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Collaborative Research: Strain localization, shear zone connectivity, and magma-deformation interactions by depth within a 65 km thick transpressional continental arc

合作研究：65公里厚的挤压大陆弧内按深度的应变局部化、剪切带连通性和岩浆变形相互作用

基本信息

批准号：
1650219
负责人：
Elena Miranda
金额：
$ 30.99万
依托单位：
The University Corporation, Northridge
依托单位国家：
美国
项目类别：
Continuing Grant
财政年份：
2017
资助国家：
美国
起止时间：
2017-05-15 至 2024-04-30
项目状态：
已结题

来源：
https://www.nsf.gov/awardsearch/showAward?AWD_ID=1650219&HistoricalAwards=false
关键词：
Collaborative Research Strain localization shear

项目摘要

Understanding how large fault zones develop over time at different depths within the Earth's crust is vital to the goals of assessing earthquake and volcanic hazards and finding natural resources, including natural gas, petroleum, and water. Not only are fault zones the sites of concentrated movement and seismic activity; they also form conduits by which fluids, magmas, and heat circulate through the Earth. A major unsolved problem centers on how the behavior of near surface faults relates to deformation in the deepest parts of fault systems, including the lowermost crust and upper mantle. Two of the most challenging aspects of resolving this problem are (1) a high degree of variability in the physical properties and behavior of faults at great depths and (2) there are few places on Earth that expose large tracts of material that once resided at depths below approximately 40 km and are available for direct study. This project utilizes one of only a few places on the planet where it is possible to directly observe the deep roots of an ancient fault system that once penetrated continental crust to depths of more than 65 km. Deep within Fiordland National Park, in southwest New Zealand, a near vertical fault zone up to 20 km thick can be traced continuously from areas that once resided at depths of 10 km to depths of 65 km during the Cretaceous time period. The research team, in collaboration with New Zealand researchers, will determine the internal structure, mineralogy, and behavior of this ancient fault zone at different depths and will show how the fault zone connects vertically through the crust and helped move, fluids, magmas, and crustal melts from mantle depths to near-surface environments. These are fundamental issues that are important to the understanding of all large fault zones, including those that occur with the United States and elsewhere. The project will also advance desired societal outcomes through an innovative, summer workshop program that provides research experiences to underrepresented students at minority-serving institutions in southern California, thereby promoting interest in research and graduate school opportunities. Providing graduate and undergraduate students with international field experiences and exposure to cutting-edge analytical research facilities will develop a diverse, globally competitive STEM workforce.An unsolved problem in continental tectonics centers on how competing weakening mechanisms localize deformation into faults and shear zones deep within the roots of continental arcs. This problem is especially acute in Cordilleran systems where episodes of voluminous magmatism, crustal melting, and high-grade metamorphism quickly change the compositional and rheological structures of the deep crust. The aim of this project is to determine how strain localization was achieved and sustained within the deep root of an ancient Cordilleran arc located in Fiordland, New Zealand during a cycle of magmatism and transpression. The project integrates transect maps, U-Pb geo- and thermochronology (zircon, titanite), and electron backscatter diffraction analyses to determine the following: (1) how competing weakening mechanisms localized strain at lower and middle crustal depths with a large transpressional shear zone, (2) how high-strain zones connected vertically across deep crustal boundaries, and (3) how temporal and spatial variations in magmatic, metamorphic, and deformational processes influenced shear zone development. The outcomes of this project will include a new 4-D model that shows how high-strain zones at different depths are physically connected within Cordilleran arcs, how strain localization is achieved and sustained within them, and how the deformation interacts with migrating magma and melts. This project is important because large faults and shear zones play a key role in the formation and evolution of continental lithosphere. They act as agents of weakening and hardening at different depths and they advect mass and heat through the lithosphere. One of the most challenging aspects of studying these features is determining their variability throughout the crust and mantle. Physical experiments, numerical models, and studies of xenoliths help us infer how materials deform at great depths, but polyphase flow laws for lower crustal compositions are scarce and no experimental studies of anorthite-diopside aggregates yet include melt in the deformation. In addition, few places expose large tracts of material that once resided at depths below about 40 km. To address these problems, this project involves a field-based investigation of strain localization mechanisms within the world's largest and deepest (up to 65 km) known exposure of lower arc crust. The project will provide new information on the geometry, composition, thermal evolution, and rheology of lower crustal shear zones that once penetrated the crust to depths of at least 65 km.The Tectonics Program (Div. of Earth Sciences) and the NSF Office of International Science and Engineering are supporting this project.

了解地壳内不同深度的大型断层带如何随着时间的推移而发展，对于评估地震和火山灾害以及寻找天然气，石油和水等自然资源的目标至关重要。断层带不仅是集中运动和地震活动的场所，它们还形成了流体、岩浆和热量在地球上循环的管道。一个主要的未解决的问题集中在近地表断层的行为如何与断层系统最深处的变形有关，包括最低地壳和上地幔。解决这个问题的两个最具挑战性的方面是（1）在很深的地方断层的物理性质和行为的高度可变性，以及（2）地球上很少有地方暴露出曾经位于大约40公里以下深度的大面积物质，可供直接研究。该项目利用地球上仅有的几个地方之一，可以直接观察曾经穿透大陆地壳超过65公里深处的古老断层系统的深层根源。在新西兰西南部峡湾国家公园的深处，一个近垂直的断层带厚达20公里，可以连续地从白垩纪时期曾经居住在10公里深处的地区追溯到65公里深处。该研究小组与新西兰研究人员合作，将确定这一古老断层带在不同深度的内部结构、矿物学和行为，并将展示断层带如何通过地壳垂直连接，并帮助将流体、岩浆和地壳熔体从地幔深处移动到近地表环境。这些基本问题对于理解所有大型断层带都很重要，包括美国和其他地方发生的断层带。该项目还将通过一个创新的夏季研讨会计划，为加州南部少数民族服务机构中代表性不足的学生提供研究经验，从而促进对研究和研究生院机会的兴趣，从而推动预期的社会成果。为研究生和本科生提供国际实地经验和接触尖端分析研究设施的机会，将培养一支多元化、具有全球竞争力的STEM人才队伍。大陆构造学中一个尚未解决的问题是，相互竞争的弱化机制如何将变形局限于大陆弧根部深处的断层和剪切带。这一问题在科迪勒支系统中尤为严重，在那里，大量岩浆活动、地壳熔融和高级变质作用的发生迅速改变了深部地壳的成分和流变结构。该项目的目的是确定应变本地化是如何实现的，并在位于峡湾，新西兰的一个古老的科迪勒拉弧的深根内持续在一个周期的岩浆作用和挤压。该项目综合了样带图、U-Pb地质年代学和热年代学（锆石，钛铁矿），和电子背散射衍射分析，以确定以下内容：（1）相互竞争的弱化机制如何使应变局部化在地壳中、下部，并形成一个大的压扭剪切带，（2）高应变带如何垂直地跨越地壳深部边界，（3）岩浆的时空变化，变质作用和变形作用影响剪切带的发育。该项目的成果将包括一个新的四维模型，该模型显示了不同深度的高应变区如何在科迪勒拉弧内物理连接，应变局部化如何在其中实现和维持，以及变形如何与迁移的岩浆和熔体相互作用。由于大断裂和剪切带在大陆岩石圈的形成和演化中起着关键作用，因此该项目具有重要意义。它们在不同的深度起着弱化和硬化的作用，它们通过岩石圈输送物质和热量。研究这些特征最具挑战性的方面之一是确定它们在整个地壳和地幔中的变异性。物理实验，数值模型和捕虏体的研究有助于我们推断材料如何在很深的地方变形，但多相流动的法律较低的地壳成分是稀缺的，还没有实验研究钙长石透辉石聚集体包括熔融变形。此外，很少有地方暴露出曾经存在于大约40公里以下深处的大面积物质。为了解决这些问题，该项目涉及在世界上最大和最深（达65公里）的已知下弧地壳暴露的应变局部化机制的实地调查。该项目将提供关于下地壳剪切带的几何形状、组成、热演化和流变学的新信息，这些剪切带曾经穿透地壳至少65公里的深度。美国国家科学基金会国际科学与工程办公室（NSF Office of International Science and Engineering）支持该项目。

项目成果

期刊论文数量（6）

专著数量（0）

科研奖励数量（0）

会议论文数量（0）

专利数量（0）

Temporal and spatial variations in magmatism and transpression in a Cretaceous arc, Median Batholith, Fiordland, New Zealand

DOI：
10.1130/l1073.1
发表时间：
2019-10
期刊：
Lithosphere
影响因子：
2.4
作者：
Luisa F. Buritica;J. Schwartz;K. Klepeis;E. Miranda;A. Tulloch;M. Coble;A. Kylander‐Clark
通讯作者：
Luisa F. Buritica;J. Schwartz;K. Klepeis;E. Miranda;A. Tulloch;M. Coble;A. Kylander‐Clark

The effects of quartz Dauphiné twinning on strain localization in a mid-crustal shear zone

石英 Dauphiné 孪晶对中地壳剪切带应变局部化的影响

DOI：
10.1016/j.jsg.2020.103980
发表时间：
2020
期刊：
Journal of Structural Geology
影响因子：
3.1
作者：
McGinn, Courtney;Miranda, Elena A.;Hufford, Lonnie J.
通讯作者：
Hufford, Lonnie J.

Interplay of Cretaceous transpressional deformation and continental arc magmatism in a long-lived crustal boundary, central Fiordland, New Zealand

新西兰峡湾中部长期地壳边界白垩纪压变形与大陆弧岩浆作用的相互作用

DOI：
10.1130/ges02251.1
发表时间：
2020
期刊：
Geosphere
影响因子：
2.5
作者：
Blatchford, Hannah J.;Klepeis, Keith A.;Schwartz, Joshua J.;Jongens, Richard;Turnbull, Rose E.;Miranda, Elena A.;Coble, Matthew A.;Kylander-Clark, Andrew R.
通讯作者：
Kylander-Clark, Andrew R.

The initiation and growth of transpressional shear zones through continental arc lithosphere, southwest New Zealand

新西兰西南部大陆弧岩石圈压扭剪切带的起始和生长

DOI：
发表时间：
2022
期刊：
Tectonics
影响因子：
4.2
作者：
Klepeis, K.A.;Schwartz, J.J.;Miranda, E.A.;Lindquist, P.;Jongens, R.;Turnbull, R.;and Stowell, H.H.
通讯作者：
and Stowell, H.H.

Making sense of shear zone fabrics that record multiple episodes of deformation: Electron backscatter diffraction–derived and crystallographic vorticity axis–enhanced petrochronology

理解记录多次变形的剪切带结构：电子背散射衍射-衍生和晶体涡度轴-增强的岩石年代学

DOI：
10.1130/g50982.1
发表时间：
2023
期刊：
Geology
影响因子：
5.8
作者：
Miranda, Elena A.;Brown, Virginia;Schwartz, Joshua J.;Klepeis, Keith A.
通讯作者：
Klepeis, Keith A.

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Elena Miranda其他文献

Postoperative Critical Care Admission Was Not Associated with Improved Postoperative Outcomes in Elective Colorectal Surgery: Secondary Analysis Of POWER Trial

术后重症监护入院与择期结直肠手术术后结果改善无关：POWER 试验的二次分析

DOI：
发表时间：
2023
期刊：
Journal of Gastrointestinal Surgery
影响因子：
3.2
作者：
A. Suárez;J. Ripollés;C. Aldecoa;Ane Abad;Carlos Ferrando;A. Abad;M. Díaz;Cristina Gil;F. J. García;Ana Pedregosa;Neus Esteve;Rita Rodríguez;P. Gimeno Fernandez;E. Maseda;Cristina Eva José M. María Ana B. María E. Francisco J. Lui Garcia;Cristina García;Eva Higuera;J. Marcos;María Merino;Ana B. Rubio;María E. Pascual;F. J. García;Luis R. Cabezudo;Ruth Martínez;Sara Alegría;J. L. González;María S. Vega;Gema Martínez;M. Gómez;Eva Mosquera;Sara Del;J. R. Pérez;M. Martin;Susana Hernandez;Francisco J. Yoldi;Miguel Salvador;Manuela Rubial;Fabiola Oteiza;Enrique Balén;J. A. García;Ana Zugasti;M. E. Petrina;Domingo Bustos;M. Sánchez;Antonio Rodríguez;M. Hernández;M. Angoso;Luis M. González;Miguel A. Bravo;María V. Arnes;Filadelfo Bustos;Daniel Paz;Bárbara Vázquez;L. González;Conrado Mínguez;Susana Diz;Jaime Seoane;Julio Ballinas;Ester Carrera;Erica Barreiro;Alexandra Piñeiro;R. Sánchez;M. Varela;Pilar Díaz;Aránzazu Calero;M. López;Salvador Muñoz;J. Valverde;Silvia Aznar;Daniel Troyano;Sandra Marmaña;Jesús Fernanz;Lucia Catot;J. Balust;M. Ubré;C. Ferrando;Graciela Martínez;A. Ibarzábal;Antonio M. Lacy;Rubén Sánchez;Karina Martins;PhD. Perez;R. Casans;Javier Longás;J. R. Ramírez Rodríguez;Manuela Elia;Ana Mugarra;Cristina Crisan;Estefanía Gracia;Esther Romero;Marina Soro;Rita Rodríguez;B. Prada;Henar Muñoz;J. I. Gómez Herreras;Sara Cocho;Sandra Fernández;Miguel Flores;Andrea Vázquez;Carlo Brugiotti;Estefanía Ollé;Carla R. Houghton;Marta López;Ernesto A. Tarazona;Iván Bel;Sonia González;Manuel Llácer;Alberto Arias;María C. Arrabal;Mercedes Caballero;Rafael García;Julio Ontoria;Antonio Vivó;E. Del;Jose M. Tena;Fernando Alcalde Matas;Hernán Giordano;J. P. Pérez Peña;L. Olmedilla;Pilar Benito;Elena López;Adela Ruiz;Sara Zapatero;Emilio Del;V. Soria;C. V. Pérez;E. Pellicer;G. Valero;M. Mengual;José Andrés García;M. Romero;Ibán Caravaca;Teresa Blasco;C. F. Campo;Rafael David Costa;Laura Jordá;María I. De;José M. España;S. Gil;F. J. Redondo‐Calvo;Víctor Baladrón;Remedios Moreno;J. Muñoz;Elena Miranda;Marta Roselló;L. Alós;J. Catalá;M. Pallardó;Noemí Almenara;L. Muñoz;Pablo Gimeno;J. L. Gómez;Carla Iglesias;Paola B. Ordoñez;Ana M. Ríos;Joselvy Rodríguez;Sergio Sánchez;María J. Montoya;Vicente Ruiz;Francisco González;Víctor Soriano;J. M. Muñoz;J. Benavides;J. C. Estupiñán;Irene Portero;David Alías;Carlos Maristany;José A. Pardo;Álvaro Ramiro;Pablo García;Arantza Martínez;Belinda Montalbán;Claudia Olea;David Benguría;Javier Silva;Adriana Calderón;J. Escoll;C. Cerdán;José E. Sierra;María Rufas;N. Mestres;Ingrid C. Penagos;Cristina Moreno;Jordi Riera;A. Cuéllar;R. C. González;Míriam Sánchez;Santiago García;Sara García;Natalia Gijón;Patricia Robles;Enrique Roca;M. Mariscal;Mario Morales;Irene Alonso;Virginia Jiménez;Lucas Casalduero;Javier Jimenez;José L. Ramos;Ane Abad;A. Abad;Norma Aracil;E. Martinez;Beatriz Nozal;Elena Sáez;R. Salvachua;J. Ripollés;María L. De;Elena Sánchez;Begoña Toribio;A. Navarro;José López;Dácil Montesdeoca Cabrera;Francisco J. Alcalá;M. J. Alberola;Ó. Díaz;M. S. Matoses;María D. Ruiz;Azahara Sancho;Sofía Díaz;Almudena Martín;A. Suárez;R. Uña;E. Maseda;Guillermo Tejón;María V. Alfaro;Marta Alonso;María A. Álvarez;María J. Álvarez;M. Carrillo;María Fernández;Sonia Trabanco;José L. Rábago;J. Martínez;A. Pascual;S. Ortega;Maria;M. V. Duque;C. Aragón;Andrea Vallejo;Carmen Colillas;M. J. Laso;Javier Martínez;Javier Hernández;Beatriz Ledesma;C. Ochoa;Máximo Sanz;Begoña Herrero;Alma Blázquez;M. Díez;Pilar Hernández;José M. Muguerza;M. Barbero;Belén San;Laura Alonso;Viktoria Molnar;María C. Delgado;Encarnación Meléndez;Virginia Cavero;África Fernández;Daniela A. Cubek;Rocío Díez Munar;Francisco J. Blázquez;A. B. Serrano;A. Balvis;A. Berruezo;E. Esparza;I. de la Hoz;A. Palavicini;L. Pereira;X. Vega;J. Villahoz;G. Villanueva;J. Alonso;C. Aldecoa;Clara Bolaño;Teresa Villán;Astrid Batalla;G. Azparren;M. Basttita;M. Felipe;L. Cueva;Marta Giné;A. M. Gómez;I. India;S. Piñol;Neus Esteve;Carlos Mora;Ana Ferrer;J. Segura;Natalia Alonso;Ángels Camps;Ivette Chocrón;Carolina C. Coronado;Héctor Duque;Elena Esclapez;P. Galán;Silvia Matarín;M. P. Tormos;Laura Villarino;Héctor Bergés;Miguel Aisa;Verónica Arbona;José D. Bautista;Francisco J. Carballido;Mercedes Gutiérrez;Ana Muñoz;J. Cañete;Esther Cáceres;J. Lorente;Octavio Mulet;Rocío Gómez;Cristina Monje;L. Lobato;C. Torres;Elena Sanchez;J. J. Daza;Teresa Sánchez;Antonio Dal;Laura Bermudez;R. Sanllorente;Maria C. Villalain;Mihaela Siclama;Judith Benítez;A. Sánchez;Alberto Martínez;Patricia Alonso;Francisco J. De;C. Naranjo;F. Pereira;Elena Ruiz;Alfredo Rivera;Cristina Gil;E. Nogués;Yolanda Sosa;Alonso Gómez;Laura M. Martínez;M. Cabellos;J. Rodríguez;M. Labalde;Beatriz Nacarino;R. Fernández;Borja De;Justyna Drewniak;Fátima Senra;P. Galindo;A. B. Gallardo;Cesar García;Laura Colao;Luz;Miguel Miró;Sahely;Jordi Serrat;Adrian Medina;Yuhami Mitsahid;Margarita Logroño;J. L. Jover;Francisco J. Orts;Coral Cózar;Olga Blasco;Andrea Nonnemacher;José A. Pérez;Durán Durán Cruces;Francisco J. Blanco;A. Landaluce;Izaskun Badiola;Marta Calvo;Unai De;Vicente Portugal;B. Ugarte;Ana Pedregosa;Laura Perelló;Yobanys Rodríguez;Joanna Grössl;Xavier Viñas;E. Alday;Elena Bermejo;Pedro A. Alonso;Francisco A. Gimeno;A. Rodríguez;Carmen Montes;L. Álvarez;María J. Fas;J. Ortega;Gustavo Flores;J. Tristancho;Montserrat Bayo;María C. Deiros;María L. Gil;Lourdes Parra;Vanesa Tejedor;C. Jericó;Núria Borrell Brau;David Camacho;Jose L. Ortiz;Daniel López;Vicens Rodriguez;M. Martinez;Daniel Amoros;Marc Sadurni;Pablo Renedo
通讯作者：
Pablo Renedo

Editing out the polymers: Toward a gene therapy for FENIB

去除聚合物：迈向法尼基乙醇胺氮氧化合物诱导的神经纤维瘤病（FENIB）的基因疗法

DOI：
10.1016/j.omtn.2025.102518
发表时间：
2025-06-10
期刊：
Molecular Therapy Nucleic Acids
影响因子：
6.100
作者：
Elena Miranda;Giovanna Galliciotti
通讯作者：
Giovanna Galliciotti

Regulation of human β-defensin-2 by <em>Mycobacterium bovis</em> bacillus Calmette-Guérin (BCG): Involvement of PKC, JNK, and PI3K in human lung epithelial cell line (A549)

DOI：
10.1016/j.peptides.2008.05.019
发表时间：
2008-10-01
期刊：
Research article
影响因子：
作者：
Patricia Méndez-Samperio;Elena Miranda;Artemisa Trejo
通讯作者：
Artemisa Trejo

Optimization of RNA extraction from laser captured microdissected glomeruli from formalin-fixed paraffin-embedded mouse kidney samples for Nanostring analysis.

从福尔马林固定石蜡包埋的小鼠肾脏样本中激光捕获的微解剖肾小球中提取 RNA 的优化，用于纳米线分析。

DOI：
发表时间：
2019
期刊：
Histology and Histopathology
影响因子：
2
作者：
Abigail L. Hay;J. Lapointe;Arthur Lewis;Carol Moreno Quinn;Elena Miranda
通讯作者：
Elena Miranda

Characterising the association of latency with α<sub>1</sub>-antitrypsin polymerisation using a novel monoclonal antibody

DOI：
10.1016/j.biocel.2014.11.005
发表时间：
2015-01-01
期刊：
Research article
影响因子：
作者：
Lu Tan;Juan Perez;Marianna Mela;Elena Miranda;Keith A Burling;Farshid N Rouhani;Dawn L DeMeo;Imran Haq;James A Irving;Adriana Ordóñez;Jennifer A Dickens;Mark Brantly;Stefan J Marciniak;Graeme J M Alexander;Bibek Gooptu;David A Lomas
通讯作者：
David A Lomas