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T W Lyons

Showing results (1-10 of 16) with videos related to

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Proceedings of the National Academy of Sciences of the United States of America|May 20, 2009
The worm turned, and the ocean followedT W Lyons, B C Gill
Geobiology|November 18, 2009
Redox reduxT W Lyons, C T Reinhard, C Scott
Geobiology|March 27, 2018
What the ~1.4 Ga Xiamaling Formation can and cannot tell us about the mid-Proterozoic oceanC W Diamond, N J Planavsky, C Wang, et al.
Science (New York, N.Y.)|April 7, 2004
Molybdenum isotope evidence for widespread anoxia in mid-Proterozoic oceansG L Arnold, A D Anbar, J Barling, et al.
Geobiology|October 30, 2014
Deep-water microbialites of the Mesoproterozoic Dismal Lakes Group: microbial growth, lithification, and implications for coniform stromatolitesJ K Bartley, L C Kah, T D Frank, et al.
Geobiology|November 27, 2012
A new look at saponite formation and its implications for early animal records in the Ediacaran of South ChinaJ Huang, X Chu, T W Lyons, et al.
Nature Communications|February 20, 2019
Carbonate formation in salt dome cap rocks by microbial anaerobic oxidation of methaneK H Caesar, J R Kyle, T W Lyons, et al.
Geobiology|October 3, 2009
Formation and diagenesis of modern marine calcified cyanobacteriaN Planavsky, R P Reid, T W Lyons, et al.
Geobiology|January 28, 2014
An inorganic geochemical argument for coupled anaerobic oxidation of methane and iron reduction in marine sedimentsN Riedinger, M J Formolo, T W Lyons, et al.
Geobiology|February 15, 2012
Microbial diversity under extreme euxinia: Mahoney Lake, CanadaV Klepac-Ceraj, C A Hayes, W P Gilhooly, et al.
Pageof 2

Showing results (1-10 of 16) with videos related to

Sort By:
Pageof 2
Proceedings of the National Academy of Sciences of the United States of America|May 20, 2009
The worm turned, and the ocean followedT W Lyons, B C Gill
Geobiology|November 18, 2009
Redox reduxT W Lyons, C T Reinhard, C Scott
Geobiology|March 27, 2018
What the ~1.4 Ga Xiamaling Formation can and cannot tell us about the mid-Proterozoic oceanC W Diamond, N J Planavsky, C Wang, et al.
Science (New York, N.Y.)|April 7, 2004
Molybdenum isotope evidence for widespread anoxia in mid-Proterozoic oceansG L Arnold, A D Anbar, J Barling, et al.
Geobiology|October 30, 2014
Deep-water microbialites of the Mesoproterozoic Dismal Lakes Group: microbial growth, lithification, and implications for coniform stromatolitesJ K Bartley, L C Kah, T D Frank, et al.
Geobiology|November 27, 2012
A new look at saponite formation and its implications for early animal records in the Ediacaran of South ChinaJ Huang, X Chu, T W Lyons, et al.
Nature Communications|February 20, 2019
Carbonate formation in salt dome cap rocks by microbial anaerobic oxidation of methaneK H Caesar, J R Kyle, T W Lyons, et al.
Geobiology|October 3, 2009
Formation and diagenesis of modern marine calcified cyanobacteriaN Planavsky, R P Reid, T W Lyons, et al.
Geobiology|January 28, 2014
An inorganic geochemical argument for coupled anaerobic oxidation of methane and iron reduction in marine sedimentsN Riedinger, M J Formolo, T W Lyons, et al.
Geobiology|February 15, 2012
Microbial diversity under extreme euxinia: Mahoney Lake, CanadaV Klepac-Ceraj, C A Hayes, W P Gilhooly, et al.
Pageof 2