Table of Content

21 April 2014, Volume 28 Issue 2

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Stratigraphy

Geochemistry and Implication to Paleoclimate of the~1.4 Ga  Ancient Weathering Crust  in the North of the North China Craton

GUO Wen-lin, SU Wen-bo

2014, 28(2):  243-255. 

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Recently, a well-preserved carbonate-derived Mesoproterozoic ancient weathering crust is identified at the boundary (~1400 Ma) between the Tieling Formation and the Xiamaling Formation at the Zishikou section, Laishui County, Hebei Province. Based on the field observation and  analyses of petrology and mineralogy, it can be referred that this ancient weathering crust is mainly composed of limonitebearing ferric mudstone and illite claystone. Compared with element contents of the Upper Continental Crust, Al₂O₃,TiO₂,Fe₂O₃, K₂O in the ancient weathering crust have obvious and different enrichments, SiO₂ is leached slightly and CaO, MgO, Na₂O are leached seriously, trace elements, including Sc, Cu, Ga, Zr, Hf, Nb, Ta, In, Th, Li, V, Zn, Rb, Cs, W, Pb, U, Mo, Bi, are unchanged or moderately enriched, but Cr, Sr, Cd are leached, REE are enriched and fractionated. Ce shows positive anomaly and Eu shows negative anomaly. All  leaching and enrichment features, including that of U/Th, Fe³⁺/Fe²⁺, abnormality of Ce, variations of CIA and BA indexes, indicate that this ancient weathering crust should be formed under the oxidizing, moderate to strong degree of weathering conditions. Consequently, all analyses suggest that the north part of the North China Craton should be a warm and humid tropical to subtropical climate environment at the transitional time between the Calymmian Period (1600~1400 Ma) and the Ectasian Period (1400~1200 Ma) of the Mesoproterozoic Era.

Oolitic Limestone Sedimentary Characteristics and Its Environmental Significance of the Upper Triassic Riganpeicuo Formation, Gaize Area, Tibet

HOU En-gang, GAO Jin-han, WANG Gen-hou, WANG Xun-lian, XU Tao, QIAO Bo-han

2014, 28(2):  256-264. 

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Upper Triassic Riganpeicuo Formation in Gaize area, Tibet, developed a set of platform facies carbonate sediments which are a characteristic of multi-layer oolitic beaches, and these multi-layer oolitic beaches could be further divided into open platform shoal and platform margin beach.Analysis of rock types showed that this set of carbonate sedimentary succession was formed in the fringe platform sedimentary environment and the intraplatform shoal developed melange of in situ and allogeneoolitic oolitics, while the platform margin beach developed mainly in situ oolitic. Platform margin oolitic beach was a subsequence of progradational sequences in three-order transgressive system tract, and had characteristics of subtidal type meter-scale cyclic. Each oolitic limestone layer was relatively single in type and uniform in size, and the oolitic type was different among the oolitic limestone layers which possessed the trend of changes from omicrite to radial, and to concentric ooides. The size of oolitic increased and sedimentary thickness increased markedly from lower to upper.

Contemporaneous Slump Structures in the Middle Devonian Reef from  Dushan, Guizhou and Its Geological Significances

WANG Ye, WANG Xun-lian,ZHANG Hai-jun, JING Xiu-chun, SUN Xuan

2014, 28(2):  265-270. 

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The Dushan Devonian section in south Guizhou, which belongs to carbonate platform facies, is one of typical Devonian sections in China. A small knoll reef built by stromatoporoids and corals is found in the lower Jiwozhai (Chiwochai) Formation of the Middle Devonian at Jiwozhai village, Dushan. The small knoll reef is composed of bafflestones, bindstones, framestones, and conglomeratic limestones. In addition, some deformed structures, including small-sized folds and faults are found in the reef. The small-sized folds are mainly recumbent and compact folds with angular and arcual hinge zone. The small-sized faults are mainly dominated by reverse fault together with some tensile faults near the hinge zone of the small-size fold. Nevertheless, the reef base and cap are normal sedimentary calcareous mudstone and limestone, respectively, no deformed structures. The characteristics of the deformed structures in the small knoll reef and the normal reef base and cap imply that the reef slumped between post-deposition and pre-diagenesis. The contemporaneous slump structure is possibly related with volcanic activity in the Guangxi-Guizhou Sea during the Givetian of Middle Devonian.

Microorganism Fossils and Calcification Characteristics of Cambrian Stromatolites, Western Henan

CHANG Yu-guang, SUN Feng-yu, ZHENG Wei

2014, 28(2):  271-280. 

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Microbial calcification has become a hot topic of the study on microbial carbonate rocks. In the micro, abundant microbial fossils were discovered in Cambrian carbonate stromatolites of western Henan, which are Girvanella and Renalcis of Cyanobacteria with filamentous and spherical features. According to the state of microbial fossils in laminated stromatolites and related fossil evidence in western Henan, the Cambrian stromatolites calcification is of microbial interaction, including physical calcification and chemical calcification. The physical calcification includes 2 calcification pathways, and the chemical calcification includes chemical inducing and chemical control or more calcification pathways. The result of various calcification and the evidence caused by microbial initiative building effect can be clearly seen by using SEM, which are lower psephicity particles and dark stucco, etc. The results show that the stromatolites’ organic genesis and the hydrodynamic condition are important factors affecting calcification way of those stromatolites.

Sequence Stratigraphy and Trace Element Geochemistry of Silurian to Triassic Strata in Tongling, Anhui Province: Constraints on Their Sedimentary Environment

DU Yi-lun, CAO Yi, LI Da-peng, GAO Zhi-wei

2014, 28(2):  281-291. 

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The Silurian to Triassic strata of clastic sedimentary rocks and carbonates are widely distributed in the Tongling area, Anhui Province, East China, and closely associated with stratabound skarn deposits. This paper presents sequence stratigraphy and trace element geochemistry of the strata, and provides some constraints on their sedimentary environment. Sequence stratigraphical investigation shows occurrence of three events of sea level varying responsible for the formation of three sedimentary successions of regression through transgression to regression during the Paleozoic to Mesozoic period. These sedimentary successions include: (1) Early Silurian to Late Devonian regressive sequence, (2) Late Devonian to Early Permian transgressive sequence, and (3) Late Permian to Early Triassic regressive sequence. Trace element geochemistry analyses indicates existence of three evident variations in physicochemical conditions (especially oxidation-reduction conduction) of the sea bottom water during the Paleozoic to Mesozoic sedimentary period in the Tongling area. These variations are corresponded to the three events of sea level varying. It is significant that most of stratabound skarn deposits occur in the strata formed during the last two events of sea level varying.

Wumishan Cyclothem: A Typical Example of Meter-scale Cycle

ZHENG Bin-song

2014, 28(2):  292-299. 

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As the result of “punctuated aggradational cycle” mechanism of sedimentary processes, the integrated define of “meter-scale cycle” indicates that cyclostratigraphy has entered the main stream of stratigraphic practice, since the formation of meter-scale cycle can be interpreted as the product of the Milankovitch cycles. As a typical example of peritidal carbonate meter-scale cycle, the “Wumishan cyclothem” is famous for its approximately symmetrical lithofacies succession, which can replace the “Lofer cyclothem”, and can characterize the cyclic carbonate sedimentation. Ultimately, the “Wumishan cyclothem” becomes an important mark of stratigraphic texture for the very thick stromatolite carbonate succession of the Precambrian. Therefore, the “Wumishan cyclothem” not only is a typical example of carbonate meter-scale cycle, but also implies very clear Milankovitch cycle properties, and it further illustrates that meter-scale cycle can replace parasequence, because parasequence is an incomplete concept within the concept system on sequence stratigraphy.

Structural Geology

Structural Analysis and Modeling in Miquan Area of the Western Margin of the Bogda Mountain, Xinjiang

SUN Zi-ming，WANG Yi

2014, 28(2):  300-307. 

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There are favorable hydrocarbon elements in the Miquan area of the western margin of Bogda Mountain, Xinjiang. However, complex tectonic deformation and poor seismic imaging quality make identification of underground structures difficult. The accuracy of such identification is the key to a breakthrough in oil and gas exploration. Well-exposed outcrops, seismic sections, magnetotelluric and drilling data, etc., provide important information for defining underground structures. From an integrated analysis based on fault-related fold theory and main methods of structural analysis and modeling, it is pointed out that geological outcrops, magnetotelluric, drilling and logging data, together with other factors need to be comprehensively taken into account during seismic interpretation in order to accurately identify subsurface structures. Therefore, structural analysis and modeling implies a highly comprehensive work in the tectonically-deformed zone of the foreland fold and thrust belt. Beginning with a summary of traditional structural analysis and modeling workflows and theoretical methods for complex structures, a new multi-factors-constrained, integrated analysis and modeling technique is proposed, based on fault-related fold analysis. Using this developed technology as a guide, a multi-level detachment thrust nappe model is built for the Miquan area of the western margin of Bogda Mountain, Xinjiang. This technique can be applied to guide the seismic interpretation of strongly-deformed, low image quality structures, effectively improving its accuracy.

Activity Duration and Formation Mechanism of Yingbei Fault in Youshashan Area, Western Qaidam Basin

WAN Chuan-zhi，SHI Ya-jun, MA Xin-min, WU Wu-jun, WANG Xin

2014, 28(2):  308-313. 

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The Youshashan fault, whose lower side is Ⅺ fault with south-dip and upper side is Yingbei fault paralleling to Ⅺ fault, is one of the major faults in western Qaidam Basin. In recent years, there were different views on activity period and formation mechanism of Yingbei fault. Some researchers thought that it was the upper branch of Ⅺ fault with early formation period and ongoing activity since Cenozoic. And some of them thought that it was a derived fault with the same period in the formation of Youshashan fault in Himalayan Movement, and the exact time is during the deposition of Youshashan Formation in Pliocene. In this paper, according to outcrop survey, ESR dating data and 3D seismic data, we did some discussion on activity period and formation mechanism on the base of growth strata development, fault growth index analysis and the relationship between principal stress directions change and tectonic deformation. And then we conclude that: (1) Yingbei fault was a P fault generated from right lateral torsion slip activity by Youshashan fault in late Himalayan Movement, and it has nothing to do with Ⅺ fault; (2) Its formation period is mostly the Middle Pleistocene, about 500,000 years ago, later than that of Youshashan fault; (3) Yingbei fault is not involved in early oil and gas migration and accumulation, but it plays a certain role in late oil and gas adjustment.

Characteristics and Tectonic Sense of Soft Sedimentary Structures in Yanchang Formation, South Ordos Basin

DU Fang-peng, LIU Chi-yang, WANG Jian-qiang, XIONG Lin-fang, LI Jian

2014, 28(2):  314-320. 

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Soft sedimentary structures(SSDs)distribute widely in South Ordos Basin. The main types of SSDs are fault-graded faults structure, liquefied sandstone vein structure, pillow structure, ball and pillow structure, vibrational liquefaction curled deformation structure, torn mudstone fragments, which we can observe in outcrops and wells of Yanchang Formation in South Ordos Basin. SSDs distribute from Chang 9 to Chang 1 vertically, and Chang 7 is the most favourable layer of SSDs in Yanchang Formation，which coincides with the strength change of tectonic activity. SSDs can be observed in the whole south of basin, but southwest contributes more. By comparison, seismic is the main trigger of these SSDs, and part of them is built up by mass flow caused by seismic and volcanic eruption.

Research on Methods of Sandbox Modeling and Case Study Based on Particle Image Velocimetry(PIV)

DONG Zhou-bin，YAN Dan-ping，ZHANG Zi-li，XU Yan-bo，QIU Liang，ZHU

2014, 28(2):  321-330. 

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PIV，the abbreviation of Particle Image Velocimetry system，is a measuring technology system without disturbance flow field.We use this system to take high resolution images and get the velocity field by calculating the velocity vectors of every point on the image.The PIV has been installed and applied to sandbox modeling experiments in Tectonic Modeling Laboratory of China University of Geosciences(Beijing).This paper introduces the data monitoring and recording during sandbox modeling experiments，as well as data computational processes and methods of parameters，including sand grain moving velocity，shear strain rate，vorticity and so on.Quantitative simulating the deformational geometry，kinematics and dynamics using above parameters is then used with examples.The results play an important role in well understanding the deformation process and mechanism.

Petrology and Study of Ore Deposits

Helium and Argon Isotopes Tracing of Ore-forming Fluid in the Suoerkuduke Cu-Mo Deposit in the Northern Margin of Junggar, Xinjiang

GENG Xin-xia, ZUO Wen-zhe, CHEN Feng-he, JIANG Guo-hao, ZHANG Zhi-xin

2014, 28(2):  331-338. 

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The Suoerkuduke Cu-Mo deposit located in the northern margin of Junggar Terrane, is hosted by skarn and andesite of Middle Devonian volcanic rocks of Beitashan Formation. The orebodies are stratoid, lenticular and vein types. Helium and argon isotopic compositions of fluid inclusions in pyrite from epidote skarn, andesite and ore were analyzed by using an inert gas isotopic mass spectrometer. The analysis results indicated that the ⁴He content ranges from 0.882 1×10^-8 cm³ STP/g to 13.341 0×10^-8 cm³ STP/g, the ³He/⁴He ranged from 0.88 Ra to 1.76 Ra, the He content from mantle varied from 13.27% to 26.93%, all of these characteristics showed that the He in ore-forming fluids derived mainly from crust. The ⁴⁰Ar content varied from 4.237 6×10^-8 cm³ STP/g to 13.970×10^-8 cm³ STP/g, the ⁴⁰Ar/³⁶Ar was 301.07 to 331.55，and the radiogenic ⁴⁰Ar* varied from 1.71% to 10.87%，indicated Ar in the ore-forming fluid was mainly from atmospheric water. The composition of He and Ar in three kinds of pyrite was similar. Combining deposit fluid inclusion and isotopic characteristics, we suggested that helium and argon isotopes of fluid inclusions in pyrite were mixture of crust fluid, mantle fluid and atmospheric water. The formation of deposit closely related with skarn and andesite, which imply that the ore genesis was skarn type Cu-Mo deposit.

Geological Characteristics and Molybdenite Re-Os Isotopic Dating of Antuoling Molybdenum Deposit in Hebei Province

ZHE Meng，HU Jian-zhong，ZHOU Wei，DING Hai-yang

2014, 28(2):  339-347. 

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The Antuoling molybdenum deposit in Hebei Province is located in the northern part of the Taihang mountain region in China. It is one of the well-known molybdenum deposits in Yanshan-Liaoning molybdenum ore belt. The main ore-forming types in the deposit include veinlet, film-like, and disseminated molybdenite mineralization, and the mineralization is mainly situated in inner porphyry body and outer contact belts. Hydrothermal alteration is well developed and is composed of silicification, pyritization, sericitization, pyritization-sericitization and propylitization, with the characteristics of typical porphyry Mo deposits. Re-Os dating of five samples from the Antuoling porphyry-type deposit yield the model age ranging from (145.7±2.4 ) to (148.8±2.6) Ma, with the average model age of (146.9±1.0) Ma. The isochron age of (147.3±3.7) Ma (initial ¹⁸⁷Os=(-0.4±2.6) ng/g, and MSWD = 1.5) indicates that molybdenum mineralization was formed in Late Jurassic and had spatially and temporally associated with the tectonomagmatic orogenic process in middle-late Yanshanian period in which it is coincident with the largescale metallogenic event happened in 140 Ma in the northern part of China. The Re contents of the samples ranging from 50.42×10^-6 to 104.9×10^-6, and the δ³⁴S values of the sulphur isotope ranging from 0.7‰ to 2.8‰, indicate that the ore-forming materials were derived from mixed crust and mantle sources. The Antuoling molybdenum deposit was formed in the Mesozoic second largescale mineralization period of North China. It is the consequence of the tectonic regime changing from compression to extension.

Geochemistry Constraint on Ore-forming Material and Ore-forming Fluids of Tongyugou Copper Deposit in Xinghai County, Qinghai Province

ZENG Xiao-hua，ZHOU Zong-gui

2014, 28(2):  348-358. 

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Tongyugou copper deposit is located in the southeast segment of the Elashan polymetallic belt in Qimantage-Elashan ore-forming subzone. Based on the trace element geochemistry and the stable isotopes of Tonyugou copper deposit, this paper studied the source of ore-forming material and ore-forming fluids, identified the genesis of Tongyugou copper deposit. From the test results,the rare earth element distribution patterns are approximately consistent,the REE patterns are enriched in LREE and are depleted in HREE with high fractionation and negative Eu anomaly,demonstrating that the ore material comes from multi-source;sulfur isotope compositions δ³⁴S measurement are full-negative,belong to light sulfur type,revealing that the whole S was from the sedimentary sulfur; the demographics of Pb isotopic compositions showing that the lead was mainly from the ore deposition diagenetic stage,and partly from the Indosinian orogeny,which is closely related to Indo-Chinese orogenic movement. Hydrogen, oxygen and silicon isotope studies shown that the metallogenic fluids stemmed from magmatic water and mixed with metamorphism hydrothermal.The overall reflection show that the ore-forming material sources was related to the magmatic-hydrothermal activities. In general,Tongyugou copper deposit is a skarn type copper deposit.

Geochemical Features of Ore-forming Fluids of the Sandaogou Pb-Zn-Ag Deposit in Luanchuan County, Henan Province

TANG Li, ZHANG Shou-ting, CAO Hua-wen, TIAN Hao-hao, ZHANG Xu-huang, ZHAN

2014, 28(2):  359-368. 

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The Sandaogou Pb-Zn-Ag deposit is an important part of the Pb-Zn-Ag ore concentration area in Western Henan Province. The Pb-Zn-Ag mineralization shows three stages: the early stage is characterized by quartz-pyrite; the middle stage includes quartz-(Pb-Zn-Ag)sulfide; and the late stage includes quartz-calcite. Three types of fluid inclusions are trapped in quartz, which are water inclusions, gas inclusions and CO₂-H₂O inclusions. The temperatures of the ore-forming fluids in the early, middle and late stages are 260-360 ℃, 200-320 ℃ and 160-260 ℃, respectively. The salinity of the ore-forming fluid is in a range of 4%-10% in the early stage, 6%-12% in the middle stage, 4%-8% in the late stage, and the salinity increases in the beginning and then decreases. The densities of the ore-forming fluid are between 0.58 and 1.06 g/cm³, with a mean value of 0.86 g/cm³. The ore-forming fluids are highmiddle temperature, low salinity and low density fluids. In the early mineralization stage, δD values are from -67.5‰ to -75.1‰ and δ¹⁸Owater values are from 6.4‰ to 11.1‰; in the middle mineralization stage, δD value is -106.8‰ and δ¹⁸Owater value is 5.0‰; in the late mineralization stage, δD is from -86.4‰ to -100‰ and δ¹⁸Owater values are from -0.7‰ to 2.2‰. The results show that the ore-forming fluids were derived from the magmatic water or the metamorphic water, and mixed with meteoric water in the major stage and the late stage. We preliminarily present that the genesis of the Sandaogou deposit was mid-temperature hydrothermal vein type Pb-Zn-Ag deposit, and it was the result of the post Yanshanian magmatic ore-bearing hydrothermal filling mineralization.

Petroleum Geology

Distribution Model of Remaining Oil of Fractured-vuggy Carbonate Reservoir in 6-7 Area, Tahe Oilfield

LIU Zhou,KANG Zhi-hong, ZHOU Lei，RONG Yuan-shuai, YU Ya-lin, RAN Yi-feng

2014, 28(2):  369-378. 

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Tahe Oilfield 6-7 area whose recovery is significantly lower than other oilfield at home and abroad, is a fractured-vuggy carbonate reservoir. Based on the actual development situation in 6-7 area, high quality 3D seismic data, rock core, well log data and production data, the controlling factor of the remaining oil distribution could be reduced to 7 kinds of geological factors and 4 kinds of development factors. Combined with reservoir engineering, numerical simulation multidisciplinary approach, a comprehensive study is used in the remaining oil distribution in this process. Top surface form of hammock, the distribution of dense limestone and fracture zone, and geometry types of reservoir control the development of reservoir space and flow channel; Drilling locations, relationship of producing intervals and injectionproduction affect the sweep region of the water in the reservoir. Through the fine description for the geologic and development factors of remaining oil distribution in fracturedvuggy carbonate reservoir, remaining oil distribution models of hammock, dense barrier occlusion, blind cavity oil, attic, bottom water coning, and pore and fracture around high diversion channel were eventually built up, and the authors considered that the remaining oil controlled by the compact segment and low monadnock zone will be the focus tapping areas in the future.

Types of Sandstone Reservoir Diagenetic Facies and Microscopic Pore Structure Characteristics of Chang 81 Reservoir in Huaqing Oilfield

REN Da-zhong, SUN Wei, WEI Hu, ZHOU Shu-xun, ZHANG Yi-guo, ZHANG Xi

2014, 28(2):  379-387. 

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In order to characterize the diagenetic facies and microscopic pore structure characteristics of low/ultra-low permeability sandstone reservoir in Chang 8₁ segments of Huaqing Oilfield, this paper discusses the diagenetic process,cement type of each diagenetic facies, pore evolution, the effect of pore structure on the physical property and fluid seepage characteristics.On the background of reservoir sedimentary characteristics, the test analysis methods are used and the testing oil exploration results for dynamic data validation is made, such as, physical property, casting lamella, scanning electron microscope(SEM), conventional pressure mercury, image pore, X-ray diffraction, oil-water relative permeability. Establishing the reservoir evolution frame in time and space:deposition (sedimentary facies)-diagenesis (diagenetic facies)-pore evolution are the controls of microscopic pore structure of reservoir physical property and seepage characteristics. Different diagenetic facies type have both constructive and destructive dual effects, specificing in the degrees of differences of compaction, cementation, function, dissolution. The qualitative analysis and quantitative description of indoor experiment of diagenetic facies microscopic pore structure have a consistency with testing for oil exploration results and experimental data. It is pointed out that the diagenetic facies and microscopic pore structure characteristics of this kind of reservoir can predict and evaluate favorable space. Chang 8₁ reservoir underwater distributary channel microfacies with chlorite lining edge residual pore-dissolution phase combination of intergranular pore development is the most favorable reservoir belt. Pore of forced compactioncarbonate+illite cementation facies association is damaged too seriously to be an invalid reservoir zone.

Diagenesis and Pore Evolution of Jurassic Low-porosity and Low-permeability Sandstone Reservoir in Southeastern Tarim Basin

LI Kun, YU Bing-song, WANG Li-dong, PAN Ying-lu

2014, 28(2):  388-395. 

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Based on bulk laboratory results of cast thin section, scanning electron microscope, X-ray diffraction, physical property analysis, particle size analysis, cathodoluminescence, inclusions, the characteristics of diagenesis and pore evolution of Jurassic sandstone reservoir in southeastern Tarim Basin were systematically studied in this paper. The result shows that the rock type of Jurassic reservoir in southeastern Tarim Basin is mainly composed of feldspathic lithic sandstone, lithic arkose and lithic sandstone, with low compositional maturity and low textural maturity. It is a typical low-porosity and lowpermeability reservoir. This sandstone reservoir went through strong compaction and cementation, which are mainly responsible for losing porosity. The dissolution and fissure are generally poor, but they are extremely uneven and generated a significant contribution to the improvement of reservoir properties in local development layers. The reservoir is now in the A period of middle diagenesis stage. By using physical property analysis, cast thin section and related theories to make quantitative analysis, the result shows that initial porosity of Jurassic sandstone reservoir is 28.5% to 36.2% in southeastern Tarim Basin; 9.5% to 17.0% of porosity is lost due to the early stage compaction; the cementation causes 12.6%of porosity to loss; the dissolution adds 1.5% of porosity. Thus those various factors finally cause the current reservoir porosity to be 3% to 14% with average value of 7.9%.

Study on Mineral Composition and Brittleness Characteristics of Shale Gas Reservoirs from the Lower Paleozoic in the Southern Sichuan Basin

ZHAO Pei, LI Xian-qing, SUN Jie, LAI Shou-ning, FU Tong-yang, SU Gui-ping

2014, 28(2):  396-403. 

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The mineral composition and brittleness characteristics of core samples from two sets of the Lower Paleozoic marine shale gas reservoirs, i.e.the Lower Cambrian Qiongzhusi and Lower Silurian Longmaxi formations in the southern Sichuan Basin, were studied by X-ray diffraction (XRD) in this paper. The results showed that the Qiongzhusi Formation and Longmaxi Formation marine shales in the southern Sichuan Basin have their different mineral contents and compositions. In the Qiongzhusi Formation shale, there are the most abundant quartz content (28.4% to 42.8%, average of 35.7%), higher clay mineral content (25% to 35.3%, average of 28.7%), and relatively lower carbonate mineral content (1.4% to 21.7%, average of 11.2%). In the Longmaxi Formation shale, there are high clay mineral content (13.4% to 66.1%, average of 34.7%) and carbonate mineral content (14.6% to 80.0%, average of 35.9%), and relatively lower quartz content (5.2% to 41.4%，average of 21.0%). In addition, other mineral components, including pyrite, feldspar and dolomite, also exist in these shales. Generally, the mineral composition characteristics of the Lower Paleozoic marine shale samples in the southern Sichuan Basin are similar to those of the North America. Both the Qiongzhusi Formation shale and the Longmaxi Formation shale in the southern Sichuan Basin have high contents of brittle minerals. The former ranges from 55.6% to 73.9%, with an average of 64.1%. The latter ranges from 26.9% to 86.6%, with an average of 62.5%. It is suggested that the Lower Paleozoic marine shale in the southern Sichuan Basin have good brittleness and compressibility, and are beneficial to fracturing treatment for shale gas.

Hydrocarbon Distribution Characteristics and Play Elements of Beachbar Sandstone：Taking the Upper Es^s₄ Formation in Wangjiagang Oilfield as an Example

GUO Song，TAN Li-juan，LIN Cheng-yan，LI Hong-nan，Lv- Xiu-xiang

2014, 28(2):  404-411. 

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A number of beach-bar sandstone reservoir beds which have attracted more and more attentions, are developed in the upper fourth member of Shahejie Formation (Es^s₄ ) of the Wangjiagang oilfield. Based on the analysis of seismic and logging data and an experiment, this paper analyzes the hydrocarbon distribution characteristics and play elements of beach-bar sandstone in the upper fourth member of Shahejie Formation (Es^s₄ ) of the Wangjiagang oilfield. The results showed that the beach-bar reservoir beds with thin interbedded sandstone have strong heterogeneity. Hydrocarbon distribution and properties were extremely non-uniform. Migration pathways are the important condition of hydrocarbon accumulation in the regions which suffered strong tectonic movements. Reservoir bed heterogeneity is another controlling factor of non-uniform distribution of hydrocarbon. Simulated experiment indicated that the change of driving force for hydrocarbon migration impacted selective accumulation mechanism in the process that hydrocarbon moved vertically along fault zone to the reservoir and distribution of hydrocarbon in the reservoir.

Source and Accumulation of Natural Gas in Leikoupo Formation, Yuanba Area, Eastern-Northern Sichuan Basin

HUANG Ren-chun

2014, 28(2):  412-418. 

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Leikoupo Formation has become an important target in natural gas exploration of the Sichuan Basin in recent years. Some disputes are remained on both the natural gas source and its generation potential for the Leikoupo Formation. It is indicated that the mean TOC for the argillaceous marl and dolomite arrived at 0.72%, with a comparative high capacity of gas generation. The natural gases are dominated by hydrocarbon component with a low amount of heavy hydrocarbons (round 1%) and have a dryness index of 0.99. Unlike the natural gases found in other marine sequence, the natural gases investigated in this paper contain relatively low concentration of no-hydrocarbons (abundances of CO₂ and N₂ less than 10% and H2S in trace amount (<0.01%)). The methane is isotopically somewhat heavy (-31.5‰ to -36.3‰), whereas the ethane has relatively light values mostly less than -28‰ (-27.7‰ to -36.6‰), with isotopic reversals in partial gas samples, suggesting a post-mature marine gas. Natural gases in Leikoupo Formation are distinguished in isotopic compositions of alkane hydrocarbons from typical terrestrial gas in Xujiahe Formation and marine gas in Feixianguan-Changxing Formation, indicating a different gas source. In conjunction with the character of hydrocarbon source and distribution of source rocks, the close similarity of light hydrocarbons with marls of Leikoupo Formation indicate that the natural gases in Leikoupo Formation are likely from the source rock within this sequence. Through the integrated investigation for the gas accumulation in the Leikoupo Formation, it is found that the source rock occurrence controlled the gas enrichment. Namely, natural gas was only accumulated in “lithologic traps” (constituted by shoal dolomite and/or fractured limestone) which located near the source rock.

Engineering Geology and Environmental Geology

Operating State Assessment of the Geohazard Prevention and Control Projects in Wenchuan Earthquake Region: A Case Study of Weiba Landslide in Pingwu County

GUO Chang-bao , ZHANG Yong-shuang , ZHOU Neng-juan, ZHANG Rui-duan

2014, 28(2):  419-428. 

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The Wenchuan Ms 8.0 earthquake happened on May 12, 2008, resulted in tens of thousands of geo-hazards, such as collapse, landslide, debris flow, and brought a great threat to the safety of human life and property. After the Wenchuan earthquake, the Chinese government has carried out geohazard control project in the disaster area, adopting the construction of water drain, retaining wall, slope anti-slide pile, load shedding and toe back pressure. Although the geohazard prevention project has achieved good control effect in general, there are still some problems in the geohazard prevention and control project in the earthquake region. Through field investigation, based on analyzing the present technique and evaluation methods related to geohazards, an evaluation system for geohazard prevention and control projects has been established for the earthquake disturbed zone. According to the evaluation system, it is believed that the prevention effect evaluation system should include 3 first-level evaluation factors and 12 second-level ones. A comprehensive evaluation model was established for the effect of the prevention and control projects based on the AHP (analytic hierarchy process) method. It divided the prevention and control efficiency (R) into 4 grades: best (R≥0.85), good (0.70≤R<0.85), common (0.6≤R<0.70) and bad (too conservative or failure, R<0.6). On this basis, a comprehensive evaluation was made on Weiba landslide control effect, Pingwu County, and the result show that the control effect is common, which is consistent with the actual situation.

Formation Background and Regular Pattern of Avalanches and Landslides of Qingjiang River Basin in Western Hubei Province

CHANG Hong, HAN Hui-qing, ZHANG Yu, LI Jing-fu, TAN Jian-min

2014, 28(2):  429-437. 

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The mountain area in western Hubei Province, mainly in Qingjing river basin, is one of landslide and avalanche prone regions in China. Based on the results of the geological disaster investigation in 11 counties of this area, including 2,276 landslides and 567 avalanches, the characteristics of development and distribution of these landslides and avalanches are summarized in this paper by the method of statistics, induction and analogy. At the same time the control effect of different hazard-cause factors was respectively analyzed, including geological structures, lithology combination, river evolution, human activities and rainfalls. According to the key controlling factor, the formation patterns of landslides can be sorted into 4 types of regular ones, i.e. rainfall controlled type, box-shape (close-narrow shape) anticline controlled type, wide and gentle shape syncline controlled type, and reservoir water-level controlled type, and those of avalanches can be classified into 2 types of regular ones, i.e. wide and gentle shape syncline controlled type, and karst-pillar controlled type. At last it was inferred that the risk of 3 types of landslides and avalanches must be focused on and prevented in the study area.

Grain Size Characteristics and Fractal Structure of the Debris-flow Deposits： An Example from the Waka Debris-flow Gully in the Dryhot Valley of the Upper Jinsha River

CHEN Jian, CHEN Song, SHEN Nai-qi, LIU Li-na, CUI Zhi-jiu

2014, 28(2):  438-442. 

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Taking the Waka debris-flow gully in the dry-hot river valley area of the upper Jinsha River as an example, the concept of sedimentary facies was introduced and the debris-flow sedimentary types were divided according to the characteristics of the sedimentary facies. The debris-flow sedimentary facies of Waka profile were divided into three types, Facies A (coarse-gravel layer), Facies A1 (fine-gravel layer) and Facies B (surface mud layer), i.e. Three or four samples were collected from each unit and 61 samples were collected in all and their grain sizes were analyzed. The characteristics of grain-size distribution and fractal structure of these samples were analyzed based on grain-size data. The results show the following aspects: (1)The curves of the grain-size distribution of the three sedimentary facies are all of bimodal type, reflecting bad sorting of sedimentary materials for debris-flow deposits. (2)Facies A and Facies A₁ are of coarse-fine mixed gravel layers, and the grain-size distribution is not uniform. However, Facies B is of clay layers which include few or no gravel, and the grain-size distribution is more homogeneous. (3)The fractal features of Facies A and Facies A₁ are more apparent than that of Facies B, and the grain-size fractal dimensions of Facies A and Facies A₁ are 2.692,1 and 2.697,1 with relative coefficient of 0.868,2 and 0.832,2, while the grain-size fractal dimension of Facies B is 2.9007 with relative coefficient of 0.43.The differences of grain-size distribution and fractal feature among Facies A, Facies A₁ and Facies B reveal that these three debris-flow sedimentary facies formed in different sedimental environments.

Research on Variable Dimension Fractal Characteristics of Spatial Distribution of Landslides

QIU Hai-jun, CAO Ming-ming, LIU Wen, HAO Jun-qing, HU Sheng, GAO Yu, LIU Qi

2014, 28(2):  443-448. 

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Quantitative research on characteristics of spatial distribution of landslide is important for analysis of inoculation and development of landslide. Because the fractal can reveal the fine structure hidden in the complex and chaotic phenomena, and it is gradually applied to the study of landslide. Taking the landslide of Ningqiang, Shaanxi as an example, this research discussed the fractal structure characteristics of single-landslide and large-area landslide systems, and the calculation of fractal dimension and variable fractal dimension. The results show that the relationship between the landslide and the influence factor, i.e. elevation, landform amplitude, slope, distances from river and fault, and lithology fits the first-order accumulated variable dimension fractal distribution, and the fractal dimension is 0.511,1, 1.135,7, 1.290,6, 0.903,8, 1.189,5 and 0.979,9, respectively. Thus the sensitivity of these influence factors to landslide is in the descending order as slope>distance from fault>landform amplitude>lithology>distance from river>elevation. This research indicates that the variable dimension fractal theory is completely feasible to study the spatial distribution characteristics of landslide, and it can quantitatively reflect the spatial distribution of landslide and the sensitivity of the influence factor to landslide; it is especially important for the GIS spatial overlay analysis to determine the weight.