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1.
Sunit Kumar Addy 《Geochimica et cosmochimica acta》1979,43(7):1105-1115
The shale-normalized REE patterns of manganese nodules from the northwest Atlantic show enrichment in Sm and Eu relative to the heavier and lighter REE, excluding Ce, and are similar to the patterns previously observed in deep water (> 3000m) nodules from the Pacific. The inverse relation of this pattern to that of sea water and the high Ce anomaly (average 5.5) indicate that probably the REE in the nodules originate from sea water and the nodules are possibly hydrogenous. The patterns for micronodules are similar to those of the nodules but the concentrations of REE were substantially higher in two of them.The red clay occurring on abyssal hills where nodules and micronodules are found also shows higher REE concentrations over terrigenous gray clay. The latter is devoid of nodules and micronodules and occurs in abyssal plains. The excess REE in the red clay also show a pattern similar to those of the nodules and micronodules. Most of the micronodule samples show a lower Ce anomaly (1.7) and lower Co concentration compared to the nodules, so it is inferred that at least some micronodules were formed during post-depositional periods when the conditions were less oxidizing than average. 相似文献
2.
H Elderfield C.J Hawkesworth M.J Greaves S.E Calvert 《Geochimica et cosmochimica acta》1981,45(4):513-528
Analyses have been made of REE contents of a well-characterized suite of deep-sea (> 4000 m.) principally todorokite-bearing ferromanganese nodules and associated sediments from the Pacific Ocean. REE in nodules and their sediments are closely related: nodules with the largest positive Ce anomalies are found on sediments with the smallest negative Ce anomalies; in contrast, nodules with the highest contents of other rare earths (3 + REE) are found on sediments with the lowest 3 + REE contents and vice versa. ratios in the nodules (~0.51244) point to an original seawater source but an identical ratio for sediments in combination with the REE patterns suggests that diagenetic reactions may transfer elements into the nodules. Analysis of biogenic phases shows that the direct contribution of plankton and carbonate and siliceous skeletal materials to REE contents of nodules and sediments is negligible. Inter-element relationships and leaching tests suggest that REE contents are controlled by a P-rich phase with a REE pattern similar to that for biogenous apatite and an Fe-rich phase with a pattern the mirror image of that for sea water. It is proposed that 3 + REE concentrations are controlled by the surface chemistry of these phases during diagenetic reactions which vary with sediment accumulation rate. Processes which favour the enrichment of transition metals in equatorial Pacific nodules favour the depletion of 3 + REE in nodules and enrichment of 3 + REE in associated sediments. In contrast, Ce appears to be added both to nodules and sediments directly from seawater and is not involved in diagenetic reactions. 相似文献
3.
东太平洋CC区多金属结核的物质组构及形成环境意义 总被引:2,自引:0,他引:2
运用反光显微镜、电子探针对东太平洋CC区多金属结核中壳层构造及鲕粒的韵律环带进行的初步的研究结果表明,多金属结核构造有原生沉积成因和成岩成因的,也有后期次生成因的,不同构造反映不同的深海环境。平行纹层构造代表深海底流周期性强弱变化特征,叠层构造和斑杂构造则反映了成岩早期外力作用使结核变形的特征。结核中鲕粒的环带是结核形成时在一个较短时间段内底层海水氧化-还原条件和ph、Eh值发生周期变化的结果。鲕粒环带截面反射率的强弱(明暗带)与环带中的铁锰相对含量有关,而这又取决于环带形成时环境的Eh、pH值和海水的含氧性。 相似文献
4.
The rare earth elements(REE) composition of the polymetallic crusts and nodules obtained from the South China Sea(SCS) were analyzed through inductively coupled plasma mass spectrometry.Results revealed great differences in the REE abundances(∑REE) of the SCS polymetallic crusts and nodules; the crusts show the highest ∑REE, whereas the nodules exhibit the lowest ∑REE. The similarity in their NASC-normalized patterns, the enriched light REE(LREE), the markedly positive Ce anomaly(δCe), and the non-or weakly positive Eu anomaly(δEu), suggest that the polymetallic crusts and nodules are of hydrogenetic origin. Moreover, the REE contents and their relevant parameters are quite different among the various layers of the crusts and nodules, which probably results from the different marginal sea environments and mineral assemblages of the samples. The growth profiles of the SCS polymetallic crusts and nodules reveal the tendency ∑REE and δCe to slightly increase from the outer to the inner layers, suggesting that the growth environments of these samples changed smoothly from an oxidizing to a relatively reducing environment; in addition, the crust ST1 may have experienced a regressive event(sea-level change) during its growth, although the REE composition of the seawater remained relatively stable. On the basis of the regional ∑REE distribution in the SCS crusts and nodules,the samples collected near the northern margin were influenced by terrigenous material more strongly compared with the other samples, and the REE contents are relatively low. Therefore, the special geotectonic environment is a significant factor influencing the abundance of elements, including REE and other trace elements. Compared with the oceanic seamount crusts and deep-sea nodules from other oceans,the SCS polymetallic crusts and nodules exhibit special REE compositions and shale-normalized patterns, implying that the samples are of marginal sea-type Fe-Mn sedimentary deposits, which are strongly affected by the epicontinental environment, and that they grew in a more oxidative seawater environment. This analysis indicates that the oxidized seawater environment and the special nano property of their Fe-Mn minerals enrich the REE adsorption. 相似文献
5.
The partition of V and Mo between manganese oxides and sea water was investigated in the sea water supply system for aquaria at the Marine Science Museum, Tokai University, where both todorokite and birnessite are precipitated from aerated well sea water. The distribution coefficient of V was an order of magnitude higher than that of Mo. Assuming that the distribution coefficients can be applied to marine environments and that manganese oxides are precipitated from sea water, the calculated contents of these oxyanionic elements in manganese oxides were comparable to those in marine manganese nodules. 相似文献
6.
通过对东太平洋CC区洋底地质取样及实验测试分析,运用洋底照相、多频探测等多种地球物理方法手段,进一步阐明了CC区多金属结核的形态、主要类型、丰度、覆盖率、品位、化学成分及分布特征.通过对CC区区域地质背景及地形地貌的综合研究,深入探讨了多金属结核的形成环境.通过对CC区多金属结核的分布规律与形成环境的综合研究,揭示了该区多金属结核的形成与地质环境之间的内在关系,这对于分析研究该区多金属结核的形成机理,为多金属结核资源评价和开发提供科学依据,对于大力开发与利用洋底多金属矿产资源,具有重要的科学意义和经济意义. 相似文献
7.
多金属结核和富钴结壳是大洋两类典型的铁锰产物。为探讨不同海区多金属结核和富钴结壳之间稀土元素特点及其揭示的地质意义,利用近年中国在太平洋获取的样品进行对比,采用ICP-AES对稀土元素测试。结果表明,结壳具有正Ce异常明显、LREE富集、∑REE高的特点,而结核表现为HREE相对富集、∑REE相对较低,因成因类型不同,Ce异常或表现为正异常、负异常或异常不明显。结核形成后受到成岩作用的影响,而结壳则为水成作用形成;结核和结壳中REE的存在形式比较复杂,不同海区各不相同,中太平洋东部产出的结壳和位于东太平洋的结核中REE可能主要赋存于铁矿物相,而西太平洋结壳REE可能主要赋存于锰矿物相;结核和结壳REE可能分别来自海水和海山蚀变玄武岩,热液作用影响有限。 相似文献
8.
David Z. Piper 《Geochimica et cosmochimica acta》1974,38(7):1007-1022
The concentrations of rare-earth elements (REE) have been measured in 31 ferromanganese nodules from the Pacific and Indian Oceans and vary by almost a factor of 5. Too few nodules have been analyzed to define possible regional trends. The shale-normalized patterns, however, permit division of nodules into two groups: those from depth greater than 3000–3500 m and those from less depth. The factors that determine this change in the relative concentration of REE may be related to the mineralogy of manganese phases and/or the transport of REE to the deep ocean by particulate matter.Comparison of the REE patterns of nodules with those of phillipsite, phosphorite, clays, CaCO3 and seawater suggests that the patterns of these phases reflect fractionation from an initial pattern closely resembling that of shale. By assuming that the accumulation rate of REE in clays, CaCO3 and nodules is represented by that for surface sediments, it has been possible to estimate an accumulation rate of phillipsite in pelagic sediments of the Pacific of 0.02 mg/cm2/yr. 相似文献
9.
10.
香港西贡滨珊瑚REE的地球化学特征及其与海平面变化的关系 总被引:2,自引:2,他引:0
用ICP-MS技术测定了位于珠江口西岸香港西贡滨珊瑚在1991~2002年(分辨率达到0.5a)的稀土元素(REE)含量。实验结果显示香港滨珊瑚REE具有Ce负异常、重稀土富集这种典型的海水相分布模式。香港滨珊瑚中REE含量处于目前已见报道中的高值范围,与巴布亚新几内亚珊瑚的REE含量相当。通过与不同地区的比较,香港珊瑚高REE含量很可能就是毗邻的珠江水体高REE的直接反映,而且同南海北缘半封闭边缘海的性质有关。香港珊瑚REE的来源主要为珠江口及其相邻的陆缘沉积物。此外,1991~2002年香港珊瑚REE含量年际下降趋势十分明显,Ce负异常和重稀土富集的程度也呈加剧的趋势,分布模式向海水相转化。REE含量与海平面的年际变化之间有显著的负相关关系(r=-0.7~-0.9),而且重稀土与海平面的相关系数优于轻稀土。上述结果揭示了热带滨珊瑚对近期全球变暖、极冰融化和海水膨胀所引起的海平面快速上升的响应。 相似文献
11.
Rare earth element zonation in Pacific ferromanganese nodules 总被引:1,自引:0,他引:1
H. Elderfield C.J. Hawkesworth M.J. Greaves S.E. Calvert 《Geochimica et cosmochimica acta》1981,45(7):1231-1234
The lower surfaces of ferromanganese nodules from the north equatorial Pacific Ocean, which are enriched in Mn, Cu and Ni, and the upper surfaces, which are enriched in Fe, P and Co, have been analyzed for La, Ce, Nd, Sm, Eu, Gd, Dy, Er and Yb. The REE contents are lower and the Ce anomaly is smaller in the lower surfaces than in the upper surfaces. The magnitude of the Ce anomaly increases with decreasing ratio, indicative of a seawater origin. The zonal distribution of the other REE supports the conclusion derived previously from inter-nodule and nodule/sediment relationships that diagenetic fixation of rare earths in sediments affects their enrichment by nodular iron oxyhydroxides. 相似文献
12.
中太平洋YJB海山富钴结核矿物组成与元素地球化学 总被引:1,自引:0,他引:1
研究样品采自马尔库斯(MARCUS)海脊YJB海山。利用等离子光谱、等离子质谱、X射线衍射、红外光谱、场发射电镜等分析测试方法,对其富钴结核中不同构造层的矿物组成和元素地球化学研究表明: 该球状结核核部是玄武岩,向外具四层构造。矿石矿物为水羟锰矿和少量的钙锰矿,脉石矿物为磷灰石、石英、斜长石等,微量矿物有蒙脱石、高岭石、钠沸石、方英石、辉石、束沸石等。老结核相对富TMn、Cu、Ca、P等元素,新结核相对富集TFe、Co、Ni、Si、Al等元素。在老、新结核中,从下部构造层到上部构造层,TMn、Co、Ni、Cu、Ba、Zn、Pb、Mo等的质量分数逐渐减少,TFe逐渐增加。核内玄武岩属大洋板内玄武岩,其成因可能与地幔柱有关。结核的稀土元素总量是1 924.07×10-6,Ce具明显的正异常。在老、新结核不同构造层中,Ce的演化趋势同TMn等元素,其他稀土元素与Fe等相似。 相似文献
13.
A total of 1344 manganese nodules and 187 pelagic sediments from 9 areas in the North and the South Pacific were analyzed for U by the delayed-neutron counting technique. A strong positive correlation between U and Fe in nodules and sediments suggests a co-precipitative removal from sea water into the Fe-rich ferromanganese mineral phase δ -MnO2. Enrichment of U and Fe in nodules from the northwestern slopes of two submarine hills (U between 6 and 9 ppm) in the equatorial nodule belt is thought to be caused by directional bottom water flow creating elevated oxygenized conditions in areas opposed to the flow. Economically important nodule deposits from the nodule belt and the Peru Basin have generally low U contents, between 3 and 5 ppm. Insignificant resources of U of about 4 × 105 in the Pacific manganese nodules are estimated. 相似文献
14.
Rare earth elements in the Pacific and Atlantic Oceans 总被引:1,自引:0,他引:1
Hein J.W. De Baar Michael P. Bacon Peter G. Brewer Kenneth W. Bruland 《Geochimica et cosmochimica acta》1985,49(9):1943-1959
15.
通过对中太平洋海盆表层沉积物与相伴生的锰结核的研究表面,丰度、品位等有明显的差异,在深海粘土中锰结核干度最度,钙质软泥多,锰结核的发现聚集与沉积物类型,沉积速率、孔隙度、金属含量及形成时的氧化还原条件,水深、底层流等的影响.锰结核的形成,发育与富集是受多种因素所控制,是一个模式内的约制。 相似文献
16.
通过对东太平洋CC区洋底地质取样及实验测试分析,运用洋底照相、多频探测等多种地球物理方法手段,进一步阐明了CC区多金属结核的形态、主要类型、化学成分及分布特征.通过对CC区沉积作用、生物作用、洋底火山作用、海水化学成分、南极底流等因素的综合研究分析, 进一步揭示了多金属结核形成的物质来源.通过对CC区区域地质背景及地形地貌的综合研究分析, 进一步探讨了多金属结核的形成环境,并建立了成矿模式. 相似文献
17.
东太结核主要为半埋藏和埋藏型,发育于以黏土和硅质组分为主的沉积环境。东太结核的锰相矿物主要有水羟锰矿和钡镁锰矿,具有较高的REY、Cu、Ni含量和Mn/Fe比值,显示遭受间隙水的影响,落入水成成因和成岩成因两个区间范围。西太结核主体暴露在海水中,周围沉积物主要由深海黏土组成。西太结核的锰相矿物几乎只有水羟锰矿,具有较高的REY、Co含量和低Mn/Fe比值,属于典型的水成成因型。两个区域的多金属结核的稀土北美页岩标准化模式均显示Ce正异常、Y负异常和无或弱Eu异常,与海水稀土特征构成良好的耦合关系,是多金属结核对海水稀土选择性富集的结果。西太结核相对东太结核具有更高的Ce含量和δCe,Co、Ti与Ce具有良好的正相关关系。研究认为海水中溶解氧并不一定是控制结核Ce正异常程度的关键因素,Co、Ti等元素及其相关组分能够引起Ce与其他稀土元素的强烈分馏,也可能是影响多金属结核Ce正异常程度的控制因素。研究区多金属结核和富钴结壳表层样的εNd范围为-6.6~-2.5,是全球最富放射性成因Nd的海洋铁锰壳层。结合稀土模式以及Eu异常特征,本研究认为多金属结核的稀土主要来自εNd相对较高的周围陆壳,可以通过河流或者大气沉降等方式输送到大洋,而研究区广泛分布的海山玄武岩释放的放射性成因Nd同位素对海水的影响微弱。 相似文献
18.
为了进一步解释南海不同区域内多金属结核(壳)的地球化学特征与成因,对东部次海盆黄岩?珍贝海山链上新获取的多金属结核(壳)样品进行了X光衍射、X荧光光谱测试、SEM-EDS分析和X Series2 ICP-MS测试,详细分析了样品的矿物组成、地球化学成分特征. 结果表明,矿物组成为水羟锰矿、石英、斜长石等;主要造岩元素中Si、Al含量较高,与陆缘碎屑物影响较大有关;富含Mn、Fe、Co、Ti、Ni、Pb、Sr等多种金属元素,相比南海其他区域,具有中等的Fe、Mn含量特征,地化元素特征与南海西北陆坡发现的铁锰结核(壳)相似;稀土元素具有总量高(平均2 070.01×10-6)的特点,高于南海北部其他样品,与西太平洋结壳稀土含量接近(接近工业品位),指示了重要的稀土资源前景. 结核Be同位素结果指示该区铁锰结核生长时代为1.17~8.51 Ma,形成于晚中新世大量火山喷发之后,因此水成作用是南海东部次海盆海山链结核(壳)的主要控制作用,而陆源物质的输入、火山作用和高压富氢离子海水的浸取作用都为结核(壳)的形成提供了有利的沉积环境. 相似文献
19.
为研究采矿对土壤-植被REE生物地球化学特征的影响,采集大宝山多金属矿区及背景区土壤及优势植物芒萁、马尾松叶片,测量REE含量.对比分析样品中REE分布模式、∑REE、δEu、δCe及四重效应等地球化学特征.结果表明:受采矿活动影响,矿区土壤REE含量均值达284.99 mg/kg,显著高于背景区,且表土层REE含量明显高于心土层;相对于背景区,矿区土壤和植被轻重稀土分馏更弱;研究区土壤和植被都为Eu亏损,大都为Ce富集,马尾松与土壤REE含量呈正相关,REE富集植物芒萁在背景区富集系数反而更高;矿区环境抑制植物对REE正常的迁移和分异,对植被生长不利,植被REE分布分异特征是其对生长环境的反映和适应. 相似文献
20.
通过对西太平洋34件海水样品的稀土元素(REY:REE+Y)测试及其与研究区富钴结壳稀土耦合特征分析,揭示了海水稀土特征及其成因.海水的稀土含量随水深呈现逐渐增加的趋势,∑ REY范围为14.0×10-12~65.5×10-12,平均值为31.9×10-12,其中Y的绝对值(均值为6.0×10-12~24.1×10-12)和相对值((Y/Ho)N均值为1.98)均较高,La含量次之(均值为1.8×10-12~11.6×10-12),Ce含量相对较低(均值为2.4×10-12~8.8×10-12),δCe范围为0.33~1.03(均值为0.66),(La/Yb)N平均值为0.71.海水稀土元素北美页岩标准化后显示左倾模式,具有显著的Ce负异常、Y正异常和无明显的Eu异常特征.研究区普遍发育水成成因的富钴结壳,即其稀土元素和其他组分均源自海水.富钴结壳的稀土含量相对海水富集6~7个数量级,其Ce正异常和Y负异常的稀土模式与海水构成良好的耦合关系,指示富钴结壳类组分对海水稀土清扫具有选择性,是造成海水稀土模式的重要因素.海山上发育的磷块岩以及周围盆地深海泥中的磷酸盐组分,它们具有较高的稀土含量和类似于海水的稀土模式,指示海洋磷酸盐消耗稀土时并未分馏而是继承海水模式.海水独特的稀土模式特征是补给与消耗平衡作用的结果,铁锰氧化物和海洋磷酸盐是两种典型的海洋自生组分,它们对海水稀土特征的形成至关重要. 相似文献