首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到19条相似文献,搜索用时 125 毫秒
1.
江西赣县花岗岩型红土剖面常量元素地球化学特征   总被引:2,自引:0,他引:2       下载免费PDF全文
对赣县田村花岗岩红色风化壳剖面常量元素的迁移特征和化学风化强度的研究结果表明:(1)红土常量元素组成以 SiO2、Al2O3、Fe2O3为主,三者占总量的90%以上,其中又以SiO2的含量最高,K2O、CaO、Na2O与MgO等易溶组分的含量则 相对较低;(2)红土剖面风化过程中,常量元素的地球化学行为多表现为迁移淋失,迁移程度由剖面底部向上逐渐增强, 其中CaO与Na2O平均迁移量分别为97.34%、94.94%,属于强迁移元素;MgO、K2O和SiO2平均迁移量分别为52.50%、 39.89%、22.72%,属于易迁移元素,Fe元素表现为高度富集;(3)综合分析铝铁系数、化学蚀变指数和风化淋溶系数,指 示赣县花岗岩型红土在炎热、潮湿环境下遭受了强烈的化学风化作用,风化强度顶部向下渐弱。  相似文献   

2.
徐磊  赵萌生  程琰勋  潘江涛  管继云  张亚  徐杰  陈伟志  王浩宇  黄加忠  杨明龙  巴永  王守营 《地质论评》2023,69(6):2023060011-2023060011
富碱斑岩带分布较广,目前对其风化过程中的元素地球化学行为研究较少。笔者等以滇中姚安富碱斑岩为例,通过对其化学风化过程的研究,有助于了解富碱斑岩成土过程中元素富集贫化控制因素,丰富碱性岩浆岩风化成土理论。笔者等分析了富碱斑岩风化过程中的矿物风化特征、元素含量分布特征、化学风化趋势、元素迁移富集特征及主控因素,结果表明:富碱斑岩各风化层元素含量与基岩具有继承性,体现了原位风化的特征,符合北亚热带季风气候下云南境内上扬子地块岩石的风化特征;与大陆上地壳组成(UCC)相比,风化成土过程中Ca、Na、K等阳离子强烈淋失亏损,Fe、Al富集;化学风化过程主要发生脱Ca、Na、K、Mg、Si与富Al、Fe作用,风化早期主要为去Ca、去Na过程,风化中、晚期为去K、去Mg、富Al、富Fe过程,并伴随着强烈的脱硅作用;结合迁移系数,常量元素活动性强弱顺序为:Ca>Na>K>Mg>Si>Al>Fe;微量元素地球化学行为一方面主要受地球化学性质相似的常量元素行为控制,另一方面Al、Fe氧化物/氢氧化物和受黏土矿物吸附作用的影响,Sm、Nb、Sc、Th、Ti、U、Y、Cu、Cr、Ni随风化原地残余富集,Ba、Rb、Sr与K、Na、Ca、Mg等常量元素行为一致,随风化而淋失迁出。  相似文献   

3.
碳酸盐岩风化形成的红土保存着喀斯特发展演化历史证据,同时也是喀斯特地区土壤研究的重要对象。文章选取云南石林地区的两处典型碳酸盐岩剖面为研究对象,对主量元素,微量元素及稀土元素在风化层的迁移特征及分布规律进行研究,为探究风化层的成因提供依据。结果显示:(1)以Ti为参比元素的剖面迁移特征表明,两剖面的主量元素在成土过程中有相似的迁移规律,多数表现为淋失;微量元素略有差异,富集淋失程度不一。(2)UCC标准化蜘蛛图显示,相对于基岩,风化层中的Ca和Sr均出现亏损;与UCC相比,Fe、Ti等元素轻微富集,Mg、Ca、Na、K、P等元素显示了强烈的亏损特征。(3)基岩与风化层的REE分布模式相似,但风化层的稀土相对富集,轻稀土元素间的分异较大而重稀土元素间的分异较小,且SJC剖面的轻、重稀土元素比值大于QST剖面;稀土元素球粒陨石标准化后,SJC剖面的Eu为负异常,剖面上部和下部出现Ce负异常;QST剖面Ce负异常,Eu明显负异常。(4)元素含量变化和元素对Al-Ti、Al-Fe及Zr-Hf相关性说明剖面上覆红土是下伏基岩风化的结果。研究结果显示,两个剖面的元素地球化学特征与基岩存在很好的继承性,风化层是基岩原位风化的产物。  相似文献   

4.
碱尘暴期间松嫩平原西部碱尘气溶胶的主要元素质量浓度排序为Na、Al、Fe、Ca、Mg、K、Ti、Ba、Zn,与当地盐碱化土壤的元素组成吻合,而与沙尘、城市气溶胶的元素组成有差别。风力对碱尘气溶胶元素组成有明显的影响,当风速在8.0~17.1 m/s时,元素组成的质量浓度排序为Na、Ca、Al、Fe、Mg、K、Ba、Ti、Zn。Na元素质量浓度的激增是碱尘暴元素组分的一大特征,明显富集元素为Na和B;相对于当地背景大气气溶胶的富集情况,Zn、Cu、Ba、B的富集因子值在碱尘暴期间明显降低;在各种天气情况下,B、Cu均具有较高的富集因子。碱尘中Ti元素的富集因子值均小于1,而Ca、Fe、K、Mg、Mn、Sr、V的富集因子值为1~4。两个采样点的Ca、Na、Al、Fe、Mg、Ti、Zn的富集因子近似,表明该区碱尘的主要元素具有特定的一致性;而B、Ba、Cu、V的富集因子相差较大,可以作为区分不同碱尘源的标志性元素。  相似文献   

5.
贵州麻江蓝莓种植区基岩-土壤剖面元素地球化学特征   总被引:1,自引:0,他引:1  
李启航 《地质与勘探》2020,56(6):1183-1191
本文对麻江蓝莓核心产区种植剖面的地球化学特征进行分析,选取与蓝莓生长关系密切的K、Ca、Na、Mg、Fe、Al、Mn、Mo、Co、V、Se、Cr、Cu、Zn十四种元素作为研究对象,结果表明:土壤中元素的地球化学特征受植物根系、外援施肥、自然气候、土壤理化性质及母岩等多种因素影响。黏粒含量高的土壤剖面元素移动性较差,含量变化程度小。Se在垂直方向上的含量变化规律主要受土壤有机质含量影响,其他元素地球化学特征主要与母岩风化和淋溶作用等因素有关。基岩产状影响土壤元素在垂直方向上的变化,产状平缓的剖面各元素在下层累积较高,而基岩产状倾斜的剖面底层土壤元素随水流失,元素含量最高值大多都出现在次底层。剖面土壤中元素的地球化学特征与自然气候、土壤理化性质及母岩等因素有关,耕作层土壤元素主要受植物根系和外援施肥影响。  相似文献   

6.
选择珠三角沿海地区有代表性的中山市神湾镇三个晚中生代花岗岩风化壳剖面进行系统采样和主量、微量元素分析,研究了花岗岩风化壳剖面元素地球化学特征.花岗岩风化壳剖面自上而下可划分为淋溶层(E)、淀积层(B)、半风化层(C)和基岩层(R),不同层位的Si、Al、K、Rb、U、Nb、Ta、Hf、Th、Se含量均高于大陆上地壳相应元素的丰度平均值,Na、Ca、Mg、Mn、Ti、P、Sr、Cu、Cr、Ni、Zr含量则低于大陆上地壳相应元素的丰度平均值.剖面从母岩向上到表土层,化学风化程度逐渐增强,元素含量除继承母岩特征外,还发生了分异,其中Na、Ca、K、Mg、Rb、Sr、U等元素含量随风化程度的加深而降低,表现出在风化过程中淋失亏损的特征;Ti、P、Ta、Hf、Se、Nb、Th、Zr等元素含量随风化程度的加深而增高,表现出在风化过程中富集的特征.风化作用导致了研究区上层土壤中养分元素K、Ca、Mg淋失缺乏,硒在表层土壤中富集.  相似文献   

7.
为探讨黑色页岩风化过程中的元素活动规律,采集了湘西东坪、柑子坪下寒武统黑色页岩风化-成土剖面的样品进行了主、微量元素地球化学分析。结果表明,两剖面风化层有不同的主量元素组成,但其土壤层的主量元素组成相对均一。主量元素Si、K、Na、P等在风化过程中活泼而被淋滤释出;而Al、Fe、Mg等元素既可被淋滤释出,又可产生次生富集。而成土过程中,所有主量元素都表现被淋出的特征。元素Mn的次生富集明显;重金属V、Ni、Cu、Cr、Co、Zn、Pb等在风化-成土过程中的化学活性与Al、Fe等主量元素相似;亲石元素Sc、Rb、Sr、Cs、Ba、Th、U、Ga、Ge等在风化-成土过程中的活性较强,趋于被淋出,且其淋滤释出率随风化程度增强而升高;高强场元素Zr、Hf、Nb、Ta等的化学活性相对稳定。  相似文献   

8.
提要:成都平原晚更新世成都粘土地球化学分析表明,不同剖面样品的化学组成具有较好的一致性,以SiO2(平均75.24%)、Al2O3(平均14.12%)、Fe2O3(平均5.81%)为主,地球化学特征与UCC基本相似。与北方黄土相比,成都粘土具有较高的TiO2/Al2O3、Zr/Al、Zr/Ti和Y/Al以及较低的Eu/Eu?鄢、LaN/SmN和LaN/YbN比值,这些特征与成都平原第四系深层土壤样品组成一致,表明成都粘土来源于当地,与北方黄土物源不同。成都粘土CIA平均值为78.59,高于北方黄土平均值(69.34),经历了中期的K迁移阶段,在风化过程中Ca、Na、Mg和K是主要的活动性元素。与北方黄土相比,成都粘土Na、Mg、K和Ca亏损较大,表明经历了更强的化学风化。  相似文献   

9.
在吉林东部花岗岩区地下水化学成分和化学类型研究的基础上,以Na作为参比元素,确定了花岗岩风化过程中22种主量元素和微量元素的相对活动顺序。花岗岩区地下水的地球化学类型属低矿化度(变化范围为69.51×10-6~386.49×10-6,平均值为199.48×10-6)的HCO3-Ca和HCO3-Na-Ca型。花岗岩风化过程中元素的活动性顺序(RM)从大到小依次为:B、Ca、Mo、Zn、Sr、Na、Mg、Cr、Cu、Ni、K、Co、Li、V、As、Ba、Si、Y、Fe、Ti、Al、Mn。风化产物中的粘土矿物主要为高岭土、蒙脱石,反映出本区花岗岩的风化淋滤程度较弱的特点。  相似文献   

10.
赣北鄱阳湖地区土塘剖面发育第四纪红土,自下而上可分为强网纹红土层、弱网纹红土层、微网纹红土层、均质红土层和下蜀黄土层。基于常量元素、粒度分析数据以及前人年代框架,初探土塘剖面化学风化特征及其古气候意义。(1)土塘剖面粒度组分均一,常量元素含量相近,风化淋溶强烈。(2)土塘剖面各地层间化学风化强度存在差异:下蜀黄土层为初期的去Na、Ca阶段;均质红土层为中期的去K阶段;微网纹红土层由去K阶段向去Si阶段过渡;网纹红土层已完全进入晚期去Si阶段。剖面常量元素的相对迁移能力为:Na2OMn O2Ca OP2O5Mg OK2OSi O2Al2O3Ti O2Fe2O3。(3)中更新世以来赣北鄱阳湖地区气候总体上由暖湿趋于干冷,期间伴随多个明显的干湿旋回佐证强烈的淋溶与干湿交替作用是网纹红土发育的重要驱动因子。  相似文献   

11.
碳酸盐岩的化学风化是岩溶关键带各圈层相互作用的主要形式,风化壳中蕴含重要气候环境和物质循环信息。通过对广西桂林会仙峰丛谷地石灰土的化学风化强度及元素迁移特征的研究,并与滇黔湘和青藏高原的岩溶风化壳的对比分析,结果表明:(1)会仙石灰土化学蚀变指数(CIA)均值为92.14,与贵州兴义岩溶风化壳相当,反映炎热潮湿气候下的强烈化学风化;白云岩风化壳CIA与灰岩风化壳相当,CIA值主要受“不溶物”含量的影响;地形上,从上坡到下坡,从坡地到谷地,垂向剖面从浅部到深部,碳酸盐岩风化壳的CIA值呈减小趋势;(2)包括会仙石灰土在内的中国南方碳酸盐岩风化壳的CIA值与纬度成负相关,青藏高原地区和北方地区碳酸盐岩风化壳的CIA值与纬度不存在相关性,可能受晚第三纪以来印度板块俯冲推挤,青藏高原地区构造抬升和夷平面变形的影响;(3)与硅酸盐风化壳、黄土剖面不同,碳酸盐岩风化壳CIA和Na/K(摩尔比值)不存在相关性,但CIA和K/Al(摩尔比值)则存在显著负相关,可采用K/Al来表征碳酸盐岩剖面的风化程度,其主要是受可溶成分的快速淋失影响;会仙石灰土、贵州兴义风化壳较其他风化壳更接近Al端,化学风化程度更高;(4)会仙石灰土的化学成分与中国其他地区碳酸盐岩风化壳基本一致,剖面上分布均匀;与上陆壳相比,Na、K、Ca、Mg表现为亏损,其他元素为富集;和下伏碳酸盐岩的稳定元素Ti相比,除了Cr、Fe、P、Al富集或不变外,其他元素都发生明显的迁移淋失;会仙风化壳元素的迁移性由强到弱为:Ca ? Mg ? B ? Na ? N ? Cd ? Zn ? As ? K ? Pb ? Si ? Mn ? Al ? Cr ? Fe ? P,高含量Ca、Mg的快速溶失对其他元素的迁移性有重要影响。   相似文献   

12.
Four outcrops of Lower Cretaceous (Barremian) karst bauxites located in Teruel (NE Spain) were analysed. The deposits show a heterogeneous-chaotic lithostructure consisting of pisolitic bauxite blocks embedded in lateritic red clays filling karst cavities. The research has focused on the geochemical study of major, minor, and trace elements (including some critical to industry) of both the bauxites and clays. The objective was to investigate the bauxite precursor material and to characterize the system’s geochemical evolution. Geochemical analyses were carried out by inductively-coupled plasma optical emission and mass spectroscopy. An absolute weathering index has been calculated to estimate element mobility, assuming Ti as an immobile element and the Upper Continental Crust (UCC) as parent material. Further, selected samples were observed by field emission scanning electron microscopy. The data indicate that both the bauxites and red clays originated by intense chemical weathering from more mafic argillaceous sediments than the UCC. Ongoing weathering caused the bauxitization of the upper parts of the original profile, preventing the lower parts from being bauxitized, thus producing the ferrallitized clays underlying the pisolitic bauxites. Subsequent karst reactivation gave rise to the current lithostructure. Ferrallitization is related to Fe, Sc, and V enrichment. On the other hand, although bauxites are relatively enriched in some elements compared to clays, the more intense chemical weathering associated with bauxitization led to chemical homogenization and widespread element depletion. During the bauxitization, Al, Ti, Zr, Cr, and probably Hf and the critical element Nb behaved as more immobile elements in the system. Bauxitization also enhanced homogenization and depletion of the REE, which is more pronounced for the LREE. HREE trends seem to be partly related to the concentration of Ti oxides in the bauxites, whereas P-bearing phases, more frequent in the clays, control the LREE. Subsequent to bauxitization, partial kaolinization of the bauxite took place related to the circulation of acid solutions that also caused the karst reactivation. These late processes caused some Al depletion in the bauxites and enhanced Fe loss together with V and, to a lesser extent, Ge.  相似文献   

13.
沉积物的元素地球化学特征是对沉积盆地水体环境以及古气候条件变化的响应。本文根据元素(Al、Fe、Mg、Ca、K、Na、P、V、Ni、Co、Cr、Cu、Zn、Sr、Ba、Cd、Li、Mn、Pb、Ti)的含量及其比值(Al/Ti、Fe/Mn、Sr/Ba、Mg/Ca、Sr/Ca、Na/Ca、V/Cr、Ni/Co、Ni/V)的变化,对三水盆地古近系心组红岗段生油层的沉积条件进行了系统分析。心组红岗段下部(亚段A)表现为较稳定的地球化学特征。各元素丰度及其比值指示这一时期陆源输入持续较高、且物源组成变化不大。由于海水入侵的影响,湖盆水体盐度相对较高,底部水体以弱氧化条件为主,O2-H2S界面位于水/沉积物界面附近。红岗段中上部(亚段B、C)的元素地球化学特征变化较为频繁且幅度很大,反映古气候和湖盆沉积条件的迅速变迁。在潮湿气候条件下,沉积物的地球化学特征表现为以Al、Ti为代表的外源元素含量及其比值较高,而Mg、Ca等盆内化学沉积元素含量较低。古氧气指标指示底部水体为还原环境,有利于有机质保存。因而,相应于较高的有机碳含量。在间歇性干旱时期,陆源输入减少,外源元素含量及其比值显著降低。随着蒸发作用的加强,水体盐度加大,内源元素丰度以及Mg/Ca、Sr/Ba、Sr/Ca和Na/Ca比值大幅度上升。底部水体为氧化环境,O2-H2S界面多位于水/沉积物界面或沉积物中。上述两种气候条件在红岗段中上部沉积时期交替出现。红岗段沉积后期由于淡水的长期输入,湖水出现逐渐淡化趋势。  相似文献   

14.
The mobilization, redistribution and fractionation of trace elements during chemical weathering processes have been investigated on a 4.05 m thick terra rossa profile overlying dolomite on the Yunnan-Guizhou Plateau, in Southwest China. In this in situ weathering profile, the ferromanganese concretions and the gibbsite spots coexist in the terra rossa saprolite. The mass-balance evaluation reveals that titanium, Nb and Hf in the terra rossa matrix are conservative elements during chemical weathering compared to Zr. The elements of Li, Sc, V, Cr, Fe, Ga, As, Mo, Cs, Ce, Ta, Tl, Pb and Th in the terra rossa matrix include additions from external sources. Beryllium, Mn, Co, Ni, Cu, Rb, Ba and La are depleted in the shallow parts of the terra rossa profile and enriched in the deep parts. The elements of Zn, Sr, Y, Cd, Sn and U in the terra rossa profile are lost during weathering. Compared to the terra rossa matrix, the ferromanganese concretions are significantly enriched in most trace elements, especially Mn, Co, Cd, Ce, Tl and Pb. In contrast, the gibbsite spots are depleted in all trace elements, except for U. The results regarding specific inter-element relationships indicate that most trace elements have different inter-element relationships in the ferromanganese concretions, the gibbsite spots and the terra rossa matrix. This suggests that the behavior of many trace elements during mobilization and redistribution differs from their behavior during incorporation into secondary mineral phases, especially the Mn and Fe oxides and/or oxyhydroxides in the ferromanganese concretions. It is worthy to note that the fractionation between Ce and Mn occurs under intensive chemical weathering conditions. Correspondingly, beryllium exhibits a similar geochemical behavior as that of rare earth elements (except for Ce) and Y during surface weathering.  相似文献   

15.
In the northern part of the Indian sub-continent, the Ganga alluvial plain (GAP) feeds its weathering products to the Ganga–Brahmaputra River system, one of the world’s largest fluvial systems. The authors present a geochemical study of the GAP weathering products transported by the Gomati River (the Ganga River tributary) to understand weathering processes of an alluvial plain in a humid sub-tropical climate. A total of 28 sediment samples were collected during the monsoon season and were analysed by X-ray fluorescence spectrometry for 25 major and trace elements. Bulk chemistry of the channel, flood and suspended sediments mostly consists (>90%, >80% and >75%, respectively) of three elements; Al, Si and Fe. Major element concentrations normalised with respect to upper continental crust (UCC) show strong depletion of highly mobile elements (Na, Ca) and enrichment of immobile elements (Ti, Si). Silica enrichment in the sand fraction is probably caused by chemical weathering of feldspar. Mineral sorting during fluvial transportation acts as the single important factor that controls the geochemistry of these weathering products and also strongly influences major and trace element distribution in the individual sediment samples. Trace element (Ba, Cr, Cu, Nb, Ni, Pb, V and Zn) concentrations were strongly correlated with major element (Si, Al, Fe, Mn and K) concentrations indicating that the abundance of trace elements is controlled by the same processes that control the major element distribution in these sediments.The GAP weathering products were geochemically distinguished as arkose to litharenite in rock classification. Chemical mobility, normalised with respect to TiO2 in UCC, indicates that Si, Na, Zr, Ba and Sr, mainly derived from feldspar, muscovite and biotite, are lost during weathering. Iron and Zn remained immobile during weathering and were strongly adsorbed by phyllosilicates and concentrated in fine-grained sediment fractions. The chemical index of alteration indicates that the GAP has experienced chemical weathering of incipient to moderate intensity. The GAP weathering products also demonstrated a progressive incomplete alteration in the alluvial sequence made-up of the Himalayan-derived sediments. A model has been proposed to better understand weathering processes and products of the GAP in temporary storage of ∼50 ka in a humid sub-tropical climate.  相似文献   

16.
Sediment samples at 10 locations in the mainstem of the Yellow River were taken in 1994. Five forms (exchangeable, carbonate, organic, Fe/Mn oxide and residual) of metals were extracted by the Tessier method. The total contents and contents of the five forms of 16 metal elements (Li, Na, K, Ca, Sr, Ba, Ti, V, Cr, Mn, Fe, Co, Ni, Cu, Zn, and Al) were determined by ICP-AES. In sediments of the Yellow River, except for Na, mobile elements (such as K, Ca) do not show a negative correlation with the immobile elements. Alkaline metals (Li, Na, and K), Ti, and Al exist mainly in the residual form. The exchangeable forms of alkaline-earth elements (Ca, Sr, and Ba) are the highest, and their residual forms go up with the increase of the period in the periodic table of elements. Half of Mn exists in the residual form, and its non-residual forms exist mainly in carbonate and oxide forms. Except Mn, the iron group elements (Fe, Co, Ni, V, Cr) mainly exist in the residual and oxide forms. High carbonate content of Ca does not cause high contents of other elements in carbonate form, showing that chemical weathering is not strong in the area.  相似文献   

17.
开展热带岩溶地区红色风化壳元素地球化学演化规律研究,有助于丰富碳酸盐岩风化成土理论的认识。在越南北部选取典型的碳酸盐岩风化剖面,分析热带气候条件下碳酸盐岩上覆红色风化壳中主量元素的物质来源和演化特征。结果表明:无论Ti/Zr的元素比值分析,Hf-Zr、Nb-Ta及Sm-Nd的元素对协变分析,还是上地壳元素平均值(UCC)标准化分析,两个剖面的上覆风化壳均显示原地残积的特征,即两个剖面是碳酸盐岩的原位风化产物。碳酸盐岩风化成土过程中,CaO、MgO淋失明显,Al_2O_3和Fe_2O_3发生富集,显示两个剖面均经历较强的风化过程,但是白云岩和灰岩剖面有一定的分异特征。越南北部白云岩风化剖面从基岩到上部土层显示出稳定的Ti-Fe元素共富集特征,而灰岩剖面中Fe的增长速率明显超过Ti。白云岩上覆风化壳经历了强烈的风化作用,其脱硅作用弱于灰岩风化剖面,而富集铝的作用强于灰岩。迁移系数的演化规律说明两个剖面中长石成分(钾长石、钠长石等)或次生矿物(伊利石等)在风化成土过程中逐渐分解,同时Al、Fe、Si等稳定元素的在风化剖面中不断富集。  相似文献   

18.
以代表性暗棕壤垂直剖面土壤地球化学数据为依据,研究了长白山区特定的森林景观条件下成土过程中元素的分异与富集特征。研究结果表明,在岩石风化过程中主要以CaO、Na2O、Sr淋溶为主,有机酸淋溶过程中SiO2、Al2O3、K2O部分被淋溶,部分游离铁下渗到土体中下部氧化成铁锰胶膜;微量元素在风化过程中被次生黏土矿物吸附,不同程度地富集,在腐殖质积累过程中Cd、Zn、Pb、Mo、Hg、Co、Mn、Cr等亲生物元素进一步富集于表层土壤,Ce、Ni、Sb、Ti、V、Y、Zr在表生环境中地球化学性质稳定,残留富集于土壤表层。母质层继承和保留了基岩元素地球化学分布的基本特征。  相似文献   

19.
Eighteen suspended sediment samples were collected along the Huanghe River main stem from upper reaches on the Qinghai-Tibet Plateau (Tibet Plateau) to the entrance at the Bo Hai Bay and at confluences of its tributaries, during the first summer flood in 1980. Major elements such as Si, Al, Fe, Ca, Mg, K, Na, and trace elements such as As, Ba, Cd, Ce, Co, Cr, Cu, Ga, Hg, Li, Mn, Mo, Ni, P, Pb, Se, Sn, Sr, Ti, V, Zn and humus were examined. Variations in composition of suspended sediments also were studied. Three major types of sediment composition were observed. The controlling factor for the variation is parent rocks, though climate and vegetation played an active role. Correlation coefficients, cluster analysis, and enrichment factors were calculated to study the geochemical characteristics of the sediments. Mg, Na and Fe were the only ones subject to considerable leaching, whereas Se, Cd, Zn were significantly accumulated, indicating a low intensity of weathering.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号