Microbial-Metal Binding
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MICROBIAL-METAL BINDING
Semikhatov, M. A., Gebelein, C. D., Cloud, P., Awramik, S. M., and Benmore, W. C., 1979. Stromatolite morphogenesis - progress and problems. Canadian Journal of Earth Science, 16, 992–1015. Serebryakov, S. N., (1976) Biotic and abiotic factors controlling the morphology of Riphean stromatolites. In Walter, M. R. (ed.), Stromatolites, Developments in Sedimentology 20, Amsterdam: Elsevier, pp. 321–336. Shapiro, R. S., 2000. A comment on the systematic confusion of thrombolites. Palaios, 15, 166–169. Shapiro, R. S., and Awramik, S. M., 2006. Favosamaceria cooperi new group and form: a widely dispersed, time-restricted thrombolite. Journal of Paleontology, 80, 411–422. Sheldon, N. D., 2006. Precambrian paleosols and atmospheric CO2 levels. Precambrian Research, 147, 148–155. Sherman, A. G., James, N. P., and Narbonne, G. M., 2000. Sedimentology of a late Mesoproterozoic muddy carbonate ramp, northern Baffin Island, Arctic Canada. In Grotzinger, J. P., and James, N. P. (eds.), Carbonate Sedimentation and Diagenesis in the Evolving Precambrian World. Tulsa, OK: Society of Economic Paleontologists and Mineralogists. SEPM special publication, 67, pp. 275–294. Stal, L. J., van Gemerden, H., and Krumbein, W. E., 1985. Structure and development of a benthic marine microbial mat. FEMS Microbiology Ecology, 31, 111–125. Steele, J. H., 1825. A description of the Oolitic Formation lately discovered in the county of Saratoga, and state of New-York. American Journal of Science, 9, 16–19, part of pl. 2. Sumner, D. Y., 1997a. Carbonate precipitation and oxygen stratification in late Archean seawater as deduced from facies and stratigraphy of the Gamohaan and Frisco formations, Transvaal Supergroup, South Africa. American Journal of Science, 297, 455–487. Sumner, D. Y., 1997b. Late Archean calcite-microbe interactions: two morphologically distinct microbial communities that affected calcite nucleation differently. Palaios, 12, 302–318. Sumner, D. Y., and Grotzinger, J. P., 2004. Implications for Neoarchaean ocean chemistry from primary carbonate mineralogy of the Campbellrand-Malmani platform, South Africa. Sedimentology, 51, 1–27. Turner, E. C., Narbonne, G. M., and James, N. P., 1993. Neoproterozoic reef microstructures from the Little Dal Group, northwestern Canada. Geology, 21, 259–262. Turner, E. C., James, N. P., and Narbonne, G. M., 1997. Growth dynamics of Neoproterozoic calcimicrobial reefs, Mackenzie mountains, northwest Canada. Journal of Sedimentary Research, 67, 437–450. Turner, E. C., Narbonne, G. M., and James, N. P., 2000a. Framework composition of early Neoproterozoic calcimicrobial reefs and associated microbialites, Mackenzie Mountains, N.W.T., Canada. In Grotzinger, J. P., and James, N. P. (eds.), Carbonate Sedimentation and Diagenesis in the Evolving Precambrian World. Tulsa, OK: Society of Economic Paleontologists and Mineralogists. SEPM special publication, 67, pp. 179–205. Turner, E. C., James, N. P., and Narbonne, G. M., 2000b. Taphonomic control on microstructure in early Neoproterozo
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