MAPR: PMEL’s Miniature Autonomous Plume Recorder

IF 3.2 4区地球科学 Q1 OCEANOGRAPHY

Oceanography Pub Date : 2023-01-01 DOI:10.5670/oceanog.2023.220

Sharon Walker

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引用次数: 0

Abstract

The NOAA Vents program was established in 1983 at the Pacific Marine Environmental Laboratory (PMEL; Hammond et al., 2015), just six years after the discovery of hydrothermal vents and their unique chemosynthetic ecosystems (Corliss et al., 1979). Because seafloor hydrothermal venting contributes significantly to the transfer of heat and mass from the solid Earth to the ocean, the program’s mission was to systematically explore, discover, and characterize the environmental impacts of submarine volcanism and hydrothermal venting on ocean physical, chemical, and biological processes. The program initially focused on the mid-ocean spreading centers in PMEL’s “backyard” (i.e., the Gorda, Juan de Fuca, and Endeavour Ridges in the Northeast Pacific) where segment-scale surveys detected plumes in the water column above the ridge crest that led to the discovery of numerous individual vent fields (see Hammond et al., 2015, and references therein). New technologies and techniques were created and/or adapted to address the challenges of finding and studying these vents. Repeat visits to the Northeast Pacific sites documented spatial and temporal changes, stimulating the development of new hypotheses about their associated biogeochemical processes. However, testing how broadly applicable these hypotheses would be on a global scale required discovering new vent sites from a far wider range of geological settings, and global-scale exploration requires significant resources.

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MAPR: PMEL的微型自主羽流记录器

美国国家海洋和大气管理局喷口项目于1983年在太平洋海洋环境实验室(PMEL;Hammond et al.， 2015)，仅在发现热液喷口及其独特的化学合成生态系统六年后(Corliss et al.， 1979)。由于海底热液喷口对从固体地球到海洋的热量和质量的传递做出了重大贡献，因此该计划的任务是系统地探索、发现和描述海底火山活动和热液喷口对海洋物理、化学和生物过程的环境影响。该项目最初专注于PMEL“后院”的大洋中部扩散中心(即东北太平洋的Gorda、Juan de Fuca和Endeavour山脊)，在那里，分段规模的调查发现了山脊顶部上方水柱中的羽流，从而发现了许多单独的喷口场(见Hammond等人，2015，以及其中的参考文献)。为了解决寻找和研究这些喷口所面临的挑战，新技术和新工艺应运而生。对东北太平洋遗址的重复访问记录了空间和时间变化，刺激了有关其相关生物地球化学过程的新假设的发展。然而，要在全球范围内测试这些假设的广泛适用性，就需要从更广泛的地质环境中发现新的火山口，而全球范围的勘探需要大量的资源。

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.