ACCRETION, STRUCTURE AND HYDROLOGY OF INTERMEDIATE SPREADING-RATE OCEANIC-CRUST FROM DRILLHOLE EXPERIMENTS AND SEA-FLOOR OBSERVATIONS

被引:27
作者
PEZARD, PA
ANDERSON, RN
RYAN, WBF
BECKER, K
ALT, JC
GENTE, P
机构
[1] COLUMBIA UNIV,DEPT GEOL SCI,PALISADES,NY 10964
[2] COLUMBIA UNIV,LAMONT DOHERTY GEOL OBSERV,BOREHOLE RES GRP,PALISADES,NY 10964
[3] ROSENTIEL SCH MARINE & ATMOSPHER SCI,DIV MARINE GEOL & GEOPHYS,MIAMI,FL 33149
[4] UNIV MICHIGAN,DEPT GEOL SCI,ANN ARBOR,MI 48109
[5] UNIV BRETAGNE OCCIDENTALE,F-29283 BREST,FRANCE
关键词
ACCRETION MODEL; OCEANIC CRUST; DOWNHOLE MEASUREMENTS; HYDROTHERMALISM; MIDOCEAN RIDGE;
D O I
10.1007/BF01204282
中图分类号
P3 [地球物理学]; P59 [地球化学];
学科分类号
0708 ; 070902 ;
摘要
Downhole measurements recorded in the context of the Ocean Drilling Program in Hole 504B, the deepest hole drilled yet into the oceanic crust, are analyzed in terms of accretion processes of the upper oceanic crust at intermediate spreading-rate. The upper part of the crust is found to support the non steady-state models of crustal accretion developed from seafloor observations (Kappel and Ryan, 1986; Gente, 1987). The continuous and vertical nature of borehole measurements provides stratigraphic and structural data that cannot be obtained solely from seafloor studies and, in tum, these models define a framework to analyze the structural, hydrological, and mineralogical observations made in the hole over the past decade. Due to the observed zonation with depth of alteration processes, and its relation to lava morphologies, the 650-m-thick effusive section penetrated in Hole 504B is postulated to be emplaced as the result of two main volcanic sequences. Massive lava flows are interpreted as corresponding to the onset of these sequences emplaced on the floor of the axial graben. The underlying lava made of structures with large porosity values and numerous cm-scale fractures is thus necessarily accreted at the end of the previous volcanic episode. On top of such high heterogeneous and porous intervals, the thick lava flows constitute crustal permeability barriers, thereby constraining the circulation of hydrothermal fluids. Accreted in the near vicinity of the magma chamber, the lower section is that exposed to the most intense hydrothermal circulation (such as black smokers activity). Once capped by a massive flow at the onset of the second volcanic phase, the lower interval is hydrologically separated from ocean-waters. A reducing environment develops then below it resulting, for example, in the precipitation of sulfides. Today, whereas the interval corresponding to the first volcanic episode is sealed by alteration minerals, the second-one is still open to fluid circulation in its upper section. Thus, upper part of the volcanic edifice is potentially never exposed to fluids reaching deep into the crust, while the lower one is near the ridge axis. Considering that most of the extrusives are emplaced within a narrow volcanic zone, the first unit extruded for a given vertical cross-section is necessarily emplaced at the ridge-axis. In Hole 504B, the 250-m-thick Transition Zone from dikes to extrusives is interpreted as the relict massive unit flooding the axial graben at the onset of the first volcanic sequence, and later ruptured by numerous dikes. Further from the axis, the same massive unit constitutes a potential permeability cap for vertical crustal sections accreted earlier. Also, the upper 50 meters of the basement might be considered as the far-end expression of massive outpours extruded near the ridge-axis.
引用
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页码:93 / 123
页数:31
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