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1.
Various Fe–S minerals of the mackinawite–greigite–pyrite association, ubiquitous in biogenic remains from Jurassic mudstones, have been described in detail in an SEM–EDS study. Two diagenetic stages of Fe sulphide formation and preservation in the Jurassic organic skeletons are identified. In the first stage, pyrite formed as euhedra and framboids shortly after deposition, mainly in the interiors of the skeletons which still contained labile organic matter. The second stage of iron sulphide formation was related to the later stages of diagenesis, when the influence of the surrounding sediment was more dominant, although some organic matter was still present in the biogenic skeletons. A Fe-rich carbonate–aluminosilicate cement was then introduced between the earliest iron sulphides and later subsequently sulphidized, to form a metastable iron monosulphide of mackinawite composition and then greigite. 相似文献
2.
In order to understand the response of authigenic pyrite to gas hydrate geo-systems, pyrite tubes or rods at the sulfate–methane transition (SMT) zone of core GC10 from the northern continental slope of the South China Sea (SCS) were investigated. In situ X-ray diffraction (XRD) results show that the pyrite tube consists of pyrite micro-crystals with trace amount of graphite in the inner tube. Scanning electron microscope (SEM) observations of pyrite tubes indicate various aggregations in the form of framboidal, euhedral, and colloidal pyrite microcrystals. Typical framboidal pyrite is considered as packing of octahedral microcrystals. Interestingly, many framboids in the tubes consist of round or irregular microcrystals and have an outer crust that consists of secondary pyrite. The size of the framboids in the inner wall of the tube is larger than that in the middle wall or foraminifer-filled pyrite. High-resolution transmission electron microscopic (HRTEM) images show marcasite lamellae defects in the spherulitic pyrite crystals, which reveal different solution conditions during the pyrite precipitation. Nano-foil-like graphitic carbon was observed to be closely associated with the pyrite spherules. The occurrence of both marcasite layers and nano-foil-like graphitic carbon suggest that the migration of methane from deep sediment. It is suggested that the formation of pyrite serves as a catalyst during the reaction from methane to elemental carbon under the anaerobic oxidation of methane. Meanwhile, this reaction results in local acidification of the solution inside the pyrite tubes, which favors marcasite lamellae growth on the host pyrite substrate. 相似文献
3.
北大西洋Logatchev热液区产出的黄铁矿形貌丰富、成分各异,极具特殊性和代表性.运用扫描电镜和电子探针系统观测黄铁矿矿物学特征,发现粒状黄铁矿粒径不一,具高Fe、S,低微量元素的特点;草莓状黄铁矿见有松散莓体、球形-次球形莓体和自形结构莓体,其Cu含量总体较高,不同晶体特征的莓体成分存在差异;胶状黄铁矿见有多层环带,内核到环带由纳微米晶体聚合生成,由内到外成分具有S/Fe比、Zn含量减小,As含量增大的趋势.分析认为早期粒状黄铁矿是在较高温度下的热液体系中直接形成,随热液作用衰减,生成的粒状黄铁矿多呈纳-微米晶产出;草莓状黄铁矿是由松散纳-微米晶逐步聚集形成,受溶液过饱和度影响,莓体粒度和聚集程度存在差异;胶状黄铁矿多晶聚集环带生长方向是由内向外的,聚集程度差异指示沉积环境的反复交替.研究区多形貌黄铁矿具有由分散的微晶→多晶聚合体→自形单晶的完整演化系列特征,对于解读现代海底热液活动的方式和特点,揭示纳米晶体-宏观晶体的演化过程有积极意义. 相似文献
4.
广西宁明组植物化石中黄铁矿及其沉积意义 总被引:1,自引:1,他引:0
对化石中的黄铁矿进行研究,有助于明确生物的化石化过程以及期间的沉积微环境。利用光学显微镜和扫描电镜,对广西宁明组植物化石中保存的黄铁矿进行了分析,发现离散型单晶和成群的莓状体共同保存。单晶绝大多数为无规则至球状体,晶棱不明显,表面可见凹点;少数为八面体,晶棱明显,表面光滑;单晶直径为0.79~1.58 μm;莓状体为圆球状,粒径为7.23~14.95 μm,S/Fe原子个数比的均值为1.54。莓状体的粒径大小和变化幅度均处于低值段,其S/Fe原子个数比值小于2,结果均说明当时植物体上、下表皮间为一种贫氧的水体环境,并在短时间内形成了莓状体。植物化石上、下表皮间由于未保存组织结构,而被大量的、近似层状分布的黄铁矿单晶和莓状体充填,结果支持了化石内莓状体形成与有机质降解之间存在着必然联系。 相似文献
5.
在湖北省京山县雁门口地区二叠世栖霞组上部的含泥灰岩中发现棘皮动物化石,其腔被不同形态微晶的草莓状黄铁矿充填,有正四面体、正六面体、五角十二面体和近球体。溶解氧与草莓状黄铁矿的形成过程有关,其浓度决定微晶的S/Fe。统计显示,黄铁矿的S/Fe平均值随微晶的边数增加而增加,所以,棘皮动物腔内草莓状黄铁矿形成由早及晚的次序为:近球体微晶,五角十二面体微晶,正六面体微晶,正四面体微晶的草莓状黄铁矿。同一环境中,黄铁矿微晶的S/Fe可用来指示形成次序。 相似文献
6.
用扫描电子显微镜研究晋东南太原组下部黄铁矿矿石和煤岩中的黄铁矿,发现许多原始莓体保留着形成时的特征。这些特征反映出原始莓体大多数为硫磺细菌化石,少数由胶体形成。本文对莓体的成因、特征、形成环境等进行了论述。 相似文献
7.
豫西南淅川上泥盆统王冠组地层中发育大量与层面平行且具有蹼纹的U形遗迹化石Rhizocorallium。利用环境扫描电镜对Rhizocorallium进行微观观察,发现在其边缘管和蹼纹内部发育大量不同形态的莓状黄铁矿及莓状铁氧化物(单晶为五角十二面体,八面体,立方体和近球形),与之对应的围岩中仅见少量黄铁矿单晶颗粒。表面具有覆盖膜的莓状黄铁矿大多存在于潜穴内部,其中边缘管中莓状黄铁矿的单晶直径(0.672~1.603 μm,平均直径1.063 μm)较之蹼纹中部的(0.376~0.877 μm,平均直径0.5 μm)的大。上述特征显示出潜穴中莓状黄铁矿的存在可能与硫酸盐类还原菌有关。Rhizocorallium边缘管和蹼纹中高丰度莓状黄铁矿的发现表明:遗迹化石Rhizocorallium可能是造迹者精心构筑的觅食-花园。由于食物供应和氧化还原条件的不同,Rhizocorallium造迹者在其潜穴内部培植不同的微生物,形成一个互利共生的群落。 相似文献
8.
Polished and thin section examinations of samples from Indiana Coal Bed V (Springfield) have shown three sulfides to be present; namely pyrite, marcasite and sphalerite. Pyrite and marcasite are dominant forms whereas sphalerite is very minor. These sulfides appear to have formed in four distinct stages as judged on the basis of mineralogy and mineral texture. Pyrite occurs as framboids throughout the coal seam, as fibrous crystals in two horizons of the coal and in massive form as cleat fillings and cell fillings in fusinite and semi-fusinite. Marcasite occurs in spherical polycrystalline and twinned grains, as polycrystalline overgrowths on framboids, as cementing material for clusters of framboids, as blocky polycrystalline grains and with pyrite as cell fillings in fusinite and semi-fusinite. Sphalerite occurs exclusively as cell fillings in semi-fusinite. The paragenetic sequence indicates fluctuations in the overall coal bed chemistry. Individual sections display evidence of chemical variation on the micro scale. 相似文献
9.
有孔虫壳体内草莓状黄铁矿成因及其地质意义——以湖北雁门口地区栖霞组有孔虫化石为例 总被引:1,自引:0,他引:1
在湖北省京山县雁门口地区栖霞组上部的含泥灰岩中存在丰富的节房虫科底栖有孔虫化石,主要有节房虫属、厚壁虫属和郎格虫属,壳体均被草莓状黄铁矿充填。对其系统的显微镜、扫描电镜观察和黄铁矿的能谱分析结果发现,黄铁矿草莓体直径最大为15 μm,平均约10 μm,硫铁原子比值(S/Fe)为1.90±0.10,表明在黄铁矿形成过程中,有孔虫壳体空腔内呈轻度- 中度贫氧的微环境。在分析该类黄铁矿成因的基础上,认为有孔虫壳体内的黄铁矿在指示沉积环境和保存环境方面具有局限性。 相似文献
10.
沉积地层中草莓状黄铁矿分析方法及其在古海洋学上的应用 总被引:1,自引:1,他引:0
草莓状黄铁矿是黄铁矿的特殊形态,其定义为由相近大小、相似形态的黄铁矿微晶颗粒组成的球形、亚球形聚合体。草莓状黄铁矿粒径分析已广泛应用于各个地质历史时期的古海洋环境恢复研究中,但其形成机理、判别标准与实验方法仍存在分歧。因此对沉积地层中草莓状黄铁矿的形成机理、在古海洋环境恢复中的指示意义及判别标准、实验与数据分析方法等进行总结阐述,有助于理解草莓状黄铁矿的粒径大小与形态对氧化还原条件的指示意义。草莓状黄铁矿在不同氧化还原环境下的形成机理存在差异,其粒径大小、数量以及分布范围可综合反映沉积时水体的氧化还原条件;而草莓状黄铁矿微晶几何形态及整体形貌特征也与古海洋氧化还原环境密切相关。此外,虽然有学者指出该方法可能存在一些问题,但只要在分析过程中结合沉积特征、古生态特征、地球化学指标等多方面证据对环境进行综合判别,甄别特殊条件下沉积的草莓状黄铁矿,则可有效避免这些问题。最后,针对后期氧化作用对草莓状黄铁矿粒径分布的影响进行了评价,结果显示经过后期氧化作用的草莓状黄铁矿粒径变化很小,不会对其在恢复古海洋氧化还原环境的应用上产生影响。 相似文献
11.
Hisanari Sugawara Masayuki Sakakibara David Belton Tetsuya Suzuki 《Environmental Earth Sciences》2013,69(3):811-819
Pyrite framboid in sedimentary rocks could be concerned with arsenic contamination in groundwater of acidic environment and has been studied for the formation process of its unique morphology. However, not much has been discussed about the formation process based on the heavy-metal distribution in pyrite framboids and their aggregates. To reveal the formation process of pyrite framboids and their aggregates, mudstone from the Late Cretaceous Hakobuchi Group, central Hokkaido, Japan, are investigated for mode, petrographical, mineralogical, and micro-PIXE (particle-induced X-ray emission) analysis in this study. Spherical and sub-spherical pyrite framboids observed in polyframboids can be divided into two types based on the diameter of framboids (D) and the average diameter of microcrystals (d) within framboids: type 1, ranging from 2 to 9 μm and from 0.4 to 0.9 μm, respectively, and type 2, ranging from 8 to 50 μm and from 0.5 to 1.8 μm, respectively. Based on the quantitative traverse analyses and 2-D elemental mapping results by micro-PIXE, heterogeneities in the concentrations of heavy metals within the analyzed aggregations of pyrite are exhibited. On the basis of the As and Pb zoning patterns, the time range and chronological stages of pyrite-aggregation growth are revealed. 相似文献
12.
S. C. Tripathi 《Journal of Earth System Science》1985,94(3):315-321
The present paper records the occurrence of framboidal pyrite and algal pyrite in the Mussoorie phosphorite deposit. The significance
of organic matter and sediment composition have also been discussed. The petrographic and analytical data indicate the dominant
role of organic matter in the formation of pyrite. It is concluded from the textural study of pyrite that framboids have formed
earlier in the sediment and subsequently the euhedral pyrite nucleated on them, gradually increasing in its abundance. 相似文献
13.
Pyrite masses composed of compacted pyrite framboids in chalcedony in weathered andesites at Allandale, New South Wales, Australia, show evidence of colloidal origin and contemporaneous deposition of pyrite and silica. Free framboids and framboidal clusters in the chalcedony show indications of crystallization into pyrite polyhedra and pyrite octahedra. 相似文献
14.
Pyrite framboids were found in the Permian-Triassic boundary at Meishan Section, while their sulfur isotopes were determined. The majority of framboids is less than 5 μm in diameter, with some large-sized framboids. Also, euhedral gypsums were observed in the boundary clay. The authors suppose that most of the pyrite framboids formed just below the redox boundary and stopped growing after entering the lower water column. The result indicates that it was probably lower dysoxia condition in the temporal ocean. Moreover, the authors also presume that some pyrite was oxidated to sulfates accompanying the fluctuation of redox condition, which would probably be the origin of the negative sulfur isotopes of gypsum and CAS reported before. In addition, sulfur isotope of framboidal pyrite suggests that sulfur is originated from bacterial sulfate reduction in anoxic condition. Therefore, this study confirms that the ocean was widely anoxic during the Permian-Triassic transitional period. However, the redox condition in temporal ocean was probably not stable, with short-term fluctuations. 相似文献
15.
16.
A. I. Gorshkov G. N. Baturin O. Yu. Bogdanova L. O. Magazina 《Lithology and Mineral Resources》2000,35(2):183-188
The investigation of phosphorites from Africain Island situated in the Indian Ocean revealed that they contain iron sulfides
in the form of framboids consisting of separate crystallites, as well as fine-dispersed colloidal particles of micrometer
and submicrometer size. Crystallites consist of pyrite, whereas colloidal matter consists of troilite, which is initially
formed as hydrogel inside voids. During the subsequent interaction of gelatinous troilite with sulfur, pyrite crystals are
formed. The growth of crystals inside a 10987ted microvoid space in the rock leads to their dense hexagonal and tetragonal
packing. 相似文献
17.
滨海红树林泥炭沉积物中硫的赋存特点及其控制因素 总被引:4,自引:0,他引:4
海南和厦门两地滨海红树林沉积物和埋藏泥炭中硫的成分分析表明,滨海红树林沉积物和泥炭中的硫以硫化铁硫为主,有机硫次之,硫酸盐硫含量最低。泥炭沉积物中硫的赋存形式和特点与沉积环境密切相关。海南福田地区红树林泥炭沉积物主要形成于红树林潮上坪和泥炭坪,硫含量较高,平均为2.60%,且有机硫含量与有机碳含量呈正相关,而硫化铁硫含量与有机碳含量没有明显的相关性;厦门海沧镇红树林泥炭沉积物形成于红树林潮间坪以及潮道环境,硫含量较低,平均值仅为0.43%,形态硫和有机质的相关性与海南红树林泥炭地沉积物相反。红树林泥炭沉积物中铁的硫化物主要以黄铁矿形式产出,且以莓球状形态为主。研究表明,黄铁矿与次生有机硫的生成与微生物活动密切相关,造成红树林泥炭中硫含量差异最主要的原因不是硫源,而是有机质的供给与沉积微环境的影响。现代滨海红树林泥炭沼泽中硫的赋存特征将对煤中硫成因的研究提供重要的科学依据。 相似文献
18.
D. S. Chauhan 《Mineralium Deposita》1974,9(1):69-73
Pyrite from the Precambrian lead-zinc deposits of Zawar, West India, shows excellent sedimentary features, viz., composite bedding, lenticular bedding, flame structure etc. which are attributed to turbidites. Early diagenetic pyrite occurs as framboids and isolated euhedral as well as subhedral grains. Most of the isolated grains are probably derived from the breaking of unconsolidated framboids. Diagenetic crystallization of pyrite became operative during an early stage of deposition and continued to modify the initial sedimentary fabrics. 相似文献
19.
Sulfide minerals in coal bed III at the Chinook Mine, Indiana, are pyrite, marcasite, and rarely sphalerite. Pyrite occurs as framboids concentrated mainly in exinite, as bands or lenses in vitrinite and clay partings, as cell fillings in fusinite, and in cleats. Marcasite normally occurs in association with clusters of pyrite framboids within micro-organic remains. Sphalerite occurs exclusively in fusinite associated with cleat pyrite. The iron sulfides, which are of authigenic origin, were formed during the biochemical stage of coalification during the accumulation and compaction of peat. The factor that limited their formation in such an environment was the availability and reactivity of iron. Chemical heterogeneity in the peat swamps where the sulfides formed existed even on a microscopic scale. The iron sulfides were commonly precipitated in localized micro-environments that were favorable for their formation. The metamorphic stage of coalification did not affect the iron sulfides significantly, although it may have been responsible for the recrystallization of pyrite framboids and minor deformation of pyrite in fusinite and its local mobilisation. 相似文献
20.
【研究目的】草莓状黄铁矿广泛存在于现代沉积物和沉积岩中,其成因机制总体上分为有机成因和无机成因两种,尽管两种机制均有理论与实验的支撑,但尚未建立一种具有普遍意义的形成机制。【研究方法】本文对目前草莓状黄铁矿的形成机理、氧化还原环境的应用及后期环境变化的影响进行了系统的综合研究。【研究结果】不同氧化-还原环境下形成的草莓状黄铁矿在粒径、形态以及硫同位素之间均存在较大的差异,可做为反演古氧化-还原环境的指标。草莓状黄铁矿的微晶尽管与粒径具有一定的正相关性,但是两者在形态演化序列、生长模式、聚集因素等方面与古氧化-还原环境的关系尚不清楚。仅凭草莓状黄铁矿粒径与铬还原法测定的硫同位素反演古氧化-还原环境存在一定的局限性,需要其他指标综合判定,尚需进一步开展草莓状黄铁矿原位硫同位素值与粒径对古氧化-还原环境反演的研究。后期氧化可使草莓状黄铁矿表面化学成分发生变化,但粒径分布依然具有古氧化-还原环境的指示意义。【结论】草莓状黄铁矿的实验模拟、理论体系和多学科交叉的研究中仍存在一些问题,尚需进一步研究。 相似文献