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61.
嘉玉桥群是冈底斯北缘的变质岩系之一,其形成时代存在较大分歧。通过高精度LA-ICP-MS(激光剥蚀等离子体质谱)锆石微区原位U-Pb同位素测年,获得西藏八宿县巴兼村一带嘉玉桥群上部大理岩中所夹含石榴子石绿片岩(原岩为玄武岩)的上交点年龄为(566±27)Ma,将八宿县巴兼村一带嘉玉桥群的原岩形成时代限定为晚震旦世。结合相关研究成果,初步认为冈底斯北缘自晚震旦世到寒武纪可能存在较大规模的陆缘裂谷。 相似文献
62.
五台岩群石榴云母片岩地球化学特征及其地质意义 总被引:1,自引:0,他引:1
五台岩群石咀亚群石榴云母片岩主要由石榴石、黑云母、白云母、斜长石、石英和钛铁矿等构成,少量样品含绿帘石、十字石、蓝晶石或斜方闪石.样品的SiO2为51.75% ~69.06%,Al2O2为11.99%~20.39%,个别贫钠,稀土元素配分模式上显示轻稀土富集、重稀土相对亏损的样式,无明显Eu异常[(La/Yb)N =3.10~ 19.20,(Eu/Eu*)N=0.90~ 1.13],高场强元素和大离子亲石元素与世界典型页岩成分一致.元素间的协变关系指示粘土矿物控制了岩石的化学成分.通过原岩类型判别、重矿物优选堆积判别、物源判别和沉积构造环境判别等方法,恢复其原岩以页岩为主,无明显的重矿物优选堆积,沉积物主要来自五台地区同时代的TTG或/和基性岩石,沉积于弧盆环境,可能的沉积时代为2.53~2.50 Ga.结合THERMOCALC变质相平衡模拟和变质锆石SHRIMP U-Pb定年结果,得到其在~1.95 Ga经历了p-t轨迹为顺时针样式的蓝晶石型变质作用. 相似文献
63.
黑龙江涌泉地区变质基性火山岩中钠质角闪石的成因及演化 总被引:2,自引:0,他引:2
根据野外地质特征确定出黑龙江涌泉地区具有洋壳性质的变质基性火山岩由火山熔岩和火山角砾岩两部分组成。这些基性火山岩至少发生了两期高压变质,两期高压变质形成的钠质角闪石具有不同成因。早期的钠质角闪石与岩石片理明显不协调、无方向性、在岩石中不均匀分布,可能是在佳木斯地块与松嫩地块拼合过程中形成;晚期的钠质角闪石构成了现存片理,可能与后期构造变形有关。由于后期变质、变形作用不均匀及火山角砾岩中物质成份的差异,使得部分火山熔岩和火山角砾岩中的角砾及部分胶结物早期高压变质特征得以保留。根据研究区内及相邻地区绿色片岩特征,确定绿色片岩是由经历高压变质的基性火山岩转变而形成。 相似文献
64.
季节性的降雨及其所引起的地下水状态的变化是促使日本大型结晶片岩滑坡活动和诱发灾害发生的重要原因。基于对一典型结晶片岩滑坡、降雨和地下水位的长期观测,利用Tank模型建立了一种模拟滑坡地下水位变化的方法。通过对滑体内不同观测点地下水位实际观测数据与模拟结果的对比分析,证明所采用的模拟方法能够很好地再现地下水位随降雨的变化形态,从而为预测和评价降雨型滑坡的地下水状态变化提供了依据。 相似文献
65.
Abstract Various modes of occurrence of talc were identified in piemontite‐quartz schists collected from schist and eclogite units in the Kotsu area of the Sanbagawa Belt, eastern Shikoku, Japan. They can be classified into the following types: (A) matrix and (B) pull‐apart talc. The matrix talc is associated with aegirineaugite or glaucophane in the eclogite unit and with albite or chlorite in the schist unit. The pull‐apart talc is developed at the pull‐apart of microboudin structures of Na‐amphibole, along with albite or chlorite in samples from both units, suggesting that the pull‐apart talc was formed by Na‐amphibole consuming reactions in both units. The talc–aegirineaugite–phengite association is found in a thin layer (a few millimetres thick), with higher Na2O/(Na2O + Al2O3 + MgO) ratio in the ANM (Al2O3–Na2O–MgO) diagram projected from phengite, epidote and other minerals, in the eclogite unit. Crystals of aegirineaugite have decreased jadeite content [= 100 × Al/(Na + Ca)] and increased aegirine content [= 100 × (Na – Al)/(Na + Ca)] from the core (ca Jd40Aeg40Di20) to the rim (ca Jd23Aeg53Di24), and are replaced by winchite and albite in varying degrees at the crystal margins. Na‐amphibole is glaucophane/crossite, commonly rimmed by Al‐poor crossite or winchite at the margin in the eclogite unit, although it is relatively homogeneous crossite in the schist unit. These textures suggest that the talc‐phengite‐(aegirineaugite or glaucophane) assemblage equilibrated during an early stage of metamorphism and the pull‐apart talc was formed at a later stage in the eclogite unit. A plausible petrogenetic grid in the NCKFe3+MASH system with excess piemontite (regarded as epidote), hematite, quartz and water, pseudosection analysis for the aegirineaugite‐bearing layer and the observed mineral assemblages suggest that the talc‐aegirineaugite‐phengite assemblage is stable under high pressure conditions (ca 560–580°C and 18–20 kbar). The pull‐apart talc was formed at ca 565–580°C and 9.5–10.5 kbar by the reaction of glaucophane/crossite + paragonite = talc + albite during the decompression stage, suggesting that the piemontite‐quartz schist in the eclogite unit experienced high‐pressure metamorphism at ca 50–60 km depth and was then exhumed to ca 30 km depth under nearly adiabatic conditions. 相似文献
66.
Abstract. Whole-rock chemical compositions of the Besshi basic schist closely associated with the Besshi massive sulfide deposit from the Sanbagawa Belt are reported. Studied samples were collected from four outcrops around the Dozan-goe, central Shikoku. Common metamorphic mineral assemblage of the basic schist is albite + epidote + actinolite + chlorite ± muscovite ± quartz. Major element contents are similar to those of typical tholeiitic basalts. Trace element patterns of the basic schist normalized to normal mid-ocean ridge basalt (N-MORB) are generally flat, although concentrations of highly mobile large-ion lithophile elements are quite variable. Chondrite-normalized rare earth element (REE) patterns are flat to slightly light REE-depleted patterns. In the Hf-Th-Ta and Nb-Zr-Y discrimination diagrams, basic schist samples closely associated with the sulfide deposit are plotted within the N-MORB field. The Th/Nb ratios of the basic schist are also comparable to those of N-MORB. These geo-chemical lines of evidence indicate that the protolith of the Besshi basic schist is N-MORB and the Besshi sulfide deposit was formed by hydrothermal activity in conjunction with MOR volcanism. 相似文献
67.
Occurrence of calcite in Sanbagawa pelitic schists: implications for the formation of garnet, rutile, oligoclase, biotite and hornblende 总被引:2,自引:0,他引:2
The frequency of occurrence of minerals in 1876 samples of Sanbagawa pelitic schist in central Shikoku is summarized on the basis of microscopic observation accompanied, in part, by use of an electron microprobe. All samples contain quartz, plagioclase, phengite, chlorite and graphite. More than 90% of samples contain clinozoisite, titanite and apatite. Garnet is present in 95% of samples from the garnet zone, and biotite is present in 64% of samples from the albite‐biotite zone. Calcite is found in about 40% of samples of the pelitic schist collected from outcrop, but occurs in 95% of the pelitic schist from drill cores. Calcite was apparently ubiquitous in the pelitic schist during the Sanbagawa metamorphism, but must have been dissolved recently by the action of surface or ground water. The mineral assemblages of the Sanbagawa pelitic schist have to be analyzed in the system with excess calcite, quartz, albite (or oligoclase), clinozoisite, graphite and fluid that is composed mainly of H2O, CO2 and CH4. In the presence of calcite, reactions that produce garnet, rutile, oligoclase, biotite and hornblende, some of which define isograds of the metamorphic belt, should be written as mixed volatile equilibria that tend to take place at lower temperature than the dehydration reactions that have been proposed. The presence of calcite in pelitic schist suggests that fluid composition is a variable as important in determining mineral assemblages as pressure and temperature. Thus Ca‐bearing phases must be taken into account to analyze the phase relations of calcite‐bearing pelitic schist, even if CaO content of Sanbagawa pelitic schist is low. As calcite is a common phase, the mineral assemblages of the biotite zone pelitic schist may contravene the mineralogical phase rule and warrant further study. 相似文献
68.
锡铁山铅锌矿床含矿岩系主褶皱的初步厘定 总被引:2,自引:1,他引:2
锡铁山铅锌矿床含矿岩系主褶皱是一个由绿片岩片理褶皱而成的斜卧褶皱。主褶皱枢纽澡走向波状起伏,转折端较开阔,两翼向深部紧闭。 相似文献
69.
70.
Dhruba Mukhopadhyay Mohan C. Baral Ranjan K. Niyogi 《Journal of Earth System Science》1997,106(4):259-276
The banded iron-formation in the southeastern Bababudan Hills display a macroscopic synformal bend gently plunging towards
WNW. The bedding planes in smaller individual sectors show a cylindrical or conical pattern of folding. The dominant set of
minor folds has WNW-ESE trending axial planes and the axes plunge towards WNW at gentle to moderate angles, though there is
considerable variation in orientation of both axes and axial planes. A later set of sporadically observed folds has N-S trending
axial planes. The macroscopic synformal bend within the study area forms the southeastern corner of a horseshoe shaped regional
synformal fold closure which encompasses the entire Bababudan range.
The minor folds are buckle folds modified to a varying extent by flattening. In some examples the quartzose layers appear
to be more competent than the ferruginous layers; in others the reverse is true. The folds are frequently noncylindrical and
the axes show curvature with branching and en echelon patterns. Such patterns are interpreted to be the result of complex
linking of progressively growing folds whose initiation is controlled by the presence of original perturbations in the layers.
Domes and basins have at places developed as a result of shortening along two perpendicular directions in a constrictional
type of strain. Development of folds at different stages of progressive deformation has given rise to nonparallelism of fold
axes and axial planes. The axes and axial planes of smaller folds developed on the limbs of a larger fold are often oriented
oblique to those of the latter. Progressive deformation has caused rotation and bending of axial planes of earlier formed
folds by those developed at later stages of the same deformational episode. Coaxial recumbent to nearly reclined fold locally
encountered on the N-S limb of the macroscopic fold may belong to an earlier episode of deformation or to the early stage
of the main deformation episode.
The E-W to ESE-WNW strike of axial plane of the regional fold system in the Bababudan belt contrasts with the N-S to NNW-SSE
strike of axial planes of the main fold system in the Chitradurga and other schist belts of Karnataka. 相似文献