Nitrogen converters in various landfill leachates

• Autorzy: Akgul D. , Yuzer B. , Yapsakli K. , Mertoglu B.
• Języki publikacji: EN

Abstrakty

EN

Nitrogen has significant adverse effects on the environment and leads to operational failure in biological treatment units. Therefore, it is necessary to investigate and implement new nitrogen conversion pathways in order to expand alternatives for in-situ/ex-situ leachate treatment systems. In this study, microbial species responsible for nitrogen conversion were quantitatively investigated based on both phylogenetic and functional gene markers using real-time PCR in nine different leachate samples in Turkey. Real-time PCR studies revealed that landfill leachate harbored diverse nitrogen-converting microbial communities that include ammonia-oxidizing bacteria, nitrite-oxidizing bacteria, anammox bacteria, and ammonia-oxidizing archaea (AOA). Nitrosomonas and Nitrospira species were found to be the dominant ammonia- and nitrite-oxidizing bacteria, respectively. In contrast to the estimates, on average Nitrospira species were detected as 5 times more abundant than ammonia-oxidizing bacteria species. The presence of anammox and AOA revealed that partial nitrogen removal may occur inside landfills.

• Wydawca: -
• Czasopismo: Polish Journal of Environmental Studies
• Rocznik: 2018
• Tom: 27
• Numer: 5
• Opis fizyczny: p.1941-1948,ref.

Twórcy

autor

Akgul D.

• Department of Environmental Engineering, Marmara University, Istanbul, Turkey

autor

Yuzer B.

• Department of Environmental Engineering, Istanbul University, Istanbul, Turkey

autor

Yapsakli K.

• Department of Environmental Engineering, Marmara University, Istanbul, Turkey

autor

Mertoglu B.

• Department of Bioengineering, Marmara University, Istanbul, Turkey

Bibliografia

• 1. CALLI B., MERTOGLU B., INANC B. Landfill leachate management in istanbul: Applications and alternatives. Chemosphere 59, 819, 2005.
• 2. AKGUL D., AKTAN C.K., YAPSAKLI K., MERTOGLU B. Treatment of landfill leachate using UASB-MBR-SHARON-Anammox configuration. Biodegradation 24, 399, 2013.
• 3. SPAGNI A., PSAILA G., RIZZO A. Partial nitrification for nitrogen removal from sanitary landfill leachate. J Environ Sci Health A Tox Hazard Subst Environ Eng 49, 1331, 2014.
• 4. FERRAZ F.M., POVINELLI J., VIEIRA E.M. Ammonia removal from landfill leachate by air stripping and absorption. Environ Technol. 34, 2317, 2013.
• 5. HUANG H., XIAO D., ZHANG Q., DING L. Removal of ammonia from landfill leachate by struvite precipitation with the use of low-cost phosphate and magnesium sources. J Environ Manag, 145, 191, 2014.
• 6. FOO K., HAMEED B.H. An overview of landfill leachate treatment via activated carbon adsorption process. J Hazard Mater, 171, 54, 2009.
• 7. YE Z., WANG J., SUN L., ZHANG D., ZHANG H. Removal of ammonium from municipal landfill leachate using natural zeolites. Environ Technol, 36, 2919, 2015.
• 8. HALIM A.A., AZIZ H.A., JOHARI M.A.M., ARIFFIN K.S. Comparison study of ammonia and cod adsorption on zeolite, activated carbon and composite materials in landfill leachate treatment. Desalination 262, 31, 2010.
• 9. KRISTANTO G.A., RIALDI H., GUSNIANI I. Nitrogen Removal from landfill leachate via ex-situ nitrification and in-situ denitrification in laboratory scale bioreactor. Procedia Engineering 171, 425, 2017.
• 10. MERTOGLU B., CALLI B., INANC B., OZTURK I. Evaluation of in situ ammonia removal in an aerated landfill bioreactor. Process Biochem 41, 2359, 2006.
• 11. BERGE N.D., REINHART D.R., DIETZ J., TOWNSEND T. In situ ammonia removal in bioreactor landfill leachate. Waste Manage 26, 334, 2006.
• 12. SUN X., ZHANG H., CHENG Z. Use of bioreactor landfill for nitrogen removal to enhance methane production through ex situ simultaneous nitrification-denitrification and in situ denitrification. Waste Manage 66, 97, 2017.
• 13. CHUNG J., KIM S., BAEK S., LEE N.H., PARK S., LEE J., LEE H., BAE W. Acceleration of aged-landfill stabilization by combining partial nitrification and leachate recirculation: A field-scale study. J Hazard Mater 285, 436, 2015.
• 14. HAO Y.J., JI M., CHEN Y.X., WU W.X., HAO Y.J., ZHANG S.G., LIU H.Q. The pathway of in-situ ammonium removal from aerated municipal solid waste bioreactor: Nitrification/denitrification or air stripping? Waste Manage Res 28, 1057, 2010.
• 15. THAMDRUP, B. New pathways and processes in the global nitrogen cycle. Annu. Rev. Ecol. Evol. Syst. 43, 407, 2012.
• 16. WU F., WANG W., FENG H., GU J.D. More wide occurrence and dominance of ammonia-oxidizing archaea than bacteria at three Angkor sandstone temples of Bayon, Phnom Krom and Wat Athvea in Cambodia. Int Biodeterior Biodegradation 117, 128, 2017.
• 17. JETTEN M.S.M., STROUS M., VAN DE PASSCHOONEN K.T., SCHALK J., VAN DONGEN U.G.J.M., VAN DE GRAAF A.A., LOGEMANN S., MUYZER G., VAN LOOSDRECHT M.C.M., KUENEN J.G. The anaerobic oxidation of ammonium. Fems Microbiol Rev 22, 421, 1998.
• 18. DAIMS H., LEBEDEVA E.V., PJEVAC P., HAN P., HERBOLD C., ALBERTSEN M., JEHMLICH N., PALATINSZKY M., VIERHEILIG J., BULAEV A., KIRKEGAARD R.H., VON BERGEN M., RATTEI T., BENDINGER B., NIELSEN P.H., WAGNER M. Complete nitrification by nitrospira bacteria. Nature 528, 504, 2015.
• 19. MUNZ G., SZOKE N., OLESZKIEWICZ J.A. Effect of ammonia oxidizing bacteria (AOB) kinetics on bioaugmentation. Bioresource Technol 125, 88, 2012.
• 20. BOOTHE D.D.H., SMITH M.C., GATTIE D.K., DAS K.C. Characterization of microbial populations in landfill leachate and bulk samples during aerobic bioreduction. Adv Environ Res 5, 285, 2001.
• 21. MERTOGLU B., SEMERCI N., GULER N., CALLI B., CECEN F., SAATC A.M. Monitoring of population shifts in an enriched nitrifying system under gradually increased cadmium loading. J Hazard Mater 160, 495, 2008.
• 22. YAPSAKLI K., ALIYAZICIOGLU C., MERTOGLU B. Identification and quantitative evaluation of nitrogenconverting organisms in a full-scale leachate treatment plant. J Environ Manage 92, 714, 2011.
• 23. GEETS J., DE COOMAN M., WITTEBOLLE L., HEYLEN K., VANPARYS B., DE VOS P., VERSTRAETE W., BOON N. Real-time pcr assay for the simultaneous quantification of nitrifying and denitrifying bacteria in activated sludge. Appl Microbiol Biot 75, 211, 2007.
• 24. SMITH C., BERG D., BEAUMONT S., STANDLEY N.T., WELLS D.N., PFEFFER P.L. Simultaneous gene quantitation of multiple genes in individual bovine nuclear transfer blastocysts. Reproduction 133, 231, 2007.
• 25. EHRIG H.J. Quality and quantity of sanitary landfill leachate. Waste Manage Res 1, 53, 1983.
• 26. HUANG W., WANG Z., GUO Q., WANG H., ZHOU Y., NG W.J. Pilot-scale landfill with leachate recirculation for enhanced stabilization, Biochem. Eng. J. 105, 437, 2016.
• 27. KULIKOWSKA D., KLIMIUK E. The effect of landfill age on municipal leachate composition. Bioresource Technol 99, 5981, 2008.
• 28. TIMUR H., OZTURK I. Anaerobic sequencing batch reactor treatment of landfill leachate. Water Res 33, 3225, 1999.
• 29. BOVE D., MERELLO S., FRUMENTO D., ARNI S.A., ALIAKBARIAN B., CONVERTI A. A critical review of biological processes and technologies for landfill leachate treatment. Chem Eng Technol 38, 2115, 2015.
• 30. GARBARRO´ J., GANIGUE´ R., GICH F., RUSCALLEDA M., BALAGUER M.D., COLPRIM J. Effect of temperature on AOB activity of a partial nitritation SBR treating landfill leachate with extremely high nitrogen concentration. Bioresource Technol 126, 283, 2012.
• 31. FERNANDES H., VIANCELLI A., MARTINS C.L., ANTONIO R.V., COSTA R.H.R. Microbial and chemical profile of a ponds system for the treatment of landfill leachate. Waste Manage 33, 2123, 2013.
• 32. STAMPS B.W., LYLES C.N., SUFLITA J.M., MASONER J.R., COZZARELLI I.M., KOLPIN D.W., STEVENSON B.S. Municipal solid waste landfills harbor distinct microbiomes. Front Microbiol 7, 534, 2016.
• 33. HARMS G., LAYTON A.C., DIONISI H.M., GREGORY I.R., GARRETT V.M., HAWKINS S.A., ROBINSON K.G., SAYLER G.S. Real-time PCR quantification of nitrifying bacteria in a municipal wastewater treatment plant. Environ Sci Technol 37, 343, 2003.
• 34. JUNG M.Y., PARK S.J., MIN D., KIM J.S., RIJPSTRA W.I.C., DAMSTE J.S.S., KIM G.J., MADSEN E.L., RHEE S.K. Enrichment and characterization of an autotrophic ammonia-oxidizing archaeon of mesophilic crenarchaeal group i.1a from an agricultural soil. Appl Environ Microb 77, 8635, 2011.
• 35. PARK B.J., PARK S.J., YOON D.N., SCHOUTEN S., DAMSTE J.S.S., RHEE S.K. Cultivation of autotrophic ammonia-oxidizing archaea from marine sediments in coculture with sulfur-oxidizing bacteria. Appl Environ Microb 76, 7575, 2010.
• 36. ZHANG D., VAHALA R., WANG Y., SMETS B.F. Microbes in biological processes for municipal landfill leachate treatment: Community, function and interaction. Int. Biodeterior. Biodegradation 113, 88, 2016.
• 37. LIMPIYAKORN T., FURHACKER M., HABERL R., CHODANON T., SRITHEP P., SONTHIPHAND P. Amoaencoding archaea in wastewater treatment plants: A review. Appl Microbiol Biot 97, 1425, 2013.
• 38. WANG C., ZHAO Y., XIE B., PENG Q., HASSAN M., WANG X. Nitrogen removal pathway of anaerobic ammonium oxidation in on-site aged refuse bioreactor. Bioresource Technol 159, 266, 2014.
• 39. YAPSAKLI K. Co-occurrence of nitrogen-converting organisms in full-scale treatment plants. J Environ Sci Heal A 45, 1060, 2010.
• 40. OZDEMIR B., MERTOGLU B., YAPSAKLI K., ALIYAZICIOGLU C., SAATCI A., YENIGUN O. Investigation of nitrogen converters in membrane bioreactor. J Environ Sci Heal A 46, 500, 2011.
• 41. GIESEKE A., PURKHOLD U., WAGNER M., AMANN R., SCHRAMM A. Community structure and activity dynamics of nitrifying bacteria in a phosphate-removing biofilm. Appl. Environ. Microbiol 67, 1351, 2001.
• 42. HATZENPICHLER R. Diversity, physiology, and niche differentiation of ammonia-oxidizing archaea. Appl. Environ. Microbiol. 78, 7501, 2012.
• 43. YAO Q., PENG D.C. Nitrite oxidizing bacteria (NOB) dominating in nitrifying community in full-scale biological nutrient removal wastewater treatment plants. AMB Express. 7, 25, 2017.
• 44. VAN KESSEL M.A.H.J., SPETH D.R., ALBERTSEN M., NIELSEN P.H., OP DEN CAMP H.J.M., KARTAL B., JETTEN M.S.M., LUCKER S. Complete nitrification by a single microorganism. Nature 528, 555, 2015.
• 45. WANG Y., MA L., MAO Y., JIANG X., XIA Y., YU K., LI B., ZHANG T. Comammox in drinking water systems. Water Res. 116, 332, 2017.
• 46. LI K., FANG F., WANG H., WANG C., CHEN Y., GUO J., WANG X., JIANG F. Pathways of N removal and N₂O emission from a one-stage autotrophic N removal process under anaerobic conditions. Sci Rep. 7, 42072, 2017.
• 47. MARTINEZ A.G., SANCHEZ A.R., VAN LOOSDRECHT M.C.M., LOPEZ J.G., VAHALA R. Detection of comammox bacteria in full-scale wastewater treatment bioreactors using tag-454-pyrosequencing. Environ Sci Pollut Res. 24, 25501, 2016.

Identyfikatory

DOI

10.15244/pjoes/79718