Iron supply from the Oregon margin to the ocean dominated by hypoxia-dependent particles

散射层 大陆架 地质学 沉淀 海洋学 海洋环流 大陆边缘 生物地球化学循环 微粒 羽流 上升流 底栖区 缺氧(环境) 下涌 环境科学 氧气最小区 分层(种子) 粒子(生态学) 缺氧水域 水槽(地理) 华丽 营养物
作者
Alexis E. Floback,Anh L. D. Pham,Pierre Damien,Catherine E. Odendahl,Jennifer Weiske,Katherine E Thomas,Justin Gaffney,Seth G John,Daniele Bianchi,James W Moffett
出处
期刊:Proceedings of the National Academy of Sciences of the United States of America [National Academy of Sciences]
卷期号:123 (18): e2532929123-e2532929123
标识
DOI:10.1073/pnas.2532929123
摘要

Continental margins are sources of iron (Fe), a critical oceanic micronutrient limiting productivity over nearly a third of the ocean. Paradoxically, they are also sinks of Fe and other particle-reactive elements that are sequestered in margin sediments. When dissolved Fe is released from reducing sediments, most is retained on the shelf by oxidative scavenging ("Fe trapping"), severely constraining cross-shelf export of dissolved Fe. However, observations from the Oregon shelf in 2021 show that cross-shelf export is overwhelmingly dominated by particulate Fe, forming persistent, particle-rich plumes that extend well beyond the shelf-slope break. Particles accumulate in a 30 m thick benthic nepheloid layer within hypoxic zones overlying the continental shelf sediments, previously shown to be a strong source of reduced iron. Surprisingly, resuspended particulate Fe includes both nonlithogenic and lithogenic components, suggesting that hypoxia influences particle buoyancy and resuspension, consistent with recent advances in organic geochemistry. A physical-biogeochemical model that incorporates oxygen-dependent particle sources and realistic settling velocities reproduces the distribution of particle-rich plumes, highlighting the dynamic physical processes driving cross-shelf export of particulate Fe. We propose that increases in particle buoyancy is a previously unrecognized mechanism linking hypoxia and Fe mobilization acting in tandem with well-established redox processes. Particles settle on the continental slope and supply large Fe plumes extending westward from the slope from 200 m to 2,000 m. Simulations with an inverse model show that these plumes outcrop in Fe-limited high nutrient low chlorophyll regions. Thus, local and regional hypoxia on the margins could have basin-scale biogeochemical impacts.
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