Water near its Supercritical Point and at Alkaline pH for the Production of Ferric Oxides and Silicates in Anoxic Conditions. A New Hypothesis for the Synthesis of Minerals Observed in Banded Iron Formations and for the Related Geobiotropic Chemistry inside Fluid Inclusions

Bassez Marie-Paule

首页> 外文期刊>Origins of Life and Evolution of the Biosphere: The Journal of the International Society for the Study of the Origin of Life >Water near its Supercritical Point and at Alkaline pH for the Production of Ferric Oxides and Silicates in Anoxic Conditions. A New Hypothesis for the Synthesis of Minerals Observed in Banded Iron Formations and for the Related Geobiotropic Chemistry inside Fluid Inclusions

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Water near its Supercritical Point and at Alkaline pH for the Production of Ferric Oxides and Silicates in Anoxic Conditions. A New Hypothesis for the Synthesis of Minerals Observed in Banded Iron Formations and for the Related Geobiotropic Chemistry inside Fluid Inclusions

机译：靠近其超临界点和碱性pH的水，用于生产氧化铁和氧氧化条件下的硅酸盐。在带状铁形成中观察到的矿物质合成的新假设以及流体夹杂物内相关的地质术化学

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An alternative hypothesis for the origin of the banded iron formations and the synthesis of prebiotic molecules is presented here. I show the importance of considering water near its supercritical point and at alkaline pH. It is based on the chemical equation for the anoxic oxidation of ferrous iron into ferric iron at high-subcritical conditions of water and high pH, that I extract from E-pH diagrams drawn for corrosion purposes (Geophysical Research Abstracts Vol 15, EGU2013-22 Bassez 2013, Orig Life Evol Biosph 45(1):5-13, Bassez 2015, Procedia Earth Planet Sci 17, 492-495, Bassez 2017a, Orig Life Evol Biosph 47:453-480, Bassez 2017b). The sudden change in solubility of silica, SiO2, at the critical point of water is also considered. It is shown that under these temperatures and pressures, ferric oxides and ferric silicates can form in anoxic terrains. No Fe-II oxidation by UV light, neither by oxygen is needed to explain the minerals of the Banded Iron Formations. The intervention of any kind of microorganisms, either sulfate-reducing, or Fe-II-oxidizing or O-2-producing, is not required. The chemical equation for the anoxic oxidation of ferrous iron is applied to the hydrolyses of fayalite, Fe2SiO4 and ferrosilite, FeSiO3. It is shown that the BIF minerals of the Hamersley Group, Western Australia, and the Transvaal Supergroup, South Africa, are those of fayalite and ferrosilite hydrolyses and carbonations. The dissolution of crustal fayalite and ferrosilite during water-rock interaction needs to occur at T&P just below the critical point of water and in a rising water which is undersaturated in SiO2. Minerals of BIFs which can then be ejected at the surface from venting arcs are ferric oxide hydroxides, hematite, Fe-III-greenalite, siderite. The greenalite dehydrated product minnesotaite forms when rising water becomes supersaturated in SiO2, as also riebeckite and stilpnomelane. Long lengths of siderite without ferric oxides neither ferric silicates can occur

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《Origins of Life and Evolution of the Biosphere: The Journal of the International Society for the Study of the Origin of Life》 |2018年第3期|共32页
作者
Bassez Marie-Paule;
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作者单位

Univ Strasbourg Inst Technol F-67400 Strasbourg France;

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原文格式 PDF
正文语种 eng
中图分类生命的起源;
关键词
Anoxic iron oxidation; Abiogenic ferric iron; High-subcritical water; High pH; Ferrous/ferric iron; Ferric oxide hydroxides; Ferric oxides; Ferric silicates; Amorphous silica; Banded Iron Formations; Hamersley Group; Transvaal Supergroup; Prebiotic matter; Fluid inclusions; Amino-acids; Geobiotropy; Geobiotropic chemistry; Geochemical origin of life; Theoretical amp; experimental work; Raman analysis;

机译：缺氧铁;辐射铁;高亚临界水;高pH;铁/铁;氧化铁氢氧化铁;氧化铁;硅酸盐;无定形二氧化硅;带状铁形成;哈默斯利集团;野生动物;氨基酸;地球生物化学;地质侵略性化学;地球化学起源;理论＆amp;实验工作;拉曼分析;

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1. Water near its Supercritical Point and at Alkaline pH for the Production of Ferric Oxides and Silicates in Anoxic Conditions. A New Hypothesis for the Synthesis of Minerals Observed in Banded Iron Formations and for the Related Geobiotropic Chemistry inside Fluid Inclusions [J] . Bassez Marie-Paule Origins of Life and Evolution of the Biosphere: The Journal of the International Society for the Study of the Origin of Life . 2018,第3期

机译：靠近其超临界点和碱性pH的水，用于生产氧化铁和氧氧化条件下的硅酸盐。在带状铁形成中观察到的矿物质合成的新假设以及流体夹杂物内相关的地质术化学
2. Mineral chemistry and fluid inclusion composition as petrogenetic tracers of iron oxide-apatite ores from Hormuz Island, Iran [J] . Faramarzi Narges Sadat, Jamshidibadr Mahboobeh, Heuss-Assbichler Soraya, Journal of African earth sciences . 2019,第JULa期

机译：伊朗霍尔木兹岛氧化铁-磷灰石矿石成因示踪剂的矿物化学和流体包裹体组成
3. Mineral chemistry and fluid inclusion composition as petrogenetic tracers of iron oxide-apatite ores from Hormuz Island, Iran [J] . Faramarzi Narges Sadat, Jamshidibadr Mahboobeh, Heuss-Assbichler Soraya, Journal of African earth sciences . 2019,第Jula期

机译：矿物化学和液体包裹组合物作为来自Hormuz Island，伊朗的氧化铁 - 磷灰石矿石的细胞内示踪剂
4. Formation of high-grade manganese ores in the Kalahari manganese field, South Africa: evidence from fluid inclusion studies in co-genetic iron and manganese oxides, and gangue minerals [C] . V.Luders, J.Gutzmer, N.J.Beukes Biennial SGA meeting . 1999

机译：在南非Kalahari锰领域的高档锰矿矿石的形成：来自共遗传钢和锰氧化物中的流体包容性研究的证据，以及甘蓝矿物质
5. Water near its Supercritical Point and at Alkaline pH for the Production of Ferric Oxides and Silicates in Anoxic Conditions. A New Hypothesis for the Synthesis of Minerals Observed in Banded Iron Formations and for the Related Geobiotropic Chemistry inside Fluid Inclusions [O] . Marie-Paule Bassez -1

机译：在超临界点附近和碱性pH下的水可在缺氧条件下生产三氧化二铁和硅酸盐。带状铁层中观察到的矿物合成和流体包裹体内部相关地球生物化学的新假说

Water near its Supercritical Point and at Alkaline pH for the Production of Ferric Oxides and Silicates in Anoxic Conditions. A New Hypothesis for the Synthesis of Minerals Observed in Banded Iron Formations and for the Related Geobiotropic Chemistry inside Fluid Inclusions

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