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361.
Geologic setting of the Snake Pit hydrothermal site: An active vent field on the Mid-Atlantic Ridge 总被引:2,自引:0,他引:2
TheSnake Pit Hydrothermal Site lies on the axis of the Mid-Atlantic Ridge at 23°22′ N latitude, about 30 km south of the Kane Transform
Intersection. Active ‘black smoker’ vents and a surrounding field of hydrothermal sediment occur at the crest of a laterally
extensive neovolcanic ridge. It is one of the first active hydrothermal vent fields to be found on a slow-spreading ridge
axis and despite significant differences in its geologic setting from those of the East Pacific Rise, has many similarities
to its fast-spreading counterparts. Although preliminary reports have documented many interesting aspects of these vents and
their surroundings, new data collected from the manned submersible ALVIN and the deep-towed ANGUS camera system define the
regional tectonic setting as well as the local geologic environment of this fascinating area.
The Snake Pit vents are located on a local peak of a volcanic constructional ridge at a depth of 3450 m, 700–800 m deeper
than vents known from the East Pacific Rise, Galapagos, or Juan de Fuca spreading centers. The vent field is at least 600
m long and up to 200 m wide and is covered by a thick blanket of greenish to yellow-orange hydrothermal sediment. Both active
and extinct vents are perched along the crests of steep-sided sulfide mounds that reach heights of over 40 m. High-temperature
(350° C) fluids are vented from black smoker chimneys and low-temperature (226° C) fluids seep from sulphide domes and subordinate
anhydrite constructions. Water temperatures, flow rates, fluid chemistries, and mineralization are strikingly similar to vents
of faster spreading ridge crests; however, a somewhat distinct fauna inhabit the area. 相似文献
362.
363.
Anatomy of a continent-backarc transform — The Vening Meinesz Fracture Zone northwest of New Zealand
The northwestern continental margin of New Zealand offers one of the finest examples of a continent-backarc transform. This transform, part of the Vening Meinesz Fracture Zone (VMFZ), accommodated about 170 km of sea-floor spreading in the Norfolk backare basin together with eastward migration of a volcanic arc, the Three Kings Ridge, in the Mid- to Late Miocene. Before the onset of spreading, strain along the VMFZ may have been linked to a major Early Miocene obduction event — the emplacement of the Northland Allochthon. The transform is manifested by a belt up to 50 km wide of left-stepping, linear fault scarps up to 2000 m high within an approximately 100 km-wide deformed zone. A marginal ridge, the Reinga Ridge, which includes a faulted, folded and uplifted Miocene sedimentary basin, occurs within the high-standing continental side of the deformed zone, whereas a narrow strip of linear detached blocks occupies the deep backarc oceanic side. Prespreading uplift and erosion of crust in the proto-backarc region, are volcanism, and obduction of the allochthon, supplied clastic sediments to the basin on the continental side. This basin was complexly deformed as the transform evolved. The transform was initiated as a dextral strike-slip fault zone, which developed right-branching splays and left-steps along its length, uplifting and cutting the continental margin into left-hand, en echelon blocks and relays. Folds formed locally within relay blocks and at the distal ends of the splays. Only the high continental side of this zone (the Reinga Ridge) remains, the formerly adjacent crust (the Three Kings Ridge) having been displaced towards the southeast. As the Three Kings block moved and the Norfolk Basin opened, opposing rift margins of the backarc basin foundered to form terraces. The oceanic side of the transform also subsided to produce the belt of detached blocks (some laterally displaced by strike slip) and linear troughs along the main escarpment system. 相似文献
364.
The Carlsberg Ridge lies between the equator and the Owen fracture zone. It is the most prominent mid-ocean ridge segment
of the western Indian Ocean, which contains a number of earthquake epicenters. Satellite altimetry can be used to infer subsurface
geological structures analogous to gravity anomaly maps generated through ship-borne survey. In this study, free-air gravity
and its 3D image have been generated over the Carlsberg Ridge using a very high resolution data base, as obtained from Geosat
GM, ERS-1, Seasat and TOPEX/POSEIDON altimeter data. As observed in this study, the Carlsberg Ridge shows a slow spreading
characteristic with a deep and wide graben (average width ∼15 km). The transform fault spacing confirms variable slow to intermediate
characteristics with first and second order discontinuities. The isostatically compensated region of the Carlsberg Ridge could
be demarcated with near zero contour values in the free-air gravity anomaly images over and along the Carlsberg Ridge axes
and over most of the fracture zone patterns. Few profiles have been generated across the Carlsberg Ridge and the characteristics
of slow/intermediate spreading ridge of various orders of discontinuity could be identified. It has also been observed in
zero contour image as well as in the characteristics of valley patterns along the ridge from NW to SE that different spreading
rates, from slow to intermediate, are occurring in different parts of the Carlsberg ridge. It maintains the morphology of
a slow spreading ridge in the NW, where the wide and deep axial valley (∼1.5–3 km) also implies the pattern of a slow spreading
ridge. However, a change in the morphology/depth of the axial valley from NW to SE indicates the nature of the Carlsberg Ridge
as a slow to intermediate spreading ridge.
For the prevailing security restrictions, lat./lon. coordinates have been omitted in few images. 相似文献
365.
N. C. Mitchell 《Marine Geophysical Researches》1991,13(3):173-201
A 2°×2° map of spreading centres and fracture zones surrounding the Indian Ocean RRR triple junction, at 25.5°S, 70°E, is described from a data set of GLORIA side-scan sonar images, bathymetry, magnetic and gravity anomalies. The GLORIA images show a pervasive fabric due to linear abyssal hills oriented parallel to the two medium-spreading ridges (the Central Indian Ridge (CIR) and Southeast Indian Ridge (SEIR)). A cuvature of the fabric occurs along fracture zones, which are also located by lows in the bathymetry and gravity data and by offsets between magnetic anomalies. The magnetic anomalies also record periods of asymmetric spreading marking the development of the fracture zones, including the birth, at anomaly 2A, of a short fracture zone 50 km north of the triple junction on the CIR, and its death near the time of the Jaramillo anomaly. In some localities, a fine-scale fabric corresponds to a coarser fabric on the opposite flank of the CIR, possibly indicating a persistent asymmetry in the faulting at the median valley walls if the fabric has a tectonic and not a volcanic origin. A plate velocity analysis of the triple junction shows that both the CIR and Southwest Indian Ridge (SWIR) are propagating obliquely; the CIR appears to form an oblique trend by segmenting into a series of almost normally-oriented segments separated by short-offset fracture zones. For the last 4 m.y., the abyssal hill lineations indicate that the CIR segment immediately north of the triple junction has been spreading with an average 10° obliquity. The present small 5 km offset of the centres of the CIR and SEIR median valleys (Munschy and Schlich, 1989) is shown to be the result of this obliquity and a 30% spreading asymmetry between anomaly 2 and the Jaramillo on the CIR segment immediately north of the triple junction. 相似文献
366.
Daniel J. Fornari David G. Gallo Margo H. Edwards John A. Madsen Michael R. Perfit Alexander N. Shor 《Marine Geophysical Researches》1989,11(4):263-299
The Siqueiros transform fault system, which offsets the East Pacific Rise between 8°20N–8°30N, has been mapped with the Sea MARC II sonar system and is found to consist of four intra-transform spreading centers and five strike-slip faults. The bathymetric and side-looking sonar data define the total width of the transform domain to be 20km. The transform domain includes prominent topographic features that are related to either seafloor spreading processes at the short spreading centers or shearing along the bounding faults. The spreading axes and the seafloor on the flanks of each small spreading center comprise morphological and structural features which suggest that the two western spreading centers are older than the eastern spreading centers. Structural data for the Clipperton, Orozco and Siqueiros transforms, indicate that the relative plate motion geometry of the Pacific-Cocos plate boundary has been stable for the past 1.5 Ma. Because the seafloor spreading fabric on the flanks of the western spreading centers is 500 000 years old and parallels the present EPR abyssal hill trend (350°) we conclude that a small change in plate motion was not the cause for intra-transform spreading center development in Siqueiros. We suggest that the impetus for the development of intra-transform spreading centers along the Siqueiros transform system was provided by the interaction of small melt anomalies in the mantle (SMAM) with deepseated, throughgoing lithospheric fractures within the shear zone. Initially, eruption sites may have been preferentially located along strike-slip faults and/or along cross-faults that eventually developed into pull-apart basins. Spreading centers C and D in the eastern portion of Siqueiros are in this initial pull-apart stage. Continued intrusion and volcanism along a short ridge within a pull-apart basin may lead to the formation of a stable, small intra-transform spreading center that creates a narrow swath of ridge-parallel structures within the transform domain. The morphology and structure of the axes and flanks of spreading centers A and B in the western and central portion of Siqueiros reflect this type of evolution and suggest that magmatism associated with these intra-transform spreading centers has been active for the past 0.5–1.0 Ma. 相似文献
367.
Transport of South Atlantic water through the passages south of Guadeloupe and across 16°N, 2000–2004 总被引:1,自引:1,他引:1
Monika Rhein Kerstin Kirchner Christian Mertens Reiner Steinfeldt Maren Walter Ulrich Fleischmann-Wischnath 《Deep Sea Research Part I: Oceanographic Research Papers》2005,52(12):2234-2249
CTD, vessel-mounted ADCP and LADCP measurements in the Caribbean passages south of Guadeloupe (three repeats) and along 16°N (five repeats) were carried out between December 2000 and July 2004. The CTD data were used to calculate the contribution of South Atlantic water (SAW) in the upper 1200 m between the isopycnals σθ=24.5 and 27.6. Northern and southern source water masses are defined and an isopycnal mixing approach is applied. The SAW fractions are then combined with the ADCP flow field to calculate the transport of SAW into the Caribbean and across 16°N. The SAW inflow into the Caribbean through the passages south of Guadeloupe ranges from 7.6 to 11.6 Sv, which is 50–75% of the total inflow. The mean (9.1±2.2 Sv) is in the range of previous estimates. Ambiguities in the northern and southern source water masses of the salinity maximum water permitted us only to calculate the contribution of SAW from the eastern source in this water mass. We estimated the additional SAW transport by the western source to be of the order of 1.9±0.7 Sv. The calculation of the SAW transport across 16°N was hampered by the presence of several anticyclonic rings from the North Brazil Current (NBC) retroflection region, some of the rings were subsurface intensified. Provided that the rings observed at 16°N are typical rings and that all rings which are annually produced in the NBC retroflection area (6.5–8.5 per year) reach 16°N, the SAW ring transport across 16°N is calculated to 5.3±0.7 Sv. From the 5 repeats at 16°N, only two showed a net northward flow, suggesting that the mean northward SAW transport is dominated by ring advection. The joint SAW transports of the Caribbean inflow (9.1 Sv) and the flow across 16°N (5.3 Sv) sum up to 14.4 Sv. The transport increases to 16.3 Sv if the additional SAW transport from the western source of SMW (1.9±0.7 Sv) is included. These transport estimates and the following implications depend strongly on the assumption that the surface water in the Caribbean inflow is of South Atlantic origin. The transport estimates are, however, in the range of the inverse model calculations for the net cross-hemispheric flow. About 30–40% of this transport is intermediate water from the South Atlantic, presumably supporting studies which found the contributions of intermediate and upper warm water to be of a comparable magnitude. For the upper warm water (σθ<27.1), the Caribbean inflow seems to be the major path (7.9±1.6 Sv), the ring induced transport across 16°N is about 30% of that value. The intermediate water transport across 16°N was calculated to be 2.3–3.6 Sv, the inflow into the Caribbean is slightly smaller (1.5–2.4 Sv). 相似文献
368.
海底热液矿产是一种具有重要经济价值的新型海底资源,九十年代将成为世界海洋科学中人们关注的焦点.本文试图通过这种矿产资源在大洋构造格局下发生的位置,热液溢口的温度及测试,金属含量的评价和成因机制等核心问题作一综述,以期能够得到有关方面的重视. 相似文献
369.
四国海盆起源与沉积环境演化 总被引:2,自引:0,他引:2
四国海盆位于西太平洋最大的边缘海——菲律宾海的东北部,是太平洋板块向欧亚板块俯冲而形成的一个目前已不活动的弧后盆地,具有高的热流值和洋壳裂开历史,并且具有双翼不对称扩张模式。其磁条带具有“东西不对称、南北不对等”的特点,从而造成四国海盆“北宽南窄、东凸西平”的地形、地貌特征。四国海盆具有典型的弧后盆地沉积特征,主要包括半远洋沉积、火山碎屑沉积和少量的远洋沉积。在早中新世、中中新世、晚中新世、上新世、更新世盆地发育的不同阶段,都有一定的岩相组合特征,并反映了当时的沉积环境。中中新世在盆地的北部和东部,晚中新世在盆地的北部、东北部,上新世和更新世在盆地的北部、东北部和西北部均发育有碎屑沉积。由于中更新世南海海槽的形成及其对物源的阻隔作用,在盆地北部发育了远洋粘土和钙质生物沉积。中中新世,盆地的北部、东侧和西侧均有火山活动发育,晚中新世仅在东部岛弧区有火山活动;上新世仅盆地的北部有少量的火山活动,晚更新世火山活动在盆地北部发育。 相似文献
370.
With processing and interpretation of 25 000 km full-coverage multibeam swath data fromthe eastern South China Sea, it is found that NE-trending and NW-trending linear morphological features such as scarps, horsts and grabens, govern the central part (14°- 17° N) of eastern subbasin. Compared with reflection seismic profiles, these NE-trending linear morpho-structures are considered to be the representation of basement structures on seabed and can be divided into three linear structural zones. The trend of the central zone is NE45°-50° occurring around extinct spreading center, the trend of the second zone is NE70° - 78° on both sides of the central one and the trend of the third zone is about NE60° just on the north of the second one. These three NE-trending linear zones are formed in late-stage NW - SE-trending seafloor spreading of the eastern subbasin along NW-trending linear faults, and respectively correspond to three spreading episodes: 17.0- 19.0 Ma (5d-5e), 19.0 - 21.0 Ma (5e-6a) and 21.0 相似文献