Table of Content

20 January 2006, Volume 20 Issue 1

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Engineering Geology and Environmental Geology

Evolution of Cratonic Basins and Carbonate-Evaporite Sedimentary Sequence Hydrocarbon Systems in China

LIU He-fu, LI Jing-ming, LI Xiao-qing, LIU Li-qun, LI Xiao-jun, HU Shao-hua

2006, 20(1):  1-18. 

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Cratonic basins in China, such as the Tarim,the Ordos and the Sichuan basins, were developed on the former rifts or aulacogens following supercontinent break-up.Afterwards,cratonic basins were superimposed by foreland basins, following supercontinent amalgamation.Source rocks developed in the early stages; reservoir rocks developed in carbonate-evaporite cycles in the middle stage during periods of subsidence;and seal and overburden rocks formed in the late stage under contractional regimes, which produced a hydrocarbon system based on the cratonic cycle model.When carbonate platforms developed on paleo-uplifts,they started producing favorable reservoir rocks.Meanwhile, turbidity currents developed in the slope and semi-abyssal basin areas, providing source rocks for the hydrocarbon system under a facies change model. The three carbonate reservoir textural types are the pore-type, cavernous type, and fissure type. They are controlled by the following three major factors: sedimentation，relative sea level change and tectonism.In practice the carbonate reservoir types are usually found in combination rather than singly, examples being the pore-cavern, karst cavern-fissure, or fissure-pore types

Tectonic Characteristics on the Sedimentary Basins with Different Plate Margins in the South China Sea

LI Wen-yong, LI Dong-xu

2006, 20(1):  19-29. 

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This paper makes a comparative analysis on the structural characteristics of the main Cenozoic sedimentary basins of the South China Sea, based on the regional jointed survey data and combined with geotectonic setting research.The study shows the structural features of the sedimentary basins crossed by the regional tieline are very different, and the disparities are concretely displayed in such aspects as geotectonic setting, gravity and magnetic field, basin basement, fault property, tectonic line trend and igneous rock, etc.. There are close relations between fault development and basin formation of the South China Sea. The northern South China Sea mainly displays N-E direction tension fractures and sedimentary basins under the control of the fractures; the western South China Sea mainly develops N-W direction and near S-N direction strike-slip faults and sedimentary basins under the control of the faults; the southern South China Sea is rather complicated, where tension, compression and shear faults exist but the N-E direction Nansha trough thrust fault and the Nansha Trough basin under the control of the thrust are the most representative; the eastern South China Sea refers to the central sea basin of the South China Sea here, in which fractures and submarine volcanoes control the Pliocene-Quaternary deposit

The Tectonical Background and Evolution Process of Ordovician Marginal LShaped Paleouplift in Ordos Basin

WANG Qing-fei,DENG Jun,YANG Li-qiang,GAO Bang-fei,XU Hao,HUANG Ding-hua

2006, 20(1):  30-34. 

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Fractal Theory Applied to the Study of Cross-section Shortening Amount in Northern Thrust-nappe Belt of the Western Ordos Basin

YANG Sheng-bin,HOU Gui-ting, GUO Qing-yin, PAN Li-yin, SUN Ye

2006, 20(1):  35-41. 

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 A NS-striking thrust-nappe belt is developed in the western Ordos Basin, through the cross-section shortening amount calculated and the strain distribution of the strata exactly estimated, the deformation characteristics of the strata have been quantitatively revealed, therefore the dynamic mechanism of the thrust-nappe was recognized. Due to the development of small-scale folds and faults, a bigger error of the shortening amount may appear using traditional cross-section balancing. In this study, a nonlinear method called fractal theory has been adopted to calculate the cross-section shortening amount. Through this method, a bedded plane can be regarded as a complex curve in the two-dimension plane, and the fractal dimension D can be calculated, furthermore, the total amount of cross-section shortening can be obtained. A case study of geological profile AB across Zhuozishan which is located in the north of the western Ordos Basin indicates that the shortening amount and strain are 8 km and 22.2% respectively, and the shortening amount caused by the small-scale folds and faults is 1 km.

Stratigraphy of Organic Carbon Isotope and Associated Events across the Permian/Triassic Boundary in the Dongpan Deep-Water Section
in Liuqiao Area, Guangxi, South China

ZHANG Fan, FENG Qing-lai, MENG You-yan, HE Wei-hong, GU Song-zhu

2006, 20(1):  42-48. 

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The organic carbon isotope compositions were examined for the first time from a well-preserved deep-water PTB section (Dongpan section) in Liuqiao area, Guangxi.The global correlation comparison is carried out by organic carbon isotope stratigraphy between Dongpan section and GSSP at Meishan section in Zhejiang.There are remarkable similarities and differences between theδ¹³C_orgtrends of both sections. In Dongpan section, a remarkable negative excursion occurs after the onset of ‘PTB events’, which is similar to Meishan section, and was accompanied by the mass extinction of radiolarian, volcanic activities and sea level fall.The recovery towards more enriched δ¹³C_org values at Meishan section occurs in a zone of bed 27, but continued negative δ¹³C_org values throughout the lower Induan in Dongpan section coincide with the marked recovery lag, which is probably related to continuously adverse conditions in the Early Triassic.

Sequence-Stratigraphic Division for the Sinian System of the Upper-Yangtze Region

MEI Ming-xiang,NIE Rui-zhen,ZHANG Hai,CHEN Yong-hong,MENG Xiao-qing

2006, 20(1):  49-60. 

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 The Sinian System in the Upper-Yangtze region contains the Doushantuo Fm. and the Dengying Fm., the former includes more black shales and the latter is marked by a set of dolomites. From litho-facies succession to meter-scale cycle and from sedimentary-facies succession to third-order sequence, the Sinian System in the shallow-water setting can be divided into five third-order sequences that can be grouped into one second-order sequence. Thirdorder sequences are always made up of a generally upward-shoaling sedimentary-facies succession. For the second-order sequences constituted both by the Doushantuo Fm. with more black shales and the Dengying Fm. that is marked by a set of dolomites, is also an upward-shoaling facies succession.Therefore, there is similar facies-succession fabric between the third-order and the second-order sequences.According to the two types of facies-changing surfaces and two types of diachronisms in the stratigraphic, sequences-stratigraphic divisions at main logged sections become the basis to establish the sequence-stratigraphic framework of Sinian System in the study area. This sequence-stratigraphic framework indicates several features: The Doushantuo Fm. with more deep-water black shales represents a transgression process after the great glaciation period. Different from the changing feature in the Cambrian, the dolomites of the Dengying Fm. with well-preserved primary sedimentary fabrics are characterized by a set of dolomites in the deeper depositional background. This changing feature may mean a particular dolomitization in the Sinian and a problem that is further researched in the future.

Permian Sedimentary Facies, Palaeogeography and Tectonic Background in Central Jilin Province, China

YANG Bao-zhong,XIA Wen-chen,YANG Kun-guang

2006, 20(1):  61-68. 

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Based on the analyses of sedimentary systems, mineralogy and geochemistry, this paper discusses the sedimentary features of the Permian System in the central Jilin Province,and then the sedimentary paleogeography and tectonogeography have been recovered, in coincidence with the existing tectonogeographical models. The central Jilin Province was of a complex marginal basin along an active continental margin in the Early and Middle Permian. The Lower Permian System is composed of a shallowing-upward succession, including sedimentary systems of a shelf, a marginal sedimentary basin, and a sub-deep sedimentary basin. At the beginning of the Middle Permian, an active tectonic setting was evinced by the development of volcanoclastics in the region, followed by sedimentary systems of alluvium fans, sub-deep basin and a shallowing-upward carbonate ramp. Because of the collisions of the North China block with relatively small blocks from northeastern China along the West Lamulun River-Changchun-Yanji suture zone, major paleogeographical change took place during the Late Permian. Terrestrial environments dominated in the region during the Late Permian, including sedimentary systems of lacustrine alluvial fans and sub-deep lakes. Remaining marine environments were confined at some places

Development Pattern and Distribution Rule of Source Rock of Cambrian-Ordovician in Tarim Basin

GAO Zhi-qian, FAN Tai-liang, LI Yan, ZENG Qing-bo

2006, 20(1):  69-76. 

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Source rock is mainly distributed in three series of strata in Cambrian-Ordovician in Tarim Basin, i.e. carbonate source rock and mud source rock in Middle-Low Cambrian, mud source rock in Middle-Lower Ordovician-Upper Cambrian, platform margin lime-mud mound source rock in Upper Ordovician. The development of source rock is controlled by eustatic sea level change in vertical direction, and dominated by facies and palaeowater depth in plane The mud source rock is mainly formed in continental shelf-deep basin. Mud source rock in deep-sea basin is due to lots of lethal bionts in surface waters which is accumulated in deep water environment. Because of absent oxygen and low aggradation rate in deep water, organic matter is prone to be kept The mud source rock in open-sea continental shelf is related with the function of ascent ocean current. The carbonate source rock is controlled by system tracts and facies.The carbonate source rock is mainly developed in high system tract in low ramp or is survived with gypsum-salt rock together.

The Characteristics of the Braided-river Delta of the Lower Jurassic Sangonghe Formation of the Haojiagou Section in the Southern Part of the Junggar Basin

LIU Zhi-rong，WANG Xun-lian，ZHOU Hong-rui，DENG Hong-wen，HONG Shun-ying

2006, 20(1):  77-85. 

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The sedimentary facies and high-resolution sequence stratigraphy of the Lower Jurassic Sangonghe Formation in the southern part of the Junggar Basin are discussed. It is believed that there are typical deposits of braided-river delta in the Sangonghe Formation. The braided-river delta can be divided into three subfacies. They are braided-river deltaic plain subfacies, braided-river deltaic front subfacies and pro-braided-river delta subfacies. Almost all deposits of the braided-river delta are finer clastic rocks including sandstone, silty sandstone and mudstone, except that a few beds of coarse deposits occur in braided-river channel microfacies. The Sangonghe Formation can be divided into 2 middle-term base-level cycles: MSC₁ and MSC₂. The MSC₁ can be subdivided into 4 short-term base-level cycles: SSC₁, SSC₂, SSC₃ and SSC₄; and the MSC₂ develops incompletely.

Synthetical Geochemical Analysis of the Oil and Gas Migration Direction in the Yanqi Basin， Xinjiang

BU Cui-ping, TANG Da-zhen, SU Yu-shan, NAN Hong-li, MA Xin-hai, XU Hao

2006, 20(1):  86-91. 

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This paper analyzes some geochemical information  of Jurassic reservoir in the Yanqi basin,which includes crude oil physical property，pyrrolic nitrogen compounds and isotopic age of autogenetic illite, and also discusses the oil and gas migration direction.The result indicates that these geochemical parameters show a regular variation decreasing gradually from south to north in plane and from deep to shallow in the vertical. Based on this analysis, it is concluded that Jurassic oil and gas migrated from south to north in the lateral and from deep to shallow in the vertical: Oil and gas injected firstly into Baonan reservoir, secondly into Baozhong and Baobei reservoirs laterally, and migrated from Badaowan Formation to the reservoirs of Sangonghe Formation and Xishanyao Formation vertically.

Geochemical Characteristics of Sediments at Site HD196 in Dongsha Islands, the North of the South China Sea, and Their Implication for Gas Hydrates

DENG Xi-guang,FU Shao-ying,HUANG Yong-yang,ZHANG Guang-xue,WU Neng-you,WU Lu-sha

2006, 20(1):  92-102. 

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The north of the South China Sea is the important basement of marine hydrocarbon and the first selection region of the gas hydrate investigation in China.Based on the geochemical results of sediments at site HD196 in Dongsha islands, the features of major elements show the tendency of two sections, and just consistent with the change of the ion content of pore water and methane in the sediment. Meanwhile, the change of the ion content of pore waters at the site has the same characteristics as that at other sites where the gas hydrate has been discovered. Furthermore, the geological condition of the region shows that the P-T enviorment, gas source conditions and tectonic settings could provide suitable thermodynamic condition for the formation of gas hydrates in the site. Therefore, there may be gas hydrates below the site, and further work will lead to a breakthrough in the exploration of the gas hydrate.

The P-T Environment of the Depression-upwelling Faulted Zone for the Existence of Gas Hydrates in the Northern Slope of the South China Sea

WANG Hong-bin,HUANG Yong-yang,LIANG Jin,LIU Xue-wei,LIANG Jin-qiang,LI Can-ping

2006, 20(1):  103-108. 

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The development and existence of the gas hydrates are controlled prominently by the structural conditions. Several special structural units in the active or passive continental margins including accretionary wedge, mud volcano, mud diaper and seafloor slip  are favorable structures for the development and existence of gas hydrates. The investigation and research in the north slope of the South China Sea (SCS) suggest that the depression-upwelling faulted zone (DUFZ) is one of the important favorable structural circumstances for gas hydrates coming into being. Based on the comprehensive comparison, the temperature in the sediment is calculated from the relationship between the water depth and the seafloor temperature in the northern slope of the SCS, while the lithostatic pressure in the sediment is calculated from the relationship between the sediment depth and body density which was simulated in this paper. Furthermore, the P-T environment of the profile A which traverses the structure of DUFZ is analyzed in detail. The result shows that the free gas can always meet the favorable P-T environment and form gas hydrates when the gas transfers in the DUFZ because of the continuous variation of P-T environment in the structure, but it is not everywhere. The analysis of temperature and pressure in situ is necessary for the location of the gas hydrates.

Multi-scale Study of Seismic Data from Sediments Containing Gas Hydrates Based on Continuous Wavelet Transform: A Case Study of Line USGS95-1 in Blake Ridge

LI Min-feng, LI Can-ping, LIU Xue-wei, YANG Li

2006, 20(1):  109-114. 

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Bottom simulating reflector (BSR) is the main indicator of gas hydrates. However, there are still two problems which are not successfully solved up to now in identification of gas hydrate: one is how to identify hydrate sediments when BSR is not clear or not in existence on seismic sections, and the other is how to recognize the top of the hydrate layer and the bottom of the free gas layer. In this paper, the seismic data of line USGS95-1 in Blake Ridge are studied through wavelet multi-scale method to show that wavelet scales of seismic data from hydrate sediments are larger than the ones of the data from free gas layer.Moreover, the gas hydrate layer on optimal-scale section shows a high scale zone of paralleling bottom in the low scale background. This difference in wavelet scales of seismic data between gas hydrate sediments and free gas area can be used not only to recognize gas hydrates, but also to distinguish the top of the hydrate layer and the bottom of the free gas layer.

The Elementary Research of Gas Hydrate Associated with Mud Diapir  Structure in the East China Sea

ZHAO Han-qing, WU Shi-guo, XU Ning, WANG Xiu-juan, ZHANG Guang-xue

2006, 20(1):  115-122. 

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According to the analysis of seismic profile and bathymetry, some mud volcanoes or mud diapir structures were found in the west slope of the south Okinawa Trough. Bottom simulating reflector (BSR), polarity reversion, amplitude blanking zone and velocity anomaly express on the seismic profile DMS01-5, which indicate occurrence of gas hydrate related to mud volcanoes. Studies on gas hydrate related to mud volcanoes become more and more remarkable. Not only can gas hydrate form around the central part of the mud volcano but it can form at the peripheral part of the mud volcano. The development of mud volcanoes in the west of Okinawa Trough was due to the high sedimentary rate during glacial stage, overpressure of the strata and active faults. Methane-bearing fluid could form gas hydrate deposits around the mud volcano.

Study of Seismic Velocity about Gas Hydrates in the Northern Slope of the South China Sea

LIANG Jin，WANG Hong-bin，GUO Yi-qun

2006, 20(1):  123-129. 

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The interval velocity and P velocity of seismic profiles A and B in the northern slope of the South China Sea were calculated by the methods of Dix equation and velocity inversion. The velocity characteristics of the gas hydrate bed were studied in detail based on the calculated results and the information，including BSR, amplitude blanking and polarity reversion of the waveform. It is shown that the higher velocity zone in the lower velocity background is an important characteristic of gas hydrate bed, and that the higher velocity zone usually parallel the seafloor, and that the velocity changes gradually in the higher velocity zone with the highest velocity at the center whereas the lowest at the margin, suggesting that the saturation of gas hydrate zone decreases gradually from the center to the margin. The study reveals that the high resolution velocity analysis is useful not only to search the hydrate spot but also to estimate the rich layer of gas hydrates.

Geology and Geochemistry of the Silurian Penggongmiao Granitic Pluton in the Southeastern Hunan Province and Its Implication for Tectonic Setting

BAI Dao-yuan, HUANG Jian-zhong, MA Tie-qiu, WANG Xian-hui

2006, 20(1):  130-140. 

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The Silurian Penggongmiao granitic pluton in the southeastern Hunan Province is composed mainly of biotite granodiorite, biotite monzogranite and twomica monzogranite. The SiO₂ contents increase from early to late granitic units, ranging from 65.73% to 73.42%. Their mean K₂O content is 4.34%, and their Na₂O+K₂O contents vary from 6.46% to 8.32%, with an average of 7.09% while their mean K₂O/Na₂O ratio is 1.58. The rocks are enriched in Al with an average Al₂O₃ content of 14.13%. Thus, the rocks belong to ferric, strong peraluminous high-K calc-alkaline series. Their primitive mantle-normalized trace element patterns display slightly negative Ba, Nb, Sr, P and Ti anomalies and positive Rb, Th, U, La, Ce, Nd, Zr, Hf, Sm, Y and Y anomalies. Their average total rare earth element (REE) content is 221.85×10^-6.They are characterized by enrichment in light REE with average (La/Yb)n ratio of 8.66, and slightly negative Eu anomalies with mean δEu value of 0.53. Their ISr values range from 0.712 30 to 0.718 31, 110.7 to 196.1 for ε_Sr(t), and -8.0 to -8.7 for ε_Nd(t) with t_2DM value of 1.81 to 1.87 Ga. All above geochemical characteristics indicate S-type granitoid. On the diagram of C/MF vs. A/MF, they plot in the fields of basic rocks and meta-clastic rocks. A good linear relationship can be observed on the diagrams of SiO₂ vs. major oxides. In contrast, La/Sm ratios are no correlated with La. The late stage of the Enlong Unit with the most felsic has the most pronounced enrichment in LREE. The above geochemical characteristics as well as mafic microgranular enclaves suggest that the Penggongmiao pluton was related to magmatic mixing processes. The geochemical-tectonic discrimination diagrams, emplaced characteristics and regional tectonic evolution suggest that the Penggongmiao pluton was formed in the post-collisional setting. The emplaced sequences of the various units were likely related to magma viscosities: the more basic magma ascended more quickly, and therefore emplaced earlier

Dating of Granitic Plutons and Its Geological Implications in the Lower Reaches of the Qinggeli River in the Northern Part of East Junggar, Xinjiang

ZHOU Gang,ZHANG Zhao-chong,GU Gao-zhong,YANG Wen-ping,HE Bin,ZHANG Xiao-lin

2006, 20(1):  141-150. 

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Three representative plutons, Wutubulak, Areletuobie and Hadansun, in the lower reaches of the Qinggeli river in the northern part of East Junggar, Xinjiang were chosen for Rb-Sr isochron dating.The results show that the formation-ages of granitic plutons in the southern side of the Mayin'ebo fault in the researched area are （334.1±9.5） Ma, （300±9） Ma and （280±12） Ma with the initial ⁸⁷Sr/⁸⁶Sr ratios of 0.70433, 0.70435 and 0.70384, respectively, and that they were generated at different stages of middle-late Variscan Movement. The Wutubulak pluton, which formed at Early Carboniferous, belong to calc-alkaline series, was likely produced by partial melting of the Early Devonian Nb-enriched basalts during post-collisional event. In combination with the previously assumed plate subduction time (408-376 Ma), the collision of Siberian Plate  with Kazakstan-Junggar Plate can be limited within the range of 376-334 Ma. The Areletuobie pluton formed in an extensional setting subsequent to post-collision, and it is inferred to be generated by partial melting of intermediate-basic volcanic rocks that might form in an island arc setting. Although the Hadansun pluton also formed in an extensional environment of post-collision, it might be related to magma underplating under a strong extensional environment

Types and Genesis of Na-Rich Rocks in the Bayan Obo REE-Nb-Fe Deposit, Inner Mongolia, China

XIAO Rong-ge，LIU Jing-dang，FEI Hong-cai，WANG Cui-zhi，HUANG Xiao-ling

2006, 20(1):  151-164. 

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The giant Bayan Obo REE-Nb-Fe deposit is the world's largest REE deposit, which is hosted mainly by Middle Proterozoic Na-rich rocks, dolomitic rock and K-rich slate. Na-rich rocks occured together with ore-bearing dolomitite and K-rich slate are distributed widely at Bayan Obo, especially in the south area of the Main orebody and East orebody，also occur in the ore-bearing country rocks and the  footwall. Na-rich rocks include albitite, arfvedsonite-bearing albitite dyke, arfvedsonite dyke, and arfvedsonite-bearing carbonatite dyke and arfvedsonitized dolomitite. These all occur together in one geologic unit but differ slightly in their compositions. Whole rock analyses of Na-rich rocks have revealed Na-rich compositions. Na₂O contents of most of the analysed samples are much higher than 6 %. The Na₂O+K₂O content is more than 8 %, with Na₂O in excess of K₂O. The Rittmann index (δ) of the albitite is between 2.96 and 8.56，with Al/(K+Na) more than 1 and Al/(K+Na+Ca) less than 1, indicating that these are alkali metaluminous rocks. The Na-rich rocks are characterized by enrichment of crustal-derived incompatible trace elements, and depletion of mantle-derived elements. Rare earth elements, especially light REE in Na-rich rocks are extremely abundant. There is no distinct Eu anomaly. The total amounts of REE in Na-rich rocks are lower than that of mineralized dolomitic rocks. These characteristics are similar to those of the dolomitic volcanic rocks. Based on their occurrence, structure and chemical compositions, the albite rocks are inferred to have been Na-rich volcanic rocks, whereas the arfvedsonite-rich dykes are magmatic hydrothermal dykes and the dykes of magmatic differentiation.Sodic alterations at Bayan Obo mainly occur in the forms of fenitization, arfvedsonization and albitization. In addition, the reaction of Na-rich fluid with dolomitite has produced an arfvedsonitized dolomitite.The most intensive alterations at Bayan Obo occur in the Main and East orebodies, where REE have also been enriched. Compared to the compositions of unaltered and altered dolomitites in terms of bulk rock, trace elements and REE, alteration has caused REE differentiation and a weak negative Eu anomaly. The arfvedsonitized dolomitite is high in SiO₂, TiO₂, K₂O and Na₂O, and depleted in P₂O₅  compared to the protolith. It is indicated that REE had already been enriched in the original dolomitite prior to sodic alteration (fenitization). Hydrothermal process caused modification and redistribution of REE but did not add any significant new REE to the deposit.

Characteristics and Metallogenic Mechanism of Mo-W and Pb-Zn-Ag Deposits in Nannihu Ore Field, Western Henan Province

YE Hui-shou,MAO Jing-wen,LI Yong-feng,YAN Chang-hai,GUO Bao-jian,ZHao Cai-sheng

2006, 20(1):  165-174. 

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 The Nannihu Mo-W-Pb-Zn-Ag ore field in west Henan Province is tectonically located in the east part of Jinduicheng—Nannihu Mo-W polymetallic metallogenic belt of south margin of the North China Craton. There occur porphyry-skarn Mo-W, skarn polymetallic pyrite and hydrothermal silver-lead-zinc vein deposits exhibiting zoning outward porphyries. The ore-forming fluids show that these deposits are in the same metallogenic system and the hydrothermal solution is mainly derived from primary magmatic water in the early stage and from the mixture of the primary magmatic water and meteoric water in the late stage.Sulfur and lead isotope components show that the ore substances and related porphyries are derived from the lower crust.The large-scale Mo-W-Pb-Zn-Ag mineralization occurred at about 140 Ma according to the Re-Os isotopic dating. Based on the study of Mesozoic tectonic evolution, we propose that the large-scale mineralization was the consequence of lithospheric extension during the late stage of the tectonic regime changing its main stress from NS-trending to EW-trending. The metallogeny is as follows: during the subducted Yangtze continental slab broke-off possibly in south margin of the North China Craton in Middle-Late Jurassic, the underplating of the mafic magma near the boundary between the mantle and the crust caused by upwelling of the asthenosphere through slab window, drove partial melting of the thickened lower crust, forming the ore-bearing granitic magma. The ore-bearing granitic magma intruded along intersection of the NNE-trending and EW-trending faults and emplaced at the shallow places, attributing the formation of the granitic porphyries, the Mo-W, polymetallic pyrite and Pb-Zn-Ag mineralization

Geophysical Characteristics and Geological Significance of Xinghuadukou Group in Northeast Daxinganling Mountains

HAN Wei-min, ZHANG Bin-sheng, WU Fa-dong, MA Qing-xun

2006, 20(1):  175-180. 

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The Xinghuadukou Group belongs to the stratified metamorphic sequences of the Early-Middle Proterozoic. It is the oldest stratum in the Daxinganling Mountains, also the original source of gold mine, having crucial meaning for the forming of gold mine. Comparing with the Presinian migmatitic granites, this Group has higher density and susceptibility.According to the result of regional geological survey, the Xinhuadukou Group generated as shape as large or small blocks in the Presinian migmatitic granites. The distinct gravity and magnetic anomalies in the northeast Daxinganling Mountains indicate the existent of the large scale of Xinghuadukou Group in this area. In terms of the gravity and magnetic anomalies, moreover, through place-field conversion and integrated geological interpretation, deducing the extension and shape distributing of the Xinhuadukou Group, it is shown that the Xinghuadukou Group underlies the granites and has local uplift along SN and EW directions.The geological interpretation of gravity and magnetic anomalies is of significance for studying geological structure and its evolution, and for locating gold deposits

Drift Ices along the Road Located in the Tableland Chilliness Mountain Area and Method to Deal with Them

CHEN An, PENG Zhen-bin, DU Chang-xue, WANG Ji-hua

2006, 20(1):  181-184. 

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The Langkazhi-Road is the west part of the ring road of Shannan district in Tibet, which is 120 km long. The road's functions are transportation, diplomacy and military affairs.The road is located in the tableland, chilliness and intense neotectonic movement area. The geologic background, special climate and geography environment provide the conditions for geologic hazards occurring. Drift ice is accumulative ice that water become when it is flowing due to continuous minus temperature. Water and minus temperature are essential conditions for drift ice occurring. There are 10 drift ices along the Langkazhi-Luoza Road in Tibet, which threaten the road length 457 m seriously. According to the characters of the drift ice, the local environment and the road grade, the culvert or drain is the feasible effectual method to deal with it, but we must prevent the culvert or drain be freeze.