Cyanobacterial viability during hydrothermal biomineralisation
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Preservation of Archaeal Surface Layer Structure During MineralizationExperimental studies on New Zealand hot spring sinters: rates of growth and textural developmentBacterial biomineralization: where to from here?Benefits of bacterial biomineralization.Complexity of cyanobacterial exopolysaccharides: composition, structures, inducing factors and putative genes involved in their biosynthesis and assembly.Mineralization and Preservation of an extremotolerant Bacterium Isolated from an Early Mars Analog Environment.Biomineralization of endolithic microbes in rocks from the McMurdo Dry Valleys of Antarctica: implications for microbial fossil formation and their detection.Silicified virus-like nanoparticles in an extreme thermal environment: implications for the preservation of viruses in the geological record.Early colonization of thermal niches in a silica-depositing hot spring in central Tibet.Carbonate ooids of the Mesoarchaean Pongola Supergroup, South Africa.Experimental fossilization of mat-forming cyanobacteria in coarse-grained siliciclastic sediments.Hematite-coated microfossils: primary ecological fingerprint or taphonomic oddity of the Paleoproterozoic?Preservation and evolution of organic matter during experimental fossilisation of the hyperthermophilic archaea Methanocaldococcus jannaschii.Proterozoic microbial mats and their constraints on environments of silicification.Chilean high-altitude hot-spring sinters: a model system for UV screening mechanisms by early Precambrian cyanobacteriaMicrobial-silica interactions in Icelandic hot spring sinter: possible analogues for some Precambrian siliceous stromatolitesAbiotic-biotic controls on the origin and development of spicular sinter: in situ growth experiments, Champagne Pool, Waiotapu, New ZealandGenesis of large siliceous stromatolites at Frying Pan Lake, Waimangu geothermal field, North Island, New ZealandThe experimental silicification of Aquificales and their role in hot spring sinter formationExperimental study of iron and silica immobilization by bacteria in mixed Fe-Si systems: implications for microbial silicification in hot springsHot spring sinters: keys to understanding Earth's earliest life formsThe early record of life
P2860
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P2860
Cyanobacterial viability during hydrothermal biomineralisation
description
wetenschappelijk artikel
@nl
наукова стаття, опублікована у вересні 2000
@uk
name
Cyanobacterial viability during hydrothermal biomineralisation
@en
Cyanobacterial viability during hydrothermal biomineralisation
@en-gb
Cyanobacterial viability during hydrothermal biomineralisation
@nl
type
label
Cyanobacterial viability during hydrothermal biomineralisation
@en
Cyanobacterial viability during hydrothermal biomineralisation
@en-gb
Cyanobacterial viability during hydrothermal biomineralisation
@nl
prefLabel
Cyanobacterial viability during hydrothermal biomineralisation
@en
Cyanobacterial viability during hydrothermal biomineralisation
@en-gb
Cyanobacterial viability during hydrothermal biomineralisation
@nl
P1433
P1476
Cyanobacterial viability during hydrothermal biomineralisation
@en
P2093
Dave G Adams
P304
P356
10.1016/S0009-2541(00)00212-6
P577
2000-09-01T00:00:00Z