Rapid <i>in situ</i> silicification of microbes at Loburu hot springs, Lake Bogoria, Kenya Rift Valley

Renaut, Robin W.; Jones, Brian; Tiercelin, J.-J.

doi:10.1046/j.1365-3091.1998.00194.x

Cited by 141 publications

(98 citation statements)

References 65 publications

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“…Thereare severaltypesof organic deposits in the geothermal field of Sicakeermik as described by Risacher and Eugster (1979), Chafetz and Butler (1980), Meredith (1980), Schreiber et al (1981), Chafetz and Meredith(1983), Chafetz and Folk (1984), Love and Chafetz (1988), Guo and Riding (1992, 1994, 1998, Renaut et al (1998), and Chafetz and Iron -and manganese -rich shrubfabrics form on low -angle slopesin microfalls/microcascades as wellas at the edgesof microterraces. Shrub fabrics can be considered somewhat equivalent to "fossil bacteria stromatolithes" described by Walter (1976).…”

Section: Evidence Of Microbiologic Activity In Travertinesmentioning

confidence: 95%

Evidence of microbiologic activity in modern travertines: Sicakcermik geothermal field, central Turkey

Teki̇n

Kayabalı

Ayyidiz

et al. 2000

Carbonates Evaporites

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Modem travertine deposits are observed in the Sicakcermikhot springs located northwest of Sivas, central Anatolia. They are the carbonate deposits of crustal (spongy) and/or alabaster-textured formationscontrolledby both organic and inorganicprocesses. The structuresformed under the influenceof inorganicprocesses includethe accumulationson the fissure and joint ridges. These structures are adjacent to the hot water emergence spots representing the points of rapid hot water flow and sudden release of CO 2 , The structures developedunder the influence of organicprocesses form in areas at relativelyfarther distancesfrom the hot water emergencepoints. These structures were described to be "waterfall or cascade deposits"; "terrace-mound travertines"; and "shallow lake fans" by different researchers. They are recognized in the field by special identifying trails such as manganous-ferrous travertine shrubs resembling ivy, siliceous stromatolites, and ferrous pisoids, 3 to 12 mm in diameter.All the modern travertinesamplesexamined are dominantlyformedby subidiomorphicprismatic-tabular calcite crystals. ScanningElectronMicroscopyrevealed that calcite crystalsforming the pisoids arecharacterizedby zonal growth. Stromatoliticformations,on theother hand.bear regularjoints developed as a consequenceof sudden cooling and some special structuresindicativeof bacterial activity (in the form of nodule, spheroid, ellipsoid, column,filament and honeycombor grape bunch structures). In addition, secondary dissolutionvugs and pores giving way to the release of CO 2 are associated structures with the stromatolitic formations. The data collected from all the utilized techniquessuggest that the microbiological formations observedin the travertinesof Sicakcermikhot spring were produced by the sulfatereducing, boring-budding bacteria such as Coccoids, Pedomicrobium, Beggiatoa sp., Thiobacillus sp., as well as blue-green algae (Cyanobacteria).The travertineoccurrencesproducedby both organic and inorganicprocesseshave an annual averageof 3-5emdepositionin thickness. The hot water emergence points and their flowpaths manifest seldom-found natural features. These natural monuments are irresponsibly destroyedfor several reasons. The authors argue that these formations, significantfrom the point of view of their occurrencemechanism as well as their final products, must be preserved. If accomplished, a modem natural monument similar to that in Pamukkale (furkey) and YellowstoneNational Park (Wyoming,USA) could develop within a reasonable length of time.

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Section: Evidence Of Microbiologic Activity In Travertinesmentioning

confidence: 95%

Evidence of microbiologic activity in modern travertines: Sicakcermik geothermal field, central Turkey

Teki̇n

Kayabalı

Ayyidiz

et al. 2000

Carbonates Evaporites

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“…The cell walls of microbes generally include, more or less, polysaccharides and proteins, and have an affinity for silica (e.g., Renaut et al 1998). Mizutani et al (1998) also reported that amines, notably polyamine, catalyze the polycondensation of silicic acid in water.…”

Section: Silica Biomineralization Of Unicellular Microbes Under Acidimentioning

confidence: 99%

“…In order to understand silica control by the microbes, it is important to investigate silicification of unicellular cells. It is also necessary to look for a modern-day aqueous surface-environment where unicellular microbes undergo silicification (Renaut et al 1998, Asada & Tazaki 1999. In some examples of hydrothermal systems, such as terrestrial hot-springs and hydrothermal vents on the seafloor, silica precipitation occurs (Tazaki et al 1996, Tazaki 1999b, Shikaura et al 1999, Yamamura et al 1997.…”

Section: Introductionmentioning

confidence: 99%

“…Almost all the silica at Loburu Springs, Kenya, nucleated on microbial substrates; nucleation was facilitated by the affinity of silica for functional groups on microbial surfaces (Renaut et al 1998). These processes of biomineralization contributed to the rapid silicification of the microbes and to their preservation in modern and ancient cherts.…”

Section: Introductionmentioning

confidence: 99%

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Silica Biomineralization of Unicellular Microbes Under Strongly Acidic Conditions

Asada¹,

Tazaki²

2001

The Canadian Mineralogist

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Silica biomineralization associated with unicellular microbes (Cyanidium caldarium) living in strongly acidic hot springs were observed by electron microscopy. The unicellular microbes form green biomats undergoing photosynthesis in Kamuiwakka Falls, Hokkaido, Japan. The hot-spring water is strongly acidic, with pH less than 2, and rich in S. Electron microscopy observations showed that the cell walls of unicellular microbes served as sites for nucleation of silica, polymerization of silicic acid and adhesion of colloidal silica. The precipitates formed an amorphous silica crust on the cell walls, which consist of granular silica spherules with a uniform size. The spherules commonly assimilate the cell walls. Data from X-ray diffraction and electron diffraction of the silica crusts reveal that the crusts are amorphous or of low crystallinity. Electron-dispersion X-ray spectroscopy also showed that the crusts are mainly composed of Si with traces of S and Cl. The unicellular microbes have a double-layer cell wall; therefore, silica crusts may form a double layer. FT-IR spectra of cells with and without silica crusts indicated that N-H, C=O and C-N-H bands were derived from peptides in cells, whereas the Si-O band was derived from silica crusts. Some models also are suggested on the interaction between cell wall and silica under strongly acidic conditions. Processes of silica biomineralization of unicellular microbes as described in this paper have profound implications for evolution of siliciferous microbes.

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“…Similar spectacularly preserved silicified microbes, including cyanobacteria, are known from modern hot spring environments. In this case, the rapidly silicified microorganisms are preserved with their morphology, diameter, length, and some inner structures, such as remains of cytoplasm and intercellular septation (e.g., Cady and Farmer, 1996;Renaut et al, 1998;Jones et al, 2004). Also, fossil analogues of modern siliceous thermal spring sinters, like the Devonian Rhynie chert (Scotland), enclose cellularly preserved microorganisms (Trewin, 1994(Trewin, , 1996Cady and Farmer, 1996;Preston and Genge, 2010).…”

mentioning

confidence: 99%

Calcification and Silicification: Fossilization Potential of Cyanobacteria from Stromatolites of Niuafo‘ou's Caldera Lakes (Tonga) and Implications for the Early Fossil Record

et al. 2012

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Calcification and silicification processes of cyanobacterial mats that form stromatolites in two caldera lakes of Niuafo'ou Island (Vai Lahi and Vai Si'i) were evaluated, and their importance as analogues for interpreting the early fossil record are discussed. It has been shown that the potential for morphological preservation of Niuafo'ou cyanobacteria is highly dependent on the timing and type of mineral phase involved in the fossilization process. Four main modes of mineralization of cyanobacteria organic parts have been recognized: (i) primary early postmortem calcification by aragonite nanograins that transform quickly into larger needle-like crystals and almost totally destroy the cellular structures, (ii) primary early postmortem silicification of almost intact cyanobacterial cells that leave a record of spectacularly well-preserved cellular structures, (iii) replacement by silica of primary aragonite that has already recrystallized and obliterated the cellular structures, (iv) occasional replacement of primary aragonite precipitated in the mucopolysaccharide sheaths and extracellular polymeric substances by Al-Mg-Fe silicates. These observations suggest that the extremely scarce earliest fossil record may, in part, be the result of (a) secondary replacement by silica of primary carbonate minerals (aragonite, calcite, siderite), which, due to recrystallization, had already annihilated the cellular morphology of the mineralized microbiota or (b) relatively late primary silicification of already highly degraded and no longer morphologically identifiable microbial remains.

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Rapid in situ silicification of microbes at Loburu hot springs, Lake Bogoria, Kenya Rift Valley

Cited by 141 publications

References 65 publications

Evidence of microbiologic activity in modern travertines: Sicakcermik geothermal field, central Turkey

Evidence of microbiologic activity in modern travertines: Sicakcermik geothermal field, central Turkey

Silica Biomineralization of Unicellular Microbes Under Strongly Acidic Conditions

Calcification and Silicification: Fossilization Potential of Cyanobacteria from Stromatolites of Niuafo‘ou's Caldera Lakes (Tonga) and Implications for the Early Fossil Record

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