对纳斯卡板块地壳厚度的地震观测为一阶星体层-地幔势温异常评估提供了制约因素

IF 3 3区 地球科学 Q2 GEOSCIENCES, MULTIDISCIPLINARY
Eduardo Contreras-Reyes , Felipe Orellana-Rovirosa , Emilio Vera
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引用次数: 0

摘要

纳斯卡板块上有几条岩浆轨道,其复杂的形态随扩张中心(东太平洋隆起、科科斯-纳斯卡)的时间定位而变化。纳斯卡板块下的地幔羽流位于海脊上或海脊下(海脊为扩张中心),从而相应地改变了热点轨道的地壳厚度。我们利用已公布的莫霍深度地震观测约束来研究纳斯卡板块下的星体层-地幔势温异常(ΔTp)。我们使用了绝热冷却和减压熔化的简单热力学公式,以及与深度相关的静态分析描述,提出了高达8 GPa-静压的水合固液曲线的不同选项,作为橄榄岩源中体积水含量的函数。计算出的Tp异常是相对于东太平洋海隆形成的平均纳斯卡地壳(厚度为6千米)而言的,其源水化水平约为0.01 wt%。作为扰动被动MOR环境的主动上升流,脊上羽流为年轻地壳增加了质量(下地壳侵入、地表挤压),形成了OIB热点轨道,其平均地壳厚度(≤18 km)与推断的ΔTp范围值[-100、75]°C(伊基克海脊)、[-50, 130]°C(纳斯卡海脊)和[-20, 150]°C(卡内基海脊南部),考虑到保守的体积水含量为 0.005-0.08 wt%。胡安-费尔南德斯 OIB 热区轨迹是由一个海岭外活动上升流羽流撞击 27 Myr 年前的大洋岩石圈形成的,该岩石圈原有地壳厚度为 7 km。目前,该轨道上有4-5千米高的孤立火山群和约1千米的地壳根部,总熔融厚度约为12-13千米,表明ΔTp范围值为[-20, 160]°C。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Seismic observations of Nazca-plate crustal thicknesses providing constraints for a first-order asthenospheric-mantle potential-temperature anomalies assessment

The Nazca plate is populated with several magmatic tracks exhibiting complex morphologies responding to time-dependent positioning of spreading centers (East Pacific Rise, Cocos-Nazca). Mantle plumes beneath the Nazca plate are/were located on- or off-ridge (with ridge being spreading center), modulating the resulting hotspot-tracks’ crustal thickness accordingly. We use published seismic observational constraints of Moho depths to study asthenospheric-mantle potential-temperature anomalies (ΔTp) beneath the Nazca plate. We use a simple thermodynamics formulation for adiabatic cooling and decompression melting, and a depth-dependent, static analytical description presenting different options for hydrated-solidus-liquidus curves up to 8 GPa-lithostatic pressure as a function of bulk water content in the peridotite source. The calculated Tp-anomalies are relative to an average Nazca crust (∼6 km thick) formed at the East Pacific Rise with source hydration levels of about 0.01 wt%. As active-upwelling perturbing passive MOR environments, on-ridge plumes added mass (lower crustal intrusion, surface extrusion) to young crust creating OIB hotspot-tracks whose mean crustal thicknesses (≤18 km) are consistent with inferred ΔTp range-values of [-100, 75] °C (Iquique Ridge), [-50, 130] °C (Nazca Ridge), and [-20, 150] °C (Carnegie Ridge south), considering conservative bulk water contents of 0.005–0.08 wt%. The Juan Fernández OIB hotspot track was formed by an off-ridge active-upwelling plume impinging under a 27 Myr-old oceanic lithosphere with ∼7 km-thick pre-existing crust. Currently, the track presents 4-5 km-high isolated volcanic edifices and about 1 km crustal root, totaling about 12–13 km aggregate melt thickness, and suggesting ΔTp range-values of [-20, 160] °C.

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来源期刊
Physics and Chemistry of the Earth
Physics and Chemistry of the Earth 地学-地球科学综合
CiteScore
5.40
自引率
2.70%
发文量
176
审稿时长
31.6 weeks
期刊介绍: Physics and Chemistry of the Earth is an international interdisciplinary journal for the rapid publication of collections of refereed communications in separate thematic issues, either stemming from scientific meetings, or, especially compiled for the occasion. There is no restriction on the length of articles published in the journal. Physics and Chemistry of the Earth incorporates the separate Parts A, B and C which existed until the end of 2001. Please note: the Editors are unable to consider submissions that are not invited or linked to a thematic issue. Please do not submit unsolicited papers. The journal covers the following subject areas: -Solid Earth and Geodesy: (geology, geochemistry, tectonophysics, seismology, volcanology, palaeomagnetism and rock magnetism, electromagnetism and potential fields, marine and environmental geosciences as well as geodesy). -Hydrology, Oceans and Atmosphere: (hydrology and water resources research, engineering and management, oceanography and oceanic chemistry, shelf, sea, lake and river sciences, meteorology and atmospheric sciences incl. chemistry as well as climatology and glaciology). -Solar-Terrestrial and Planetary Science: (solar, heliospheric and solar-planetary sciences, geology, geophysics and atmospheric sciences of planets, satellites and small bodies as well as cosmochemistry and exobiology).
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