Metales en plantas. Fitorremediación.
Evaluación de la calidad de suelos.
Técnicas de estudio de procesos rizosféricos.
Aprovechamiento de subproductos .
Química General I
Producción de Materias Primas Alimentarias
Factores implicados en la Producción de Cultivos
Valorización de residuos y subproductos: implicaciones ambientales
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T. Fresno, J. M. Peñalosa, M. Flagmeier, E. Moreno-Jiménez. 2020. Aided phytostabilisation over two years using iron sulphate and organic amendments: Effects on soil quality and rye production. Chemosphere 240 V. Frišták, E. Moreno-Jimenéz, , E. Diaz. . Effect of Physical and Chemical Activation on Arsenic Sorption Separation by Grape Seeds-Derived Biochar. Separations 5, 59 C. García-Delgado, , J.J. Rodríguez-Santamaría, E. Díaz, Á. Fernández-Mohedano, E. Moreno-Jiménez. 2018. Co-application of activated carbon and compost to contaminated soils: Toxic elements mobility and PAH degradation and availability. International Journal of Environmental Science and Technology. T. Fresno, E. Moreno-Jiménez, P. Zornoza, J.M. Peñalosa. 2018. Aided phytostabilisation of As- and Cu-contaminated soils using white lupin and combined iron and organic amendments. Journal of Environmental Management 205: 142-150. T. Sizmur, T. Fresno, G. Akgül, H. Frost, E. Moreno Jiménez. 2017. Biochar modification to enhance sorption of inorganics from water. Bioresource Technology 246: 34-47. T. Fresno, J.M. Peñalosa, J. Santner, M. Puschenreiter, E. Moreno-Jiménez. 2017. Effect of Lupinus albus L. root activities on As and Cu mobility after addition of iron-based soil amendments. Chemosphere 182: 377-381. T. Fresno, E. Moreno-Jiménez, J.M. Peñalosa. 2016. Assessing the combination of iron sulfate and organic materials as amendment for an arsenic and copper contaminated soil. A chemical and ecotoxicological approach. Chemosphere 165: 539-546. T. Fresno, J.M. Peñalosa, J. Santner, M. Puschenreiter, T. Prohaska, E. Moreno-Jiménez. 2016. Iron plaque formed under aerobic conditions efficiently immobilizes arsenic in Lupinus albus L. roots. Environmental Pollution 216: 215-222. L. Beesley, M. Marmiroli, L. Pagano, V. Pigoni, G. Fellet, T. Fresno, T. Vamerali, M. Bandiera, N. Marmiroli. 2013. Biochar addition to an arsenic contaminated soil increases arsenic concentrations in the pore water but reduces uptake to tomato plants (Solanum lycopersicum L.). Science of the Total Environment 454–455: 598–603. E. Moreno, E. Esteban, T. Fresno, C. López de Egea, J. M. Peñalosa. 2010. Hydroponics as a valid tool to assess arsenic availability in mine soils. Chemosphere 79: 513-517. |
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