Collaborative Research: Geochemistry of IODP Site 1438 and West Philippine Basin Volcanic Rocks: Constraints on Subduction Initiation and the Early Development of the Izu-Bonin-Mar

合作研究：IODP 1438号站点和西菲律宾盆地火山岩的地球化学：俯冲起始和伊豆博宁马早期发育的制约因素

• 批准号: 1537861
• 负责人: Rosemary Hickey-Vargas
• 金额: $ 15.9万
• 依托单位: Florida International University
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2015
• 资助国家: 美国
• 起止时间: 2015-08-15 至 2019-07-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1537861&HistoricalAwards=false
• 关键词: Collaborative; Research; Geochemistry; IODP; Site

The global process of subduction, which is the sinking of Earth's tectonic plates beneath other plates, is accompanied by physical and chemical processes that cause natural hazards such as earthquakes, magma generation, and volcanic eruptions. It is also the basis of the formation of many economically valuable minerals. Understanding subduction processes in detail is of critical importance for protecting human interests, locating resources, and building a basic knowledge of the Earth. This research focuses on understanding the initial stages of subduction, specifically the geochemical processes, that lead from incipient subduction to a self-sustaining subduction zone and volcanic arc. Samples come from a core drilled in the Izu-Bonin-Mariana area in the western Pacific Ocean as part of a coordinated drilling expedition of the International Ocean Discovery Program (IODP) in 2014. The expedition recovered over 1600 meters of core, preserving seafloor stratigraphy extending from the basaltic foundation of the subducting plate through overlying volcanic arc sediments. Goals of the research are to use the geochemical composition of the basement rocks and volcanic sedimentary processes to understand subduction initiation, the causes of magma formation, and the timing and extent of volcanic arc eruptions. Broader impacts of the work include collaboration with researchers from Japan, Switzerland and the UK. In addition the lead institution is a large, public, Hispanic- and minority-serving institution, which provides the potential for engaging under-represented minority students in the sciences in the research project. Additional impacts include support of an institution in an EPSCoR state (South Carolina) and outreach to Miami, Florida K-12 public schools. One outcome of this project will be comprehensive geochemical analyses of volcanic rocks recovered on IODP Expedition 351, at Site 1438, which is located just west of the Kyushu-Palau Ridge, the site of Izu-Bonin Mariana (IBM) arc inception. Preliminary findings indicate that oceanic basement at ODP Site 1438 is close to the age of forearc basalts which form the base of the IBM forearc sequences. Prior to the expedition, it was thought that magmas formed at subducting margins were "forearc basalts" of tholeiitic character, similar but not identical, to mid-ocean ridge basalts, followed by boninites. Preliminary findings demonstrate that this initial magmatism may not have been limited to the forearc, but may instead have occurred over a broad area of the plate margin during subduction and arc initiation. This research produces whole-rock major element, trace element, and Hf-Nd isotope geochemical data for basement basalts at Site 1438, at ODP Site 1201, and at DSDP Site 447. Similar studies of clasts separated from volcaniclastic sedimentary rocks that overlie basement at Site 1438 will characterize the earliest products of arc stratovolcanoes and their compositional evolution through time. The proposed studies will establish the full extent of geochemical similarity between forearc and basement basalts. It will also document compositional changes with time that may be recorded at Site 1438. Results of this work will likely lead to a revision of current hypotheses about magma generation during subduction initiation. The overlying volcaniclastic section of Site 1438 provides an unprecedented opportunity to study the chemical evolution of an island arc, from subduction initiation through arc growth and maturity, through the waning/cessation of arc volcanism as the result of rifting and back-arc basin formation.

全球俯冲过程是地球构造板块下沉到其他板块之下，伴随着物理和化学过程，导致地震，岩浆生成和火山爆发等自然灾害。它也是许多具有经济价值的矿物形成的基础。 详细了解俯冲过程对于保护人类利益、定位资源和建立地球的基本知识至关重要。 这项研究的重点是了解俯冲的初始阶段，特别是地球化学过程，导致从初始俯冲到自我维持的俯冲带和火山弧。 样本来自西太平洋Izu-Bonin-Mariana地区钻探的岩心，这是2014年国际海洋发现计划（IODP）协调钻探探险的一部分。探险队回收了超过1600米的岩芯，保存了从俯冲板块的玄武岩基础延伸到上覆火山弧沉积物的海底地层。 研究的目标是利用基底岩石的地球化学成分和火山沉积过程来了解俯冲的开始、岩浆形成的原因以及火山弧喷发的时间和程度。这项工作的更广泛影响包括与日本、瑞士和英国研究人员的合作。此外，牵头机构是一个为西班牙裔和少数民族服务的大型公立机构，这为在研究项目中吸收科学领域代表性不足的少数民族学生提供了可能性。 其他影响包括支持EPSCoR州（南卡罗来纳州）的一个机构，并推广到佛罗里达的迈阿密K-12公立学校。 该项目的成果之一将是对国际大洋钻探项目第351次考察在1438号地点发现的火山岩进行全面的地球化学分析，该地点位于九州-帕劳海脊以西，是伊豆-小笠原弧的起点。初步研究结果表明，ODP站点1438的海洋基底的年龄接近弧前玄武岩，形成的IBM弧前序列的基础。 在这次考察之前，人们认为在俯冲边缘形成的岩浆是拉斑玄武岩性质的“弧前玄武岩”，与大洋中脊玄武岩相似但不完全相同，其次是玻安岩。 初步研究结果表明，这种初始岩浆活动可能并不局限于弧前，而是可能发生在俯冲和弧启动期间的板块边缘的广阔区域。本研究产生了在站点1438，ODP站点1201和DSDP站点447的基底玄武岩的全岩主元素，微量元素和Hf-Nd同位素地球化学数据。对从1438号地点基底上覆的火山碎屑沉积岩中分离出来的碎屑进行类似的研究，将表征弧成层火山的最早产物及其随时间的成分演变。 拟议的研究将确定弧前玄武岩和基底玄武岩之间地球化学相似性的全部范围。它还将记录可能在研究中心1438记录的成分随时间的变化。这项工作的结果可能会导致目前的假设在俯冲开始岩浆生成的修订。1438号站点的上覆火山岩部分提供了一个前所未有的机会，可以研究岛弧的化学演化，从俯冲开始到弧的生长和成熟，再到裂谷和弧后盆地形成导致的弧火山活动的减弱/停止。