排序方式: 共有70条查询结果,搜索用时 15 毫秒
51.
对南蒙古戈壁天山地区哈拉莫里特锡钨矿强烈云英岩化花岗岩的锆石SHRIMP U-Pb定年分析,得到其侵位年龄为(214±3)Ma,表明该锡钨矿形成于早中生代三叠纪。结合已有资料的综合分析,提出中国北山地区存在2期钨锡成矿事件,即晚古生代泥盆纪和早中生代三叠纪。蒙古戈壁天山地区哈拉莫里特钨锡矿成矿时间与北山地区第二期钨锡成矿事件发生的时间相一致。根据构造演化与成矿作用时、空演化的耦合关系,提出中国北山与蒙古戈壁天山地区发育的2期钨锡成矿作用均形成于碰撞-碰撞后的构造背景,其中前者与敦煌地块和北山地块在早古生代末的碰撞事件有关,而后者则可能与古亚洲洋的最后闭合的造山作用有关。 相似文献
52.
《Russian Geology and Geophysics》2014,55(4):483-494
The paper is concerned with the structure of the Arctic shelf sediments in the Ob’ region in the Paleogene and Neogene, sampled from boreholes drilled on the Yamal Peninsula, in the lower reaches of the Pur and Taz Rivers. The specifics of Paleogene marine sedimentation in the central and northern West Siberian Plain are studied. The effect of abiotic (tectonic) factors on the completeness of the geologic record is considered as well as the effect of recent (Oligocene-Neogene) tectonic processes on topography and sedimentation. The borehole sections are compared with the main seismic sections of the Kara Sea and Lomonosov Ridge. 相似文献
53.
Jamsran Erdenebayar Takeyuki Ogata Akira Imai Jargalan Sereenen 《Resource Geology》2014,64(4):283-300
Unidirectional solidification texture (UST) in an aplite body is recognized in the Neoproterozoic highly differentiated granitic rocks at Kharaatyagaan, central Mongolia. On the basis of crystal morphology, two main types of UST were identified in the aplite body: (i) thin crenulate UST layers; and (ii) thick intergrowth UST layers. Bulk geochemistry indicates that the Kharaatyagaan UST‐bearing aplite and aplite dike are alkaline, and are enriched in light rare‐earth elements. Scanning electron microscopy and cathadoluminescence imaging of UST quartz from Kharaatyagaan show four types of quartz: euhedral quartz phenocrysts with well‐developed concentric growth zoning (Qa1) in the aplite; euhedral quartz with weak growth zoning in the aplite (Qa2); UST quartz exhibiting distinct growth zones (Qu1); and UST quartz showing mosaic texture (Qu2). Crystallization temperatures determined by the Ti‐in‐quartz geothermometer of Qa1 and Qu1 quartz range between around 500°C and 780°C and Qa2 and Qu2 range between about 490° and 630°C. The cathodoluminescence textures of quartz are predominantly caused by variations in the trace elements contents of quartz. The Qa1 and Qu1 quartz crystals are characterized by high Ti and Al concentrations in the quartz lattice, and are observed in the bottom of the Kharaatyagaan hill, which formed in the early, less evolved magmatic stage. The Qa2 and Qu2 UST quartz characterized by low Ti and variable Al concentrations are found at the top. The UST layers crystallized along the upper part of the magma chamber in the presence of fluid phases exsolved from felsic magma. 相似文献
54.
《Russian Geology and Geophysics》2013,54(7):685-694
The history of the peneplain in East Sayan was studied using apatite fission-track analysis (AFTA). This method is suitable for determining the formation time of the erosional surface and estimating its denudation rate. The largest known relic of the peneplanation surface in this area is the Oka Plateau, separated from the Kropotkin Ridge by the Oka–Zhombolok fault. The AFTA shows that the peneplain on the Oka Plateau formed in the Late Jurassic–Early Cretaceous. This peneplain is much younger than the erosional surfaces that persist today in the Tien Shan, Gobi Altai, and Mongolian Altai (Early Jurassic). However, it is older than the peneplain on the Chulyshman Plateau, Altai (Late Cretaceous), suggesting asynchronous formation of the ancient peneplain in Central Asia. The similar exhumation histories of samples from the Oka Plateau and Kropotkin Ridge indicate that these morphotectonic structures developed from Jurassic to late Miocene as a single block, which underwent continuous slow denudation at an average rate of 0.0175 mm/yr. Active tectonic processes in the Late Miocene caused the destruction of the peneplanation surface and its partial uplifting to different altitudes. The rate of Pliocene–Quaternary vertical movements along the Oka–Zhombolok fault is roughly estimated at 0.046–0.080 mm/yr, which is several times higher than the denudation rate in this area. During the Pliocene–Quaternary, the Oka Plateau has not undergone any significant morphologic changes owing to its intermediate position between the summit plain and datum surface of East Sayan and to its partial shielding by basaltic lavas. 相似文献
55.
Many continental basins were formed when the most of the South Mongolian territoty is modulated to continents from Late Carboniferous (Tectonic map of Mongolia, 1978). One of these basins is Noyon-Gurvantes continental sedimentary basin (NGCB). (Fig. 1)
NGCB comprises on the territory Gurvantes and Noyon sums of Umnugovi aimag (province), which are Noyon mountain range, its mountain side, foot of the mountain, Nariinsukhait and Argun hills geographically. The purpose of our study was to determine the geological age of coal bearing sediments of the coal mines near or at Nariin Sukhait, and to study their structure and moreover enhance the chance to discover new deposits. 相似文献
56.
57.
The Tsagaanbulag Formation of the Ulaan-Shand section in the Shine Jinst area was assigned to Silurian (Wenlock-Pridoli) previously. But the present authors have found some very important conodonts, including Lanea omoalpha, Amydrotaxis johnsoni, "Ozarkodina" planililingua, Pedavis sp., from the Tsagaanbulag and Amansair formations, clearly indicating that these two formations should be assigned to middle Lochkovian which are widely distributed in China and Mongolia. The existence of the marine Wenlockain and early Ludlovian deposits in Mongolia is a noteworthy problem. 相似文献
58.
ABSTRACTFractional green vegetation cover (FVC) is a useful indicator for monitoring grassland status. Satellite imagery with coarse spatial but high temporal resolutions has been preferred to monitor seasonal and inter-annual FVC dynamics in wide geographic area such as Mongolian steppe. However, the coarse spatial resolution can cause a certain uncertainty in the satellite-based FVC estimation, which calls attention to develop a robust statistical test for the relationship between field FVC and satellite-derived vegetation indices. In the arid and semi-arid Mongolian steppe, nadir pointing digital camera images (DCI) were collected and used to produce a FVC dataset to support the evaluation of satellite-based FVC retrievals. An optimal DCI processing method was determined with respect to three color spaces (RGB, HIS, L*a*b*) and six green pixel classification algorithms, from which a country-wide dataset of DCI-FVC was produced and used for evaluating the accuracy of satellite-based FVC estimates from MODIS vegetation indices. We applied three empirical and three semi-empirical MODIS-FVC retrieval models. DCI data were collected from 96 sites across the Mongolian steppe from 2012 to 2014. The histogram algorithm using the hue (H) value of the HIS color space was the optimal DCI method (r2 = 0.94, percent root-mean-square-error (RMSE) = 7.1%). For MODIS-FVC retrievals, semi-empirical Baret model was the best-performing model with the highest r2 (0.69) and the lowest RMSE (49.7%), while the lowest MB (+1.1%) was found for the regression model with normalized difference vegetation index (NDVI). The high RMSE (>50% or so) is an issue requiring further enhancement of satellite-based FVC retrievals accounting for key plant and soil parameters relevant to the Mongolian steppe and for scale mismatch between sampling and MODIS data. 相似文献
59.
60.
Although the Phanerozoic geology of the Central Asian Orogenic Belt is extensively studied, there is still much to reveal about the initiation and early stages of tectonism. The Gargan block of the Tuva-Mongolia terranes at the Mongolian-Russian border is one of the Archean-Proterozoic continental crustal fragments that record the earliest evolutionary history of the belt. To better constrain the age of its basement, extent, and provenance in regional tectonic framework, we present new zircon UPb geochronologic data from previously undated basement gneisses and the overlying Neoproterozoic meta-sedimentary rocks of southern part of the Gargan block. Comparison of available basement ages and Precambrian detrital zircon spectra from nearby Archean-Proterozoic continental crustal fragments show complex relationship amongst them. We propose that the Gargan block travelled by itself in most of the Proterozoic or was derived from an unknown continental block. Obtained age confirms the existence of Neoarchean-Neoproterozoic basement in the region; however, for the first time, the 2749–814 Ma Salig Complex reveals multiple stages of Neoproterozoic metamorphic events within the Central Asian Orogenic Belt. Older of which, at ∼1 Ga, may relate to an assembly of several of the pre-existing continental crustal fragments in Mongolia. 相似文献