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The latest Cretaceous to early Palaeogene Orocopia Schist and related units are generally considered a low-angle subduction complex that underlies much of southern California and Arizona. A recently discovered exposure of Orocopia Schist at Cemetery Ridge west of Phoenix, Arizona, lies exceptionally far inland from the continental margin. Unexpectedly, this body of Orocopia Schist contains numerous blocks, as large as ~300 m, of variably serpentinized mantle peridotite. These are unique; elsewhere in the Orocopia and related schists, peridotite is rare and completely serpentinized. Peridotite and metaperidotite at Cemetery Ridge are of three principal types: (1) serpentinite and tremolite serpentinite, derived from dunite; (2) partially serpentinized harzburgite and olivine orthopyroxenite (collectively, harzburgite); and (3) granoblastic or schistose metasomatic rocks, derived from serpentinite, made largely of actinolite, calcic plagioclase, hercynite, and chlorite. In the serpentinite, paucity of relict olivine, relatively abundant magnetite (5%), and elevated Fe3+/Fe indicate advanced serpentinization. Harzburgite contains abundant orthopyroxene, only slightly serpentinized, and minor to moderate (1–15%) relict olivine. Mantle tectonite fabric is locally preserved. Several petrographic and geochemical characteristics of the peridotite at Cemetery Ridge are ambiguously similar to either abyssal or mantle-wedge (suprasubduction) peridotites and serpentinites. Least ambiguous are orthopyroxene compositions. Orthopyroxene is distinctively depleted in Al2O3, Cr2O3, and CaO, indicating mantle-wedge affinities. Initial interpretation of field and petrologic data suggests that the peridotite blocks in the Orocopia Schist subduction complex at Cemetery Ridge may be derived from the leading corner or edge of a mantle wedge, presumably in (pre-San Andreas fault) southwest California. However, derivation from a subducting plate is not precluded. 相似文献
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Well‐preserved oval‐shaped dunite clots occur within the exceptionally fresh massive podiform chromitites from the Coto Block of the Zambales Ophiolite Complex, the Philippines. The dunite/chromitite boundary shows an interlocking texture; olivine inclusions in chromites in the podiform chromitites show the same optical extinction with larger adjacent olivines in the dunite clots. This texture was formed by the reaction between chromite‐oversaturated melt and its dunite inclusions. The existence of such type of melt was previously only hypothesized to explain the origin of layered and podiform chromitites but is now confirmed by this discovery. 相似文献
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《International Geology Review》2012,54(10):1203-1218
Ultramafic xenoliths are abundant in late Mesozoic high-Mg diorites at Laiwu, western Shandong Province; they are composed of dunite (>80 vol.%) with minor harzburgite (<10 vol.%) and olivine (Ol)-pyroxenite (<10 vol.%). We determined the abundance of siderophile and chalcophile elements of representative samples of xenoliths, and calculated oxidation conditions based on mineral chemistry. Bulk compositions of harzburgite show high Cr (2640–3430 ppm), Co (103–111 ppm), Ni (2210–2400 ppm), and high Ir-type platinum group elements (PGE) (IPGE, 14.0–17.8 ppb), with high ratios of IPGE to Pt-type PGE (PPGE, 3.1–6.3). Spinel contains moderate Cr (Cr# = 0.41–0.61). Our data suggest that the harzburgite is the residue of partial melting. The occurrence of orthopyroxene replacing Ol suggests that harzburgite was metasomatized by a Si-rich melt. Dunite contains high concentrations of Cr (> 3800 ppm), Co (>110 ppm), and Ni (>1680 ppm), and low concentrations of IPGE (<4.8 ppb), with low ratios of IPGE/PPGE (as low as 0.05), suggesting that dunite is the cumulate of a mafic melt. High Cr in chromite (Cr# > 0.7) and high Mg in Ol suggest that the parental melt was boninitic. Some Ol grains show variable, locally high Mg, up to Fo 94.3. We attribute these high values to the interaction of the Ol with abundant chromite in the cumulate. Both dunite and harzburgite indicate high log fO2 values, ranging from fayalite-magnetite-quartz (FMQ) +1.4 to +2.4. The values contrast with fO2 below that of the graphite–CO2 buffer for xenoliths in early Palaeozoic diamondiferous kimberlite pipes in the area. The data indicate a sharp increase in fO2 during Mesozoic time, likely caused by subduction of the Tethyan oceanic plate before collision with the Yangtze continent below the eastern margin of the North China craton. 相似文献
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鲁西中生代辉长-闪长质岩石中纯橄岩捕虏体的岩石学、矿物化学及微量元素地球化学研究表明,纯橄岩捕虏体代表了古老岩石圈地幔的残留;地幔纯橄岩捕虏体中存在两种类型的交代作用,一是以填隙型金云母为代表的早期富含CO_2和H_2O的不活动流体的交代作用;二是以斜方辉石交代脉和网络状斜方辉石为代表的晚期富硅质熔(流)体的交代作用。后者代表了起源于软流圈的富硅质熔(流)体对古老岩石圈地幔的一种化学侵蚀。这对认识华北地块东部中生代岩石圈地幔的性质以及岩石圈减薄机制具有重要意义。 相似文献
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鲁西中生代高镁辉石闪长岩中超镁铁质捕虏体成因:氧化态和铂族元素证据 总被引:2,自引:0,他引:2
鲁西莱芜晚中生代高镁闪长岩中含丰富的超镁铁质捕虏体,主要为纯橄岩(>80%),少量方辉橄榄岩(<5%)和橄榄辉石岩(<15%)。测定了代表性捕虏体的亲铁、亲铜元素含量,根据其矿物化学成分计算了捕虏体的氧化-还原状态。方辉橄榄岩遭受了不同程度富Si熔体的交代,全岩富含Cr、Co、Ni和IPGE,高IPGE/PPGE值,是地幔深度部分熔融的残留。纯橄岩由铬铁矿和高Mg橄榄石组成,全岩富含Cr、Co、Ni,贫IPGE,低IPGE/PPGE值,可能为一种镁铁质熔体的堆晶岩。纯橄岩中橄榄石成分表现出一定的变化范围,局部镁橄榄石(Fo)成分高达94,可能是堆晶中橄榄石与足够的铬铁矿反应的结果,原始熔体可能为玻镁安山质岩浆。方辉橄榄岩和纯橄岩都显示高fO2值,FMQ+1.4~+2.4,与研究区早古生代相对还原的陆下岩石圈地幔(fO2低于C-CO2缓冲反应)形成鲜明对比。数据表明,中生代扬子大陆和华北克拉通碰撞之前,特提斯大洋板块和扬子大陆边缘相继俯冲到华北克拉通东缘之下,导致当时岩石圈地幔的fO2陡升。 相似文献