Eastern Pacific carbon chemistry after the ice age: gaining insight to a persistent carbon cycle mystery

冰河时代后的东太平洋碳化学：深入了解持久的碳循环之谜

• 批准号: 2015647
• 负责人: Patrick Rafter
• 金额: $ 32.61万
• 依托单位: University of California-Irvine
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2020
• 资助国家: 美国
• 起止时间: 2020-06-01 至 2025-05-31
• 项目状态: 未结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=2015647&HistoricalAwards=false
• 关键词: Eastern; Pacific; carbon; chemistry; after

The current rise in atmospheric carbon dioxide (CO2) due to human activities such as fossil fuel burning is warming the planet. One way to better predict future climate is to study past natural changes in atmospheric CO2. Such changes occurred through the ice ages of the past 1 million years. The ocean is thought to have played a key role in ice age atmospheric CO2 changes because ocean uptake of CO2 contributes to global cooling and CO2 release by the ocean contributes to warming. One of the most useful tools for reconstructing past ocean CO2 cycles is the radioactive isotope of carbon, 14C. Radiocarbon is measured in marine microfossils which record the 14C of seawater. This study will develop microfossil 14C records from ocean sediment cores and use them to unravel the causes of a low-radiocarbon anomaly that occurred in the eastern North Pacific Ocean at the time of the Last Glacial Maximum (roughly 20,000 years ago). Understanding this anomaly will improve our knowledge of ocean-atmosphere CO2 exchange in the past, and thus will help us predict the impact of rising atmospheric CO2 on future climate. The project will support research participation by undergraduate students at UC Irvine. The project also includes support for a series of workshops designed to introduce prospective First Generation college students to the Earth Sciences.The proposed work will use a set of new sediment 14C/ records along the Eastern North Pacific margin to address a long-standing paleoceanographic question—what is the origin of the anomalously low 14C in the Eastern North Pacific during the deglaciation? This feature has alternately been explained as evidence for: (i) an anomalously low seawater 14C/C advected to the eastern North Pacific sites, (ii) the local or regional addition of low-14C carbon from seafloor volcanism, or (iii) post-depositional alteration of the proxy record. The proposed analyses will yield four new benthic foraminifera 14C/C records from Eastern North Pacific core sites upstream of the sites with anomalously low deglacial 14C. These records will be synchronized using benthic foraminifera d18O records and will be used to create a new map of Eastern North Pacific deglacial seawater 14C. This map will be used to distinguish between advected and local sources for the low-14C signal. The study will support the training of undergraduate students at UC Irvine (a Minority Serving Institution). The project will also support organization of a 3-day workshop for prospective First Generation college students from local high schools with high under-represented minority populations, with the goal of increasing the participation of under-represented minorities in the Earth Sciences.This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.

目前，由于人类活动（例如化石燃料燃烧）导致大气中二氧化碳（CO2）的增加，正在使地球变暖，更好地预测未来气候的一种方法是研究过去冰河时期发生的大气二氧化碳的自然变化。过去一百万年来，海洋被认为在冰河时代大气二氧化碳变化中发挥了关键作用，因为海洋吸收二氧化碳导致全球变冷，而海洋释放的二氧化碳则导致变暖。这是重建过去海洋的最有用的工具之一。 CO2循环是放射性的碳同位素 14C 在记录海水 14C 的海洋微化石中进行测量。这项研究将从海洋沉积物岩心中开发微化石 14C 记录，并利用它们来揭示北太平洋东部发生的低放射性碳异常的原因。末次盛冰期（大约 20,000 年前）的海洋了解这种异常现象将提高我们对海洋大气的了解。过去的二氧化碳交换，从而帮助我们预测大气中二氧化碳含量上升对未来气候的影响。该项目将支持加州大学欧文分校的本科生参与研究，该项目还包括支持一系列旨在介绍未来气候的研讨会。一代大学生对地球科学的兴趣。拟议的工作将使用沿北太平洋东部边缘的一组新的沉积物 14C/ 记录来解决一个长期存在的古海洋学问题——北太平洋东部异常低的 14C 的起源是什么期间这一特征也被解释为以下证据：(i) 异常低的海水 14C/C 平流输送到北太平洋东部地区，(ii) 海底火山活动导致局部或区域性的低 14C 碳增加，或者 (iii) ) ) 代理记录沉积后的改变 拟议的分析将产生来自北太平洋东部核心地点上游的四个新的底栖有孔虫 14C/C 记录。异常低冰消 14C。这些记录将使用底栖有孔虫 d18O 记录进行同步，并将用于创建东北太平洋冰消海水 14C 的新地图。该地图将用于区分低 14C 信号的平流源和本地源。该研究将支持加州大学欧文分校（少数族裔服务机构）的本科生培训。该项目还将支持组织为期 3 天的研讨会。面向来自少数族裔人口比例较高的当地高中的未来第一代大学生，其目标是增加代表性不足的少数族裔在地球科学领域的参与。该奖项反映了 NSF 的法定使命，并通过评估认为值得支持利用基金会的智力优势和更广泛的影响审查标准。