EXTREMOPHILES as Astrobiological Models. Группа авторов
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Название: EXTREMOPHILES as Astrobiological Models

Автор: Группа авторов

Издательство: John Wiley & Sons Limited

Жанр: Физика

Серия:

isbn: 9781119593102

isbn:

СКАЧАТЬ Sand, W., Gehrke, T., Hallmann, R., Schippers, A., Sulfur chemistry, biofilm and the (in) direct attack mechanisms. A critical evaluation of bacterial leaching. Appl. Microbiol. Biotechnol., 43, 961–966, 1995.

      2.99. Sand, W., Gehrke, T., Jozsa, P.G., Schippers, A., Biochemistry of bacterial leaching. Direct vs indirect bioleaching. Hydrometallurgy, 59, 159–175, 2001.

      2.100. Sanz, J.L., Rodríguez, N., Díaz, E., Amils, R., Methanogenesis in the sediments of Río Tinto, an extreme acidic environment. Environ. Microbiol., 13, 8, 2336–2341, 2011.

      2.101. Squyres, S.W., Grotzinger, J.P., Arvidson, R.E., Bell, J.F., III, Calvin, W., Christensen, P.R., Clark, B.C., Crisp, J.A., Farrand, W.H., Herkenhoff, K.E. et al., In situ evidence for an ancient aqueous environment in Meridiani Planum, Mars. Science, 306, 1709–1714, 2004.

      2.102. Taconi, K.A., Zappi, M.E., French, W.T., Brown, L.R., Methanogenesis under acidic pH conditions in a semy-continuous reactor system. Bioresour. Technol., 99, 8075–8081, 2008.

      2.103. Vizzioli, C., Bacterial diversity associated to the tidal area of Río Tinto. PhD thesis, Universidad Autónoma de Madrid, Spain, 2017.

      2.104. Wächtershäuser, G., Groundworks for an evolutionary biochemistry: The iron Sulphur world. Prog. Biophys. Mol. Biol., 58, 85–201, 1992.

      2.105. Webster, C.R., Mahaffy, P.R., Atreya, S.K., Flesch, G.J., Mischna, M.A., Meslin, P.-Y., Farley, K.A., Conrad, P.G., Christensen, L.E., Pavlov, A.A. et al., Mars methane detection and variability at Gale crater. Science, 347, 415–417, 2015.

      2.106. Widdel, F., Schnell, S., Heising, S., Ehrenreich, A., Assmus, B., Schink, B., Ferrous iron oxidation by anoxygenic phototrophic bacteria. Nature, 162, 834–836, 1993.

      2.107. Wiegel, J., Ljungdahl, L.G., Demain, A.L., The importance of thermophilic bacteria in biotechnology. Crit. Rev. Biotechnol., 3, 39–108, 1985.

      2.108. Woese, C.R. and Fox, G.E., Phylogenetic structure of the prokaryotic domain: The primary kingdoms. Proc. Natl. Acad. Sci. USA, 77, 5088–5090, 1977.

      2.109. Woese, C.R., Kandler, O., Wheelis, M.L., Toward a natural system of organisms: Proposal for the domains archaea, bacteria and eukarya. Proc. Natl. Acad. Sci. USA, 87, 4576–4579, 1990.

      2.110. Yan, R., Kappler, A., Peiffer, S., Interference of nitrite with pyrite under acidic conditions: Implications for studies of chemolithotrophic denitrification. Environ. Sci. Technol., 49, 11403–11410, 2015.

      2.111. Zhang, G., Dong, H., Xu, Z., Zhao, D., Zhang, C., Microbial diversity in ultra-high-pressure rocks and fluids from the Chinese Continental Scientific Drilling Project in China. Appl. Environ. Microbiol., 71, 3213–3227, 2005.

      2.112. Zolotov, M. and Shock, E., Formation of jarosite-bearing deposits through aqueous oxidation of pyrite at the Meridiani Planum, Mars. Geophys. Res. Lett., 32, L21203, 2005.

      1 * Corresponding author: [email protected]

      2 Ricardo Amils: https://www.researchgate.net/profile/Ricardo_Amils, http://www.cbm.uam.es/ramils, https://orcid.org/0000-0002-7560-1033

      3 David Fernández-Remolar: https://www.researchgate.net/profile/David_Fernandez-Remolar, https://scholar.google.es/citations?user=NDpdhrIAAAAJ&hl=es, https://cab.academia.edu/DavidFernandezRemolar

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