Evaluation and Quantitative Attribution Analysis of Water Yield Services in the Peak-cluster Depression Basins in Southwest of Guangxi,China

Karst environmental issues have become one of the hot spots in contemporary international geological research. The same problem of water shortage is one of the hot spots of global concern. The peak-cluster depression basins in southwest of Guangxi is an important water connotation and ecological barrier areas in the Pearl River Basin of China. Thus, studying the spatial and temporal variations and the influencing factors of its water yield services is critical to achieve the sustainable development of water resources and ecological environmental protection in this region. As such, this paper uses the Integrated Valuation of Ecosystem Services and Tradeoffs(InVEST) model to assess the spatial and temporal variabilities of water yield services and its trends in the peak-cluster depression basins in southwest of Guangxi from 2000 to 2020. This work also integrates precipitation(Pre), reference evapotranspiration(ET), temperature(Tem), digital elevation model(DEM), slope, normalized difference vegetation index(NDVI), land use/land cover(LULC) and soil type to reveal the main factors that influence water yield services with the help of Geodetector. Results show that: 1) in time scale,the total annual water yield in the study area show a fluctuating and increasing trend from 2000 to 2020, with a growth rate of 7.3753 × 10^(8)m^(3)/yr, and its multi-year average water yield was 538.07 mm;2) in spatial pattern, with high yield areas mainly distributed in the south of the study area(mainly including Shangsi County, Pingxiang City, Ningming County, Longzhou County and Jingxi County), and low yield areas mainly distributed in Baise City and Nanning City;3) the dominant factor of water yield within karst and non-karst landforms is not necessarily controlled by precipitation, and the explanation degree of DEM factors in karst areas is significantly higher than that in non-karst areas;4) amongst the climatic factors, Pre, ET and Tem are dominant in the spatial pattern of region water yield capacity. among which Pre has the highest explanatory power for the spatial heterogeneity of annual water production, with q values above0.8, and each driver showed a significant interaction on the spatial distribution of water yield, with Pre exhibiting the strongest interaction with LULC.

A Structural Interpretation Model and Restoration of the Mesozoic Proto-basin for the Kuqa Depression,Tarim Basin

A thrust-fold belt consisting of a series of thrusts and buckling folds developed in the Mesozoic and Cenozoic strata within the Kuqa Depression,Tarim Basin.In this study,a structural interpretation model of the Kuqa Depression is established and the Mesozoic proto-basin is reconstructed on the basis of outcrop geology along the basin margin,seismic,well-log and CEMP data.The model is called‘delaminate contractional deformation',which emphasizes the decoupling between the Cenozoic,Mesozoic,pre-Mesozoic and the basin-basement within the Kuqa Depression,but there is no unified detachment.The model has a shortening amount ranging from 12 km to 16 km and the depth involved in contractional deformation ranges from 21 km to 28 km.A prototype of the Mesozoic basin reconstructed by interpretation model is a subbasin superposed on the transitional zone between the uplift at the northern edge of the Tarim Craton and the southern Tianshan orogenic wedge formed in the Hercynian orogeny.Lithospheric thermal and crustal isostatic activity after the Hercynian orogeny maybe the controlling dynamic factors of basin subsidence during the Mesozoic and early Cenozoic,the difference in rock mechanical properties between different levels,craton and orogenic wedge being the major cause of the‘delaminate contractional deformation'during the Himalayan orogeny.

Study of crustal seismic velocity in the Weihe fault depression basin by seismic tomographic imaging

This paper gives a study of 3 D crustal seismic velocity changes in the Weihe fault depression basin, in which the overlapping sphere iterative reconstruction method of tomographic image was used in connection with the two point fast ray tracing technique. By means of theoretical modeling, the monitoring function of the observatory network system of Shaanxi Province was tested. Using the seismic data of the network, seismic tomographic inversion imaging of the crustal seismic velocity in the Weihe fault basin was studied. The results are as follows: In the Tongchuan Yaoxian area to the north of Jingyang, there is a high velocity region extending nearly in NS direction, the highest velocity value is around Tongchuan. To the southwest of Shangxian and Lantian, there is a low velocity zone about 100 km long and about 50 km wide, inside which there are two regions of the lowest velocity 50 km apart. The epicenters of historical strong earthquakes are mainly on the boundary of high velocity regions or in regions of fairly high velocity. In the eastern and western parts of the south margin of the Qinling Mountains, there is an obvious lateral nonhomogeneity of seismic velocity.

On the Carboniferous Sequence Stratigraphy in the Tazhong Area, Xinjiang——A Model of the Sequence Stratigraphy Framework of Intracratonic Depressional Basins

The Carboniferous prototype sedimentary basin in the Tazhong (Central Tarimbasin) area is recognized as a compressive intracratonic depressional one. Three type Ⅰ sequenceboundaries and three type Ⅱ sequence boundaries can be identified in the CarboniferousSystem, which can accordingly be divided into five sedimentary sequences. These sequencespossess stratigraphic characters of the standard sequence and correspond to the depositionalstratigraphic unit of a third-order eustatic cycle. They can be regionally or globally correlatedwith each other. The framework of sequence stratigraphy of the intracratonict basin in thestudy area distinctly differs from that of the passive continental-margin basin in the lack ofdepositional systems of early-middle lowstand, poor development of the deeply incised valleyand condensed section of the maximum sea-flood, good development of type Ⅱ sequenceboundaries and coastal plain depositional systems coexisting with shelf-type fan deltas underwet climatic conditions, Which consequently led to the formation of a paralic lithofacies frame-work.

Evidence of Oil Sources and Migration in Triassic-Jurassic Reservoirs in the South Tianhuan Depression of the Ordos Basin, China Based on Analysis of Biomarkers and Nitrogen-Bearing Compounds

The Ordos Basin is an important intracontinental sedimentary basin in western China for its abundant Mesozoic crude oil resources. The southern part of the Tianhuan Depression is located in the southwestern marginal area of this Basin, in which the Jurassic and Triassic Chang-3 are the main oil-bearing strata. Currently, no consensus has been reached regarding oil source and oil migration in the area, and an assessment of oil accumulation patterns is thus challenging. In this paper, the oil source, migration direction, charging site and migration pathways are investigated through analysis of pyrrolic nitrogen compounds and hydrocarbon biomarkers. Oil source correlations show that the oils trapped in the Jurassic and Chang-3 reservoirs were derived from the Triassic Chang-7 source rocks. The Jurassic and Chang-3 crude oils both underwent distinct vertical migration from deep to shallow strata, indicating that the oils generated by Chang-7 source rocks may have migrated upward to the shallower Chang-3 and Jurassic strata under abnormally high pressures, to accumulate along the sand bodies of the ancient rivers and the unconformity surface. The charging direction of the Jurassic and Chang-3 crude oils is primarily derived from Mubo, Chenhao, and Shangliyuan, which are located northeast of the southern Tianhuan Depression, with oils moving toward the west, southwest, and south. The results show that an integration of biomarker and nitrogen-bearing compound analyses can provide useful information about oil source, migration, and accumulation.

Sedimentary characteristics and model of gravity flow channel-lobe complex in a depression lake basin:A case study of Chang 7 Member of Triassic Yanchang Formation in southwestern Ordos Basin,NW China

To reveal the development characteristics and distribution of gravity flow sedimentary system under micro-paleogeomorphologic units of the Chang 7 Member of Triassic Yanchang Formation in the southwestern Ordos Basin,on the basis of the restoration of the paleogeomorphological form of the Chang 7 depositional period by the impression method,each micro-paleogeomorphologic unit was depicted in-depth,and the characteristics and development models of gravity flow deposits in the study area were studied in combination with outcrop,core,mud logging and log data.The results show that:(1)The paleogeomorphology in the Chang 7 depositional period was an asymmetrical depression,wide and gentle in the northeast and steep and narrow in the southwest.Three sub-paleogeomorphologic units were developed in the basin,including gentle paleo-slope,paleo-slope and paleo-depression,and they can be further subdivided into eight micro-paleogeomorphologic units:bulge,groove,slope break belt,plain of lake bottom,deep depression of lake bottom,paleo-channel,paleo-ridge of lake bottom,and paleo-uplift of lake bottom.(2)There are 9 types of lithofacies and 4 types of lithofacies assemblages of Chang 7 Member.According to lithofacies composition and lithofacies vertical combination,the gravity flow deposit is further divided into 5 types of microfacies:restricted channel,unrestricted channel,natural levee,inter-channel,lobe.(3)Paleogeomorphology plays an important role in controlling sediment source direction,type and spatial distribution of sedimentary microfacies,genetic types and distribution of sand bodies in Chang 7 Member.

Sedimentary characteristics and processes of the Paleogene Dainan Formation in the Gaoyou Depression, North Jiangsu Basin, eastern China

In this paper,the type,vertical evolution,and distribution pattern of sedimentary facies of the Paleogene Dainan Formation in the Gaoyou Depression of the North Jiangsu Basin are studied in detail.Results show that fan delta,delta,nearshore subaqueous fan,and lacustrine facies developed during the Dainan Formation period and their distribution pattern was mainly controlled by tectonics and paleogeography.The fan delta and nearshore subaqueous fan facies predominantly occur in the southern steep slope region where fault-induced subsidence is thought to have created substantial accommodation,whereas the delta facies are distributed on the northern gentle slope which is thought to have experienced less subsidence.Finally,the lacustrine facies is shown to have developed in the center of the depression,as well as on the flanks of the fan delta,delta,and nearshore subaqueous fan facies.Vertically,the Dainan Formation represents an integrated transgressiveregressive cycle,with the E2d1being the transgressive sequence and the E2d2being the regressive sequence.This distribution model of sedimentary facies plays an important role in predicting favorable reservoir belts for the Dainan Formation in the Gaoyou Depression and similar areas.In the Gaoyou Depression,sandstones of the subaqueous distributary channels in the fan delta and the subaqueous branch channels in the delta are characterized by physical properties favorable for reservoir formation.

Genesis of Abnormally High Abundant Rearranged Hopanes in Condensates from the Kuqa Depression, Tarim Basin

Objective The Tarim Basin is China＇s largest ore-bearing interior basin, and contains mainly marine oils. The Kuqa depression, a secondary structural unit within the northem Tarim Basin, is composed of Mesozoic and Cenozoic clastic sedimentary rocks dominated by continental oil. Previous research suggests that the crude oils especially condensates in the Kuqa depression are rich in abnormally high abundant rearranged hopanes. On the basis of 41 condensate samples and five oil samples from the Kuqa depression, this work systematically discussed the relationship between biomarker parameters and rearranged hopanes and deeply investigated the influence of depositional environment, original source,

Evaluation of abundant hydrocarbon-generation depressions in the deepwater area of Qiongdongnan Basin,South China Sea

It has been confirmed that the key source rocks of Qiongdongnan Basin are associated with the Yacheng Formation, which was deposited in a transitional marine-continental environment. Because the distribution and evolution patterns of the source rocks in the major depressions are different, it is important to determine the most abundant hydrocarbon-generation depressions in terms of exploration effectiveness. Based on an analysis of organic matter characteristics of the source rocks, in combination with drilling data and seismic data, this paper establishes a model to evaluate the hydrocarbon-generation depressions in the deepwater area of Qiongdongnan Basin. First of all, by using the method of seismic-facies model analysis, the distribution of sedimentary facies was determined. Then, the sedimentary facies were correlated with the organic facies, and the distribution of organic facies was predicted. Meanwhile, the thickness of source rocks for all the depressions was calculated on the basis of a quantitative analysis of seismic velocity and lithology. The relationship between mudstone porosity and vitrinite reflectance（Ro） was used to predict the maturity of source rocks. Second, using the parameters such as thickness and maturity of source rocks, the quantity and intensity of gas generation for Yacheng and Lingshui Formations were calculated. Finally, in combination with the identified hydrocarbon resources, the quantity and intensity of gas generation were used as a guide to establish an evaluation standard for hydrocarbon-generation depressions, which was optimized for the main depressions in the Central Depression Belt. It is proposed that Lingshui, Ledong, Baodao and Changchang Depressions are the most abundant hydrocarbon depressions, whilst Songnan and Beijiao Depressions are rich hydrocarbon depressions. Such an evaluation procedure is beneficial to the next stage of exploration in the deep-water area of Qiongdongnan Basin.

Micropaleontology and palaeoclimate during the early Cretaceous in the Lishu depression,Songliao basin,Northeast China

Diverse and abundant microfossils, such as palynomorphs, algae and Ostracoda, were collected from lower Cretaceous strata of Lishu depression, located in southeastern Songliao basin, and were identified and classified in order to provide relevant, detailed records for paleoclimate research. The early Creta- ceous vegetation and climate of southeastern Songliao basin have been inferred from the analysis of palynomorph genera, algae and Ostracoda of the LSI and SW110 wells. The lower Cretaceous strata include, in ascending stratigraphic order, the Shahezi, Yingcheng and Denglouku formations. Palyno- logical assemblages for each formation, based on biostratigraphic and statistical analyses, provide an assessment of their longitudinal variations. During deposition of the Shahezi Formation, the climate was mid-subtropical. Vegetation consisted of coniferous forest and herbage. During deposition of the Ying- cheng Formation, the climate was south Asian tropical. Vegetation consisted mainly of coniferous forest and herbal shrub. In addition, fresh and saline non-marine water dominated the lacustrine setting during deposition of these formations. Deposition of the Denglouku Formation, however, occurred under a hot and dry tropical climate. The vegetation was mostly coniferous forest and lake waters became saline. Palaeoclimate variation is correlated by the lake level change and the development of sedimentary facies. Palaeoclimate contribute to the formation of hydrocarbon source rocks and reservoir.

Numerical simulation of the detachment dynamics in North China Basin

Refering to geological evidences and recent Lincheng-Julu deep seismic reflection profile in the west-central part of North China Basin, it is concluded preliminarily that a low angle detachment structure may exist in the central part of North China depression. Numerical method is used to simulate the influence of hot mantle intrusive bodies to Cenozoic basin tectonic movements. Numerical simulations show that,① The intrusion of hot mantle material has led to an extensional stress state in the upper crust in central North China depression. As time increasing, the extensional stress state changed slightly in the upper crust and was in keeping with the normal faulting tectonics in the upper crust in depression area. ② In Cenozoic era, under the effects of magmatic intrusion and the resistance of Taihang Mountain, the weak zone produced by the Mesozoic thrust faulting would become a detachment structure.③ With the elapse of time, the horizontal compressive stress gradually concentrated in the median crust, and the concentration of stress may generate strike-slip earthquakes in the median crust above the intrusive body.

山东济阳拗陷第三纪玄武岩的铅同位素研究

山东济阳拗陷第三纪玄武岩的Pb同位素组成变化明显:^(206)Pb/^(204)Pb值为16.864～18.361,^(207)Pb/^(204)Pb值为15.268～15.599,^(208)Pb/^(204)Pb值为36.770～39.118。在Pb-Pb和Pb-Sr图上,所有数据点形成良好的线性关系,而且都分布于DMM、EMⅠ和EMⅡ3个地幔端员组分之间。这些特征表明,同位素组成的明显变化应主要归因于玄武岩浆形成过程中地幔源区中不同端员组分之间的混合作用,地壳混染作用影响不明显。

黑龙江省东部残留盆地群早白垩世沉积相特征及演化

黑龙江省东部残留盆地群早白垩世主要充填滴道组(裴德组)、城子河组(七虎林组和云山组)、穆棱组(珠山组)和东山组。沉积相以冲积扇相、(扇)三角洲相、湖泊相、海相等为主。沉积相研究结果表明,滴道组以冲积扇及(扇)三角洲粗碎屑沉积为主,并伴随有火山岩分布,反映了盆地初始裂陷阶段的沉积环境特点;城子河组和穆棱组沉积时期,三江地区处于整体下沉阶段,现今残留的三江盆地、勃利盆地、鸡西盆地、虎林盆地、宁安盆地、鹤岗盆地和汤原断陷等为统一的近海拗陷盆地,张广才岭—小兴安岭及东三江和完达山地区是盆地主要物源供给区,平面上构成(扇)三角洲—滨浅湖—半深湖—湖底扇的沉积格局,并且伴随有多次海侵事件,海侵方向主要来自虎林盆地东部及绥滨坳陷北部;东山组沉积时期,盆地已明显萎缩,发育局限的(扇)三角洲—滨浅湖相沉积。

济阳拗陷第三纪玄武岩的Nd-Sr同位素研究

本文报道了济阳拗陷29个第三纪玄武岩的Nd,Sr同位素组成。结果表明,该区早、晚第三纪玄武岩的Nd-Sr同位素组成变化较明显且具有一定的区别:早第三纪玄武岩的εNd值为-2.4～3.3,87Sr/86Sr比值为0.70481～0.70930;晚第三纪玄武岩的εNd值为0.1～2.3,87Sr/86Sr比值为0.70421～0.70530。鉴于εNd与1/Nd及87Sr/86Sr与1/Sr之间不存在相关特征,Nb正异常以及SiO2与MgO,Fe2O3+FeO,P2O5呈负相关,与Al2O3呈正相关,但与K2O不存在相关特征,因此,地壳混染作用并不是第三纪玄武岩同位素组成变化的主要原因。玄武岩87Sr/86Sr比值的升高是由热液蚀变造成的,而εNd值的变化则归因于源区混合。如果热液蚀变作用没有发生,这些玄武岩的所有数据点在Nd-Sr相关图上将可能位于地幔系列内部。这表明第三纪玄武岩主要是由DMM和EMI两个端员组分不同程度混合形成,EMII的贡献是次要的。

黄骅坳陷孔南地区孔二段湖盆结构恢复

孔南地区孔二段受到沧东断层、徐西断层等活动影响,地层结构遭受强烈的改造,原有湖盆结构发生了很大的变化。隆起区构造单元富泥质沉积,凹陷构造单元富砂质沉积,成为研究区孔二段的主要特征之一,也成为研究的难点。本文通过对研究区孔二段沉积厚度、岩相、沉积相、构造分析以及等时地层格架下的沉积体系展布规律分析等,对孔二段沉积时期湖盆结构进行了恢复,改变了以往认为孔店期为断陷产物的认识,得出孔二段沉积时期,湖盆总体为坳陷盆地,现今处于盆地中心的孔店隆起构造带为孔二期的古湖盆中心和沉降中心。这一结论对认识黄骅坳陷孔南地区盆地演化,成因机制和油气勘探具有重要的意义。

第四纪洞庭盆地构造性质及动力机制探讨

通过地表观察和第四系钻孔对第四纪洞庭盆地及周缘隆起区的地貌、沉积和断裂构造等进行调查研究,进而厘定洞庭盆地构造活动特征暨构造性质,并探讨其动力机制。研究表明,早更新世-中更新世中期洞庭盆地具断陷性质,具体表现在:①在边界正断裂控制下盆地及其次级凹陷强烈沉降并充填厚度较大的河、湖相沉积;②临澧次级凹陷发育典型封闭性断陷湖盆沉积;③NNE向、NW向、EW向、SN向等多组方向控盆断裂的发育指示区域伸展构造体制。中更新世晚期以来洞庭盆地具坳陷性质,主要表现在:①中更新世晚期洞庭盆地与周缘隆起区发生较大幅度的构造抬升并遭受剥蚀,同时产生构造掀斜与褶皱变形;②晚更新世-全新世洞庭盆地坳陷沉降并接受沉积。分析提出洞庭盆地第四纪构造活动机制:早更新世-中更新世中期盆地的断陷沉降与地幔上隆背景下的深部物质迁出有关;中更新世晚期盆地构造抬升、掀斜和褶皱变形与深部迁出物质的回返以及板块尺度的物质运动和挤压作用有关;晚更新世和全新世盆地坳陷沉降与区域挤压应力下的坳陷或拱坳变形有关,可能同时伴有NE向的深部物质流动与拉张;不同级次和不同规模范围的深部物质迁移运动,造成了第四纪洞庭盆地与其内部次级构造单元之间的叠加关系。

济阳拗陷第三纪玄武岩的氧同位素

研究了山东济阳拗陷 2 9个第三纪玄武岩样品的氧同位素组成。结果表明 ,这些玄武岩的全岩氧同位素组成变化明显 ,δ18O值为 6 .3‰～ 12 .2‰。其中 ,蚀变轻微的晚第三纪玄武岩的δ18O值为 6 .3‰～ 7.9‰ ,与正常大陆玄武岩的值 (5 .0‰～ 7.4‰ )相似 ;而蚀变明显的早第三纪玄武岩的δ18O值为 6 .7‰～ 12 .2‰ ,并且 90 %以上样品的δ18O值都大于 7.5‰。结合岩石学与岩石化学研究 ,早第三纪玄武岩δ18O值不同程度升高是由低温雨水热液蚀变 (碳酸盐化 )

江陵浅水—半深水坳陷湖盆层序地层学特征

以层序地层学理论为指导 ,系统研究了江陵浅水—半深水坳陷湖盆的层序地层学特征。研究表明 :区域不整合界面和沉积转换界面是 级层序的主要界面 ;层序内虽均发育低位、湖侵和高位体系域 ,但各体系域发育程度是不同的 ,致使层序的旋回性以非对称为主 ;层序内各体系域的沉积相构成均以河流三角洲和浅水湖泊为主 ,而冲积扇、扇三角洲不发育 ,湖泊水体基本没有发生过明显的扩张、收缩 ,湖平面的波动没有造成沉积相带的区域性变化 ,在此基础上 ,建立了江陵浅水—半深水坳陷湖盆特有的两种层序地层充填模式。

湖盆斜坡生长研究进展

形成于大陆边缘的斜坡生长理论,对于理解海洋和湖盆的沉积充填过程、构造—气候—沉积的耦合响应关系及深水储层预测等方面具有重要的意义,是沉积学和层序地层学的重要发展。湖相盆地的斜坡生长现象近年来才被关注。斜坡生长现象提供了丰富的沉积学指示。通过斜坡生长过程分析,可恢复大陆边缘或湖盆边缘古地形、水体深度,获取地层加积、进积的速率等有关沉积体系演化的定量信息;进而揭示海/湖平面变化、气候变化、物源供给特点以及沉积物传送和分散样式。近年来,对匈牙利Pannonian盆地、罗马尼亚Dacian盆地以及中国渤海湾盆地秦南凹陷和东营凹陷等湖相沉积斜坡,已开展了较深入的研究。目前,对坳陷湖盆等重要类型盆地的斜坡生长方式的认识尚不清楚;关于湖盆斜坡生长与三角洲前缘-深水区沉积物分散样式的过程与响应关系,尚不明确;对湖盆斜坡体的成因及其控砂机理研究尚为薄弱。以上几个方面值得今后进一步研究加强。