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Lateral variations and vertical structure of the microbial methane cycle in the sediment of Lake Onego (Russia)
Thomas, C., Frossard, V., Perga, M. E., Tofield-Pasche, N., Hofmann, H., Dubois, N., … Lyautey, E. (2019). Lateral variations and vertical structure of the microbial methane cycle in the sediment of Lake Onego (Russia). Inland Waters, 9(2), 205-226. https://doi.org/10.1080/20442041.2018.1500227
Spatial variations in surface water methane super-saturation and emission in Lake Lugano, southern Switzerland
Blees, J., Niemann, H., Erne, M., Zopfi, J., Schubert, C. J., & Lehmann, M. F. (2015). Spatial variations in surface water methane super-saturation and emission in Lake Lugano, southern Switzerland. Aquatic Sciences, 77(4), 535-545. https://doi.org/10.1007/s00027-015-0401-z
Influence of methanogenic populations in Holocene lacustrine sediments revealed by clone libraries and fatty acid biogeochemistry
Vuillemin, A., Ariztegui, D., Nobbe, G., Schubert, C. J., & Pasado Science Team (2014). Influence of methanogenic populations in Holocene lacustrine sediments revealed by clone libraries and fatty acid biogeochemistry. Geomicrobiology Journal, 31(4), 285-298. https://doi.org/10.1080/01490451.2013.824050
Origin and significance of diagenetic concretions in sediments of Laguna Potrok Aike, southern Argentina
Vuillemin, A., Ariztegui, D., De Coninck, A. S., Lücke, A., Mayr, C., Schubert, C. J., & The Pasado Scientific Team (2013). Origin and significance of diagenetic concretions in sediments of Laguna Potrok Aike, southern Argentina. Journal of Paleolimnology, 50(3), 275-291. https://doi.org/10.1007/s10933-013-9723-9
Effects of the antimicrobial tylosin on the microbial community structure of an anaerobic sequencing batch reactor
Shimada, T., Li, X., Zilles, J. L., Morgenroth, E., & Raskin, L. (2011). Effects of the antimicrobial tylosin on the microbial community structure of an anaerobic sequencing batch reactor. Biotechnology and Bioengineering, 108(2), 296-305. https://doi.org/10.1002/bit.22934
Syntrophic acetate oxidation in two-phase (acid–methane) anaerobic digesters
Shimada, T., Morgenroth, E., Tandukar, M., Pavlostathis, S. G., Smith, A., Raskin, I., & Kilian, R. F. (2011). Syntrophic acetate oxidation in two-phase (acid–methane) anaerobic digesters. Water Science and Technology, 64(9), 1812-1820. https://doi.org/10.2166/wst.2011.748
Bacterial methane in the Atzbach-Schwanenstadt gas field (Upper Austrian Molasse Basin), part I: geology
Schulz, H. M., van Berk, W., Bechtel, A., Struck, U., & Faber, E. (2009). Bacterial methane in the Atzbach-Schwanenstadt gas field (Upper Austrian Molasse Basin), part I: geology. Marine and Petroleum Geology, 26(7), 1163-1179. https://doi.org/10.1016/j.marpetgeo.2008.12.004
Formulation of the CBC-model for modelling the contaminants and footprints in natural attenuation of BTEX
Maurer, M., & Rittmann, B. E. (2004). Formulation of the CBC-model for modelling the contaminants and footprints in natural attenuation of BTEX. Biodegradation, 15, 419-434. https://doi.org/10.1023/B:BIOD.0000044589.40735.b0
Modeling intrinsic bioremediation for interpret observable biogeochemical footprints of BTEX biodegradation: the need for fermentation and abiotic chemical processes
Maurer, M., & Rittmann, B. E. (2004). Modeling intrinsic bioremediation for interpret observable biogeochemical footprints of BTEX biodegradation: the need for fermentation and abiotic chemical processes. Biodegradation, 15, 405-417. https://doi.org/10.1023/B:BIOD.0000044590.23221.b1
The IWA Anaerobic Digestion Model No 1 (ADM1)
Batstone, D. J., Keller, J., Angelidaki, I., Kalyuzhnyi, S. V., Pavlostathis, S. G., Rozzi, A., … Vavilin, V. (2002). The IWA Anaerobic Digestion Model No 1 (ADM1). Water Science and Technology, 45(10), 65-73. https://doi.org/10.2166/wst.2002.0292
Anaerobic production and degradation of volatile fatty acids in low temperature environments
Nozhevnikova, A. N., Rebak, S., Kotsyurbenko, O. R., Parshina, S. N., Holliger, C., & Lettinga, G. (2000). Anaerobic production and degradation of volatile fatty acids in low temperature environments. Water Science and Technology, 41(12), 39-46. https://doi.org/10.2166/wst.2000.0236
Methanogenesis in sediments from deep lakes at different temperatures (2–70°C)
Nozhevnikova, A. N., Holliger, C., Ammann, A., & Zehnder, A. J. B. (1997). Methanogenesis in sediments from deep lakes at different temperatures (2–70°C). Water Science and Technology, 36(6-7), 57-64. https://doi.org/10.1016/S0273-1223(97)00507-6