Nanostructure of palygorskite/sepiolite in Texas caliche: Possible bacterial origin

Folk, Robert L.; Rasbury, E. Troy

doi:10.1007/bf03176241

Cited by 11 publications

(2 citation statements)

References 64 publications

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“…Notably, ACC was absent in areas that lacked EPS and/or filamentous microbes. Jones & Peng () pointed out that the nanoparticles that form ACC are morphologically similar to the nannobacteria that have been widely reported from many different settings (Folk, ; Folk & Rasbury, ). Nevertheless, these authors argued that ACC can form abiotically by rapid precipitation from supersaturated fluids and that the constituent nanoparticles need not be indicative of calcified nannobacteria.…”

Section: Interpretationsmentioning

confidence: 99%

Signatures of biologically influenced CaCo₃ and Mg–Fe silicate precipitation in hot springs: Case study from the Ruidian geothermal area, western Yunnan Province, China

Jones

Peng

2013

Sedimentology

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Hot springs at Gongxiaoshe and Zhuyuan (maximum temperatures of 73 to 84°C, respectively) are characterized by deposits formed of calcite, aragonite, non‐crystalline Si–Mg–Fe deposits, and minor amounts of barite and gypsum. The deposits at Gongxiaoshe are formed largely of alternating calcite and aragonite laminae, whereas those at Zhuyuan are formed largely of calcite. The calcite is in the form of: (i) pseudodendrites that grew as sub‐crystals stacked upon each other; and (ii) unattached euhedral and incompletely formed dodecahedral and rhombohedral crystals. Amorphous CaCO3, formed of nanoparticles <1 μm long, is common in some of the Zhuyuan deposits, but minor in the Gongxiaoshe deposits. The morphologically diverse arrays of aragonite crystals that lie parallel to bedding were not nucleated on a growth surface. Many substrates in these deposits are covered with reticulate coatings that are formed largely of Si and Mg with minor Fe and micro‐granular coatings that are formed largely of Si and Fe. Biofilms, with their extracellular polymeric substances, and microbes are common at both springs. The compositionally and crystallographically diverse precipitates at these two springs are attributed to a biologically influenced model with precipitation taking place in micro‐domains that developed in the extracellular polymeric substances. According to this model, precipitation varied at the micron‐scale influenced by the elemental concentrations that developed in the hydrogel of extracellular polymeric substances. Critically, the very low preservation potential of the extracellular polymeric substance and its formative microbes means that the precipitates will rapidly lose evidence of their biotic origin. The compositional diversity of the precipitates, the crystallographic diversity of the calcite and aragonite with numerous incompletely formed crystals, and local concentrations of Si, Mg and Fe may, however, serve as proxies of that biologically influenced precipitation.

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Section: Interpretationsmentioning

confidence: 99%

Signatures of biologically influenced CaCo₃ and Mg–Fe silicate precipitation in hot springs: Case study from the Ruidian geothermal area, western Yunnan Province, China

Jones

Peng

2013

Sedimentology

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“…They are also known as calcifying nanoparticles (CNPs). In 1997 Folk proposed that nanobacteria are the foremost operators of precipitation of all minerals and crystals on Earth formed in fluid water, that they moreover cause all oxidation of metals, which are abundant in many biological specimens (Folk, 1993, 2005, Folk & Rasbury, 2007. The nature of these obscure cellculture contaminants and their role in human organ disease has raised a lot of attention in therapeutic and human health research over the final decades (Kajander .…”

Section: Introductionmentioning

confidence: 99%

Spotlight on the Association Between Nanobacteria and Some Human Diseases

Elshafei

2022

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Nanobacteria are the smallest cell-walled bacteria, recently discovered in human and commercial cell culture serum, also known as calcifying nanoparticles (CNPs). Nanobacteria are the name of a proposed class of living organisms particularly cell-walled microorganisms with a size much smaller than the generally accepted lower limit size for life (about 200nm). Recently, histopathological immunohistochemical staining, transmission electron microscopy (TEM), and calcific staining studies revealed the association of nanobacteria in kidney and gall stones. Nanobacteria have been appeared to contribute to different benign and malignant calcifications in the form of calcium phosphate crystals and contribute to malignant calcifications in breast and ovarian cancer. Nanobacteria also cause prostatic stones in patients with chronic pelvic pain syndrome due to chronic prostatitis and are present in dental and pulp calculus. The evidence that nanobacteria exist within the human body and are closely related to numerous sorts of diseases is now overpowering. However, future research is required to reveal their nature and impact on health and disease. This paper aimed to highlight the harmful role of nano-bacteria on human health and to describe the association of nanobacteria and their hypothesized relationship with some human diseases.

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Distribution of palygorskite in Cretaceous and Tertiary sediments and the associated soils in southern Iran

et al. 2018

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Nanostructure of palygorskite/sepiolite in Texas caliche: Possible bacterial origin

Cited by 11 publications

References 64 publications

Signatures of biologically influenced CaCo₃ and Mg–Fe silicate precipitation in hot springs: Case study from the Ruidian geothermal area, western Yunnan Province, China

Signatures of biologically influenced CaCo₃ and Mg–Fe silicate precipitation in hot springs: Case study from the Ruidian geothermal area, western Yunnan Province, China

Spotlight on the Association Between Nanobacteria and Some Human Diseases

Distribution of palygorskite in Cretaceous and Tertiary sediments and the associated soils in southern Iran

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Nanostructure of palygorskite/sepiolite in Texas caliche: Possible bacterial origin

Cited by 11 publications

References 64 publications

Signatures of biologically influenced CaCo3 and Mg–Fe silicate precipitation in hot springs: Case study from the Ruidian geothermal area, western Yunnan Province, China

Signatures of biologically influenced CaCo3 and Mg–Fe silicate precipitation in hot springs: Case study from the Ruidian geothermal area, western Yunnan Province, China

Spotlight on the Association Between Nanobacteria and Some Human Diseases

Distribution of palygorskite in Cretaceous and Tertiary sediments and the associated soils in southern Iran

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Product

Resources

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Signatures of biologically influenced CaCo₃ and Mg–Fe silicate precipitation in hot springs: Case study from the Ruidian geothermal area, western Yunnan Province, China

Signatures of biologically influenced CaCo₃ and Mg–Fe silicate precipitation in hot springs: Case study from the Ruidian geothermal area, western Yunnan Province, China