[BANG, J. - KAMALA-KANNAN, S. - LEE, K.J. - CHO, M. - KIM, C-H. -KIM, Y-J. - BAE, J-H. - KIM, K-H. - MYUNG, H. - OH, B-T. 2015. Phytoremediation of Heavy Metals in Contaminated Water and Soil Using Miscanthus sp. Goedae-Uksae 1. In International Journal of Phytoremediation, vol. 17, no. 6, pp. 515-520.]Search in Google Scholar
[BARBOSA, B. - BOLÉO, S. - SIDELLA, S. - COSTA, J. - DUARTE, M. P. - MENDES, B. - COSENTINO, S. - FERNANDO, A. L. 2015. Phytoremediation of Heavy Metal-Contaminated Soils Using the Perennial Energy Crops Miscanthus spp. and Arundo donax L. In Bio Energy Research, vol. 8, no. 4, pp. 1500-1511.]Search in Google Scholar
[CADOUX, S. - VANDERDRIESSCHE, V. - MACHET, J.M. - MARY, B. - BEAKDOUIN, N. - LEMAIRE, G. - GOSSE, G. 2008. Potential yield and main limiting factors of Miscanthus giganteus in France, identification of the needs for further research. In 16th European Biomass Conference and Exhibition, Valencia, Spain.]Search in Google Scholar
[DRAZIC, G. - MILOVANOVIC, J. - IKANOVIC, J. - PETRIC, I. 2017. Influence of fertilization on Miscanthus × giganteus (Greef et Deu) yield and biomass traits in three experiments in Serbia. In Plant Soil Environ., vol. 63, pp. 189-193.]Search in Google Scholar
[FERNANDO, A.L. - DUANE, M.P. - ALMEIDA, J. - BOLEO, S. - MENDES, B. 2010. Environmental impact assessment of energy crops cultivation in Europe. In Biofuels Bioproducls and Biorefining, vol. 4, pp. 594-604.]Search in Google Scholar
[GOMES, H. 2012. Phytoremediation for bioenergy: challenges and opportunities. In Environmental Technology Reviews, vol. 1, pp. 59-66.]Search in Google Scholar
[KOCOŃ, A. - MATYKA, M. 2012. Phytoextractive potential of Miscanthus giganteus and Sida hermaphrodita growing under moderate pollution of soil with Zn and Pb. In Journal of Food, Agriculture & Environment, vol. 10, no. 2, pp. 1253-1256.]Search in Google Scholar
[MILOVANOVIĆ, J. - DRAŽIĆ, G. - IKANOVIĆ, J. - JUREKOVA, Z. -RAJKOVIĆ, S. 2012. Sustainable production of biomass through Miscanthus giganteus plantantion development. Annals of Faculty Engineering Hunedoara. In International Journal of Engineering, vol. 10, pp. 79-82.]Search in Google Scholar
[NSANGANWIMANA, F. - PORRUT, B. - MENSH, M. - DOUAY, F. 2014. Suitability of Miscanthus species for managing inorganic and organic contaminated land and restoring ecosystem services. A review. In Journal of Environmental Management, vol. 134, pp. 123-134.]Search in Google Scholar
[PIDLISNYUK, V. - ERICKSON, L. - KHARCHENKO, S. - STEFANOVSKA, T. 2014. Sustainable Land Management: Growing Miscanthus in Soils Contaminated with Heavy Metals. In Journal of Environmental Protection, no. 5, pp. 723-730.]Search in Google Scholar
[PIDLISNYUK, V. - STEFANOVSKA, T. - LEWIS, E.E. - ERICKSON, L.E. - DAVIS, L.C. 2014. Miscanthus as a Productive Biofuel Crop for Phytoremediation. In Critical Reviews in Plant Sciences, vol. 33, no. 1, pp. 1-19.]Search in Google Scholar
[Regulation on a program of systematic monitoring of soil quality, indicators for assessing the risk of soil degradation and methodology for development of remediation programs. 2010. In Official Gazette of RS 34, no. 88, in Serbian.]Search in Google Scholar
[VISSER, P. - PIGNATELLI, V. - JORGENSEN, U. - SANTOS OLIVEIRA, J. E. 2001. Utilisation of miscanthus. In Miscantlrusfor Energy and Fibre, p. 150. Jones, M. B. - Walsh, M., Eds. London : James and James.]Search in Google Scholar
[ŽIVANOVIĆ, L.J. - IKANOVIĆ, J. - POPOVIĆ, V. - SIMIĆ, D. - KOLARIĆ, L.J. - BOJOVIĆ, R. - STEVANOVIĆ, P. 2014. Effect of planting density and supplemental nitrogen nutrition on the productivity of miscanthus. In Romanian Agricultural Research, no. 31, pp. 291-298.]Search in Google Scholar