The PMEL Earth-Ocean Interactions Program: Beyond Vents

IF 3.2 4区地球科学 Q1 OCEANOGRAPHY

Oceanography Pub Date : 2023-01-01 DOI:10.5670/oceanog.2023.229

David Butterfield, Sharon Walker, Tamara Baumberger, Jeff Beeson, Joseph Resing, Susan Merle, Anson Antriasian, Kevin Roe, Guang-Sin Lu, Pamela Barrett, William Chadwick

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引用次数: 0

Abstract

As previously summarized by Hammond et al. (2015), from 1983 to 2013, the NOAA Vents program conducted systematic and multidisciplinary exploration, discovery, and research related to hydrothermal vents, submarine volcanic eruptions, and associated ocean physical, chemical, and biological processes. In 2014, Vents divided into two programs, Earth-Ocean Interactions (EOI) and Acoustics, and considered a broader range of questions about how seafloor and subseafloor processes contribute to ocean health, biogeochemical cycles, ecosystem diversity, and climate change. Here, we highlight major accomplishments since 2014, including deep-sea technologies that EOI, Vents, and Pacific Marine Environmental Laboratory (PMEL) Engineering have developed to advance marine science. EOI research is driven by a need for better observational data on issues of global importance, including the role of continental margin seeps in the global methane/carbon cycle, benthic ecology, and fisheries habitat; the role of hydrothermal systems in global biogeochemical cycles, including carbon dioxide removal; the potential impact of deep-sea mining of metal sulfides on ecosystem services provided by hydrothermal vents; and how hydrothermal iron functions as an essential nutrient. NOAA Ocean Exploration, the Schmidt Ocean Institute, the Ocean Exploration Trust, and the National Science Foundation have supported and collaborated in this work. Global exploration of the deep sea with the purpose of understanding global ocean processes remains a cornerstone of EOI science.

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PMEL地球-海洋相互作用计划:超越喷口

如Hammond等人(2015)所述，从1983年到2013年，NOAA喷口项目对热液喷口、海底火山喷发以及相关的海洋物理、化学和生物过程进行了系统的、多学科的勘探、发现和研究。2014年，通风道项目分为两个项目，地球-海洋相互作用(EOI)和声学，并考虑了海底和海底过程如何影响海洋健康、生物地球化学循环、生态系统多样性和气候变化等更广泛的问题。在此，我们重点介绍了自2014年以来取得的主要成就，包括EOI、通风口和太平洋海洋环境实验室(PMEL)工程公司为推进海洋科学而开发的深海技术。推动EOI研究的是对全球重要问题的更好观测数据的需求，包括大陆边缘渗漏在全球甲烷/碳循环、底栖生态和渔业生境中的作用;热液系统在全球生物地球化学循环中的作用，包括二氧化碳的去除;深海金属硫化物开采对热液喷口生态系统服务的潜在影响以及水热铁作为一种必需营养素的作用。美国国家海洋和大气管理局海洋勘探、施密特海洋研究所、海洋勘探信托基金和国家科学基金会支持和合作这项工作。以了解全球海洋过程为目的的全球深海探索仍然是EOI科学的基石。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Oceanography 地学-海洋学

CiteScore

6.10

自引率

3.60%

发文量

审稿时长

6-12 weeks

期刊介绍： First published in July 1988, Oceanography is the official magazine of The Oceanography Society. It contains peer-reviewed articles that chronicle all aspects of ocean science and its applications. In addition, Oceanography solicits and publishes news and information, meeting reports, hands-on laboratory exercises, career profiles, book reviews, and shorter, editor-reviewed articles that address public policy and education and how they are affected by science and technology. We encourage submission of short papers to the Breaking Waves section that describe novel approaches to multidisciplinary problems in ocean science.