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Geomicrobiology Journal Volume 7, 1989 - Issue 3
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Original Articles

Distribution of inorganic species in two Antarctic cryptoendolithic microbial communities

Carl G. Johnston Department of Biological Sciences, University of Cincinnati, Cincinnati, OH, 45221–0006
&
J. Robie Vestal Department of Biological Sciences, University of Cincinnati, Cincinnati, OH, 45221–0006
Pages 137-153 | Accepted 11 Aug 1989, Published online: 28 Jan 2009

Citations (29)

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ChristopherR. Omelon. (2008) Endolithic Microbial Communities in Polar Desert Habitats. Geomicrobiology Journal 25:7-8, pages 404-414.
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ChristopherR. Omelon, WayneH. Pollard & F. Grant Ferris. (2006) Chemical and Ultrastructural Characterization of High Arctic Cryptoendolithic Habitats. Geomicrobiology Journal 23:3-4, pages 189-200.
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Articles from other publishers (27)

Evan B. Qu, Emine Ertekin & Jocelyne DiRuggiero. 2022. Microbiology of Hot Deserts. Microbiology of Hot Deserts 111 132 .
W. S. González-Gómez, P. Quintana, S. Gómez-Cornelio, C. García-Solis, A. Sierra-Fernandez, O. Ortega-Morales & S. C. De la Rosa-García. (2018) Calcium oxalates in biofilms on limestone walls of Maya buildings in Chichén Itzá, Mexico. Environmental Earth Sciences 77:6.
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Christopher R. Omelon. 2016. Their World: A Diversity of Microbial Environments. Their World: A Diversity of Microbial Environments 171 201 .
Elya P. Zazovskaya, Dmitriy G. Fedorov-Davydov, Tatyana V. Alekseeva & Maria I. Dergacheva. 2015. The Soils of Antarctica. The Soils of Antarctica 21 44 .
Asunción De Los Ríos, Jacek Wierzchos & Carmen Ascaso. (2014) The lithic microbial ecosystems of Antarctica’s McMurdo Dry Valleys. Antarctic Science 26:5, pages 459-477.
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Thulani P. Makhalanyane, Stephen B. Pointing & Don A. Cowan. 2014. Antarctic Terrestrial Microbiology. Antarctic Terrestrial Microbiology 163 179 .
L. A. Ziolkowski, N. C. S. Mykytczuk, C. R. Omelon, H. Johnson, L. G. Whyte & G. F. Slater. (2013) Arctic gypsum endoliths: a biogeochemical characterization of a viable and active microbial community. Biogeosciences 10:11, pages 7661-7675.
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Henry J. Sun, James A. Nienow & Christopher P. McKay. 2010. Life in Antarctic Deserts and other Cold Dry Environments. Life in Antarctic Deserts and other Cold Dry Environments 110 138 .
Wayne Pollard, Tim Haltigin, Lyle Whyte, Thomas Niederberger, Dale Andersen, Christopher Omelon, Jay Nadeau, Miles Ecclestone & Martin Lebeuf. (2009) Overview of analogue science activities at the McGill Arctic Research Station, Axel Heiberg Island, Canadian High Arctic. Planetary and Space Science 57:5-6, pages 646-659.
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Charles S. Cockell & Gordon R. Osinski. (2010) Impact‐induced impoverishment and transformation of a sandstone habitat for lithophytic microorganisms. Meteoritics & Planetary Science 42:11, pages 1985-1993.
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Christopher R. Omelon, Wayne H. Pollard & F. Grant Ferris. (2007) Inorganic Species Distribution and Microbial Diversity within High Arctic Cryptoendolithic Habitats. Microbial Ecology 54:4, pages 740-752.
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K. Gajananda. (2006) Soil organic carbon and microbial activity: east Antarctica. European Journal of Soil Science 58:3, pages 704-713.
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Christopher R. Omelon, Wayne H. Pollard & F. Grant Ferris. (2006) Environmental controls on microbial colonization of high Arctic cryptoendolithic habitats. Polar Biology 30:1, pages 19-29.
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Charles S. Cockell, Pascal Lee, Paul Broady, Darlene S. S. Lim, Gordon R. Osinski, John Parnell, Christian Koeberl, Lauri Pesonen & Johanna Salminen. (2005) Effects of asteroid and comet impacts on habitats for lithophytic organisms-A synthesis. Meteoritics & Planetary Science 40:12, pages 1901-1914.
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R. L. Blackhurst, M. J. Genge, A. T. Kearsley & M. M. Grady. (2005) Cryptoendolithic alteration of Antarctic sandstones: Pioneers or opportunists?. Journal of Geophysical Research: Planets 110:E12.
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Don A. CowanLemese Ah Tow. (2004) Endangered Antarctic Environments. Annual Review of Microbiology 58:1, pages 649-690.
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Kevin A. Hughes & Blair Lawley. (2003) A novel Antarctic microbial endolithic community within gypsum crusts. Environmental Microbiology 5:7, pages 555-565.
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J. A. Nienow, E. I. Friedmann & R. Ocampo‐Friedmann. 2003. Encyclopedia of Environmental Microbiology. Encyclopedia of Environmental Microbiology.
D. D. Wynn-Williams. 2002. The Ecology of Cyanobacteria. The Ecology of Cyanobacteria 341 366 .
Elizabeth J McKenzie, Kevin L Brown, Sherry L Cady & Kathleen A Campbell. (2001) Trace metal chemistry and silicification of microorganisms in geothermal sinter, Taupo Volcanic Zone, New Zealand. Geothermics 30:4, pages 483-502.
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D.D Wynn-Williams & H.G.M Edwards. (2000) Antarctic ecosystems as models for extraterrestrial surface habitats. Planetary and Space Science 48:11, pages 1065-1075.
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H.G.M. Edwards, J.M. Holder & D.D. Wynn-williams. (1998) Comparative FT-Raman spectroscopy of Xanthoria lichen-substratum systems from temperate and antarctic habitats. Soil Biology and Biochemistry 30:14, pages 1947-1953.
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H.G.M. Edwards & N.C. Russell. (1998) Vibrational spectroscopic study of iron(II) and iron(III) oxalates. Journal of Molecular Structure 443:1-3, pages 223-231.
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F. G. Ferris & E. A. Lowson. (1997) Ultrastructure and geochemistry of endolithic microorganisms in limestone of the Niagara Escarpment. Canadian Journal of Microbiology 43:3, pages 211-219.
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Roger C. Prince. (1992) The methuselah factor: Age in cryptoendolithic communities. Trends in Ecology & Evolution 7:7, pages 211.
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Carl G. Johnston & J. Robie Vestal. (1991) Photosynthetic Carbon Incorporation and Turnover in Antarctic Cryptoendolithic Microbial Communities: Are They the Slowest-Growing Communities on Earth?. Applied and Environmental Microbiology 57:8, pages 2308-2311.
Crossref
J.Robie Vestal. (1991) The Antarctic cryptoendolithic microbial ecosystem as a model for studying microbes in shale and coal. Resources, Conservation and Recycling 5:2-3, pages 133-144.
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