尔明格海流的两个核心从何而来?使用 1/10° 海洋模型模拟的拉格朗日研究

IF 3.3 2区 地球科学 Q1 OCEANOGRAPHY Journal of Geophysical Research-Oceans Pub Date : 2024-09-27 DOI:10.1029/2023JC020713
Nora Fried, Caroline A. Katsman, M. F. de Jong
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引用次数: 0

摘要

尔明格海流(IC)在北大西洋副极地涡旋中将相对温暖的咸水带向北方,形成大西洋经向翻转环流的上缘。IC 是一种双核洋流,其速度在海面上不断加强。最靠近雷克珍海脊的东部核心比西部核心温度更高、盐度更高。为了研究两个集成流核心的源水,我们利用 1/10° 海洋模型,对在 OSNAP 东部(北纬 59.5°)集成流中释放的拉格朗日粒子在上 1000 米处进行了为期一年的时间追踪。在 1 年的时间尺度内,几乎所有的粒子都来自附近的伊尔明格海和冰岛盆地。集成电路西部核心区的种子颗粒大多来自伊尔明格海(83%),而其东部核心区的种子颗粒大多来自冰岛盆地(69%)。为集成电路提供水源的冰岛盆地水主要穿过北纬 57 度和 59 度附近的雷克珍海脊。一般来说,来自冰岛海的颗粒比来自冰岛盆地的颗粒更冷、更新鲜。来自冰岛盆地和厄尔明戈海的海水比例每月都有变化。因此,要解释 OSNAP 东线两个 IC 岩心的月度变化,必须考虑两个盆地水文特性的变化及其贡献。根据这一模型研究,我们将厄尔米纳海环流解释为一种全海盆的再循环,冰岛海盆的海水越来越多地流向受月度变化影响的海脊。
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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Where do the Two Cores of the Irminger Current Come From? A Lagrangian Study Using a 1/10° Ocean Model Simulation

The Irminger Current (IC) brings relatively warm and saline waters northward in the North Atlantic subpolar gyre, contributing to the upper limb of the Atlantic Meridional Overturning Circulation. The IC is a two-core current with surface-intensified velocities. The eastern core, closest to the Reykjanes Ridge, is warmer and more saline than the western core. To investigate the source waters of the two IC cores, using a 1/10° ocean model, we track Lagrangian particles released in the IC at OSNAP East (∼59.5°N) in the upper 1,000 m backward in time for one model year. Over a 1-year time scale, nearly all particles are sourced from nearby regions of the Irminger Sea and Iceland Basin. Those seeded in the western IC core mostly originate from the Irminger Sea (83%), while those in its eastern core mostly originate from the Iceland Basin (69%). Iceland Basin water feeding the IC predominantly crosses the Reykjanes Ridge near 57°N and 59°N. Generally, particles from the Irminger Sea are colder and fresher than particles from the Iceland Basin. The fraction of waters from the Iceland Basin and the Irminger Sea varies from month to month. So, to explain monthly variations of the two IC cores at the OSNAP East line, changes in hydrographic properties in both basins as well as their contributions must be considered. Based on this model study, we interpret the Irminger Sea circulation as a basin-wide recirculation with an increasing contribution of Iceland Basin waters toward the ridge which is subject to monthly variations.

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来源期刊
Journal of Geophysical Research-Oceans
Journal of Geophysical Research-Oceans Earth and Planetary Sciences-Oceanography
CiteScore
7.00
自引率
13.90%
发文量
429
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