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1.
东海内陆架泥质区表层沉积物常量元素地球化学及其地质意义 总被引:3,自引:0,他引:3
通过分析东海内陆架泥质区表层沉积物的粒度、有机质(TOC)、常量元素氧化物(SiO2,Al2O3,Fe2O3,MgO,CaO,Na2O,K2O,P2O5,TiO2,MnO),探讨东海内陆架泥质区常量元素空间分布特征及其地质意义。结果表明,东海内陆架泥质区表层沉积物中常量元素氧化物组成较为稳定,含量最高的2种组分为SiO2和Al2O3,两者组分占沉积物总量的72%左右。常量元素氧化物的含量与沉积物类型密切相关,SiO2,CaO,P2O5倾向于富集在粗颗粒沉积物中;Al2O3,K2O,MnO则倾向于富集在细颗粒沉积物中;而MgO,Na2O,Fe2O3和TiO2基本不受沉积物类型影响。R型因子分析结果表明,东海内陆架泥质区表层沉积物的常量元素氧化物可以分为3组,第1组包括SiO2,Al2O3,Fe2O3,MgO,TiO2,P2O5和MnO;第2组包括CaO,K2O,CaCO3和TOC;第3组包括Na2O,可能分别代表了陆源碎屑沉积、海洋生物沉积和海洋化学沉积。 相似文献
2.
南沙海槽区表层沉积物的地球化学特征 总被引:5,自引:2,他引:5
对南沙海槽区73个表层沉积物的地球化学及沉积环境特征进行了研究。微量元素主要有Cu、Pb、Zn、Ni、Co、Cr、Sr、Ba和Zr,表现为亲陆性,常量组分为SiO2、AI2O3、TFe、CaO、MgO、K2O、Na2O、MnO、PO25、TiO2,表现为边缘海向深海过渡的沉积环境特点。沉积物质含有粘土组分、碳酸盐型生物碎屑组分、陆源碎屑非粘土组分以及火山碎屑、岛源物质,沉积环境与水深关系密切,在200m以浅,沉积物的供给复杂,沉积环境多变,在200m以深,沉积物的供给和沉积环境稳定。 相似文献
3.
琼东南海域表层沉积物常量元素地球化学及其地质意义 总被引:3,自引:0,他引:3
对琼东南海域88个表层沉积物的常量元素进行了统计分析,结果表明:琼东南海域表层沉积物中含量最高的两种组分是SiO2和CaO,其平均含量分别为41.15%和15.66%;琼东南海域表层沉积物以陆源碎屑为主,同时生物沉积作用也较发育;陆源物质源区较复杂,主要的陆源物质可能由古红河水系携带而来;因子分析结果表明,该区表层沉积物的常量元素可分为4组,第1组包括SiO2、Al2O3、Fe2O3、MgO、K2O、TiO2,第2组包括CaO、CaCO3、烧失量,第3组包括P2O5和有机碳,第4组包括Na2O和MnO,分别代表了陆源碎屑沉积、钙质生物沉积、海洋化学沉积以及火山碎屑沉积。 相似文献
4.
《海洋地质与第四纪地质》2010,(3)
运用X荧光光谱法对长江口泥质区的105个表层沉积物样品的SiO2、Al2O3、TFe2O3(全铁)、MgO、CaO、K2O、Na2O、MnO、TiO2、P2O5、Cu、Pb、Ba、Sr、V、Zn、Co、Ni、Cr、Zr等20种元素进行了分析测试,给出了上述元素的平面分布趋势。将研究区划分为3个地球化学区:Ⅰ区位于研究区西部,主要富集SiO2、Na2O、Zr,明显亏损Cu;Ⅱ区位于研究区中部,富集Al2O3、Fe2O3、MgO、Cu等元素;Ⅲ区位于研究区东部,元素分布特征与Ⅰ区相似,不同之处是Ⅲ区明显富集CaO、Sr两种元素。在以长江沉积物为主要物源的前提下,沉积物粒度是控制研究区内常、微量元素分布的第一因素,生源物质、物源和自生作用也是控制研究区元素分布的重要原因。 相似文献
5.
珠江口底质常、微量元素分析结果表明, 富含Si、Al、K、Mg、Fe和Ti等元素的陆源物质构成本区沉积物主体, 主要元素氧化物平均含量分别为SiO261.16%, Al2O314.74%, Fe2O35.72%, TiO20.88%, MgO1.84%, K2O2.63%, CaO2.70%, CaCO34.79%。底质元素含量与沉积物粒度组成关系密切, 主要元素Al2O3、MgO、Fe2O3、TiO2以及微量元素Cu、Pb、Zn、Cr、V、Co、Ni、Ba在西北部近岸区以及伶仃洋中部细颗粒沉积区内富集; 而SiO2、CaO、Zr、Sr则在西南部和东南部粗颗粒沉积区富集。控制本区沉积物地球化学特征的因素主要有物质来源、沉积环境、水动力条件、沉积物粒度、矿物组成以及元素自身地球化学性质等。 相似文献
6.
分析了南海西北部198个表层沉积物的常量元素地球化学特征,研究了沉积物常量元素的含量分布特征、富集程度和粒度效应。结果显示,沉积物的常量元素以SiO2、Al2O3、CaO含量较高,平均值分别为45.9%、8.53%、16.7%,其中SiO2、Al2O3代表了陆源碎屑组分,CaO代表了生物碎屑组分。陆架区具有较高的SiO2含量,陆坡区具有较高的Al2O3、CaO含量,但是,Al2O3的高含量在深水下陆坡区,而CaO的高含量在上陆坡岛礁区。总体上,常量元素Fe2O3、K2O、MgO、Na2O、TiO2与Al2O3具有相似的含量分布特征,指示细粒组分的吸附作用;而SiO2、CaO与Al2O3呈相反的分布特征以及负相关关系,反映了沉积物的常量元素受到石英矿物和碳酸盐矿物的稀释作用。大部分元素的富集因子介于1~2之间,富集特征不明显,表明碎屑物质主要为地壳来源,仅CaO、MnO出现较高的富集因子,指示陆坡区生物富集作用和深水陆坡区化学沉积作用的贡献。 相似文献
7.
南海神狐表层沉积物常量元素地球化学特征及其物源分析 总被引:1,自引:0,他引:1
通过对神狐海域109个站位表层沉积物样品的常量组分化学分析,研究了该区域海底沉积物常量组分的地球化学特征、R-型因子分析和典型组分分析与物质来源的关系。分析结果表明,SiO2含量最高,并随着水深增加而增大,CaO和CaCO3含量的变化趋势与SiO2正好相反;常量组分相关分析结果表明,SiO2、Al2O3、Fe2O3、MgO、K2O、Na2O、TiO2、MnO之间存在显著至弱的正相关关系,而CaO、CaCO3和烧失量与上述组分呈明显的负相关关系。R-型N子分析和典型组分分析结果表明,神狐海域物质来源复杂,主要受陆源组分和碳酸盐型的生物碎屑组分控制,属于半深海沉积环境。 相似文献
8.
对南海S08-57站柱样岩心的CaCO3、SiO2、Al2O3、TFe2O3、MgO、CaO、Na2O、K2O、TiO2、P2O5、MnO、Cu、Pb、Zn、Co、Ni、Ba、Sr、Rb、V、Cr、La、Ce和Ta的含量变化进行了分析;根据CaCO3含量变化建立了碳酸钙地层时标,提出了南海碳酸钙地层学的SB4.0事件,进一步完善了南海标准碳酸钙地层学时标;讨论了沉积物地球化学特征及古海洋学意义。结果表明,S08-57柱样岩心的SB3.33m事件附近存在一次强碳酸盐沉积,Al2O3、TiO2、Nb、SiO2、K2O、Ta、La、Rb、Ce、MgO、Zn、TFe2O3、Na2O、V、Pb和Cr的沉积曲线与CaCO3近似呈镜像关系。 相似文献
9.
琉球群岛以东海域表层沉积物元素地球化学特征 总被引:7,自引:0,他引:7
对琉球群岛以东海域134个站位表层沉积物的化学元素含量进行了系统测试,结合矿物学资料等,对研究区的表层沉积物元素地球化学特征进行了分析。结果表明:(1)琉球群岛以东海域沉积物具有半深海沉积物的地球化学特征;(2)通过元素因子分析,把25种元素或氧化物分为4种组合,每一种组合对应不同的物质来源,分别为陆源成因组合(SiO2,K2O,Zr,TiO2,Y,Sc,Na2O,La,Al2O3,P2O5,Ce),生物成因组合(Sr,CaO,L.O.I,CaCO3),火山源成因组合(MgO,V,Fe2O3,Cr,Li,Co),自生源成因组合(Ni,MnO,Cu,Ba);(3)控制本区元素分布的因素主要是水深、物质来源以及生物和铁锰物质的自生作用。 相似文献
10.
11.
Coastal inundation associated with extreme sea levels is the main factor which leads to the loss of life and property whenever a severe tropical cyclonic storm hits the Indian coasts. The Andhra and Orissa coasts are most vulnerable for coastal inundation due to extreme rise in sea levels associated with tropical cyclones. Loss of life may be minimized if extreme sea levels and associated coastal flooding is predicted well in advance. Keeping this in view, location specific coastal inundation models are developed and applied for the Andhra and Orissa coasts of India. Several numerical experiments are carried out using the data of past severe cyclones that struck these regions. The simulated inland inundation distances are found to be in general agreement with the reported flooding. 相似文献
12.
This study tests the hypothesis that the in situ void ratio of surficial marine sediments may be predicted from shear wave velocity-depth data with a reliability equal to that of other methods currently available. Shear wave velocity is fundamentally controlled by the number of grain-to-grain contacts per unit volume of material and by the effective stress across those contacts. In this study, three previously established empirical formulae are used to predict void ratio from velocity-depth data. Field data were acquired along a transect off the northern Californian coast across which water depth increased from 35 to 70 m and seafloor sediment type varied from sand to silty-sand, respectively. A towed seafloor sled device was used to collect shear wave refraction data, and a marked, systematic decrease in velocity was observed along the line, ranging from 35-70 m/s for the coarse, near-shore material to 25-40 m/s for the finer, offshore deposits. Void ratios predicted from these velocities were compared with data measured directly from box-core samples. Of the formulae used for prediction, two agree remarkably well with the control data. Both predicted and control values increase from 0.6-0.8 for the sandy material to 1.1-1.5 for the silty-sand. Thus, this study does not disprove the hypothesis set and demonstrates the potential of field shear wave velocity-depth data as a means of delineating spatial variation in void ratio for surficial marine sediments in a remote, nondestructive manner. 相似文献
13.
Hoi-Soo Jung Kap-Sik Jeong Yong-Shik Chu Sung-Hyun Park Ki-Hyune Kim 《Marine Georesources & Geotechnology》2001,19(3):181-195
Grain size and water content in box-core sediments from the Clarion-Clipperton fracture zone (C-C zone) in the northeast equatorial Pacific were analyzed in detail to understand the downcore variations across a hiatus between Quaternary and Tertiary layers. Grain-size distributions in the topmost core sediments show two modes: a coarse mode (peaked at 50 μm) and a fine mode (at 2-25 μm). The coarse mode disappears gradually with depth accompanied by the dissolution of siliceous fossil tests, whereas the fine mode coarsens due to the formation of authigenic minerals. Water content increases abruptly across a color boundary between an upper pale brown layer and a lower dark brown layer that is the hiatus between Quaternary and Tertiary layers. Abundant smectites and microvoid molds, which are created by the prolonged fossil dissolution in the underlying sediment, are attributed for the abrupt downcore variation of water content. Overall variations in grain size and water content in the topmost core sediments in the western C-C zone are possibly constrained by the dissolution of biogenic siliceous fossils. Variations in geotechnical properties related to these changes must be considered in the design of nodule collectors. 相似文献
14.
Shigehisa Nakamura 《Marine Geodesy》2001,24(1):27-33
This article concerns an interrelation between the sea levels and the western boundary flow near a tectonic boundary in a local zone in the Northwestern Pacific. In this zone, sea level variations at stations located on the coast facing the Pacific are studied to find the interrelation between variations of the Kurosio flow as an index of the distance of the flow axis off a specific coast. The result is discussed after data processing of the monthly means of the sea levels, and a notice is taken of variations caused by active crustal upheavals during a seismic event, a local earthquake. 相似文献
15.
Particulate samples were collected from the Changjiang river system during a flood period, in May 1997, and POC, stable isotope and lipids associated with particles were examined. Results showed the decrease (0.84% ~ 1.88%) of organic carbon content from the upper reaches to the estuary.δ13C values of particulate organic carbon was in the range of -24.9×10-3 to -26.6×10-3, which were close to the isotopic signature of continental C3 vegetation. Total particulate n-alkanes concentrations varied from 1.4 to 10.1μg/dm3,or from 23.7 to 107μg/g of total suspended matter. Fatty acids were present in all the samples, from 1.4 to 5.4μg/dm3, with saturated and unsaturated straight-chain and branched compounds in the carbon number range from C12 to C30. Both δ13C and the ratio of carbon content to nitrogen content indicate the predominance of terrestrial inputs (soil organic matter) among the particles. The biomarker approach has been used to identify the relative portion of terrigenous and autochthonous fraction in the particulate samples. The distribution of fatty acids suggests a striking phytoplanktonic and microbial signal in most particle samples. The terrestrial alkanes are used to estimate the contribution of terrestrial inputs along the mainstream. 相似文献
16.
Andrzej Chybicki 《Marine Geodesy》2018,41(1):1-23
Current trends of development of satellite derived bathymetry (SDB) models rely on applying calibration techniques including analytical approaches, neuro-fuzzy systems, regression optimization and others. In most of the cases, the SDB models are calibrated and verified for test sites, that provide favorable conditions for the remote derivation of bathymetry such as high water clarity, homogenous bottom type, low amount of sediment in the water and other factors. In this paper, a novel 3-dimensional geographical weighted regression (3GWR) SDB technique is presented, it binds together methods already presented in other studies, the geographically weighted local regression (GWR) model, with depth dependent inverse optimization. The proposed SDB model was calibrated and verified on a relatively difficult test site of the South Baltic near-shore areas with the use of multispectral observations acquired by a recently launched Sentinel-2 satellite observation system. By conducted experiments, it was shown that the proposed SDB model is capable of obtaining satisfactory results of RMSE ranging from 0.88 to 1.23[m] depending on the observation and can derive bathymetry for depths up to 12m. It was also shown, that the proposed approach may be used operationally, for instance, in the continuous assessment of temporal bathymetry changes, for areas important in the context of ensuring local maritime safety. 相似文献
17.
N. H. Khadge 《Marine Georesources & Geotechnology》2000,18(3):251-258
As a part of the environmental impact assessment studies, geotechnical properties of sediments were determined in the Central Indian Basin. The undrained shear strength and index properties of the siliceous sediments were determined on 20 box cores of uniform dimension collected from various locations in five preselected sites. The maximum core length encountered was 41 cm and most of the sediments were siliceous oozes consisting of radiolarian or diatomaceous tests. The shear strength measurements revealed that surface sediments deposited in recent times (0-10 cm) have a shear strength of 0-1 kPa; this value increases with depth, reaching 10 kPa at 40 cm deep. Older sediments have greater strength because of compaction. Water content varies in the wide range of 312-577% and decreases with depth. The clay minerals such as smectite and illite are dominant and show some control over water content. Wet density, specific gravity, and porosity do not indicate any notable variation with depth, thereby indicating a uniform, slow rate of sedimentation. The average porosity of sediments is 90.2%, specific gravity 2.18, and wet bulk density 1.12 g/cm 3 . Sediments exhibit medium to high plasticity characteristics, with the average plasticity index varying between 105% and 136%. Preliminary studies on postdisturbance samples showed an increase in natural water content and a decrease in undrained shear strength of sediments in the top 10- to 15-cm layer. 相似文献
18.
An Improved Calibration of Satellite Altimetric Heights Using Tide Gauge Sea Levels with Adjustment for Land Motion 总被引:2,自引:0,他引:2
Gary T. Mitchum 《Marine Geodesy》2000,23(3):145-166
Several major improvements to an existing method for calibrating satellite altimeters using tide gauge data are described. The calibration is in the sense of monitoring and correcting temporal drift in the altimetric time series, which is essential in efforts to use the altimetric data for especially demanding applications. Examples include the determination of the rate of change of global mean sea level and the study of the relatively subtle, but climatically important, decadal variations in basin scale sea levels. The improvements are to the method described by Mitchum (1998a), and the modifications are of two basic types. First, since the method depends on the cancellation of true ocean signals by differencing the altimetric data from the tide gauge sea level time series, improvements are made that produce a more complete removal of the ocean signals that comprise the noise for the altimetric drift estimation problem. Second, a major error source in the tide gauge data, namely land motion, is explicitly addressed and corrections are developed that incorporate space-based geodetic data (continuous GPS and DORIS measurements). The long-term solution, having such geodetic measurements available at all the tide gauges, is not yet a reality, so an interim solution is developed. The improved method is applied to the TOPEX altimetric data. The Side A data (August 1992?February 1999) are found to have a linear drift component of 0.55 + / 0.39 mm/yr, but there is also a significant quadratic component to the drift that is presently unexplained. The TOPEX Side B altimeter is estimated to be biased by 7.0 + / 0.7 mm relative to the Side A altimeter based on an analysis of the first 350 days of Side B data. 相似文献
19.
Extreme sea levels associated with severe cyclonic storms are common occurrences along the east coast of India. The coastal districts of Orissa have experienced major surges in the past. The recent Paradip super cyclone is one of the most severe cyclones, causing extensive damage to property and loss of lives. Extreme sea levels are major causes for coastal flooding in this region. Damages can be minimized if the extreme sea levels are forecast well in advance. In the present study, we develop a location specific, fine resolution model for the Orissa coast on the lines similar to that of IIT-D storm surge model (Dube et al. 1994). The model runs on a personal computer. The bathymetry for the model is extracted from very fine resolution naval hydrographic charts for the region extending from the south of Orissa to south of West Bengal. A simple drying scheme has also been included in the model in order to avoid the exposure of land near the coast due to strong negative sea surface elevations. An attempt was made in this study to simulate extreme sea levels along the Orissa coast using the data of past severe cyclones. The model results reported in the present study are in good agreement with available observations or estimates. 相似文献
20.
The continental margin of northern Sinai and Israel, up to Haifa Bay, is the northeastern limb of the submarine Nile Delta Cone. It is made up predominantly of clastics from the Nile and its predecessors. The continental shelf and coastal plain of Israel are built of a series of shore-parallel ridges composed of carbonate-cemented quartz sandstone (locally named kurkar), a lithification product of windblown sands that were piled up into dunes during the Pleistocene. The drop in global sea level and regression during the last glacial period exposed the continental shelf to subaerial erosion and created a widespread regional erosional unconformity which is expressed as a prominent seismic reflector at the top of the kurkar layers. The subsequent Holocene transgression abraded much of the westernmost kurkar ridges, drowned their cores, and covered the previous lowstand deposits with marine sands, which were in turn covered by a sequence of sub-Recent clayey silts. The Mediterranean coasts of Sinai and Israel are part of the Nile littoral cell. Since the building of the Aswan dams the sand supplied to Israel's coastal system is derived mainly from erosion of the Nile Delta and from sands offshore Egypt that are stirred up by storm waves. The sands are transported by longshore and offshore currents along the coasts of northern Sinai and Israel. Their volume gradually declines northward with distance from their Nile source. The longshore transport terminates in Haifa Bay where some sand is trapped, and the test escapes to deeper water by bottom currents and through submarine canyons, thus denying Nile-derived sand supply to the 40-km-long 'Akko-Rosh Haniqra shelf. The sand balance along Israel's coastal zone is a product of natural processes and human intervention. Losses due to the outgoing longshore transport, seaward escape, and landward wind transport exceed the natural gains from the incoming longshore transport and the abrasion of the coastal cliffs. The deficit is aggravated by the construction of (1) seaward-projecting structures that trap sands on the upstream side and (2) offshore detached breakwaters that trap sands between themselves and the coast. The negative sand balance is manifested by the removal of sand from the seabed and the consequent exposure of archaeological remains that were hitherto protected by it. The sediments that escape seaward from the longshore transport system form a 2.5- to 4-km-wide sandy apron adjacent to the shore that extends to where the water is 30 - 40 m deep. The apron's slope (0.5 - 0.8) is steeper than the theoretical equilibrium slope for the median grain-size diameter in this zone (0.1 - 0.3 mm). The beach sands and the apron's surficial sands are well sorted. Their grain size decreases with distance from shore, from 0.2 - 0.3 mm nearshore to 0.11 - 0.16 mm by the drowned ridge. The coarse-grained fraction consists of skeletal debris (commonly 5 - 12% carbonate matter) and wave-milled kurkar grains (locally named zifzif). In deeper water, the basal sands underlying the fine-grained sediment cover consist of 1- to 30-cm layers whose composition ranges from silty sands to various types of sands (fine, medium, coarse, and gravelly) to zifzif. For the most part, they contain large amounts of skeletal debris (20 - 60%) and small fragments of kurkar. Two types of kurkar rock were encountered offshore: a well-sorted, fine- to medium-grained (0.074 - 0.300 mm) lithified dune sand with variable amounts of carbonate cement, ranging from hard rock of low permeability to loose sand; and a porous sandstone made up predominantly of algal grains and skeletal debris (calcarenite). 相似文献