Arsenic distribution in a pasture area impacted by past mining activities
Autor: | P. Alonso-Rojo, L.M. Muñoz-Centeno, P. Villar-Alonso, A. Murciego, P. Abad-Valle, E. Álvarez-Ayuso |
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Rok vydání: | 2016 |
Předmět: |
Food Safety
Livestock Health Toxicology and Mutagenesis 010501 environmental sciences Poaceae 01 natural sciences Pasture Mining Arsenic Soil Grazing Animals Soil Pollutants Ecosystem Herbivory 0105 earth and related environmental sciences geography geography.geographical_feature_category biology business.industry Public Health Environmental and Occupational Health Trace element Holcus 04 agricultural and veterinary sciences General Medicine biology.organism_classification Pollution Soil contamination Animal Feed Agronomy Soil water 040103 agronomy & agriculture 0401 agriculture forestry and fisheries Environmental science Cattle business |
Zdroj: | Ecotoxicology and environmental safety. 147 |
ISSN: | 1090-2414 |
Popis: | Former mine exploitations entail a serious threat to surrounding ecosystems as after closure of mining activities their unmanaged wastes can be a continuous source of toxic trace elements. Quite often these mine sites are found within agricultural farming areas, involving serious hazards as regards product (feed/food) quality. In this work a grazing land impacted by the abandoned mine exploitation of an arsenical deposit was studied so as to evaluate the fate of arsenic (As) and other trace elements and the potential risks involved. With this aim, profile soil samples (0–50 cm) and pasture plant species (Agrostis truncatula, Holcus annus and Leontodon longirostris) were collected at different distances (0–100 m) from the mine waste dump and analyzed for their trace element content and distribution. Likewise, plant trace element accumulation from impacted grazing soils and plant trace element translocation were assessed. The exposure of livestock grazing animals to As was also evaluated, establishing its acceptability regarding food safety and animal health. International soil guideline values for As in grazing land soils (50 mg kg−1) resulted greatly exceeded (up to about 20-fold) in the studied mining-affected soils. Moreover, As showed a high mobilization potential under circumstances such as phosphate application or establishment of reducing conditions. Arsenic exhibited relatively high translocation factor (TF) values (up to 0.32–0.89) in pasture plant species, reaching unsafe concentrations in their above-ground tissues (up to 32.9, 16.9 and 9.0 mg kg−1 in Agrostis truncatula, Leontodon longirostris and Holcus annus, respectively). Such concentrations represent an elevated risk of As transfer to the high trophic-chain levels as established by international legislation. The limited fraction of arsenite found in plant roots should play an important role in the relatively high As root-to-shoot translocation shown by these plant species. Both soil ingestion and pasture intake resulted important entrance pathways of As into livestock animals, showing quite close contribution levels. The cow acceptable daily intake (ADI) of As regarding food safety was surpassed in some locations of the study area when the species Agrostis truncatula was considered as the only pasture feed. Restrictions in the grazing use of lands with considerable As contents where this plant was the predominant pasture species should be established in order to preserve food quality. Therefore, the exposure of livestock animals to As via both soil ingestion and pasture consumption should be taken into account to establish the suitability of mining-impacted areas for gazing. |
Databáze: | OpenAIRE |
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