Abstract
Lead (Pb) is highly toxic heavy metal that is detrimental to the food system. There are large mining and metallurgical companies in the central highlands of Peru that have been active for almost a century and contribute to air, water, and soil pollution, affecting food quality and causing damage to the environment and human health. Our study, conducted in 2018, assessed the content and transfer of lead in the soil-root-plant system in the high Andean grasslands in a geographical area near the metallurgical complex of La Oroya. Lead levels were measured in 120 samples of top soil (0–20 cm), roots, and grass shoots by flame atomic absorption spectroscopy. No significant differences were found between the soil pH, organic matter content, and lead among the samples evaluated (P > 0.05). Mean Pb concentrations decreased in the order of soil > root > shoot (P < 0.01) (212.36 ± 38.40, 154.65 ± 52.85 and 19.71 ± 2.81 mg/kg, respectively). The soil-to-root Pb bioconcentration factor, root-to-shoot translocation factor, and soil-to-shoot bioaccumulation factor values were 0.74 ± 0.26, 0.14 ± 0.06 and 0.10 ± 0.03, respectively. Lead in the soil was 3.03 times higher than the maximum limit for agricultural soil, and was 1.97 times higher than the value limit for fodder. Our findings are important and show that soils and pasture in this geographical area have high Pb levels due to metallurgical emissions that have been occurring since 1922. Such pollution negatively impacts health and the socio-economic status of the exposed populations.
Highlights
Lead (Pb) is highly toxic to living organisms; it is naturally present in the earth’s crust in harmless concentrations, usually between 15–40 mg/kg (Fahr et al, 2013; Amari, Ghnaya & Abdelly, 2017).How to cite this article Castro-Bedriñana J, Chirinos-Peinado D, Garcia-Olarte E, Quispe-Ramos R. 2021
This area was chosen because it is representative of the communities near La Oroya, and because of their agro-ecological conditions they are dedicated to raising cattle, sheep, and alpacas, having approximately 11 ha of natural pastures composed mainly of Festuca dolichophylla, Bromus catharticus, Bromus lanatus, Nasella meyeniana, Calamagrostis heterophylla, Piptochaetium faetertonei, Nasella publiflora, Asiachnae pulvinata, Margaricarpus pinnatus, Oenothera multicaulis, Trifolium amabile and 6 ha of association Lolium perenne and Trifolium repens installed 15 years ago, characterized by a poor condition
The soil in the study area is classified as aqueous inceptisol
Summary
Lead (Pb) is highly toxic to living organisms; it is naturally present in the earth’s crust in harmless concentrations, usually between 15–40 mg/kg (Fahr et al, 2013; Amari, Ghnaya & Abdelly, 2017).How to cite this article Castro-Bedriñana J, Chirinos-Peinado D, Garcia-Olarte E, Quispe-Ramos R. 2021. Lead transfer in the soil-rootplant system in a highly contaminated Andean area. According to the European REACH regulation and the Agency for Toxic Substances and Disease Registry, Pb is the second most harmful contaminant to humans after arsenic (ATSDR, 2007; Pourrut et al, 2011). Pb is widely used in industry (Wuana & Okieimen, 2011) and its metallurgical process emits fine particulate material that travels many kilometers through the air (Martin et al, 2017) depositing in water, soil and when it exceeds certain limits it geoaccumulates, bioaccumulates and biomagnifies (Lokeshwari & Chandrappa, 2006), and can reach toxic levels with serious consequences for ecosystems (Alloway, 2013; Kong, 2014)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
