改进的橄榄石-熔体温度计/湿度计在墨西哥西部科利马锥玄武岩和花岗岩中的应用:对异常高mgo熔体地幔来源的启示

IF 3.5 2区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS Journal of Petrology Pub Date : 2023-08-29 DOI:10.1093/petrology/egad064
Xiaofei Pu, Rebecca A Lange, Gordon M Moore
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引用次数: 0

摘要

摘要墨西哥西部N-S型科利马裂谷北缘发育一套第四纪高mgo(≤13.4 wt%)玄武岩和矿渣熔岩锥,具有增强的弧地球化学特征。科利马裂谷位于哈利斯科地块和格雷罗地块之间的岩石圈缝合线上,以及里维拉和科科斯俯冲大洋板块之间的裂谷上。从文献中可以看出,Colima锥样品中含有橄榄石的熔体包裹体的挥发性分析表明,熔体中溶解的H2O浓度很高(≤7.0 wt%),并且在深度≤25 km的范围内,脱气引起的现象晶体生长。在这项研究中,我们发现Colima组的高mgo特征反映了液体成分,这与它们快速迁移到地表的证据一致,而不是在地壳岩浆房中停滞。根据橄榄石-熔体Mn-Mg和Fe2+-Mg交换系数,每个样品中分析的最富镁橄榄石与液相平衡组成相匹配。将基于相同实验数据集校准的镁基和镍基橄榄石熔体温度计应用于Colima锥套件,可获得液相的温度和溶解水含量。因为镍温度计对熔体中溶解的水不敏感,所以它给出了橄榄石斑晶生长开始时的实际温度。9个Colima样品的MgO含量范围为13.4-9.2 wt%,所得温度范围为1221-1056(±6-11)°C。相比之下,镁温度计对熔体中溶解的水很敏感,它的应用(不校正H2O)给出了无水条件下橄榄石结晶的温度。当Mg基温度和ni基温度配对时,可以得到溶解H2O导致的液相曲线下降(∆T = TMg-TNi)。对于高mgo (>9 wt%) Colima样品,∆T值范围为188-109°C。压力影响的修正(即,证据表明,斑晶生长开始于~700 MPa),∆T增加~21°C。更新的模型校准(基于文献中的实验)将∆T与熔体中溶解的H2O联系起来,结果表明,最佳拟合(R2= 0.95)是线性的,wt% H2O = 0.047*∆T,标准误差为±0.5 wt%。虽然实验数据集涵盖了广泛的熔体成分(例如,47-58 wt% SiO2, 4.4-10.2 wt% MgO, 1.3-4.9 wt% Na2O, 0.1-5.0 wt% K2O, 0.3-5.3 wt% H2O),但没有解决对无水熔体成分的依赖。将此更新的模型应用于Colima套件,得到的H2O含量为5.1-8.8 wt% H2O,与文献中橄榄石宿主MIs中分析的结果一致。当将Colima锥套的测温和测湿结果与Michoacán Tancítaro火山场(TVF)相邻钙碱性玄武岩的测温和测湿结果进行比较时,发现wt% H2O与温度的线性关系有两个明显的趋势,表明不同的地幔源。结果表明,高MgO (> 11wt %)的Colima锥型熔体来源于哈利斯科地块岩石圈底部含辉云母的黑闪质地幔,而MgO≤10wt %的TVF和Colima熔体均来源于软流圈(即弧形地幔楔)。在两个地幔源中,板块流体都是重要的水源。
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Application of an Improved Olivine-Melt Thermometer/Hygrometer to the Colima Cone Basanites and Minettes of Western Mexico: Implications for the Mantle Source of Unusually High-MgO Melts
Abstract A collection of Quaternary, high-MgO (≤13.4 wt%) basanite and minette cinder and lava cones, with an enhanced arc geochemical signature, are located along the northern margin of the N-S Colima rift in western Mexico. The Colima rift overlies the lithospheric suture between the Jalisco block and Guerrero terrane, as well as the tear between the Rivera and Cocos subducting oceanic plates. From the literature, volatile analyses of olivine-hosted melt inclusions in the Colima cone samples document notably high concentrations of dissolved H2O in the melt (≤ 7.0 wt%) as well as degassing-induced phenocryst growth over a range of depths ≤ 25 km. In this study, it is shown that the high-MgO character of the Colima suite reflects liquid compositions, consistent with evidence for their rapid transit to the surface, without stalling in a crustal magma chamber. The most Mg-rich olivine analyzed in each sample matches the equilibrium composition at the liquidus based on olivine-melt Mn-Mg and Fe2+-Mg exchange coefficients. Application of both a Mg- and Ni-based olivine-melt thermometer, calibrated on the same experimental data set, to the Colima cone suite provides the temperature and dissolved H2O content at the liquidus. Because the Ni-thermometer is insensitive to dissolved H2O in the melt, it gives the actual temperature at the onset of olivine phenocryst growth. For the nine Colima samples that range from 13.4-9.2 wt% MgO, resulting temperatures range from 1221-1056 (± 6-11) °C. In contrast, the Mg-thermometer is sensitive to dissolved H2O in the melt, and its application (without a correction of H2O) gives the temperature of olivine crystallization under anhydrous conditions. When the Mg- and Ni-based temperatures are paired, the depression of the liquidus (∆T = TMg-TNi) due to dissolved H2O can be obtained. For the high-MgO (>9 wt%) Colima samples, ∆T values range from 188-109 °C. Corrections for the effect of pressure (i.e., evidence that phenocryst growth began at ~700 MPa), increase ∆T by ~21°C. An updated model calibration (on experiments from the literature) that relates ∆T with dissolved H2O in the melt shows that the best fit (R2= 0.95) is linear, wt% H2O = 0.047*∆T, with a standard error of ± 0.5 wt%. Although the experimental data set spans a wide range of melt composition (e.g., 47-58 wt% SiO2, 4.4-10.2 wt% MgO, 1.3-4.9 wt% Na2O, 0.1-5.0 wt% K2O, 0.3-5.3 wt% H2O), no dependence on anhydrous melt composition is resolved. Application of this updated model to the Colima suite gives H2O contents of 5.1-8.8 wt% H2O, consistent with those analyzed in olivine-hosted MIs from the literature. When the thermometry and hygrometry results for the Colima cone suite are compared to those for the adjacent calc-alkaline basalts from the Tancítaro Volcanic Field (TVF) in Michoacán, two distinct linear trends in a plot of wt% H2O vs. temperature are found, indicative of different mantle sources. It is proposed that the high-MgO (>11 wt%) Colima cone melts were derived from a phlogopite-bearing harzburgitic mantle at the base of the Jalisco block lithosphere, whereas both TVF and Colima melts with ≤10 wt% MgO were derived from the asthenosphere (i.e., arc mantle wedge). In both mantle sources, slab-derived fluids were an important source of H2O.
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来源期刊
Journal of Petrology
Journal of Petrology 地学-地球化学与地球物理
CiteScore
6.90
自引率
12.80%
发文量
117
审稿时长
12 months
期刊介绍: The Journal of Petrology provides an international forum for the publication of high quality research in the broad field of igneous and metamorphic petrology and petrogenesis. Papers published cover a vast range of topics in areas such as major element, trace element and isotope geochemistry and geochronology applied to petrogenesis; experimental petrology; processes of magma generation, differentiation and emplacement; quantitative studies of rock-forming minerals and their paragenesis; regional studies of igneous and meta morphic rocks which contribute to the solution of fundamental petrological problems; theoretical modelling of petrogenetic processes.
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