南海边缘海多金属结核与大洋多金属结核对比     

殷征欣  王海峰  韩金生  吕修亚  沈泽中  陈静  贺惠忠  谢安远  关瑶  董超 《吉林大学学报(地球科学版)》2019,49(1):261-277

本文通过系统对比分析前人研究成果，研究了南海边缘海多金属结核的成矿特征，结果表明：南海边缘海结核的矿物组成与大洋结核相似，均主要由锰相矿物和铁相矿物组成，其中锰相矿物主要为水羟锰矿和钡镁锰矿，铁相矿物主要以无定型铁氧化/氢氧化物形式存在，另外南海边缘海结核中含有大量硅酸盐矿物，表明在南海结核成矿过程中受到大量的陆源碎屑矿物混杂；相对于大洋主要经济成矿区的多金属结核，南海边缘海多金属结核中主要的经济元素如Mn、Cu、Co、Ni和Zn质量分数较低，而亲陆源性元素如Fe、Ti、P、Nb、Pb、Rb、Sc、Ta、Sr、Th和REY（REE和Y）等质量分数较高；南海边缘海多金属结核的元素地球化学特征和REE配分模式显示其为水成成因，并呈现更低的Mn/Fe值；同时南海边缘海结核也具有较快的平均生长速率及较高的δCe正异常，表明其生长在更为氧化的海水环境。虽然较快的沉积物沉积速率和动荡的海水环境影响了南海边缘海结核的成矿，但大量陆源物质进入海洋也为南海边缘海结核提供了丰富的成矿物质来源，便于南海边缘海结核的快速生长成矿。南海边缘海结核富集有Fe、Ti、Pb、Rb、Th和REY等金属元素，同样可以作为极具潜力的海洋矿产资源。南海边缘海多金属结核具有其独特的地球化学特征，与大洋多金属结核存在着明显差异。  相似文献   

Effect of Caliche Nodules on Soil Water Storage in the Northern Loess Plateau of China     

Tiexiong Gong  Yuanjun Zhu  Yunqiang Wang  Wei Hu  Ming'an Shao 《洁净——土壤、空气、水》2019,47(7)

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Metal flux as an alternative parameter in evaluating the resource potential for co-rich ferromanganese crusts     

Hisaaki Sato 《Marine Georesources & Geotechnology》2018,36(7):768-780

We propose a geochemical parameter, “metal flux” in evaluating hydrogenetic Co-rich ferromanganese crust deposits in the Pacific seamount area, that is based on physical, chemical, and geological characterization of the integrated growth piles of crusts. We calculated the metal flux for fifteen sites from different depths ranging between 900-6000m from different seamounts. The secular and areal variations of metal flux indicate a strong geological controls, and also can be a reliable tool for estimating an economic potential of the crusts. The Co flux decreases with increasing water depth, followed by almost constant flux of Ni and Mn. The Al and Fe fluxes vary with regions, indicating higher values in the western regions near the island arc probably related to a supply from the Asian continents. The results imply that Co, a redox sensitive metal element, is controlled by redox conditions of seawater, while Fe and Al are by terrigenous input. The metal flux reflects global and regional conditions and controls the compositional diversity of metals, thus consequently, the parameter can be a reliable powerful tool to estimate or single out more potential areas.  相似文献   

大洋多金属结核中铁锰质矿物拉曼光谱特征初探     

赖佩欣  任江波  邓剑锋 《矿床地质》2020,39(1):126-134

拉曼光谱是一种快速无损的分析手段,它既可观察样品的显微结构构造,也可分析样品的成分和结构。为了丰富多金属结核的岩石矿物学特征,文章对西太平洋某海山区的多金属结核样品进行了X射线粉末衍射分析和拉曼光谱分析。X射线分析结果显示该区域样品主要含有水羟锰矿、钡镁锰矿、斜长石、钙十字沸石和石英,显微构造主要有纹层状构造、柱状构造、树枝状构造、充填构造等。通过分析对比潮湿样品和烘干样品铁锰质矿物的拉曼特征谱峰,得出结核中水羟锰矿的特征谱峰位于490 cm~(-1)、570 cm~(-1)和626 cm~(-1)附近,钡镁锰矿的特征谱峰则位于640 cm~(-1)附近,与陆地上对应矿物的特征拉曼谱峰不同。结核中的钡镁锰矿结构不稳定,经过风干或者抛磨后部分产生相变,不同显微结构中,相变情况不同。经与RRUFF数据库比对,识别出钙十字沸石、斜长石等自形晶,多分布于结核最内层,往结核外层总体减少。矿物微晶多见铁锰质矿物微晶和钙十字沸石微晶,铁锰质矿物绕其向外生长。  相似文献   

大洋铁锰结核的微生物成矿过程及其研究进展   总被引：1，自引：1，他引：0  

姜明玉  胡艺豪  于心科  曹文瑞  萨仁高娃  常凤鸣 《海洋科学》2020,44(7):156-164

深海铁锰结核作为世界上潜在的巨大金属宝库已成为当今开发海底矿藏的热点，因而深入了解铁锰结核成矿过程成为其开发利用的先决条件。研究发现多金属铁锰结核中的铁锰矿物不仅仅是由单纯的物理作用形成的，同时也包含了海洋生物驱动的生物矿化的过程。本文介绍了运用分子生物学、矿物学和地球化学等多学科的研究方法对大洋中铁锰的生物成矿过程和成矿特征的研究。深海铁锰结核的生长速率缓慢且其生长演化伴随着微生物群落的活动，因此结核的生长过程同时也记录着不同时期微生物群落结构的变化并生成了大量的微生物化石。在铁和锰的生物矿化过程中，细菌可以通过酶促反应氧化Fe（Ⅱ）和Mn（Ⅱ），同时可能伴随生物能量的生成，此外微生物还可以通过非酶促反应的方式促进Fe和Mn的富集沉淀。这些研究表明生物矿化作用在大洋铁锰结核成矿过程中有巨大贡献，对大洋铁锰结核的生物成因过程提供更加全面准确的理解，从而为今后进一步充实大洋铁锰结核的生物矿化理论及其开发利用提供依据。  相似文献   

全球三大洋海山钴结壳资源量估算   总被引：8，自引：0，他引：8  

张富元  章伟艳  任向文  张霄宇  朱克超 《海洋学报》2015,37(1):88-105

钴结壳具有Co、Ni、Cu和Mn及其他金属的潜在矿产资源和储存在结壳层中古环境信息的双重意义。与深海多金属结核和热液硫化物矿床相比,具有较高Co、Ni和Pt含量的海山钴结壳有可能成为商业勘探的潜在目标。为合理地估算出全球三大洋海山钴结壳资源量,基于我国西太平洋海山钴结壳拖网采样调查资料和对太平洋海山钴结壳资源分布规律和钴结壳矿区圈定参数指标的深入研究,按海山不同高度、不同洋壳年龄赋予不同结壳厚度,进而计算出全球三大洋海山钴结壳分布面积为3 039 452.14km2和干结壳资源量为(1 081.166 1~2 162.332 2)×108 t。太平洋海山钴结壳分布面积为2 123 087.12km2和干结壳资源量为(513.244~1 026.488)×108 t,大西洋海山钴结壳分布面积为512 509.74km2和干结壳资源量为(116.503 2~233.006 4)×108 t,印度洋海山钴结壳分布面积为403 855.28km2和干结壳资源量为(81.484 9~162.969 8)×108 t。三大洋海山钴结壳的Mn、Co、Ni和Cu金属量分别为(138.848 0~277.696 0)×108 t,(3.967 6~7.935 2)×108 t、(2.793 6~5.587 2)×108 t和(0.825 1~1.650 2)×108 t。根据钴结壳的Co含量、Co通量和厚度相关分析,所赋予的钴结壳厚度占理论推测厚度的6.10%~12.20%,这与Ku等得出"钴结壳生长时间约占其整个生命史4%"的认识非常相近。三大洋海山钴结壳实测厚度与赋值厚度对比分析表明,太平洋海山钴结壳赋值厚度平均值为1.87cm,实测厚度平均值为1.77cm,相对误差为5.35%,大西洋和印度洋相对误差分别为18.18%和23.23%。研究数据表明按海山高度和洋壳年龄所赋的钴结壳厚度基本合理,估算出的钴结壳资源量基本可靠。本文首次估算出三大洋海山钴结壳资源量,为整个海盆和三大洋海山钴结壳资源量估算提供了新方法。  相似文献   

Rare earth elements and yttrium in ferromanganese deposits from the South China Sea: distribution, composition and resource considerations     

ZHONG Yi  CHEN Zhong  GONZALEZ Francisco Javier  ZHENG Xufeng  LI Gang  LUO Yun  MO Aibin  XU Antao  WANG Shuhong 《海洋学报(英文版)》2018,37(7):41-54

Ferromanganese nodules and crusts contain relatively high concentration of rare earth elements(REE) and yttrium(REY),with a growing interest in exploitation as an alternative to land-based REY resources.On the basis of comprehensive geochemical approach,the abundance and distribution of REY in the ferromanganese nodules from the South China Sea are analyzed.The results indicate that the REY contents in ferromanganese deposits show a clear geographic regularity.Total REY contents range from 69.1×10~(–6) to 2 919.4×10~(–6),with an average value of 1 459.5×10~(–6).Especially,the enrichment rate of Ce content is high,accounting for almost 60% of the total REY.This REE enrichment is controlled mainly by the sorption of ferromanganese oxides and clay minerals in the nodules and crusts.Moreover,the total REY are higher in ferromanganese deposits of hydrogenous origin than of diagenetic origin.Finally,Light REE(LREE) and heavy REE(HREE) oxides of the ferromanganese deposits in the study area can be classified into four grades: non-enriched type,weakly enriched type,enriched type,and extremely enriched type.According to the classification criteria of rare earth resources,the Xisha and Zhongsha platform-central deep basin areas show a great potential for these rare earth metals.  相似文献   

西太平洋维嘉海山埋藏型富钴结壳生长速率初步研究     

赵斌  何高文  马维林 《地质论评》2024,70(S1):101-103

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Rare Earth Elements Composition and Constraint on the Genesis of the Polymetallic Crusts and Nodules in the South China Sea     

GUAN Yao  SUN Xiaoming  SHI Guiyong  JIANG Xiaodong  LU Hongfeng 《《地质学报》英文版》2017,91(5):1751-1766

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   

Composition and Useful Properties of Tailings of Marine Manganese Nodules and Crusts     

Zhimin Bai  John C. Wiltshire 《Marine Georesources & Geotechnology》2005,23(1):13-24

Marine manganese nodules and crusts, when processed, yield tailings which may be utilized for environmental and economic benefit. The key to the reasonable and effective utilization of these tailings lies in making a systematic appraisal of their composition and properties. This article gives an introduction to the investigation of manganese tailings properties. The tailings have a high iron and/or manganese content, high surface area, high porosity, and fine grain size. Some tailings have a high rare earth element content which is valuable. They may also have high SO₃, arsenic, and uranium contents which are harmful. Depending on the process used to produce the tailings, there will likely be some differences in chemical composition, mineral assemblages, surface area and adsorption capability, pore diameter and volume, density and pH. In assigning potentially beneficial applications for these tailings, these differences should be taken into account to optimize utilization.  相似文献