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1.
Weathering of basaltic ash in volcanic areas produces andosols, rich in allophane and ferrihydrite. Since the rate of mineral formation is very useful in climate and geochemical modelling, this study investigates Si isotope compositions of allophane as a proxy for mineral formation. Allophane formed in contrasting conditions in five Icelandic soil profiles displays silicon isotope signatures lighter than the basalt in less weathered soils (?0.64 ± 0.15‰), and heavier in more weathered organic-rich soils (+0.23 ± 0.10‰). The fate of the dissolved Si in those volcanic soils strongly depends on Al availability. In organic-rich soils, most of Al is humus-complexed, and the results support that Si precipitates as opaline silica by super-saturation, leaving an isotopically heavier dissolved Si pool to form allophane with uncomplexed Al. This study highlights that Si isotopes can be useful to record successive soil processes involved in mineral formation, which is potentially useful in environmental paleo-reconstruction.  相似文献   

2.
Amin  Ammar  Bankher  Khalid 《Natural Hazards》1997,16(1):57-63
The occurrence of land subsidence in the Kingdom Saudi Arabia is either natural or man-made. Natural land subsidence occurs due to the development of subterranean voids by a solution of host rocks in carbonate and evaporite terrains, over many areas of Saudi Arabia. Man-induced land subsidence is either due to the removal of groundwater in the agricultural areas or to wetting of unstable soils. Therefore, earth fissures and a lowering of the ground surface in unconsolidated sediments took place in alluvial plains and volcanic vent terrains. Unstable soils include Sabkha soils and loess sediments. These types of soils occur in coastal plains, desert areas and volcanic terrains. When this soil is wetted either during agricultural activities, waste disposal or even during a rain storm, subsidence takes place due to either the removal of salts from the Sabkha soil or the rearrangement of soil particles in loess sediments.  相似文献   

3.
Seyitömer power plant comprises 4.8% of Turkey's total energy production. The fly ash produced has been deposited in the area, since the 1960s, by a dry disposal technique. In 1997, wet disposal was improperly exercised in the area causing ash flow over agricultural fields. This study is concerned with the chemical analysis of ash, soil and water samples collected in the area following ash-removal studies after the ash flow in 1997. The results reveal that Na, K, Ca, Mg, Mn, Al, Fe, Co, and Cr contents of soil and water are governed by basement lithology in the area, whereas Cd, Pb, Zn, and Cu contents are determined by fly ash from disposal sites. Although lithogenic Cr and Co contents are exceedingly high, comparison with the regulatory standards for drinking water, irrigation water and agricultural soils reveals no pollution pertinent to solid waste production in waters, whereas there is moderate pollution by Pb and Cu in soils.  相似文献   

4.
Sidewalk failures associated with top soil of low shear strength are a common problem in urban areas. Mixing top soil with granite chips can be used to increase its permeability and shear strength. The effects of mixing granite chips with top soils on the hydraulic properties and shear strength under saturated and unsaturated conditions were investigated in this study. The results showed that the mixing top soils with granite chips caused changes in several key parameters of the soil–water characteristic curve (e.g., the air-entry value, the residual matric suction, and the residual volumetric water content) and the unsaturated permeability of the top soils. The saturated permeability and shear strength of the soil mixture increased with increasing content of granite chips.  相似文献   

5.
塔河地区海西晚期火山岩地球化学特征及地质意义   总被引:1,自引:0,他引:1  
崔泽宏  唐跃 《中国地质》2010,37(2):334-346
通过岩心观察,塔河地区海西晚期先后发育基性火山岩和中酸性火山岩两大类。两类火山岩具有不同地球化学组成:基性火山岩K2O+Na2O=3.49%~4.25%,K2O/Na2O=0.18~0.381,为钠质系列玄武岩,富集大离子亲石元素K、Rb、Ba、Th和高场强元素Nb、Ta、Ti、Zr、P,δEu≈1,无明显亏损;中酸性火山岩表现为高场强元素Nb、Ta、Sr、P、Ti亏损,大离子亲石元素K、Rb、Ba、Th较为富集,稀土元素δEu=0.43~0.661,铕具明显负异常特征,K2O+Na2O=6.86%~8.82%,K2O/Na2O=1.25~1.591,为钾玄或高钾钙碱性系列英安岩。强不相容元素Th/Ta、Nb/U比值说明,玄武岩与英安岩成因没有明显亲缘性,玄武岩来源于地幔,英安岩来源于地壳。结合邻区火成岩对比分析,塔河地区发育的玄武岩、英安岩分别与塔中地区玄武岩和南天山分区花岗岩具有相同的地球化学特征,构造判别图解表明,玄武岩形成于板内主裂陷期,英安岩、花岗岩形成于板块边缘岛弧构造环境,作为特殊古构造位置,塔河地区先后发育的玄武岩、英安岩为板内主裂陷盆地边缘和弧火山边缘相互耦合的产物。  相似文献   

6.
中国西南典型地质背景区土壤重金属分布及生态风险特征   总被引:2,自引:0,他引:2  
中国西南有22.3%的耕地重金属含量超标,区内广泛分布的峨眉山玄武岩和碳酸盐岩被认为是土壤中重金属的主要母质来源。目前,中国西南地区,尤其是峨眉山玄武岩分布区土壤重金属生态风险的研究程度仍有待提升,不同地质背景区(成土母岩)土壤中重金属含量、空间分布与生态风险缺乏对比。本文选择四川省典型地质背景区采集土壤样品,采用原子荧光光谱法、电感耦合等离子体质谱/发射光谱等方法测定重金属元素(As、Cd、Cr、Cu、Hg、Ni、Pb、Zn)含量和pH数据,结合地累积指数法和潜在生态风险指数法,研究了重金属元素的含量、空间分布特征和土壤重金属生态风险。结果表明:(1)玄武岩区土壤中Cd、Cr、Cu、Hg、Ni、Zn的含量高于碳酸盐岩区,也高于四川和全国背景值。各元素含量分别为四川背景值的3.25、1.08、5.08、1.72、1.55、1.63倍和全国背景值的2.60、1.40、6.87、1.47、1.87、1.91倍;(2)As、Cr、Pb的高含量区域与碳酸盐岩分布区对应,Cd、Cu、Hg、Ni、Zn的高含量区域与峨眉山玄武岩的空间分布对应;(3)地累积指数表明玄武岩分布区土壤中Cd、Cu、Ni、Zn污染程度高于碳酸盐岩区;(4)研究区内生态危害程度较高的元素为Cd、Cu和Hg;其在玄武岩分布区"强生态危害"及以上的比例比碳酸盐岩区分别高出22.4%、1.15%和26.0%。本研究揭示:(1)研究区内土壤中重金属元素的含量、分布及生态风险与地质背景密切相关;(2)产生这一规律的原因在于母岩中元素含量的差异、成土过程中元素的地球化学行为及元素次生富集等因素综合作用的结果;(3)研究区土壤酸碱度偏低(pH平均值为5.5),需预防土壤进一步酸化引起的重金属活化风险。  相似文献   

7.
贵州岩溶区红色风化壳是中国南方红色负化壳的重要组成部分,本文根据部分红色风化壳剖面野外特征、矿物学、地球化学及土壤物理学等的研究结果,对其物源及成因进行了探讨。各剖面,尤其邻近剖面显著的矿物学、地球化学差异排除了远程风成沉积物、火山灰、上覆或者高处碎屑岩层作为统一且重要物源的可能。极低的石英含量表明贵州常见的长石石英砂岩不是其主要物源,具有中稀土(MREE)富集的特征也排除了粘土岩、页岩作为主要物源的可能。风化壳剖面间的差异性均可从基岩酸不溶物的差异性得到很好解释,表明它们是下伏碳酸盐岩风化、酸不溶物(准)原地堆积的结果。部分剖面甚至显示了典型风化壳剖面的一些特征,具有正常风化序列的剖面结构特征。  相似文献   

8.
Landslides induced by debris flow have been discussed in relation to the geotechnical properties of soil developed on bedrock, together with an emphasis on the importance of mineralogy comprising precursor soils. Three areas composed of different types of geology were compared to relate landslide with soil compositions: Precambrian gneiss (Jangheung area), Jurassic granite (Sangju area), and Tertiary sedimentary rocks composed of shale and mudstone (Pohang area) in Korea. X-ray diffraction for mineral identification and quantitative analysis, Scanning Electron Microscope for observation of microtexture, and laser size analysis for very fine particles ranging from micrometer were performed, with conventional measurements of particle size, porosity, density, permeability, and consistency for the soils. Soils at landslide sites containing a large amount of finer particles have higher uniformity and gradation coefficients, but lower consistency than those at non-landslide sites. Landslide areas are characterized by higher porosity and lower density. Soil from the gneiss area shows a high plasticity index while that of mudstone has high water content. Main clay minerals contained in soils of the sites where landslides took place are illite, chlorite, kaolinite, and montmorillonite. Mineralogical information on the constituents and microtexture of soils aids in better understanding the causes and patterns of landslide, together with mechanical properties of soils.  相似文献   

9.
To illuminate the migration and transformation of selenium(Se)in the igneous rock-soil-rice system,285 pairs of rhizosphere soil and rice samples were collected from the granitoid and basalt areas in Hainan Province,South China.The contents of Se in soils derived from granitoid and basalt are,respectively,0.19±0.12 mg/kg and 0.34±0.39 mg/kg,which are much higher than Se contents in granitoid and basalt.Selenium shows remarkable enrichment from granitoid and basalt to soils.The mobile fraction of Se in soils derived from granitoid is 0.0100±0.0034 mg/kg,which is significantly higher than that of basalt(0.0058±0.0039 mg/kg).Although soil derived from basalt shows higher Se contents,Se contents in rice samples,mobile fractions of Se in soils,and biological concentration factor(BCF)is similar or even lower than that from granitoid.Basalt consist of calcic plagioclase and pyroxene,and are much richer in Fe,Al,and Ca than granitoid.Correspondingly,the basalt-derived soils have higher goethite,hematite,kaolinite,cation exchange capacity(CEC)content,and higher p H than the granitoid-derived soils,which result in higher adsorption capacity for Se and relatively lower Se bioavailability.Soils derived from granitoid and basalt in tropical regions are beneficial to produce Se-rich rice.  相似文献   

10.
镉是土壤和沉积物中最受关注的重金属污染物之一,合理确定其自然背景对于环境管理具有重要意义。然而,由于不同基岩中该元素含量差异很大,且在风化成壤过程中元素也可能发生富集或贫化,造成该元素具有很大的空间变异,甚至可以超出筛选值和管制值。本文从基岩-土壤地球化学元素迁移规律出发,以基岩类型较复杂、镉空间变异较大的贵州省为例,基于土壤和沉积物调查数据,建立基岩与土壤或沉积物中镉含量的对应关系,筛选合理的岩性类型端员和背景区域划分方法,为环境管理确定基础背景。研究结果显示,岩性类型是造成土壤镉空间变异的重要因素,石灰岩(排除白云岩)、玄武岩、辉绿岩和碳质页岩等是造成土壤高镉背景的重要岩石类型。相对母岩类型,岩石所在地层时代对土壤镉背景的影响不太明显。本文通过大量数据统计,给出了相对较纯的岩性发育土壤的镉背景值和变异区间,不纯岩性或地质单元发育土壤的镉背景值可能受多个岩性端员的影响。  相似文献   

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