Environmental and Occupational Health, Environmental engineering, food and beverages, Oxides, General Medicine, General Chemistry, Calcium Compounds, Plants, Pollution, Humus, Trace Elements, Soil conditioner, Phytoremediation, Solubility, chemistry, Environmental chemistry, Soil water, engineering, Environmental science

Abstract

The use of organic wastes as amendments in heavy metal-polluted soils is an ecological integrated option for their recycling. The potential use of alperujo (solid olive-mill waste) compost and pig slurry in phytoremediation strategies has been studied, evaluating their short-term effects on soil health. An aerobic incubation experiment was carried out using an acid mine spoil based soil and a low OM soil from the mining area of La Union (Murcia, Spain). Arsenic and heavy metal solubility in amended and non-amended soils, and microbial parameters were evaluated and related to a phytotoxicity test. The organic amendments provoked an enlargement of the microbial community (compost increased biomass-C from non detected values to 35 μg g −1 in the mine spoil soil, and doubled control values in the low OM soil) and an intensification of its activity (including a twofold increase in nitrification), and significantly enhanced seed germination (increased cress germination by 25% in the mine spoil soil). Organic amendments increased Zn and Pb EDTA-extractable concentrations, and raised As solubility due to the influence of factors such as pH changes, phosphate concentration, and the nature of the organic matter of the amendments. Compost, thanks to the greater persistence of its organic matter in soil, could be recommended for its use in (phyto)stabilisation strategies. However, pig slurry boosted inorganic N content and did not significantly enhance As extractability in soil, so its use could be specifically recommended in As polluted soils.

Published

2011

3. Efficiency of soil organic and inorganic amendments on the remediation of a contaminated mine soil: I. Effects on trace elements and nutrients solubility and leaching risk

Author

Maria Pilar Bernal, Muhammad Ahsan Farooq, Rafael Clemente, and Tania Pardo

Subjects

Risk, Environmental Engineering, Environmental remediation, Swine, Health, Toxicology and Mutagenesis, complex mixtures, Mining, Soil, Lolium, Environmental Chemistry, Animals, Soil Pollutants, Leaching (agriculture), Fertilizers, Topsoil, Soil organic matter, Public Health, Environmental and Occupational Health, Environmental engineering, food and beverages, Soil chemistry, Water, Biological Transport, Oxides, General Medicine, General Chemistry, Calcium Compounds, Hydrogen-Ion Concentration, Pollution, Leaching model, Soil conditioner, Manure, Biodegradation, Environmental, Solubility, Environmental chemistry, Environmental science, Soil fertility, Porosity

Abstract

A mesocosm experiment, in columns, was conducted in a growth chamber to assess the viability of two organic materials (pig slurry and compost; in combination with hydrated lime) for the remediation of a highly acidic and trace elements (TEs) contaminated mine soil and the reduction of its associated leaching risks. Their influence on the evolution throughout the soil depth of the physicochemical properties (including TEs mobility) of the soil and soil solution (in situ periodic collection) and on Lolium perenne growth and foliar TEs accumulation was evaluated. Soluble and extractable concentrations of the different TEs were considerably high, although the organic amendments (with lime) and lime addition successfully decreased TEs mobility in the top soil layer, as a consequence of a rise in pH and changes in the redox conditions. Compost and pig slurry increased the soluble organic-C and dissolved N, K and P of the soil, producing a certain downwards displacement of N and K. The organic amendments allowed the growth of L. perenne in the soil, thus indicating improvement of soil conditions, but elevated TEs availability in the soil led to toxicity symptoms and abnormally high TEs concentrations in the plants. An evaluation of the functioning and ecotoxicological risks of the remediated soils is reported in part II: this allows verification of the viability of the amendments for remediation strategies.

Published

2013