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1.
利用X射线衍射、扫描电子分析方法,对临夏地区塔湾黄土沉积物的粘土矿物学特征及其古气候指示作用进行了深入研究。结果表明:晚更新世的黄土沉积物风成黄土或经过表生风化改造形成的古土壤,其粘土矿物组成主要为伊利石、绿泥石、伊/蒙混层粘土矿物、高岭石和少量的坡缕石,沉积物中高岭石、伊利石/蒙脱石、伊利石和绿泥石矿物组合,指示物源区经历了气候从湿润变为冷干的转变。沉积物中伊利石结晶度的测量结果显示,其(001)衍射峰的半高宽在0.23°~0.86°之间,不同岩性层中伊利石结晶度存在明显的差别,伊利石结晶度存在着两个明显的峰值区,这表明临夏地区晚更新世的气候变化经历了从湿润→冷干→湿润→冷干的两个周期性的演化,而且晚期与早期相比更加湿润同时又更为冷干。沉积物中既有自生成因的坡缕石,又有碎屑成因的坡缕石。沉积物中自生成因坡缕石和碎屑成因坡缕石均稳定存在的现象表明,本区晚更新世的古气候是以干旱为特征,年均降雨量在300 mm左右。 相似文献
2.
青海循化盆地晚渐新世沉积物中坡缕石的特征及其古气候指示意义 总被引:1,自引:0,他引:1
采用X射线衍射和扫描电子分析方法,对青海循化盆地晚渐新世沉积物的矿物组成、坡缕石的矿物学特征以及古气候指示作用进行了深入的研究。结果表明,晚渐新世循化盆地沉积物中粘土矿物组成主要有蒙脱石、伊利石、坡缕石和绿泥石等;坡缕石一般呈纤维状或者针状,沿片状蒙脱石的边缘及表面交代生长,为典型自生成因的坡缕石。坡缕石是干旱-半干旱气候条件的特征矿物,其出现表明循化地区晚渐新世气候特征较为干旱,与粘土矿物组合及伊利石结晶度所反映的气候环境信息相吻合;沉积物中坡缕石相对含量及有序度自下而上逐渐增大,说明循化地区的干旱化逐渐加剧。循化地区晚渐新世(~23 Ma)的干旱化可能与青藏高原隆升或者全球气候变冷事件密切相关。 相似文献
3.
蒙脱石+伊/蒙混层+伊利石等粘土矿物混合物相X射线定量分析方法—模拟定量法 总被引:3,自引:0,他引:3
本文提出粘土矿物(特别是含伊/蒙不规则混层粘土矿物)混合物相的X射线定量分析方法——模拟定量法。着重解决在蒙脱石-不规则伊/蒙混层粘土矿物-伊利石组合中,伊/蒙混层粘土矿物的定量分析计算。模拟定量法是对以前的各种粘土矿物X射线定量分析方法的补充。用纯净的蒙脱石、伊利石、高岭石、绿泥石及各种伊/蒙混层比的伊/蒙混层粘土矿物,配制了各种不同组合的粘土矿物混合样品,制成定向薄膜片,进行了X射线分析,讨论了各种组合的粘土矿物混合物相X射线衍射图谱的特征,并在此基础上提出了粘土混合物相定量分析的方法。 相似文献
4.
采用X射线衍射、扫描电镜分析方法,对兰州盆地永登剖面晚古新世—早渐新世沉积物中粘土矿物的相对含量、伊利石结晶度、显微形貌及其古气候意义进行深入研究。结果表明:晚古新世—早渐新世沉积物中粘土矿物主要为伊利石、蒙脱石、绿泥石和少量的坡缕石,其中伊利石的含量最高,而且从晚古新世到早渐新世,沉积物中伊利石的含量呈明显升高的趋势,蒙脱石则呈明显减少的趋势;在大约55 Ma处伊利石含量急剧减小,而蒙脱石含量急剧增大。此外,可见到毛发状的自生坡缕石沿蒙脱石晶片边缘交代生长,而碎屑成因的坡缕石则主要呈破碎的短棒状。粘土矿物分布特征表明,兰州盆地晚古新世—早渐新世的古气候以干旱为主导,并且经历了由相对温暖湿润到半干旱半湿润或干旱炎热的转变,这种气候转型主要受全球气候的影响,即受行星风系的控制;而在大约55 Ma处伊利石、蒙脱石的含量变化则记录了全球性的PETM事件。 相似文献
5.
应用差热分析,X衍射分析,透射电镜等测试手段,结合野外沉积环境,地球化学分析,对安徽两淮煤田石炭二叠系粘土矿物进行了系统的研究,主要粘土矿物有伊利石及其混层矿物,高岭石,绿泥石等,可划分为5种组合类型,即伊利石一伊/蒙混层一绿泥石组合,伊利石一伊/蒙混层组合,伊利石一伊/蒙混层一高岭石组合,高岭石一伊/蒙混层一伊利石组合的高岭石组合。不同的组合类型代表着一定的沉积环境和盆地水介质条件。其结构同其它 相似文献
6.
选取库车坳陷侏罗系阿合组—齐古组的碎屑岩样品,采用跟进与离心相结合的方式将岩样进行5级分离,对分离后岩样SEM(EDS)分析观察到不同粒径粘土矿物的形貌特征。在20~2μm范围内的样品中,可见片状碎屑粘土矿物;在<2μm的样品中可见自生粘土矿物,以集合体形式存在。对不同粒级的粘土XRD分析表明,该区碎屑岩的主要粘土矿物类型为伊利石、高岭石、绿泥石和伊蒙混层,伊蒙混层主要出现在<0.2μm范围内。高岭石的含量随着岩样粒度的变粗呈现上升的趋势,而伊利石则相反。在气候温暖潮湿的早侏罗世和中侏罗世早期,高岭石的含量相对高;在气候干旱的中侏罗世晚期及晚侏罗世,高岭石的含量减少,伊利石则呈现相反趋势。区分不同成因的粘土矿物可以为进一步研究这一地区的沉积环境、成岩演化历史提供有力依据。 相似文献
7.
根据粘土矿物的相对含量研究了准噶尔盆地南缘新生界砂岩粘土矿物类型、组合特征及纵、横向分布规律及其主要影响因素。划分出无序伊/蒙混层型、部分有序伊/蒙混层型、伊利石+伊/蒙混层型、蒙皂石型以及含坡缕石型等5类粘土矿物组合。按照伊/蒙混层相对含量的变化,粘土矿物纵向上演化呈正常转化型(伊/蒙混层相对含量降低)、反向转化型(伊/蒙混层相对含量增加)和“S”型(伊/蒙混层相对含量呈曲线变化)3种形式。平面上,伊/蒙混层和伊利石这两类主要粘土矿物从湖盆的边缘向中心分别呈现减少和增多的趋势,湖盆边缘相带以无序伊/蒙混层型、蒙皂石型和含坡缕石型为主,湖盆中心则为部分有序伊/蒙混层型和伊利石+伊/蒙混层型组合等类型。上述分布规律的控制因素主要有沉积环境、构造运动及层序发育等。 相似文献
8.
黔西滇东地区浅海、滨海及海陆交互相二叠系-三叠系界线附近粘土岩研究 总被引:4,自引:1,他引:4
对黔西滇东地区的贵州普定高窝、贵州六枝中寨和云南宣威密德3条剖面二叠系三叠系界线附近粘土岩的大山物源成因和界线地质意义进行研究发现:在界线粘土岩中,其主要粘土矿物均为伊/蒙混层矿物,见少量高岭石、伊利石或绿泥石;碎屑物质中有六方双锥石英、锆石、长石等与火山活动有关的物质。推断该地区在晚二叠世晚期早三叠世早期至少经历一至两次强烈的火山作用,并且有多个火山喷发源。界线粘土岩中火山物质的富集与贫乏可能与剖面离火山喷发源的远近有关。粘土岩物源物质的成因均为火山喷发,火山灰伴随正常沉积物沉积而形成即凝灰沉积而形成,与华南大部分地区二叠系三叠系界线粘土岩的物源成因是一致的。 相似文献
9.
射线衍射分析测试方法对鸡西盆地张新地区浅成岩侵入后上下盘砂岩储层中的粘土矿物进行分析,粘土矿物具有3种组合形式:①伊蒙混层+伊利石+绿泥石±高岭石±绿蒙混层组合;②伊利石+绿泥石±伊蒙混层组合;③伊蒙混层+高岭石+伊利石+绿泥石组合。上盘围岩伊利石平均相对含量随远离辉绿玢岩体的距离增大而减少,伊蒙混层、高岭石、绿泥石平均相对含量增大;下盘围岩伊利石、高岭石、绿泥石平均相对含量随远离辉绿玢岩体的距离增大而增加,伊蒙混层平均相对含量减少。伊利石和高岭石相对含量的增加与其对孔隙度的影响效果相反;伊利石和绿泥石相对含量的增加对渗透率的影响效果相反。 相似文献
10.
鄂尔多斯盆地白垩系粘土矿物的分布特征及其沉积-成岩环境意义 总被引:5,自引:0,他引:5
系统地分析了鄂尔多斯盆地白垩系粘土矿物的特征及其沉积、成岩环境意义。研究结果表明:白垩系砂岩、泥质岩的粘土矿物组合以I+C+I/S型、I+C型为主,具有高伊利石含量,较高绿泥石、伊/蒙混层矿物含量的粘土矿物组成特点;其中泥质岩粘土矿物主要为陆源碎屑成因,次为沉积成岩过程中形成的自生粘土矿物,而砂岩粘土矿物兼有陆源碎屑成因和沉积成岩过程自生成因的特征;白垩系沉积时气候总体特征为干旱—半干旱,但局部时段发生干—湿气候波动而处于短暂的湿热气候环境;白垩系沉积物源富含长石等硅酸盐矿物,沉积物质主要自北、南、西向盆地内部搬运沉积;白垩系沉积和埋藏成岩过程中水介质整体上具有盐度较高,偏碱性,富K+、Fe2+、Mg2+的特点,且总体上盆地南部水介质中的这些指标都高于北部。 相似文献
11.
In the northern part of the Calchaquí Valley (NW Argentina), Palaeogene Andean foreland sediments are represented by a 1400-metre-thick continental succession (QLC: Quebrada de Los Colorados Formation) consisting of claystones, siltstones, sandstones, and conglomerates representing sedimentation in fluvial-alluvial plains and alluvial fan settings. To understand the main syn- and postsedimentary variables controlling the clay mineral assemblages of this succession, we have studied the fine-grained clastic sediments by X-ray diffraction and electron microscopy, along with a detailed sedimentary facies analysis, for two representative sections. In the northern section, the whole succession was sampled and analysed by XRD, whereas in the second section, a control point 15 km to the south, only the basal levels were analysed. The XRD study revealed a strong contrast in clay mineral assemblages between these two sections as well as with sections in the central Calchaquí Valley studied previously. In the northernmost part of the study area, a complete evolution from smectite at the top to R3 illite/smectite mixed-layers plus authigenic kaolinite at the bottom, through R1-type mixed-layers in between, has been recognized, indicating the attainment of late diagenesis. In contrast, the clay mineral assemblages of equivalent foreland sediments cropping out only 15 km to the south contain abundant smectite and micas, subordinate kaolinite and chlorite, and no I/S mixed-layers to the bottom of the sequence. Early diagenetic conditions were also inferred in a previous study for equivalent sediments of the QLC Formation cropping out to the south, in the central Calchaquí Valley, as smectite occurs in basal strata. Burial depths of approximately 3000 m were estimated for the QLC Formation in the central and northern Calchaquí Valley; in addition, an intermediate to slightly low geothermal gradient can be considered likely for both areas as foreland basins are regarded as hypothermal basins. Consequently, the attainment of late diagenesis in the northernmost study area cannot be explained by significant differences in burial depth nor in geothermal gradient in relation to the section 15 km to the south nor with the central Calchaquí Valley. The formation of R3 mixed-layer I/S and authigenic kaolinite in the northern study area was most likely controlled by the circulation of hot, deep fluids along the reverse faults that bounded the Calchaquí valley. These faults were active during the Cenozoic, as evidenced by the syndepositional deformation features preserved in the studied sediments. Stress could also have been a driving force in burial diagenesis at the R3 mixed-layer I/S stage in these young continental sediments. 相似文献
12.
Detailed clay mineralogical analyses were carried out on Late Permian/Early Triassic carbonate sediments exposed on the Chaotian section (Sichuan Basin, Central China). The clay assemblages are dominantly composed of illite in platform carbonates and clay seams, and illite–smectite mixed-layers (I/S) in tuff layers (K-bentonites) intercalated in the carbonate succession. Detrital and authigenic volcanogenic clay minerals have been partially replaced through illitisation processes during burial, raising questions about diagenetic effects. The precise determination of I/S occurring in K-bentonites shows that the sediments reached a temperature of about 180 °C, which is consistent with (1) previous estimates based on fluid-inclusion homogenisation temperature analysis, (2) the burial depth of the sedimentary series deduced from the post-Palaeozoic geological history of the Sichuan Basin and (3) the new data (Tmax) obtained on organic matter indicating the transition between oil and gas windows. The Wangpo Bed, located close to the Guadalupian–Lopingian Boundary, is interpreted either as a volcanic acidic tuff or as a clastic horizon. This controversial origin probably results from mixed volcanogenic and detrital influences. The Wangpo Bed is therefore interpreted as a reworked bentonite as revealed by the occurrence of I/S similar to those found in tuff layers, together with preserved detrital kaolinite. 相似文献
13.
《矿物学报》2013,(Z1)
Linxia Basin is a late Cenozoic fault-block basin along the border between the Tibet plateau and the Loess plateau in Northwestern China. Its formation and sediments record may be directly affected by the structural dynamics and the uplift of the Tibet Plateau. For this reason, we studied the mineral characteristics of the Maogou formation of Miocene sediments using X-ray diffraction (XRD) and scanning electron microscopy (SEM). The XRD results showed that quartz, chlorite, illite, calcite, plagioclase, orthoclase, kaolinite, and trace palygorskite are present throughout the sequence of the cross-section in Linxia basin. In contrast, gypsum and ankerite occur occasionally in the upper portion of the Miocene deposits. The content of calcite varied with layers in the profile and was relatively concentrated in mudstone. Chlorite and illite were observed transforming into palygorskite under SEM observation. Based on the mineral characteristics and the change of mineral composition, especially the clay minerals, it could be inferred that an arid environment prevailed in the region with warm and cold intervals during Miocene time. 相似文献
14.
Francesco Cavalcante Claudia Belviso Mario Bentivenga Saverio Fiore Giacomo Prosser 《Sedimentary Geology》2011,233(1-4):42-52
A mineralogical and geochemical study of clay lithologies and a biostratigraphic analysis of the carbonates from the deep-sea Lagonegro Basin (Southern Apennines—Italy) have been carried out to deduce in general the provenance of clay sediments and their paleoenvironmental conditions and particular to recognize the signature of the Paleocene–Eocene climatic global warming. The analysed succession comprising a wide stratigraphic interval of the Sannio Unit, spanning between Albian to the upper Oligocene–lower Miocene, is exposed near Accettura and Stigliano villages. Eighteen clay samples were analysed by XRD, XRF, SEM, TG-DTA. Their age was framed by biostratigraphic analyses carried out on carbonate sediments. Mineral assemblage of the clay sediments includes quartz, carbonates (calcite and dolomite), feldspars (plagioclase and k-feldspars), hematite, randomly illite/smectite mixed layers with a low illite percentage, kaolinite, discrete illite–muscovite, chlorite, palygorskite and sepiolite. The low illite percentage in randomly illite/smectite mixed layers indicates low diagenetic conditions for the studied successions. These features are unique for the Cretaceous–Tertiary successions of the Lagonegro domain and are particularly significant for the preservation of the native mineralogical assemblage useful to determine the provenance and paleoenvironmental conditions of the clayey sediments. Palygorskite and sepiolite are concentrated in the upper Paleocene–middle Eocene stratigraphic interval and particularly in the upper part of the early Eocene—lower part of the middle Eocene (biozone of Blow P 9–12). Clay sediments rich in palygorskite and sepiolite show a higher P2O5 amount and a lower kaolinite percentage, compatible with warm and arid climatic conditions typical of the global warming event well recorded in the southern tethyan margin. Likely palygorskite and sepiolite formed in lagoonal environment in nearby carbonate platform margins and then they were transported into the Lagonegro Basin as indicated by the well developed habitus of palygorskite. During the Paleogene the Lagonegro Basin and the nearby carbonate platforms represented a key sector the southern paleodomains of the Tethys. The discovery of these minerals gives a contribution to the reconstruction paleoenvironmental conditions of the Tethian paleo-margin during the early–middle Eocene. 相似文献
15.
SONG Eping ZHANG Kexin CHEN Jiangjun WANG Chaowen JIANG Gaolei YIN Ke HONG Hanlie CHURCHMAN Jock Gordon 《《地质学报》英文版》2014,88(5):1579-1591
This study collected the early Oligocene to middle Miocene sediments from the Gerze Basin of Tibet, and used X-Ray diffraction (XRD) and Scanning Electron Microscope (SEM) to discuss their clay mineralolgy, clay indices, better understand the clay mineralogy and its paleoclimatic significance. The results show that clay minerals of the Gerze Basin sediments are mainly composed of iilite and chlorite, with minor amounts of smectite and kaolinite, and their relative content varies along the section. Variations of relative contents and clay indices suggest that the Gerze Basin has experienced three-stage evolution of paleoclimate: I ) high ilUte and chlorite contents, with fluctuant smectite and low (I+Ch)/(K+S) ratio, indicative of a dominant seasonal arid climate from the early Oligoeene to late Oligocene; Ⅱ) higher illite and chlorite contents and larger (I+Ch)/(K+S) ratio but absence of kaolinite, indicating a colder and drier climate from the late Oligocene to early Miocene; Ⅲ) high iilite and chlorite contents with fluctuant (I+Ch)/(K+S) ratios and occasional occurrence of kaolinite, suggesting that the climate became warmer and more humid compared with that of stage Ⅱ in the mid-Miocene. These conclusions were also reinforced by the clay morphology, which suggests that physical weathering dominated in stage Ⅱ, while relatively strong chemical weathering was dominant in stages Ⅰ and Ⅲ Clay minerals of the sediments mainly consist of illite and chlorite, indicating that the source rock played a significant role in clay origin. It is inferred that global cooling and the enhancement of denudation and obstruction of northward moisture due to the uplift of the Qinghai-Tibet Plateau were responsible for the provenance of iUite and chlorite under weak chemical weathering. Though the Qinghai-Tibet Plateau reached a certain elevation by the mid-Miocene, yet the mid-Miocene widespread warming might have largely impacted the Gerze climate. 相似文献
16.
为深入研究准噶尔盆地南缘新生界古气候演化过程,采用X射线衍射(XRD)和扫描电镜(SEM)等手段对准噶尔盆地南缘(准南)新生界地层泥岩、砂岩中粘土矿物成分、坡缕石矿物学特征进行了系统分析。分析结果表明,新生界泥岩中粘土矿物组成主要有蒙脱石、伊利石、坡缕石和绿泥石等;坡缕石是指示干旱-半干旱气候条件的特征矿物,呈纤维状、束状等形态,其形态及与周围矿物的接触关系说明坡缕石为典型自生成因,坡缕石、伊利石、绿泥石构成的粘土矿物组合所反映的干旱气候与地层颜色变化相吻合。 相似文献
17.
《Journal of African Earth Sciences》2006,44(5):491-504
This paper presents mineralogical and geochemical data from several continental sequences located in Central (Ain Ghréwiss and Kébar) and Central-Southern Tunisia (Selja, Kef Schefeir, Shib, Oum El Kcheb and Haidoudi). These sequences vary in age from Late Palaeocene to Early Oligocene and contain considerable quantities of fibrous clays (up to 75% palygorskite and 90% sepiolite). These clays appear in assocation with carbonates (mainly dolomite), detrital aluminosilicates (illite, Al smectites, mixed-layers illite–smectite and kaolinite), quartz and lesser quantities of gypsum and halite. The textural characteristics observed by electron microscopy, the trace and rare earth elements contents and their distribution in the various mineral phases, together with the isotopic composition of dolomite and fibrous clays, provide good clues as to the genesis of the neoformed minerals. Thus, the sepiolite would have precipitated directly in lacustrine, playa-lake or sebka environments under alkaline conditions, high Si and Mg and low Al activity, and arid to semiarid climate. On the other hand, the palygorskite would have formed by transformation of already existing illite and/or smectite type aluminosilicates in solutions in equilibrium with isotopically heavier and, therefore, more evaporated solutions than the sepiolite. 相似文献