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Seafloor hydrothermal vent fields(SHVFs) are located in the mid-ocean ridge(MOR),backarc basin(BAB),island arc and hot-spot environments and hosted mainly by ultramafic,mafic,felsic rocks,and sediments.The hydrothermal vent fluids of SHVFs have low oxygen,abnormal pH and temperature,numerous toxic compounds,and inorganic energy sources,such as sulfuric compounds,methane,and hydrogen.The geological,physical,and chemical characteristics of SHVFs provide important clues to understanding the formation and evolution of seafloor hydrothermal systems,leading to the determination of metal sources and the reconstruction of the physicochemical conditions of metallogenesis.Over the past two decades,we studied the geological settings,volcanic rocks,and hydrothermal products of SHVFs and drawn new conclusions in these areas,including:1) the hydrothermal plumes in the Okinawa Trough are affected by the Kuroshio current;2) S and Pb in the hydrothermal sulfides from MOR are mainly derived from their host igneous rocks;3) Re and Os of vent fluids are more likely to be incorporated into Fe-and Fe-Cu sulfide mineral facies,and Os is enriched under low-temperature(200℃) hydrothermal conditions in global SHVFs;4) compared with low-temperature hydrothermal sulfides,sulfates,and opal minerals,high-temperature hydrothermal sulfides maintain the helium(He) isotopic composition of the primary vent fluid;5) relatively low temperature(116℃),oxygenated,and acidic environment conditions are favorable for forming a native sulfur chimney,and a "glue pudding" growth model can be used to understand the origin of native sulfur balls in the Kueishantao hydrothermal field;and 6) boron isotope from hydrothermal plumes and fluids can be used to describe their diffusive processes.The monitoring and understanding of the physical structure,chemical composition,geological processes,and diverse organism of subseafloor hydrothermal systems will be a future hot spot and frontier of submarine hydrothermal geology. 相似文献
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西太平洋典型弧后盆地的地质构造、岩浆作用与热液活动 总被引:2,自引:0,他引:2
研究了西太平洋典型弧后盆地冲绳海槽和马努斯海盆的区域地质背景、岩浆岩、喷口流体、热液柱、沉积物以及多金属硫化物。结果表明,冲绳海槽在构造和地球物理特征上南北分异,从北向南地壳厚度减薄,南部重力异常变化大,发育条带状磁异常,中部则具有最高的热流值。马努斯海盆的重力异常变化较小,磁力异常呈东西向展布,海底扩张中心附近出现磁异常条带。马努斯海盆已出现洋壳,冲绳海槽的地壳属于过渡性地壳,在中南部的地堑中可能已出现洋壳。
冲绳海槽与马努斯海盆玄武岩的岩浆是由地幔源区部分熔融产生的原始岩浆与板块俯冲组分混合构成。中酸性岩与基性岩具有相同的岩浆物质来源,是玄武质岩浆结晶分异的产物。与马努斯海盆火山岩相比,冲绳海槽火山岩存在不同程度的地壳混染。
冲绳海槽的喷口流体为富含金属元素(Mn、Fe、Zn、Pb)的酸性高温(高达320 °C)流体,其热液柱中的Zn2 、Cd2 、Pb2 、Cu2 离子浓度明显高于正常海水。马努斯海盆的热液柱呈现出CH4、Mn、Al、δ3He正异常及pH负异常的特征。与马努斯海盆PACMANUS热液区的喷口流体(220–276 °C、pH = 2.5–3.5)相比,DESMOS热液区的喷口流体温度(≥88–120 °C)相对较低,酸性更强(pH ≤ 2.1),二者较低的δ34SH2S和δD值表明岩浆演化过程中有酸性挥发分进入岩浆流体。冲绳海槽与马努斯海盆含金属沉积物的分布及其元素含量特征具有差异,相应地,两个弧后盆地含金属沉积物中的微生物群落也不同。冲绳海槽和马努斯海盆热液区均具富Zn型、Ba-Pb-Zn型、Si-硫化物型和Si-硫化物-硫酸盐型热液产物。与冲绳海槽的多金属硫化物相比,马努斯海盆中多金属硫化物的Pb和Au含量较低。 相似文献
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X射线荧光分析用的Li2B4O7玻璃熔片经长期放置后,Mg,Si和Al等元素的X射线强度发生了很大变化,尤其是Mg的强度增大很多,以至无法进行准确分析,对于长期放置的熔片,可以用重新熔融的方法进行处理。 相似文献
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冲绳海槽南部流纹岩中角闪石的化学特征及其对岩石成因的指示 总被引:2,自引:0,他引:2
为了揭示冲绳海槽西南端流纹岩成因,利用电子探针和LA-ICP-MS对该流纹岩中角闪石进行了主量和微量元素测定。所有角闪石主量元素成分变化范围小,晶体化学特征主要表现为:CaB>1.60,CaA=0,(Na+K)A<0.33,NaB介于0.23~0.39之间,均为钙质镁闪石。微量元素以富集Sc、V、Cr、Co、Ni和REE,亏损Rb、Sr、Ba、Zr、Th、U和Pb为特征,这些元素的富集与亏损与复杂的类质同象作用有关。由角闪石温压计得出其结晶时的温度范围为775~839℃,压力为0.12 GPa,大致相当于4 km的深度。角闪石的成因矿物学研究显示该流纹岩中角闪石为壳-幔混合成因,进一步表明冲绳海槽南部流纹岩由幔源玄武质岩浆与壳源长英质岩浆混合形成的中基性岩浆在浅层岩浆房中结晶分异而形成,且壳幔混合源很可能是冲绳海槽西南端火山岩岩浆的主要来源。 相似文献
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Zuxing Chen Zhigang Zeng Xiaoyuan Wang Yuxiang Zhang Xuebo Yin Shuai Chen Yao Ma Xiaohui Li Hanyan Qi 《中国海洋大学学报(英文版)》2017,16(6):1097-1108
To reveal the petrogenesis of rhyolite from the southwestern Okinawa Trough, the mineral chemistry of plagioclase, orthopyroxene, amphibole, quartz and Fe-Ti oxide phenocrysts were analyzed using an electron microprobe, and in suit Sr and Ba contents of plagioclase analysed by LA-ICPMS were chosen for fingerprinting plagioclases of different provenances. Results indicate an overall homogeneous composition for each of the mineral phases except for plagioclase phenocrysts which have a wide range of composition(An=39~88). Plagioclase crystals characterized by An contents of 70 are not in equilibrium with their whole-rock compositions, and coarse-sieved plagioclase phenocryst interiors record high An contents(70) and Sr/Ba ratios(7), which are similar to the those of plagioclase crystals in basalt. Therefore, these crystals must have been introduced to the rhyolitic magma from a more mafic source. Equilibrium temperatures estimated using orthopyroxene-liquid, iron–titanium oxide, titanium-in-quartz and amphibole geothermometers show consistent values ranging from 792 to 869℃. The equilibrium pressure calculated using amphibole compositions is close to 121 MPa which corresponds to an approximate depth of 4 km. The fO_2 conditions estimated from Fe-Ti oxides and amphiboles plot slightly above the NNO buffer, which indicates that the rock formed under more oxidized conditions. Our results suggests that petrogenesis of the rhyolite due to basaltic magma ascend with the high An and Sr/Ba plaigoclases from deep magma chamber into the shallow chamber where the fractional crystallization and crustal assimilation happened. It also indicates that a two-layer magma chamber structure may occur under the southwestern Okinawa Trough. 相似文献
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Yuxiang Zhang Zhigang Zeng Xiaoyuan Wang Shuai Chen Xuebo Yin Zuxing Chen 《地球科学进展》1986,35(7):678-690
Revealing the controlling effect of geological structure on seafloor hydrothermal activities is of great significance in understanding the formation mechanism of hydrothermal system and searching for seafloor sulfide resources. This article summarized the topography and faults, crustal structure, gravity and magnetic field, heat flow and magmatism in the middle and southern Okinawa Trough, as well as the general characteristics of hydrothermal field distributions and hydrothermal products. By comparing the Okinawa Trough with the Manus Basin, Mariana Trough, North Fiji Basin and Lau Basin with different rock basements and extension stages, we generalized some specific geological characteristics of the Okinawa Trough, including the transitional crustal nature, low extension degree, high heat flow value, extremely thick sediments, and bimodal volcanism. The hydrothermal activities in the Okinawa Trough are controlled by fault structures, magmatism, and spreading rate, and at the same time, are affected by basement rock types and sediment covers. In the middle and southern parts of the trough, two group of faults that are parallel and perpendicular to the strike of the back-arc basin promote the fluid circulation, and large-scale magmatic activity provides sufficient heat for the hydrothermal system. In addition, the interaction of fluids with the widespread silicic volcanic rocks and thick sediments leads to the enrichment of organic matter, CO 2, and metals such as Ag and Au in the hydrothermal products. According to the extension rate and geological features of the Okinawa Trough, we believe that the Okinawa Trough has potential to have new hydrothermal fields discovered and we speculate that new hydrothermal fields most possibly exist in the regions influenced by ridge subduction as well as the neo-volcanic zones closed to the island arc. 相似文献
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Yamin Yang Zhigang Zeng Xuebo Yin Xiaoyuan Wang Shuai Chen Haiyan Qi Zuxing Chen Bowen Zhu 《海洋学报(英文版)》2021,40(10):129-143
Studies of the mineralogy and sulfur isotope composition of sediment-hosted hydrothermal sulfide minerals in cores are important for understanding the seafloor mineralization environment and material source and reconstructing the hydrothermal history. However, the source of ore-forming materials and the history of hydrothermal activity in the southern Okinawa Trough (SOT) remain unclear. Here, the mineralogy and sulfur isotope characteristics of sulfides from gravity core HOBAB4-S2, collected between the Yonaguni Knoll IV hydrothermal field (HF) and the Tangyin HF, was investigated. Enrichments in Zn (up to 321×10?6), Cu (up to 73.7×10?6), and Pb (up to 160×10?6) and the presence of pyrite, galena, pyrrhotite and minor sphalerite and chalcopyrite provide evidence for the input of hydrothermal materials into the sediments. The pyrite morphologies include disseminated cubic, pentagonal dodecahedron, and framboidal forms. Except for minor framboidal pyrite, euhedral pyrite from core HOBAB4-S2 is mainly of hydrothermal origin with Co/Ni ratios >1 and S/Fe atomic ratios <2 in the Cu-Zn-Pb-rich layers. The occurrences of hexagonal pyrrhotite, high-Co (up to 0.17%) pyrite and high-Fe sphalerite indicate that the hydrothermal precipitates formed at medium-high temperatures and low-sulfur fugacity (fS2) environments. The δ34S values of sulfides (0.21‰–3.45‰) with low- fS2 mineral assemblages (e.g., pyrrhotite ± high-Fe sphalerite) in the core are significantly lower than those of magmatic rocks and seawater, indicating possible incorporation of previously formed biogenic sulfur in the sediment. Combined with the age model of the core, it is suggested that hydrothermal activity likely began in the Tangyin HF before AD 1445–1483 and that at least three active episodes may have occurred since then. 相似文献
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