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References Biesiada A., 2005. The effect of foliar fertilization with urea and ammonium sulphate on nitrates content in lettuce. Zesz. Nauk. AR we Wrocławiu 515: 47-52. Dapoigny L., De Tourdonnet S., Roger-Estrade., Jeuffroy H. M., Fleury A., 2000. Effect of nitrogen nutrition on growth and nitrate accumulation in lettuce ( Lactuca sativa L.), under various conditions of radiation and temperature. Agronomie 20: 843-855. Escobar-Gutierrez A. J., Burns I. G., 2002. Screening lettuce cultivars for low nitrate content during summer and winter production. J. Hortic

References Anonîms (2011). Latvijas lauksaimniecîba 2011 [Agriculture in Latvia 2011]. Latvijas Republikas Zemkopîbas ministrija. Retrieved 20 February 2013, from (in Latvian). Baniuniene, A., Zekaite, V. (2008). The effect of mineral and organic fertilizers on potato tuber yield and quality. Latv. J. Agron. , 11 , 202-206. Dalla Costa, L., Delle Vedove, G., Gianquinto, G., Giovanardi, R., Peressotti, A. (1997). Yield, water use efficiency and nitrogen uptake in potato: Influence of drought stress. Potato Res. , 40

References Al-Jaloud A.A., Baig M.S., Errebhi M.A., AbdelGadir A.H., Sarhan H.B. 2006. The effect of fertigating different levels of nitrogen, phosphorus and potassium on greenhouse cucumber yield. Acta Hort. (ISHS) 710: 359-364. Altunlu H., Gül A., Tunç, A. 1999. Effects of nitrogen and potassium nutrition on plant growth, yield and fruit quality of cucumbers grown in perlite. Acta Hort. (ISHS) 491: 377-382. Al-Wabel M.I., Al-Jaloud A.A., Hussain G., Karimula S. 2006. Fertigation as a tool to improve nitrogen efficiency and yield. Acta Hort. (ISHS) 710

, fosforowa i wpływ metali ciężkich , Wydawnictwo Uniwersytetu Wrocławskiego, 1994. 5. Obarska-Pempkowiak H., Gajewska M., Wojciechowska E.: Hydrofitowe oczyszczanie wód i ścieków , Wydawnictwo Naukowe PWN, Warszawa, 2010. 6. Randall C., Barnard J., Stensel D.: Design and retrofit of wastewater treatment plants for biological nutrient removal , Technomic Publishing Co.Inc. 5, Lancaster-Basel, 1992. 7. Sadecka Z.: Podstawy biologicznego oczyszczania ścieków , Wydawnictwo Seidel Przywecki Sp. z o.o., Warszawa, 2010. 8. Saeed T., Sun G.: A review on nitrogen and organics

design to mitigate infection hazard. Journal of Environmental Science and Health , Part A, 1-10. 4. Jakubaszek, A and Sadecka, Z 2015. The effectiveness of organic pollutants removal in constructed wetland with horizontal sub-surface flow. Civil and environmental engineering reports 16 , 69-82. 5. Jakubaszek, A and Stadnik, A 2018. Technical and technological analysis of individual wastewater treatment systems. Civil and Environmental Engineering Reports 28 (1), 87-99. 6. Jakubaszek, A and Wojciech, M 2014. Statistical analysis of nitrogen in the soil of

). Camargo J.A., Alonso A., 2006, Ecological and toxicological effects of inorganic nitrogen pollution in aquatic ecosystems: A global assessment, Environ. Int. 32(6): 831-849. Grochowska J., Łopata M., Parszuto K., Tandyrak R., Wiśniewski G., 2011, Wstępna charakterystyka hydrochemiczna kompleksu jezior barczewskich (Preliminary hydrochemical characteristics of barczewskie lakes), [in:] Marszelewski W. (ed.), Anthropogenic and natural transformations of lakes. Vol. 5, PTLim, Toruń: 47-55 (in Polish, English summary). Hermanowicz W., Dojlido J., Dożańska W., Koziorowski B

.1, 69-86. 3. Bataineh F., Najjar M. and Malkawi S., 2002 ‒ Water Demand Forum, Wastewater Reuse Report, Beirut, Lebanon, 257. 4. Bronk D. A., Roberts Q. N., Canuel E. A., Mesfioui R., Filippino K. C., Mulholland M. R. and Love N. G., 2010 ‒ Effluent organic nitrogen bioavailability and photochemical and salinity-mediated release, Environmental Science and Technology , 445830-445835. 5. Confer D. R., Logan B. E., Aiken B. S. and Kirchman D. L., 1995 ‒ Measurement of dissolved free and combined amino acids in unconcentrated wastewaters using high performance liquid

voda. Ljubljana: Ministrstvo za okolje in prostor, [cited 17. 6. 2017]. Available on: <>. [5] IPCC (2014): Climate Change 2014 Synthesis Report. Summary for Policymakers, [cited 15. 5. 2017]. Available on: <>. [6] Koeck, R. (2012): Climate Change and Impacts on Water Supply “CC-WaterS”. South-East-Europe project monograph, [cited 17. 6. 2017]. Available on: <>. [7] Burgt, G.J.H.M. van der, Oomen, G.J.M., Habets, A.S.J., Rossing, W.A.H. (2006): The NDICEA model, a tool to improve nitrogen use efficiency

References Blihárová, M., Škvarenina, J., 2002: The altitude influence on atmospheric deposition and chemism of he throughfall and stemflow in climax and monoculture spruce stands of biosphere reserve Polana. In: Proceedings of papers from XIV. Bioclimatological conference – Lednice in Moravia, p. 499–507. Bontemps, J. D., Hervé, J. C. J., Leban, M. J.-F., Dhôte, J. F., 2011: Nitrogen footprint in a long-term observation of forest growth over the twentieth century. Trees, 25:237–251. Bošeľa, M., Petráš, R., Sitková, Z., Priwitzer, T., Pajtík, J., Hlavatá, H. et

REFERENCES 1. Heidrich Z., Kalenik M., Podedworna J., Stańko G.: Sanitation village . Publishing House “Seidel-Przywecki” Sp. o.o., Warsaw 2008. 2. Henze M.: Wastewater treatment. Biological and chemical processes , Ed. Kielce University of Technology, Kielce 2000. 3. Janosz-Rajczyk, M.: Biological methods for removing nitrogen from selected rainwater, A series of monographs 102, ed. Czestochowa University of Technology, Czestochowa 2004. 4. Mielcarek A., Rodziewicz J., Kupczyk K., Rokicka M., Effect of types of external organic carbon source for the