Mineralogical and geochemical variation in hydrothermal sulfides from Vienna Woods field, Manus Basin, Papua New Guinea: constraints on their evolution     

RAY Durbar  BANERJEE Ranadip  MAZUMDER Anin  PAROPKARI Anil L.  MUKHOPADHYAY Subir  BALAKRISHNAN Srinivasan 《海洋学报(英文版)》2018,37(4):22-33

Polymetallic sulfides from two hydrothermal chimneys and talus deposit from the Vienna Woods field of Manus Basin were studied for mineralogy, elemental composition, and S-isotope ratio to understand their evolution. The factors including the nature of source fluid, mineral paragenesis, and related geochemical processes have been discussed. Mineralogy and elemental concentration of Cu and Fe-rich large chimney at the central part of this hydrothermal field was completely different from the smaller Zn-rich peripheral chimney and Fe-rich talus deposit, suggesting the variable degree of alterations generate physico-chemically different source fluids responsible for these hydrothermal structures. Similarly, S-isotope ratios also indicate chemically diverse fluids and different modes of precipitation were involved in their evolution. Distinct mineral zonings and associated elemental and isotopic compositions within individual deposit confirm paragenetic shifts were involved during their growth process.  相似文献   

台湾东北部龟山岛附近海域自然硫烟囱体的铅同位素组成及地质意义     

刘长华  汪小妹  曾志刚  姜学均  殷学博  陈镇东 《海洋与湖沼》2009,40(4):393-399

为了探讨龟山岛附近热液自然硫烟囱体的物质来源,通过测定烟囱体内铅同位素的组成特征,分析了该地区热液活动的铅元素物源.研究结果表明,龟山岛附近热液自然硫烟囱体中的铅同位素组成具有很小的变化范围和较均一的铅同位素组成特征,但是与其它深海热液沉积物的铅源不同,与北半球铅同位素的参考线(NHRL)相距甚远.虽然自然硫烟囱体出现在海水环境,但是海水对其不存在铅的贡献,烟囱体内的元素铅主要是陆壳来源.根据以上结果可以进一步推断,龟山岛热液活动区的下伏地层中,存在一定分布范围的陆壳,这对于研究该地区复杂的地质构造特征具有一定意义.  相似文献   

太阳能热气流发电技术研究进展及其在新疆戈壁沙漠地区的应用潜力     

杨青 《沙漠与绿洲气象(新疆气象)》2012,6(6):1-7

阐述了近年来国内外太阳能烟囱发电技术的研究进展,介绍了太阳能热气流发电技术的基本原理和特点。基于对新疆气候资源分布状况的分析,认为在戈壁沙漠地区太阳能热气流发电技术具有巨大地应用潜力,初步分析了有利和不利的气候条件,并建议对太阳能热气流发电的气象条件进行精细化的分析普查,选择合适地点,先建立小型太阳能热气流示范电站;对太阳能热气流电站所带来的环境效应进行评估,为必要的科学试验和技术论证提供实验平台。  相似文献   

金厂特大型金矿床的地质特征与成因研究   总被引：18，自引：0，他引：18  

贾国志  陈锦荣  杨兆光  边红业  王艳忠  梁海军  金同和  李振辉 《地质学报》2005,79(5):661-670

金厂特大型金矿床产于吉黑东部兴凯地块太平岭隆起与老黑山断陷的交接部位,矿区外围出露新元古界黄松群变质岩系。本区燕山期岩浆活动可分为5期,分别为燕山早期第一阶段闪长岩(δ52-1)、燕山早期第二阶段文象花岗岩(γo52-2)、燕山早期第三阶段花岗岩(γ52-3)、燕山晚期第一阶段花岗斑岩(γπ53-1)、燕山晚期第二阶段闪长玢岩脉(δμ53-2),形成岩浆穹窿型构造和隐爆角砾岩筒构造,并叠加大规模的热液蚀变活动,金矿化与第4、5期岩浆活动紧密相关。金矿矿体产状有三种类型:岩浆穹窿构造型、隐爆角砾岩型和环状放射状断裂型。矿石类型主要有含金黄铁矿化石英脉、含金石英黄铁矿脉、含金多金属硫化物石英脉、含金黄铁矿化方解石脉等。金矿成矿年龄为119.40 -122.53 Ma。金矿体受统一的构造-岩浆流体蚀变系统控制,成矿物质来源于深部,成矿流体为岩浆水,晚阶段有少量大气水加入。成矿环境为中高温、中等压力,流体盐度为中等偏高,流体性质为弱碱性、弱还原性,属于K -Na - Ca2 -Cl--SO42-型流体。金在成矿流体中以[Au(HS)2]-、[AuCl2]-、[Au(CO3)]-及[Au(HCO3)2]-等络合物形式存在,当温度、压力下降时,溶液由酸性演化为弱酸性再到弱碱性时,络合物离解,金沉淀成矿。  相似文献   

基于切点前方交会法的大型烟囱倾斜观测最佳方案设计     

李志伟  王欢  庞正辉  席海斌 《测绘信息与工程》2011,(5):38-40

分析了切点前方交会对大型烟囱倾斜变形观测精度的影响,设计了实用的最佳交会图形,并通过实际工程运用,证明了提出的最佳方案的正确性。  相似文献   

The contribution of trace elements from seawater to chimneys： a case study of the native sulfur chimneys in the sea area off Kueishantao, northeast of Taiwan Island     

刘长华  汪小妹  靳新娣  曾志刚  陈镇东 《中国海洋湖沼学报》2009,27(1):162-171

Hydrothermal fluid containing abundant matter erupts from seafloor, meets ambient cold seawater and forms chimneys. So the main matter origins of chimneys are seawater and matter which are taken by hydrothermal fluid from deep reservoir. However, because of seawater’s little contribution to the forming of chimneys, it is usually covered by the abundant matter which is taken by hydrothermal fluid. Therefore, chimneys formed in ordinary deep seawater hydrothermal activity, containing complex elements, cannot ...  相似文献   

EPR 9°～10°N L喷口黑烟囱体形成环境重建:来自矿物学及铅-210年龄的限制     

姚会强  周怀阳  彭晓彤  周新茂  董从芳  吴自军  李江涛 《海洋学报》2009,31(5):48-57

为了重建EPR 9°~10°N L喷口的形成环境,采用矿物学、地球化学及年代学的方法,对黑烟囱体的矿物组成、矿物结构、元素剖面分布以及黑烟囱体内外层铅-210测年进行了研究。矿物学观察表明,该喷口烟囱体内壁主要由方黄铜矿组成,而外壁则主要由硬石膏组成。铅-210测年结果表明,烟囱体形成于EPR 9°~10°N区域内1991年的火山喷发事件之后,并有较低的生长速率,约为0.3cm/a。结合该喷口及其附近A喷口已发表资料认为,该烟囱体开始生长是由于蒸气相流体引起的,其后期受到卤水相流体的影响,而且流体温度应不小于330℃。  相似文献   

REE and Sr-Nd isotope characteristics of hydrothermal chimney at Jade area in the Okinawa Trough     

LIU Yanguang  Meng Xianwei  Fu Yunxia 《海洋学报(英文版)》2004,23(3)

Hydrothermal chimney is a product of hydrothermal activity on the seabed. Chimney samples dredged from Jade hydrothermal area in Izena depression of the Okinawa Trough, are characterized by relatively enriched light rare earth elements (LREE) and strongly positive Eu anomalies. 87Sr/86Sr and 143Nd/144Nd of these samples are exactly between those of seawater and of acidic pumice, averaged at 0.708928 and 0.512292, respectively. These characteristics imply that the main source of hydrothermal sulfide at Jade area is possibly the undersurface acidic rocks. The mineralizing mechanism can be summarized as follows: Large amount of mineralized material would be leached out and LREEenriched hydrothermal solution would be subsequently produced as a result of thermo-chemical exchange reaction between acidic volcanic rocks and heated seawater that penetrated in advance from upper water mass. The spurting out from the seabed and quickly crystallizing in the seawater of hydrothermal solution are responsible for the formation of Cu-Zn sulfide and barite-amorphous SiO2 minerals that are characterized by enriched LREE and positively strong Eu anomalies.  相似文献   

胡安·德富卡洋脊因代沃段热液黑烟囱体成矿物质来源:硫同位素的限制     

姚会强  周怀阳  彭晓彤  何高文 《海洋学报》2010,32(5):25-33

选取胡安.德富卡洋脊(Juan de Fuca Ridge,JDFR)因代沃(Endeavour)段的17个热液黑烟囱体样品对其中的硫同位素进行分析测定,讨论了因代沃段热液活动区内黑烟囱体成矿的物质来源、将硫同位素数据与已发表的热液流体及硫化物数据耦合,并结合前人的成果得到如下认识:(1)因代沃段硫化物的硫同位素组成与其他无沉积物覆盖的洋脊硫化物硫同位素组成相似,然而其相比于南胡安.德富卡洋脊(South Juan de Fuca Ridge,SJFR)硫化物亏损重同位素;(2)结合前人研究成果,如果SJFR硫化物的硫全部来自基底玄武岩的淋洗与海水中的硫酸盐,那么因代沃段硫化物的硫可能有1%～3%来自沉积物的贡献,故提出因代沃段成矿系统中的硫来源主要来自基底玄武岩,同时伴随有少量海水硫酸盐来源及沉积物来源的硫加入;(3)将硫同位素数据与已发表的热液流体及硫化物数据进行耦合发现热液流体中的沉积物信号与硫化物中的硫可能来自不同的源,并提出沉积物端元可能位于下渗区。  相似文献   

The physics of gas chimney and pockmark formation,with implications for assessment of seafloor hazards and gas sequestration   总被引：2，自引：0，他引：2  

L.M. Cathles  Zheng Su  Duofu Chen 《Marine and Petroleum Geology》2010

Pockmarks form where fluids discharge through seafloor sediments rapidly enough to make them quick, and are common where gas is present in near-seafloor sediments. This paper investigates how gas might lead to pockmark formation. The process is envisioned as follows: a capillary seal traps gas beneath a fine-grained sediment layer or layers, perhaps layers whose pores have been reduced in size by hydrate crystallization. Gas accumulates until its pressure is sufficient for gas to invade the seal. The seal then fails completely (a unique aspect of capillary seals), releasing a large fraction of the accumulated gas into an upward-propagating gas chimney, which displaces water like a piston as it rises. Near the seafloor the water flow causes the sediments to become “quick” (i.e., liquefied) in the sense that grain-to-grain contact is lost and the grains are suspended dynamically by the upward flow. The quickened sediment is removed by ocean-bottom currents, and a pockmark is formed. Equations that approximately describe this gas–piston–water-drive show that deformation of the sediments above the chimney and water flow fast enough to quicken the sediments begins when the gas chimney reaches half way from the base of its source gas pocket to the seafloor. For uniform near-surface sediment permeability, this is a buoyancy control, not a permeability control. The rate the gas chimney grows depends on sediment permeability and the ratio of the depth below seafloor of the top of the gas pocket to the thickness of the gas pocket at the time of seal failure. Plausible estimates of these parameters suggest gas chimneys at Blake Ridge could reach the seafloor in less than a decade or more than a century, depending mainly on the permeability of the deforming near-surface sediments. Since these become quick before gas is expelled, gas venting will not provide a useful warning of the seafloor instabilities that are related to pockmark formation. However, detecting gas chimney growth might be a useful risk predictor. Any area underlain by a gas chimney that extends half way or more to the surface should be avoided.  相似文献