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Environment Protection Engineering

Tytuł artykułu

Methane emission from the Nielisz Reservoir

Autorzy Gruca-Rokosz, R.  Czerwieniec, E.  Tomaszek, J. A. 
Treść / Zawartość
Warianty tytułu
Języki publikacji EN
EN The results of measurements conducted in 2010 of methane emission from the surface of the Nielisz Reservoir on the River Wieprz have been presented. This is a lowland reservoir located in the forested areas of the South-Eastern Poland (The Central Roztocze). The content and isotopic composition of methane in the upper (1 cm) layer of the bottom sediment have also been examined. The methane flux ranged from 15.98 to 383.85 mmolźm-2źd -1, while concentrations of the gas in pore water ranged from 133.33 to 1265.45 žmolźdm-3, and the value of ? 13C-CH4 was within the range -8.05 and -56.22%o. The fractionation coefficients (?cCH4-CO2) between methane and ?CO2 equalled approximately 1.05. The results of investigations suggest that methane in the sediment of the Nielisz Reservoir is produced by acetate fermentation. Levels of emission of this gas to the atmosphere can be compared with the values reported for large tropical reservoirs.
Słowa kluczowe
PL osady denne   emisja metanu   dwutlenek węgla   metan   jezioro Nielisz  
EN bottom sediment   methane emissions   carbon dioxide   sedimentology   methane  
Wydawca Oficyna Wydawnicza Politechniki Wrocławskiej
Czasopismo Environment Protection Engineering
Rocznik 2011
Tom Vol. 37, nr 3
Strony 101--109
Opis fizyczny Bibliogr. 30 poz.,tab.,wykr.,rys.
autor Gruca-Rokosz, R.
autor Czerwieniec, E.
autor Tomaszek, J. A.
  • Department of Environmental and Chemistry Engineering, Faculty of Civil and Environmental Engineering, Rzeszów University of Technology, Rzeszów,
[1]. Adams, D.D., Diffuse flux of greenhouse gases - Methane and carbon dioxide at the sediment-water interface of some lakes and reservoirs of the world (2005) Greenhouse Gas Emissions - Fluxes and Processes. Hydroelectric Reservoirs and Natural Environments, p. 129., A. Tremblay, L. Varfalvy, C. Roehm, M. Gameau (Eds.), Springer, Berlin;
[2]. Gruca-Rokosz, R., Tomaszek, J.A., Koszelnik, P., Czerwieniec, E., (2011) Polish J. Environ. Study, 20 (1), p. 83;
[3]. Haese, R.R., Meile, C., Van Cappellen, P., De Lange, G.J., (2003) Earth Planet. Sci. Letters, 212, p. 361;
[4]. Rastogi, M., Singh, S., Pathak, H., (2002) Current Sci, 82 (5), p. 510;
[5]. Sovik, A.K., Kløve, B., (2007) Sci. Total Environ, 380, p. 28;
[6]. Zukowski, W., Englo, T.S., Baron, J., Kandefer, S., Olek, M., (2010) Environ. Prot. Eng, 36 (4), p. 47;
[7]. Parekh, P., (2004) A Preliminary Review of the Impact of Dam Reservoirs on Carbon Cycling, ,, (date of access 10.09.2010);
[8]. Devol, A.H., Richey, J.E., King, S.L., Lansdown, J., Martinelli, L.A., (1996) Mitt. Internat. Verein. Limnol, 25, p. 173;
[9]. St Louis, V.L., Kelly, C.A., Duchemin, E., Rudd, J.W.M., Rosenberg, D.M., (2000) BioSci, 50 (9), p. 766;
[10]. Adams, D.D., Seitzinger, S.P., Crillp, M., (1996) Mitt. Internat. Verein. Limnol, 25, p. 5;
[11]. Botz, R., Pokojski, H.D., Schmitt, M., Thomm, M., (1996) Org. Geochem, 25 (3-4), p. 255;
[12]. Murase, J., Sugimoto, A., (2001) Geochem. J, 35, p. 257;
[13]. Paul, C.K., Lorenson, T.D., Borowski, W.S., Ussler Iii, W., Olsen, K., Rodriguez, N.M., (2000) Proc. Ocean Drilling Program, Scientific Results, 164, p. 67;
[14]. Whiticar, M.J., (1996) Mitt. Intern. Verein. Limnol, 25, p. 39;
[15]. Reeburgh, W.S., (1967) Limnol. Oceanogr, 12, p. 163;
[16]. Koszelnik, P., (2009) Environment Protection Engineering, 35 (4), pp. 13-19;
[17]. Koszelnik, P., (2009) Sources and Distribution of Biogenic Elements on the Example of the Team Reservoirs Solina-Myczkowce, , Rzeszów University of Technology Publ, Rzeszów, (in Polish);
[18]. Galy-Lacaux, C., Delmas, R., Jambert, C., Dumestre, J.-F., Labroue, L., Richard, S., Gosse, P., (1997) Global Biogeochem. Cycles, 11, p. 471;
[19]. Tremblay, A., Varfalvy, L., Roehm, C.H., Garneau, M., (2004) The Issue of Greenhouse Gases from Hydroelectric Reservoirs: from Boreal to Tropical Regions, ,, (date of access 15.09.2010);
[20]. Xing, Y., Xie, P., Yang, H., Ni, L., Wang, Y., Rong, K., (2005) Atmosp. Environ, 39, p. 5532;
[21]. Zimov, S.A., Voroaev, Y.V., Semiletov, I.P., Davidov, S.P., Prosiannikov, S.F., Chapin Iii, F.S., Chapin, M.C., Tyler, S., (1997) Sciences, 227, p. 800;
[22]. Middelburg, J.J., Nieuwenhuize, J., (1998) Marine Chem, 60, p. 217;
[23]. Hellings, L., Dehairs, F., Tackx, M., Keppens, E., Baeyens, W., (1999) Biogeochem, 47, p. 167;
[24]. Murase, J., Sakamoto, M., (2000) Limnology, 1, p. 177;
[25]. Owen, J.S., Mitchell, M.J., Michener, R.H., (1999) Can. J. Fish. Sci, 56, p. 2186;
[26]. Benner, R., Maccubin, A.E., Hodson, R.E., (1984) Appl. Environ. Microbiol, 47, p. 998;
[27]. Devol, A.H., Richey, J.E., Clark, W.A., King, S.L., (1988) J. Geophys. Res, 93, p. 1583;
[28]. Jedrysek, M.O., (1999) Chem. Geol, 159, p. 241;
[29]. Nosslein, B., Eckert, W., Conrad, R., (2003) Limnol. Oceanogr, 48 (4), p. 1439;
[30]. Ogrinc, N., Lojen, S., Faganeli, J., (2002) Global Planet. Change, 33, p. 57
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