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Cited article:

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Phytomanagement of Metal(loid)-Contaminated Soils: Options, Efficiency and Value

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Frontiers in Environmental Science 9 (2021)

Potentials of Miscanthus x giganteus for phytostabilization of trace element-contaminated soils: Ex situ experiment

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Ecotoxicology and Environmental Safety 214 112125 (2021)

Cost Benefit and Risk Analysis of Low iLUC Bioenergy Production in Europe Using Monte Carlo Simulation

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Cadmium and Mercury phytostabilization from soil using Miscanthus × giganteus

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Changes induced by heavy metals in the plant-associated microbiome of Miscanthus x giganteus

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Science of The Total Environment 711 134433 (2020)

Influence of metal contamination in soil on metabolic profiles of Miscanthus x giganteus belowground parts and associated bacterial communities

Hoang Nam Pham, Phuong Anh Pham, Thi Thu Huong Nguyen, et al.
Applied Soil Ecology 125 240 (2018)

Biofuel Production Using Thermochemical Conversion of Heavy Metal-Contaminated Biomass (HMCB) Harvested from Phytoextraction Process

Wafa Dastyar, Abdul Raheem, Jun He and Ming Zhao
Chemical Engineering Journal (2018)

Phytoremediation as an effective method to remove heavy metals from contaminated area – TG/FT-IR analysis results of the gasification of heavy metal contaminated energy crops

Sebastian Werle, Daniel Bisorca, Anna Katelbach-Woźniak, et al.
Journal of the Energy Institute 90 (3) 408 (2017)

Metal, nutrient and biomass accumulation during the growing cycle of Miscanthus established on metal‐contaminated soils

Florien Nsanganwimana, Christophe Waterlot, Brice Louvel, Bertrand Pourrut and Francis Douay
Journal of Plant Nutrition and Soil Science 179 (2) 257 (2016)

Phytoremediation potential of Miscanthus × giganteus and Spartina pectinata in soil contaminated with heavy metals

Jolanta Korzeniowska and Ewa Stanislawska-Glubiak
Environmental Science and Pollution Research 22 (15) 11648 (2015)