Collaborative Research: U.S. GEOTRACE GP17-OCE and GP17-ANT: Characterizing iron-binding organic ligands in the Southern Ocean and implications for iron cycling in the global ocean

合作研究：美国 GEOTRACE GP17-OCE 和 GP17-ANT：南大洋铁结合有机配体的特征及其对全球海洋铁循环的影响

• 批准号: 2219551
• 负责人: Kristen Buck
• 金额: $ 39.98万
• 依托单位: University of South Florida
• 依托单位国家: 美国
• 项目类别: Continuing Grant
• 财政年份: 2022
• 资助国家: 美国
• 起止时间: 2022-08-01 至 2022-11-30
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=2219551&HistoricalAwards=false
• 关键词: Collaborative; Research; U.S.; GEOTRACE; GP17

Iron is an essential element for life and plays an important role in defining how much atmospheric carbon dioxide is taken up into the ocean by phytoplankton. However, iron cycling is closely governed by the chemistry of seawater; nearly all iron in seawater is associated with various unknown organic compounds, called iron-binding ligands, which impact whether and how iron is utilized by organisms and the distribution of iron throughout the ocean. Detail understanding of the cycling of organic iron-binding ligands is necessary to understand iron cycling in the oceans and the connections between iron cycling and atmospheric carbon. The proposed research will be carried out as a part of US GEOTRACES expedition to test the hypothesis that the Southern Ocean is a globally significant source of iron-binding organic ligands, and that different sources of these organic molecules lead to different iron-ligand characteristics. The US GEOTRACES program is a large collaborative effort to sample ocean systems at high resolution for a suite of key trace elements and isotopes. The South Pacific and Southern Ocean regions targeted by the upcoming US GEOTRACES GP17 cruises are important locations of water mass formation and the subsequent transport of carbon and nutrients to the global ocean. Organic ligands produced in these regions thus have important implications for the stabilization, reactivity, and residence time of iron along the path of global water mass circulation and could impact the global oceanic inventory of dissolved iron. This project will measure the distribution of iron-binding organic ligands, and identify specific organic molecules that comprise these ligands, in field and experimental samples collected on upcoming US GEOTRACES cruises in the South Pacific (GP17-OCE) and Southern Ocean (GP17-ANT). These datasets will be utilized to conduct the first extensive intercalibration of the two most widely used approaches for characterizing iron-binding organic ligands, providing important insight into these datasets and how they can be synthesized to improve understanding of iron cycling in the oceans. All data from this project will be made publicly available. Project activities will provide educational and training opportunities for middle school, high school, undergraduate, and graduate students, and results will be shared with the public through the development of virtual reality modules and via local outreach events.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.

铁是生命的必需元素，在确定浮游植物将大气二氧化碳吸收到海洋中的量方面发挥着重要作用。然而，铁循环与海水化学密切相关。海水中几乎所有的铁都与各种未知的有机化合物（称为铁结合配体）相关，它们影响生物体是否利用铁以及如何利用铁，以及铁在整个海洋中的分布。详细了解有机铁结合配体的循环对于了解海洋中的铁循环以及铁循环与大气碳之间的联系是必要的。拟议的研究将作为美国 GEOTRACES 探险的一部分进行，以检验南大洋是全球重要的铁结合有机配体来源的假设，并且这些有机分子的不同来源导致不同的铁配体特征。美国 GEOTRACES 计划是一项大型合作项目，旨在以高分辨率对海洋系统进行采样，以获取一套关键的微量元素和同位素。即将到来的美国GEOTRACES GP17巡航的目标南太平洋和南大洋地区是水团形成以及随后将碳和营养物质输送到全球海洋的重要地点。因此，这些地区产生的有机配体对铁在全球水体循环路径上的稳定性、反应性和停留时间具有重要影响，并可能影响全球海洋溶解铁的库存。该项目将测量铁结合有机配体的分布，并在即将在南太平洋 (GP17-OCE) 和南大洋 (GP17-ANT) 的美国 GEOTRACES 航行中收集的现场和实验样本中识别包含这些配体的特定有机分子。 ）。这些数据集将用于对两种最广泛使用的铁结合有机配体表征方法进行首次广泛的相互校准，从而提供对这些数据集以及如何合成它们以增进对海洋中铁循环的理解的重要见解。该项目的所有数据都将公开。项目活动将为初中生、高中生、本科生和研究生提供教育和培训机会，成果将通过虚拟现实模块的开发和当地的推广活动与公众分享。该奖项反映了 NSF 的法定使命，并具有通过使用基金会的智力优点和更广泛的影响审查标准进行评估，被认为值得支持。