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. 57: 2104-2121. M achado M. D. & S oares E. V. 2016. Short- and long-term exposure to heavy metals induced oxidative stress response in Pseudokirchneriella subcapitata . Clean – Soil, Air, Water 44: 1578-1583. M ellado M., C ontreras R. A., G onzález A., D ennett G. & M oenne A. 2012. Copper-induced synthesis of ascorbate, glutathione and phytochelatins in the marine alga Ulva compressa (Chlorophyta). Plant Physiol. Biochem. 51: 102-108. N owicka B., P luciński B., K uczyńska , P. & K ruk J. 2016. Physiological characterization of Chlamydomonas

. P., Hooper, D. J., Chambers, B. S. (2002): Nematode communities under stress: the long-term effects of heavy metals in soil treated with sewage sludge. Appl. Soil Ecol., 20: 27–42 http://dx.doi.org/10.1016/S0929-1393(02)00005-7 [9] Hua, J. F., Jiang, Y., Liang, W. J. (2006): Response of nematodes in a Hapli-Udic Argosol to urea amended with urease and nitrification inhibitors. Pedosphere, 16: 428–434 http://dx.doi.org/10.1016/S1002-0160(06)60072-6 [10] Korthlas, G. W., de Goede, R. G. M., Kammenga, J. E., Bongers, T. (1996): The maturity index as an instrument for

-Waliszewska J., Owczarzak W., Mocek A., Kaczmarek Z., McCalmont J. P.: Establishment, growth, and yield potential of the perennial grass Miscanthus × giganteus on degraded coal mine soils, Frontiers in Plant Science, 8 (2017) 726. 8. Kalinina O., Nunn C., Sanderson R., Hastings A.F., Van Der Weijde T., Özgüven M., & Clifton-Brown J.: Extending Miscanthus cultivation with novel germplasm at six contrasting sites, Frontiers in Plant Science, 8 (2017) 563. 9. Khan A., Khan S., Khan M. A., Qamar Z., Waqas M.: The uptake and bioaccumulation of heavy metals by food plants, their