References

  1. K. Malińska, Biochar is the answer to current problems environmental protection, Eng. Environ. Prot., 4 (2012) 387–403 (In Polish).
  2. A. Anstey, S. Vivekanandhan, A. Rodriguez-Uribe, M. Misra, A.K. Mohanty, Oxidative acid treatment and characterization of new biocarbon from sustainable Miscanthus biomass, Sci. Total Environ., 550 (2016) 241–247.
  3. Act of 10 July 2007 on Fertilizers and Fertilization, Dz. U. Nr 147, poz. 1033 (In Polish).
  4. Regulation of the Minister of Agriculture and Rural Development of 18 June 2008 on the Implementation of Certain Provisions of the Act on Fertilizers and Fertilization, Dz.U. z 2008 r. nr 119, 765 (In Polish).
  5. J. Gładki, Biochar as a chance for sustainable development, Printing House Apla Sp.J., Copyright© by Fluid S.A., Sędziszów, 2017 (In Polish).
  6. M.K. Hossain, V. Strezov, K.Y. Chan, A. Ziolkowski, P.F. Nelson, Influence of pyrolysis temperaturę on production and nutrient properties of wastewater sludge biochar, J. Environ. Manage., 92 (2011) 223–228.
  7. A. Ostrowska, S. Gawlinski, Z. Szczubiałka, Methods of Analysis and Evaluation of Soil and Plant Properties, Catalog of the Institute of Environmental Protection, Warszawa, Poland, 1991 (In Polish).
  8. Polycyclic Aromatic Hydrocarbons (PAHs) Standards EPA. Available at: https://ec.europa.eu/jrc/sites/jrcsh/files/ Factsheet%20PAH_0.pdf (downloaded 30. 08. 2019).
  9. Regulation of the Minister of the Environment of 1 September 2016 on the Method of Conducting the Assessment of Pollution of the Earth Surface. Available at: http://prawo.sejm.gov.pl/isap. nsf/download (In Polish) (downloaded 30. 08. 2019).
  10. K. Malińska, K. Mełgieś, Current quality and legal requirements for biofuel as a fertilizer and soil improver, Work ICiMB, 26 (2016) 82–95 (In Polish).
  11. A Kabata-Pendias, M. Piotrowska, T. Motowicka-Terelak, Fundamentals of Evaluation of Chemical Soil Contamination (Heavy Metals, Sulphur and PAH), State Inspectorate for Environmental Protection, IUNG in Puławy, Poland, 1995 (In Polish).
  12. A. Nigussie, E. Kissi, M. Misganaw, G. Ambaw, Effect of biochar application on soil properties and nutrient uptake of lettuces (Lactuca sativa) grown in chromium polluted soils, Am. Eurasian J. Agric. Environ. Sci., 12 (2012) 369–376.
  13. M. Prodana, A.C. Bastos, A. Amaro, D. Cardoso, R. Morgado, A.L. Machado, F.G.A. Verheijen, J.J. Keizer, S. Loureiro, Biomonitoring tools for biochar and biochar-compost amended soil underviticulture: looking at exposure and effects, Appl. Soil Ecol., 137 (2019) 120–128.
  14. P. Andrés, A. Rosell-Melé, F. Colomer-Ventura, K. Denef, M.F. Cotrufo, M. Riba, J.M. Alcañiz, Belowground biota responses to maize biochar addition to the soil of a Mediterranean vineyard, Sci. Total Environ., 660 (2019) 1522–1532.
  15. A. El-Naggar A., S.S. Lee, J. Rinklebe, M. Farooq, H. Song, A.K. Sarmah, A.R. Zimmerman, M. Ahmad, S.M. Shaheen, Y.S. Ok, Biochar application to low fertility soils: a review of current status, andfuture prospects, Geoderma, 337 (2019) 536–554.
  16. D. Wang, C. Li, S.J. Parikh, K.M. Scow, Impact of biochar on water retention of two agricultural soils – a multi-scale analysis, Geoderma, 340 (2019) 185–191.
  17. K. Karhu, T. Mattila, I. Bergstrom, K. Regina, Biochar addition to agricultural soil increased CH4 uptake and water holding capacity - results from a short-term pilot field study, Agric. Ecosyst. Environ., 140 (2011) 309–313.
  18. Regulation of the Minister of the Environment of 21 December 2015 on Criteria and Methods for Assessing the Status of Bodies of Groundwater (In Polish).