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1.
广西东南部钦防海槽地区晚古生代硅质岩十分发育。对硅质岩主量元素、微量元素及稀土元素的分析结果表明:该区晚古生代硅质岩含有较高的SiO2,硅化程度较高;除上泥盆统弗拉斯阶及下石炭统硅质岩具有较低的Al/(Al+Fe+Mn)值(0.14~0.24;0.07~0.81)及较高的U/Th值(0.34~5.09;0.16~10.1)外,其他层位硅质岩具有较高的Al/(Al+Fe+Mn)值(0.4~0.95)及较低的U/Th值(0.1~2.1);上泥盆统硅质岩稀土元素比值Ce/Ce*、LaN/YbN及LaN/CeN值分别为0.78~1.08、0.4~1.52和0.88~1.35,而下石炭统硅质岩具有较低的Ce/Ce*值(0.55~0.91)、LaN/YbN值(0.12~1.8)及较高的 LaN/CeN值(1.12~1.79),中下二叠统硅质岩Ce/Ce*、LaN/YbN及LaN/CeN值分别为1.01~1.62、0.72~2.71和0.62~1.9。钦防海槽晚古生代硅质岩地球化学特征表明:晚泥盆世钦防海槽发生扩张,热液活动比较强烈,处于大陆边缘海环境;早石炭世钦防海槽再次发生扩张,热液活动强烈,硅质岩形成于远离陆源的深海海盆环境;早中二叠世,钦防海槽逐渐收缩,海水变浅。钦防海槽晚古生代并没有出现真正的洋壳,可能属于晚古生代古特提斯分支洋盆的一个坳拉槽盆地。 相似文献
2.
在信江盆地中存在数层和石炭纪海相火山岩及其海底块状硫化物矿层相伴生,与石炭纪地层整合产出的层状硅质岩。由对硅质岩常量元素、微量元素、稀土元素、硅和氧同位素等地球化学特征研究表明,本区硅质岩具有一定的热水沉积硅质岩地球化学特征。在Al-Fe-Mn和Fe-Mn-(Ni+Co+Cu)三角图上,本区硅质岩属热水沉积硅质岩。由硅质岩MnO/TiO2比值、δCe值和δ30Si值分析表明,信江盆地石炭纪硅质岩的沉积环境主要为浅海。 相似文献
3.
江西金山矿区硅质岩的发现及其地质意义 总被引:7,自引:4,他引:3
通过野外地质调查和系统的岩石学及常量元素、微量元素、稀土元素地球化学特征的研究,探讨了金山矿区硅质岩的成因和大地构造环境。通过测试分析,显示区内硅质岩贫Al2O3、TiO2,富As、Sb、Hg、Au、Ag、W、Pb,贫∑REE,δ(Eu)为负异常,δ(Ce)为弱正异常,HREE相对富集等热水沉积物的特征,同时也表明在硅质岩的形成过程中有陆源物质的介入。在判别硅质岩的形成与作用的一系列图解上,样品均落在热水沉积作用和形成于大陆边缘环境的范围内,这与一些特征值w(Fe)/w(Ti)、w(Fe+Mn)/ w(Ti)、w(Al)/w(Al+Fe+Mn)、w(MnO)/w(TiO2)、δ(Ce)等的分析结果相吻合。这种硅质岩的发现与对比结果说明了该区域构造演化的复杂性。在晚古生代加里东运动使赣东北地区壳体断裂拉张,形成断陷盆地,并发生了热水喷流沉积成岩成矿作用。金山金矿床在形成过程中还经历了古生代热水成矿作用的叠加改造。 相似文献
4.
The Upper Sinian bedded cherts are widely distributed on the southeast continental margin of the Yangtze plate, with a total thickness ranging from 20 to 150 m. The cherts are very simple in chemical composition, with the contents of siliceous minerals exceeding 90% and those of other mineral species being very low. The total content of trace elements is considerably variable. The contents of most trace elements are low as compared with their crust clarke values. But these cherts are very rich in the trace elements Ba, As, Ab, Ag and U, coupled with relatively high contents of Fe, Mn and low contents of Al, Ti, and Mg. It can be identified as the cherts of hydrothermal origin in terms of the values of Fe/Ti, (Fe + Mn)/Ti, Al/ (Al + Fe + Mn) and U/Th. In the Al-Fe-Mn, and Fe-Mn-(Cu + Ni + Co) × 10 diagrams and lg [U]-lg[Th], Cr-Zr diagrams, all the samples from the area studied fall within the hydrothermal sediment field. All these characteristics show that the cherts are mainly the product of hydrothermal processes. The fact that the δ30Si values of the chert range from 0.0‰ to 0.7‰ with §18O from 20.l‰ to 23.6‰ clearly manifests that the submarine hydrothermal water is the main source of silica. 相似文献
5.
贵州遵义二叠系锰矿底部发育一套特殊的硅质岩建造,该套硅质岩环绕锰矿富集区呈墙状产出,习称“白泥塘层”硅质岩或“城墙式”硅质岩,其与锰矿成矿作用之间有着紧密的成因联系。详细地野外地质调查发现,该套硅质岩具有条带状、角砾状和块状构造,其中钢灰色、黑色锰质细脉穿插于条带硅质岩之中,角砾状构造硅质岩多沿锰矿体周边分布。10 件硅质岩样品元素地球化学分析表明 ,硅质岩具有较高的 SiO2(80.55% ~99.56%)和Fe2O3(0.47%~13.76 %), 较低的Al2O3(0.05%~4.06%)和TiO2(0~0.49%), 指示其形成过程中陆源碎屑物质参与较少。(La/Ce)比值和Ce 异常值特征指示硅质岩形成于深水裂陷盆地中,环N 境条件为还原状态。Fe-Mn-Al 和SiO2-Al2O3 图解显示, 硅质岩主要落入热水沉积区内或其附近区域。硅质岩Al/(Al+Fe+Mn)均值为0.26、(La/Ce)N 值为1.51~2.34、 Y/Ho 值为 30.64~43.91,Eu/Eu* 值为0.96~1.67,且硅质岩稀土配分模式与热水沉积硅质岩类似,这些特征集中表明硅质岩成岩过程中有明显的热水物质参与,属于热水成因硅质岩,这为遵义二叠系锰矿床热水喷流沉积成因提供了新的佐证。 相似文献
6.
LI Hongzhong HE Junguo LIANG Jin YANG Fei ZHAI Mingguo ZHANG Lianchang Voudouris PANAGIOTIS 《《地质学报》英文版》2019,93(6):1738-1754
Precambrian banded iron formation(BIF) is one of the most important mineral resources in China, mostly abundant in the North China Craton(NCC) with relatively less common in South China. Since the BIF and siliceous rocks both originated from chemical deposition, the syngenetic BIF and Siliceous rocks can help evaluate their environment of formation. We examine here the mineralogy and geochemistry of siliceous rocks associated with the Tieshanmiao Formation BIF, aiming to decipher the conditions of formation of both BIF and Siliceous rocks in the Wuyang area in the NCC. Analysis of the geochemical characteristics of whole rock shows that the Si O2 content of the siliceous rock ranges from 90.11% to 94.85% and is relatively high overall. Trace element contents of Ba and U are also high, the Ba/Sr ratio ranges from 3.89 to 25.28 and the U/Th ratio ranges from 0.09 to 0.20. Finally, the ΣREE value of rare earth elements ranges from 57.03 ppm to 152.59 ppm, and these indexes all indicate that siliceous rock resulted from hydrothermal deposition. Plots of Al2 O3-Si O2, Si O2/(K2 O+Na2 O)-Mn O2/Ti O2 and Mn-10×(Cu+Co+Ni)-Fe in discrimination diagrams also verify this interpretation. However, both the Mg O content, ranging from 0.16 to 0.32, and the Fe/Ti ratio, ranging from 2.50 to 9.72, suggest that terrigenous material was added during the depositional process. Major and trace element parameters of siliceous rock, such as the Al/(A1+Fe+Mn) ratio(from 0.81 to 0.93), Mn O/Ti O2(from 0.00 to 0.17), Al/(Al+Fe)(from 0.82 to 0.93), Sc/Th ratio(from 0.21 to 0.50), U/Th(from 0.09 to 0.20),(La/Yb)N(from 0.83 to 3.04), and the(La/Ce)N(from 0.01 to 0.02) all imply that the siliceous rock formed in a continental margin. In addition, the Sr/Ba ratio from 0.08 to 0.26, the δCe value from 0.31 to 0.90, and the δEu value from 0.14 to 0.58, all indicate that the siliceous rock was formed at a relatively deeper water depth and under weak hydrodynamic conditions. Siliceous rock and BIF formed in the same geological setting, with the Si O2/(K2 O+Na2 O) ratio of siliceous rock ranging from 28.61 to 47.43, the Si O2/Al2 O3 ratio from 16.53 to 32.37, and the Si O2/Mg O ratio from 287.28 to 592.81, which are all in agreement with chemical deposition associated with volcanic eruptions. The Al2 O3/Ti O2 ratio from 37.82 to 50.30 indicates that the magma source of siliceous rock was of slightly intermediate composition. During the Late Archean in the Wuyang area, the high concentration and high purity Si O2 quickly precipitated from hydrothermal fluids to finally result in the accumulation of siliceous rock in a marginal sea, while the input corresponding to iron formation components was deposited to form iron formation layers, and limestone was only the product formed during the deposition intervals of siliceous rock and iron formations. In this study, the synsedimentary siliceous rocks of BIF act as a new way to provide direct evidence to understand the formation environment of BIF due to its high geochemical stability. 相似文献
7.
埃迪卡拉纪-寒武纪重要地质历史转折时期全球多陆块广泛沉积硅质岩.塔里木盆地西北缘下寒武统玉尔吐斯组底部所发育的薄层状硅质岩,以富含残余颗粒、磷质结核和重晶石结核而显得非常特殊和罕见,明显有别于国内外报道的常规硅质岩.为了揭示该套硅质岩的成因及沉积模式,通过剖面测量(库勒剖面)、薄片鉴定、SEM观察、能谱探针、主微量元素特征、氧硅同位素分布等岩石学-地球化学分析方法,认为玉尔吐斯组硅质岩垂向上共分5小段,其主要矿物是石英、白云石,自生矿物主要有重晶石、方沸石、黄铁矿等,不同硅质岩段微观结构显示出十分明显的组构变化,包含残余颗粒结构、残余晶粒结构、隐晶质结构和微晶结构.所测剖面硅质岩沉积于靠近大陆/古隆起的高盐度浅海陆架(高Al2O3/(Al2O3+Fe2O3)比值,高MgO/Al2O3比值),其陆源碎屑主要来自大陆地壳或基底花岗岩的风化产物,并且受到SiO2的稀释作用影响(Th/Ti与Al/Ti关系).氧化还原敏感元素(如Ba、V、Ni、Cu、Zn、U等)不同程度的富集及氧化还原指标(V/Cr介于0.81~8.34)特征表明硅质岩段沉积早期处于氧化环境,水体能量较强,显微镜下见圆度较好的内碎屑颗粒、微生物席碎片;中晚期经历了水体循环不畅的有氧/缺氧分层环境(Ce/Ce*负异常),显微镜下微生物球粒、粪球粒、浮游藻(粘结)团块发育,有机质含量较高(TOC可达2%以上).稀土元素特征(低∑REE、中等Ce负异常、显著的Y正异常和Eu正异常)以及δ30Si和δ18O值分布范围暗示硅质岩地球化学特征主要继承自热液流体和海水,受陆源碎屑影响较弱.自近台内裂陷中心上升的富含多金属的富硅热液以及陆源碎屑提供大量营养,为微生物大繁盛和硅质的富集成矿奠定物质基础.水体中硅的溶解度降低(温度降低、pH降低和水体盐度升高)促使硅质胶体颗粒化学沉淀,而微生物(特别是嗜热微生物)的新陈代谢活动往往加速了这一过程. 相似文献
8.
赣东北地区不同时代硅质岩的地球化学特征及其地质意义 总被引:4,自引:1,他引:3
赣东北地区硅质岩各时代均有不同程度的发育,各时代硅质岩的SiO2含量变化范围为74.90%~97.19%,Si/Al为10.84~93.21,与Al2O3呈较好的负相关关系,表明它们含有较高比例的陆源泥质沉积物,硅质岩样品的Al2O3/(Al2O3+F2O3)=0.60~0.99,Ce/Ce=0.99~1.22,(La/Ce)N=0.91~1.83,V/Y<5.78,Ti/V>17。上述特征表明本区硅质岩形成于大陆边缘构造环境,而与大洋盆地及洋中脊构造环境无关。自古生代以来,该地区没有出现深海大洋盆地环境。 相似文献
9.
浙西石炭纪层状硅质岩地球化学特征及其意义 总被引:7,自引:0,他引:7
在浙西石炭纪地层中存在与地层整合产出的层状硅质岩。硅质岩中FeO、MnO、TiO2、Al2O3、MgO、CaO、Na2O、K2O等含量相对较高,富集As、Sb、Bi、Au、Ag、Ga,Fe2O3/FeO、SiO2/Al2O3、SiO2/(Na2O+K2O)、SiO2/MgO比值较小,稀土元素总量低,Ce弱负异常,重稀土相对富集,包裹体富含气相组份CH4、CO2、N2、CO、H2,具热水沉积硅质岩的地球化学特征。在Fe—Mn—(Ni+Co+Cu)三角图及SiO2—Al2O3、SiO2—Fe2O3图上均属于热水沉积硅质岩。硅质岩中硅、氧同位素也显示其热水成因之特点。硅质岩的硅同位素和稀土元素Ce/Ce※值表明本区层状硅质岩主要是在浅海环境下沉积的。硅质岩的形成温度较高,为98℃~152℃ 相似文献
10.
鄂西南利川二叠纪吴家坪组硅质岩成因及沉积环境 总被引:3,自引:1,他引:2
鄂西南利川吴家坪组硅质岩与海相石煤及多层火山粘土岩共生,产海绵骨针及放射虫化石,放射虫组合以泡沫虫类为主,内射球虫类次之,隐管虫类很少,代表外陆棚沉积环境。硅质岩的陆源元素Al、Ti含量较高,热水来源元素Fe、Mn含量较低,Al/(Al+Fe+Mn)值在0.64~0.83之间,平均值0.73。在Al-Fe-Mn三角图中,样品位于或紧邻非热水沉积区,在 SiO2- (K2O+Na2O)、SiO2-Al2O3, (K2O+Na2O)-Al2O3 图解中大多数样品落在火山成因区,少数位于火山成因与生物成因区之间。相对于沉积岩的微量元素丰度,生命元素Mo、V富集,指示热水沉积的特征元素Ba、As、Sc亏损。∑REE较低,∑LREE/∑HREE平均值为3.02,Ce、Eu均轻度负异常(δCe:0.75~0.83,平均值0.79;δEu:0.61~0.95, 平均值0.84),经北美页岩标准化后稀土元素配分曲线近水平。以上地球化学特征表明研究区硅质岩属火山成因,并伴有生物作用。氧化还原判别指标U/Th、V/(V+Ni)及Ceanom,沉积环境判别指标MnO/TiO2,LaN/YbN 与判别图解100×TFe2O3/SiO2-100 Al2O3/SiO2、TFe2O3/(100-SiO2)-Al2O3/(100-SiO2)、TFe2O3/TiO2-Al2O3/(Al2O3+TFe2O3)、LaN/CeN-Al2O3/(Al2O3+TFe2O3)与∑LREE/∑HREE-100×Eu/∑REE一致表明硅质岩形成于大陆边缘缺氧环境。 相似文献
11.
鄂尔多斯盆地煤成烃潜力与成气热模拟实验 总被引:3,自引:1,他引:3
鄂尔多斯盆地煤的Rock Eval分析结果表明,在肥煤—焦煤阶段,S1+S2达最大值,随后生烃潜力减弱。煤的Py GC分析及热模拟成气实验结果证实煤成气具有3个生气高峰,分别相应于Ro,m05%~07%、10%~14%及25%,表明煤成气具多阶段性的特点。这一规律性的认识有助于煤成气的勘探和开发。同时,随煤级增高,煤成烃特征亦发生有规律的变化:异构烃减少,正构烃增加;类异戊二烯烷烃分布亦存在多变性或多阶段的演化特点;苯系化合物具波动性变化特征。 相似文献
12.
扬子陆块东南缘黑色岩系铀多金属成矿体系和成矿机制 总被引:1,自引:0,他引:1
扬子陆块东南缘发生过大规模的铀多金属成矿作用是不争的事实。该区硅质岩和磷块岩样品Fe/Ti、(Fe+Mn)/Ti、Al/(Al+Fe+Mn)等含量比值和微量元素Ni-Co-Zn三角图解表明,硅质岩、硅质磷块岩主要为热水沉积作用的产物。磷块岩在La/Yb-REE图解中,投影点处于玄武岩区,显示其成矿物质来源与深部地质作用有关。稀土元素配分模式落在已知的典型热水沉积物上、下限之间,而在正常沉积物之外。笔者认为,该区发生的大规模铀多金属成矿作用受控于陆缘裂陷成矿环境,陆缘裂陷热水沉积作用或喷气-沉积作用是扬子陆块东南缘发生大规模铀成矿作用的重要机制。 相似文献
13.
华南地区中-上奥陶统浅海半深海环境中广泛发育了一套高硅岩石,主要分布于湖南烟溪组和江西对耳石组。该套硅质岩呈东西条带状发育于扬子板块与华夏板块之间,地层厚度从东南到西北逐渐减薄,岩层多呈薄层状,含放射虫Protoentactinia sp.,部分岩样放射虫含量超过50%。分析结果表明,生物Si和陆源Si为本区硅质岩Si的重要来源,生物化学成因特征明显。硅质岩Al/(Al+Fe+Mn)比值>0.45,K2O/Na2O比值范围为1.55~42.11,由微量元素Ni、V、B、Cr与Al2O3关系图来看,二者关系表现为部分线性、部分离散,U/Th比值为0.72。湘赣中部地区硅质岩中稀土元素含量偏高,东南部Ce元素略呈负异常,研究区∑LREE≈∑HREE,表明衡阳到赣州一带受一定火山、热水活动的影响。 相似文献
14.
为探讨下扬子地区二叠系硅质岩的硅质来源和形成背景,以巢湖地区二叠纪栖霞组和孤峰组硅质岩为研究对象,收集了前人大量有关栖霞组和孤峰组的研究成果和数据,并对采自栖霞组和孤峰组硅质岩样品进行了主量元素、微量元素、稀土元素测试。栖霞组、孤峰组硅质岩样品测试结果显示,硅质岩的稀土元素经北美页岩标准化后的配分曲线近似平坦型向左倾斜,有弱Ce负异常,且HREE弱富集,反映了热水沉积硅质岩的特征。研究区硅质岩样品的Al Fe Mn三角图中,样品投点分布较广,即Al比值变化范围较大,认为是岩浆在喷发过程中受硅-铝质陆壳混染作用的结果。结合沉积环境判别指标分析认为:栖霞组硅质岩沉积时期其沉积环境主要为大陆边缘环境;孤峰组硅质岩沉积时期其沉积环境为大陆边缘-海盆过渡环境。从栖霞组到孤峰组沉积时期,海侵规模不断变大,水体变深,海盆面积扩大,研究区在不同时期沉积环境存在差异。研究区栖霞组、孤峰组硅质岩的沉积与大陆边缘裂陷活动紧密相关。 相似文献
15.
Abstract. Inorganic chemical compositions are determined for late Early Triassic siliceous claystone ('Toishi-type' shale) and associated chert from Oritate area, Sambosan Belt, Kyushu, southwest Japan. The siliceous claystone is similar in chemical composition to Post-Archean Australian Shale (PAAS), but is depleted in Ca, Sr, Mn, and Fe and slightly enriched in Cu, Zn, P, and rare earth elements (REEs). The siliceous claystone and associated chert have flat REE patterns with positive Eu anomalies and no distinct Ce anomaly. The siliceous claystone and associated chert have largely constant Ti/Al, Th/Al, and Nb/Al ratios compared to the variable ratios found in siliceous shale and sandstone deposited close to land in a trench setting. This suggests that the claystone and chert were deposited in a deep-sea pelagic environment and were derived mainly from the suspended fraction, including eolian dust and material transported from distant lands, rather than from turbidity currents that occurred close to land. The low Ca contents of the analyzed rocks indicate deposition below the calcium-carbonate compensation depth. The depletion of Mn and Fe, and no distinct Ce anomaly in the Oritate siliceous claystone are also evident, being similar to those in samples from the Sasayama and Kinkazan sections in the Mino-Tanba Belt, where oceanic anoxia developed during the Late Permian to earliest Triassic. This might suggest that oceanic anoxia prevailed through to the late Early Triassic. 相似文献
16.
Submarine metalliferous sedimentary rocks are chemical precipitates resulted from hydrothermal exhalation near mid‐ocean ridge or faults. They record the submarine hydrothermal activity between lithosphere and hydrosphere and are critical for understanding Fe cycling in marine environment. Fe was expelled from the hydrothermal vent systems and was oxidized and precipitated in the ambient seawater, where the precipitation of hydrothermal Fe is largely controlled by oxidation state of seawater and is potentially revealed by its Fe isotope compositions. This hydrothermal process in modern hydrothermal vent systems have been well observed, but that for the ancient ones are still not well known. Umbers, or ferromanganoan sediments, overlying Troodos ophiolite in Cyprus of Mid‐Cretaceous age thus provides an excellent example for understanding the Fe cycles in ancient submarine hydrothermal process. Samples were collected from Margi village in Troodos and are mostly amorphous Fe‐Mn oxy‐hydroxides with very minor quartz, goethite, smectite and silicates such as clinopyroxene derived from the volcanic rocks. There is no terrestrial, detrital component. Samples were analyzed for their whole‐rock element and Fe isotope compositions. The results show that samples are composed mainly of SiO2 (13~80 wt%), Fe2O3 (9~54 wt%) and MnO (1.5~10.4 wt%), with minor Al2O3 (0.7~4.3 wt%). PAAS‐normalized REE patterns are near flat with significantly negative Ce anomalies (Ce/Ce* is from 0.2 to 0.5) and slightly positive Eu anomalies (Eu/Eu* is around 1.1), indicating a source from the oxidized seawater and the high‐temperature hydrothermal fluids. δ56FeIRMM‐014 values of samples are ‐0.32‰ to ‐0.15‰, with an average of ‐0.20‰, which are consistent with those of the hydrothermal fluids previously reported. The narrow Fe isotope compositions of Cyprus umbers that are close to those of submarine hydrothermal fluids indicates near complete oxidation of hydrothermal Fe2+ during its expulsion from the hydrothermal vent. 相似文献
17.
本文采用常量和稀土元素地球化学方法对浙黔桂地区寒武纪硅质岩的形成背景进行了研究。研究表明,硅质岩的A12O3/(A12O3+Fe2O3)为0.56~0.87;Ce/Ce*为0.74±0.19;Lan/Cen为0.90~1.58;Lan/Ybn平均为6.38,轻稀土明显富集,这些特征表明研究区硅质岩形成于大陆边缘环境或大陆边缘与深海过渡带。形成于裂陷盆地初期的硅质岩,比古华南残留洋盆和扬子陆块边缘的硅质岩轻稀土元素更加富集。构造拉张期形成的硅质岩为热液成因硅质岩,其稀土配分模式显示出轻稀土相对亏损、Eu正异常特征;构造稳定期形成的硅质岩为沉积成因硅质岩,稀土配分模式显示出轻稀土相对富集、Eu弱负异常特征。由硅质岩稀土配分模式的差异性反映出寒武纪时期的拉张为幕式拉张。位于扬子地台边缘的硅质岩所具有的Ce负异常,暗示着江南造山带寒武纪后曾发生过由东向西的大规模逆冲推覆。 相似文献
18.
安徽狸桥地区出露一套硅质建造,其赋存于黄龙组灰岩与五通组石英砂岩之间,呈层状产出,显微镜下主要由隐晶质石英组成,具角砾结构,未见硅质生物,局部有硅化、褐铁矿化现象。其地球化学特征显示,本区硅质岩Si O2含量为93.57%~98.06%(平均为97.22%),∑REE含量低,为4.89×10~(-6)~18.40×10~(-6)(平均为11.29×10~(-6)),δCe为0.50~0.68(平均为0.58),呈负异常,δEu为1.13~2.98(平均为1.49),呈明显的正异常。Al/(Al+Fe+Mn)值为0.11~0.64(平均为0.45),Al_2O_3,TiO_2与Si O2相关性较差,而Fe2O3和Si O2呈明显的正相关。结合双变量SiO_2-Al_2O_3、SiO_2-MgO,三变量Al-Fe-Mn,Fe-Mn-(Ni+Co+Cu)×10图解,指示其为热水沉积成因;其δEu、Mn O/TiO_2、Fe2O3/TiO_2和Al_2O_3/(Al_2O_3+Fe_2O_3)值分析,其沉积环境为远离陆源物质供给的大陆边缘,受到强烈的热水活动影响。综上表明:晚石炭世时期,狸桥地区处于受基底深断裂及同沉积断裂控制的二级断陷盆地内,可能由于地壳的持续拉张、减薄,导致火山热液或喷气活动沿基底深断裂在海底火山喷发间歇式或旋回期发生热水喷流作用,形成了具有热水喷流沉积成因的角砾状硅质岩。这一发现对于长江中下游地区晚古生代热水沉积硅质岩的研究提供一定的借鉴,也为长江中下游地区至少在石炭纪时存在一定的热水活动提供了有利的证据。 相似文献
19.
竹山地区位于扬子陆块北缘,寒武纪早期发育一套深水硅质岩系。该岩系由纯硅质岩夹少量白云岩、页岩所组成。硅质岩中微晶石英含量均超过85%,还含有少量碳质、燧石及微量绢云母。地球化学分析表明,该硅质岩的SiO2含量较高,平均为93.4%;Al2O3和TiO2含量较低,分别为0.19%~1.45%和0.01%~0.09%,TFe2O3为0.053%~0.342%,Al/(Al+Fe+Mn)比值为0.58~0.83,平均为0.71,Eu/Eu*为0.74~3.61,平均为1.65,表明其硅质主要来源于生物本身或其生命活动产物,海底热液活动亦提供了一部硅质物质;同时,硅质岩具有较低的TFe2O3/TiO2比值(2.16~12.56,平均值为5.86)和Al2O3/(Al2O3+Fe2O3)比值(0.65~0.87,平均值为0.78),Y的正异常(Y/Ho值为34.81~60.19,平均为47.0)及Ce的负异常(Ce/Ce*值为0.28~0.92),表明它们形成于远离陆源物质干扰的边缘海盆环境,且Ce负异常从底部到顶部有逐渐减小的趋势,记录了寒武纪时期扬子北缘被动陆缘裂谷盆地不断扩大,水体逐渐变深的过程。 相似文献
20.
A. I. Brusnitsyn V. N. Kuleshov E. N. Perova A. N. Zaitsev 《Lithology and Mineral Resources》2017,52(3):192-213
The paper presents the results of study of ferromanganese carbonate rocks in the Sob area (Polar Urals), which is located between the Rai-Iz massif and the Seida–Labytnangi Railway branch. These rocks represent low-metamorphosed sedimentary rocks confined to the Devonian carbonaceous siliceous and clayey–siliceous shales. In terms of ratio of the major minerals, ferromanganese rocks can be divided into three varieties composed of the following minerals: (1) siderite, rhodochrosite, chamosite, quartz, ± kutnahorite, ± calcite, ± magnetite, ± pyrite, ± clinochlore, ± stilpnomelane; (2) spessartite, rhodochrosite, and quartz, ± hematite, ± chamosite; (3) rhodochrosite, spessartite, pyroxmanite, quartz ± tephroite, ± fridelite, ± clinochlore, ± pyrophanite, ± pyrite. In all varieties, the major concentrators of Mn and Fe are carbonates (rhodochrosite, siderite, kutnahorite, Mn-calcite) and chlorite group minerals (clinochlore, chamosite). The chemical composition of rocks is dominated by Si, Fe, Mn, carbon dioxide, and water (L.O.I.): total SiO2 + Fe2O 3 tot + MnO + L.O.I. = 85.6?98.4 wt %. The content of Fe and Mn varies from 9.3 to 55.6 wt % (Fe2O 3 tot + MnO). The Mn/Fe ratio varies from 0.2 to 55.3. In terms of the aluminum module AlM = Al/(Al + Mn + Fe), the major portion of studied samples corresponds to metalliferous sediments. The δ13Ccarb range (–30.4 to–11.9‰ PDB) corresponds to authigenic carbonates formed with carbon dioxide released during the microbial oxidation of organic matter in sediments at the dia- and/or catagenetic stage. Ferromanganese sediments were likely deposited in relatively closed seafloor zones (basin-traps) characterized by periodic stagnation. Fe and Mn could be delivered from various sources: input by diverse hydrothermal solutions, silt waters in the course of diagenesis, river discharges, and others. The diagenetic delivery of metals seems to be most plausible. Mn was concentrated during the stagnation of bottom water in basin-traps. Interruption of stagnation promoted the precipitation of Mn. The presence of organic matter fostered a reductive pattern of postsedimentary transformations of metalliferous sediments. Fe and Mn were accumulated initially in the oxide form. During the diagenesis, manganese and iron oxides reacted with organic matter to make up carbonates. Relative to manganese carbonates, iron carbonates were formed under more reductive settings and higher concentrations of carbon dioxide in the interstitial solution. Crystallization of manganese and iron silicates began already at early stages of lithogenesis and ended during the regional metamorphism of metalliferous sediments. 相似文献