Development of sustainable hydromorphic Technosols within artificial wetlands in mining landscapes: the effects of wastewater and hydrothermal geological materials

Purpose The Buenavista del Cobre mine is in a semiarid environment in NW Mexico. A part of the mine tailings dam has been flooded with wastewater from Cananea, generating an artificial wetland. The main objectives of this work were to evaluate the effect of wastewater on the pedogenesis of wetland T...

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Bibliographic Details
Published in:Journal of soils and sediments 2024-08, Vol.24 (8), p.2948-2962
Main Authors: Díaz-Ortega, J., Rivera-Uria, Y., López-Mendoza, E., Sedov, S., Romero, F., Solleiro-Rebolledo, E., Martínez-Jardines, L. G.
Format: Article
Language:English
Subjects:
Acidic soils
Acidification
Aggregation
Artificial wetlands
Biological activity
Chemical composition
Chlorite
clay
Clay minerals
constructed wetlands
Contaminants
Earth and Environmental Science
Environment
Environmental Physics
Fertility
Heavy metals
Hydrothermal activity
irrigation
Laboratory methods
Mexico
Mine tailings
Mine wastes
Mineral assemblages
Nutrients
Organic materials
Oxidation
Porosity
Semi arid environments
Semiarid environments
semiarid zones
Sewage
smectite
Smectites
Soil
Soil acidification
Soil analysis
Soil formation
Soil pollution
Soil porosity
Soil profiles
Soil properties
Soil quality
Soil Science & Conservation
Soil structure
Soil Sustainability and Innovation
Soils
Sulfides
Sulphides
Sustainable development
Tailings
Technosols
Voids
Wastewater
Waterlogged ground
Waterlogging
Wetlands
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Summary:Purpose The Buenavista del Cobre mine is in a semiarid environment in NW Mexico. A part of the mine tailings dam has been flooded with wastewater from Cananea, generating an artificial wetland. The main objectives of this work were to evaluate the effect of wastewater on the pedogenesis of wetland Technosols developed on mine tailings and to compare them with the soil of non-irrigated tailings and with a natural soil profile. Materials and methods Three profiles were studied inside the dam as follows: a profile under waterlogging conditions, a profile under conditions of periodic sewage saturation, and a profile with no waterlogging conditions. Laboratory methods included the micromorphological analysis of the soil structure and pedo-features, fertility properties, identification of clay minerals, and analysis of bulk chemical composition. Results and discussion It was found that the biogenic structure and voids associated with organic materials were the main micromorphological features of the studied wetland Technosols. Primary sulfides remained unaltered in the Technosols irrigated with wastewater, whereas incipient sulfide oxidation was observed in the non-irrigated tailings. Chlorite and smectite were detected in the Technosols. Such mineral assemblage was found to be mostly generated by hydrothermal processes. Conclusion Irrigation of tailings with wastewater supported the biological aggregation and porosity formation within the soil matrix, supplied plant nutrients, and enhanced the ecological soil quality of the studied hydromorphic Technosols. Saturation with wastewater hampered the oxidation of primary sulfides in the hydromorphic Technosols, preventing soil acidification and the mobilization of heavy metal contaminants.
ISSN:1439-0108
1614-7480
DOI:10.1007/s11368-024-03763-4