Biotechnological Tool for Metal(loid)s as Cd, Cu, Ni, and P Management with Multiple Approaches: Bioremediation, Recovery of Raw Materials, and Food Safety
Adalgisa Scotti,
Ana Rosa Castaño Gañan,
Vanesa Analía Silvani,
Andrea Juarez,
Gabriela Coria,
Sofía Utge Perri,
Roxana Paola Colombo,
Inmaculada García-Romera,
María Luisa Izaguirre-Mayoral,
Alicia Godeas,
Stefano Ubaldini
Affiliations
Adalgisa Scotti
Bioenvironmental Laboratory, International Center for Earth Sciences, National Atomic Energy Commission, FRSR-University National Technological, San Rafael Mendoza 5600, Argentina
Ana Rosa Castaño Gañan
Bioenvironmental Laboratory, International Center for Earth Sciences, National Atomic Energy Commission, FRSR-University National Technological, San Rafael Mendoza 5600, Argentina
Vanesa Analía Silvani
Faculty of Exact and Natural Science, Department of Biodiversity and Experimental Biology, Institute of Biodiversity and Applied and Experimental Biology, National Scientific and Technical Research Council—University of Buenos Aires, Buenos Aires 1428, Argentina
Andrea Juarez
Bioenvironmental Laboratory, International Center for Earth Sciences, National Atomic Energy Commission, FRSR-University National Technological, San Rafael Mendoza 5600, Argentina
Gabriela Coria
Bioenvironmental Laboratory, International Center for Earth Sciences, National Atomic Energy Commission, FRSR-University National Technological, San Rafael Mendoza 5600, Argentina
Sofía Utge Perri
Faculty of Exact and Natural Science, Department of Biodiversity and Experimental Biology, Institute of Biodiversity and Applied and Experimental Biology, National Scientific and Technical Research Council—University of Buenos Aires, Buenos Aires 1428, Argentina
Roxana Paola Colombo
Faculty of Exact and Natural Science, Department of Biodiversity and Experimental Biology, Institute of Biodiversity and Applied and Experimental Biology, National Scientific and Technical Research Council—University of Buenos Aires, Buenos Aires 1428, Argentina
Inmaculada García-Romera
Department of Soil and Plant Microbiology, Zaidín Experimental Station, CSIC, 18008 Granada, Spain
María Luisa Izaguirre-Mayoral
Facultad de Ingeniería Agricola, Technical University of Manabi, Km 12 Lodana, Portoviejo 130105, Manabí, Ecuador
Alicia Godeas
Faculty of Exact and Natural Science, Department of Biodiversity and Experimental Biology, Institute of Biodiversity and Applied and Experimental Biology, National Scientific and Technical Research Council—University of Buenos Aires, Buenos Aires 1428, Argentina
Stefano Ubaldini
Institute of Environmental Geology and Geoengineering, National Research Council of Italy, Research Area of Rome 1, 00015 Montelibretti, Italy
Contaminated soils are a challenge for implementing biotechnology in bioremediation, the recovery of Critical and Strategic Raw Materials (CRMs and SRMs), and food security. European Union (EU) Governments have established strict limits on As, Pb, Cd, and Hg in foods (Document 32023R0915) and requested the recovery of 34 CRMs within a circular economy (CE) (5th CRMs list). This study proposed a biotechnological tool for the decontamination of soil with heavy metal(loid)s by arbuscular mycorrhizal (AM)-assisted phytoextraction and the subsequent recovery of CRMs or by phytostabilization to prevent their entry into the food chain. It consisted of placing Baccharis salicifolia plants, inoculated or non-inoculated with AM fungi, into bioreactors (BRs) containing mining soil with Cd, Ni, and Cu, according to the Argentinian Patent (AR090183B1). The bioextractive potential (BP) was also estimated at the highest Technological Readiness Level (TRL) using a vegetable depuration module (VDM, TRL 6). Inoculated plants showed significantly higher aerial bioaccumulation coefficients (Cd: 68.62; P: 2.99; Ni: 2.51; Cu: 0.18) in BRs, and the BP values reached 1.16 g, 9.75 g, 2.40 g, and 213.1 g for Ni, Cd, Cu, and P, respectively. Finally, these CRMs and SRMs could be recovered from biomass through hydrometallurgy within a CE framework.
