Sól drogowa a wod-kan

• Autorzy: Szklarek Sebastian
• Języki publikacji: PL

Abstrakty

PL

Sól drogowa zapewnia bezpieczeństwo zimą, ale jednocześnie ma wpływ na środowisko, w tym wodę. Niewiele mówi się jednak o rozwiązaniach ograniczających to negatywne oddziaływanie.

Słowa kluczowe

PL

ścieki; sól drogowa; bezpieczeństwo; oczyszczanie ścieków; ujęcia wodne

• Wydawca: BMP Sp. z o.o.
• Czasopismo: Kierunek Wod-Kan
• Rocznik: 2020
• Tom: Nr 2
• Strony: 70--72
• Opis fizyczny: Bibliogr. 20 poz., fot.

Twórcy

autor

Szklarek Sebastian

• Europejskie Regionalne Centrum Ekohydrologii Polskiej Akademii Nauk

Bibliografia

• 1. Gutchess, K. et al. Long-Term Climatic and Anthrpogenic Impacts on Streamwater Salinity in New York State: INCA Sirnulations Offer Cautious Optimism, Environ. Sci. Technol. 52, 1339-1347 (2018).
• 2. Haq, Sh., Kausha, S. S., Duan, Sh. 2018. Episodic salinization and freshwater salnization syndrome mobilize base cations, carbon, and nutrients to streams across urban regions. Biogeochemistry, 141: 463-486.
• 3. Corsi, S. R., De Cicco, L A., Lutz, M. A., Hirsch R. M. 2015. River chloride trends in snow-affected urban watersheds: increasing concentrations outpace urban growth rate and are common among all seasons. Science of the Total Environment 508: 488-497.
• 4. Dugan. H. A., Bartlett, S. L., Burke, S. M„ Doubek, J. P., Krivak-Tetley, F. E., Skaff, N.K., Summers, J.C., Farrel, K. J., McCullough, L. M., Morales-Williams, A. M., Roberts, D. C., Ouyang, Z., Scordo, F., Hanson, P. C., Weathers, K. C. 2017. Salting our freshwater lakes. PNAS, 114 (17) 4453-4458.
• 5. Perera, N., Charabaghi, B., Howard, K. 2013. Groundwater chloride response in the Highland Creek watershed due to road salt application: A re-assessment after 20 years, journal of Hydrology, 479: 159-168.
• 6. Robertson W. D., Merkley L. C. 2009. ln-stream bioreactor for agricultural nitrate treatment. Journal of Environmental Quality 38: 230-237.
• 7. Kim S., Koretsky C. (2013) Effects of road salt deicers on sediment biogeochemistry. Biogeochemistry, 112(l-3):343-358.
• 8. Lofgren S. (2001) The chemical effects of deicing sjlt on soil and stream water of five catchments in Southeast Sweden. Water Air Soil Pollut 130(l-4):863-868.
• 9. Gatti, M. N., Garcia-Usach, F., Seco, A., Ferrer, J., 2010. Wastewater COD characterization: analysis of respirometric and physical-chemical methods for determining biodegradable organic matter fractions. J. Chem. Technol. Biotechnol. 85, 536-544.
• 10. Hong, J. M. Li,. W. B., Lin, B., Zhan, M. C., Liu, C. D., Chen, B. Y, 2013. Deciphering the effect of salinity on the performance of submerged membrane bioreactor for aquaculture of bacteria) community Desalination 316, 23-30.
• 11. Lefebvre, Q. Moletta, R. 2006. Treatment of organic pollution in industrial saline wastewater a literature review. Water Res. 40, 3671-3682.
• 12. Szklarek, S. 2016. Sekwencyjny system sedymentacyjno-biofiltracyiny do oczyszczania miejskich rzek zasilanych ściekami opadowymi. Rozprawa doktorska, Uniwersytet Łódzki.
• 13. Szklarek, S., Stolarska, M. Wagner, I., Mankiewicz-Boczek, J., 2015. The microbiotest battery as an important component in the assessment of snowmelt toxicity in urban watercourses-preliminary studies. Environ Monit Assess (2015)187: 16.
• 14. Uygur, A., Kargi, F., 2004. Salt inhibition on biological nutrient removal saline wastewater in a sequencing batch reactor. Enzym. Microb. Technol. 34, 313-318.
• 15. Chen, J., Han, Y., Wang Y., Gong, B., Zhou, J., Qing, X., 2016. Start-up and microbial communities of a simultaneous nitrogen removal system for high salinity and high nitogen organic waserwater via heterotrophic nitrification. Bioresour. Technol. 216, 196-20.
• 16. Zhao, Y., Park, H., Park, J., Zhang F., Chen, C., Li, X., Zhao, D., Zhao, F., 2016. Effect of different salinity adaptation on the performance and microbial community in a sequencing batch reactor. Bioresour. Technol. 216, 808-816.
• 17. Ji, J., Peng, Y., Wang, B., Mai, W., Li, X., Zhang, Q., Wang Sh. 2018. Effects of a salinity build-up on the performance and microbial community of partial-denitrification granular sludge with high nitrite accumulation. Chemosphere, 209: 53-60.
• 18. Cui, Y. W., Su, H., Chen, Y. B., Peng, Y. Z., 2015. Mechanism of activated sludge floc disintegration induced by excess addition of NaCl. Clean-Soil Air Water 43, 1197-1206.
• 19. Miao, Y., Liao, R., Zhang, X., Liu, B., Li, Y., Wu, B., Li, A., 2015. Metagenomic insighits into salinity effect on diversity and abundance of denitrifying bacteria and genes in an expanded granular sludge bed reactor treating high-nitrate wastewater. Chem. Eng. J. 277, 116-123.
• 20. Kim, S., Koretsky, C. (2013) Effects of road salt deicers on sediment biogeochemistry, Biogeochemistry, 112(1-3): 343-356.

Uwagi

PL

Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).