Collaborative Research: US GEOTRACES Pacific Meridional Transect: Sources and Sinks of Neodymium Isotopes and Rare Earth Elements

合作研究：美国 GEOTRACES 太平洋经线横断面：钕同位素和稀土元素的源和汇

• 批准号: 1737394
• 负责人: Brian Haley
• 金额: $ 31.66万
• 依托单位: Oregon State University
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2017
• 资助国家: 美国
• 起止时间: 2017-11-01 至 2023-09-30
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1737394&HistoricalAwards=false
• 关键词: Collaborative; Research; US; GEOTRACES; Pacific

The goal of the international GEOTRACES program is to understand the distributions of trace chemical elements and their isotopes in the oceans. Neodymium (Nd) isotopes and rare earth elements (REE) are widely recognized for their utility as tracers of water transport and as indicators of the sources of trace elements to the oceans. Neodymium isotopes have been designated as "key parameters" to be measured on GEOTRACES expeditions. This project would measure Nd isotopes on a 2018 GEOTRACES expedition in the Pacific Ocean. The North Pacific is a particularly interesting place to measure Nd isotopes because North Pacific and North Atlantic deep waters represent the two end-members of deep ocean composition, and the few data available so far in the North Pacific differ from expectations based on mixing of known water types.The US GEOTRACES Pacific Meridional Transect (PMT) from Tahiti to Alaska will play an important role in solving the "mystery" of North Pacific neodymium isotope ratios. The PMT is designed to extensively sample the oldest waters in the ocean, along with Alaskan coastal margins, volcanogenic sediments, the meridional dust gradient originating from volcanic arcs and the Asian and North American continents, and large gradients in biological productivity. The primary purpose of this project is to characterize the Nd isotope ratio of seawater along the transect. In order to address fundamental questions on the Nd and REE cycle in the Pacific, the investigators will also quantify boundary exchange effects, atmospheric inputs, provenance of particles, impacts of biological productivity, and fluxes into and out of seawater, in order to assess Nd and REE sources and sinks, and to calibrate Nd isotopes as a paleocirculation proxy in the Pacific. Specific focus areas include: (1) Nd isotopic characterization of the shallow and deep waters, (2) margin processes associated with the Alaska volcanic arc shelf, to study chemical exchanges between particulates, sediments, and seawater Nd isotopes and REE, (3) changing meridional dust sources and its impacts, (4) relationships between bottom sediment types, compositions, nepheloid layers, and their influence on the water column, (5) the effects of pore water flow on the water column; (6) the signal transfer between the deep water and sedimentary archives (e.g., fossil fish teeth, Fe-Mn oxide coatings). The project will advance the career of a postdoctoral research scientist, and support numerous undergraduate students.

国际GEOTRACES计划的目标是了解微量化学元素及其同位素在海洋中的分布。钕（Nd）同位素和稀土元素（REE）被广泛认为是水迁移的示踪剂和海洋微量元素来源的指示剂。钕同位素被指定为GEOTRACES考察中测量的“关键参数”。该项目将在2018年太平洋的GEOTRACES考察中测量Nd同位素。北太平洋是测量Nd同位素的一个特别有趣的地方，因为北太平洋和北大西洋深水沃茨代表了深海组成的两个端元，目前为止，北太平洋的数据很少，这与基于已知水类型混合的预期不同。从塔希提岛到阿拉斯加的美国GEOTRACES太平洋子午线样带（PMT）将在解开这个“谜团”方面发挥重要作用。北太平洋的钕同位素比率。PMT的目的是广泛采样的最古老的沃茨在海洋中，沿着阿拉斯加海岸边缘，火山沉积物，火山弧和亚洲和北美大陆，以及大梯度的生物生产力的尘埃梯度。该项目的主要目的是表征海水的钕同位素比值沿断面沿着。为了解决太平洋Nd和REE循环的基本问题，研究人员还将量化边界交换效应，大气输入，颗粒来源，生物生产力的影响以及进出海水的通量，以评估Nd和REE的来源和汇，并校准Nd同位素作为太平洋的古循环代理。具体的重点领域包括：（1）浅、深水沃茨的Nd同位素特征;（2）与阿拉斯加火山弧陆架有关的边缘过程，以研究颗粒、沉积物和海水Nd同位素和REE之间的化学交换;（3）不断变化的尘埃源及其影响;（4）海底沉积物类型、成分、云状层之间的关系及其对水柱的影响;（5）孔隙水流对水柱的影响;（6）深水和沉积档案之间的信号传递（例如，化石鱼牙齿，铁锰氧化物涂层）。该项目将促进博士后研究科学家的职业生涯，并支持众多本科生。