重新审视南极东部边缘（80-150°E）的环流和水团

IF 3.8 3区地球科学 Q1 OCEANOGRAPHY Progress in Oceanography Pub Date : 2024-05-24 DOI:10.1016/j.pocean.2024.103285

Kaihe Yamazaki , Katsuro Katsumata , Daisuke Hirano , Daiki Nomura , Hiroko Sasaki , Hiroto Murase , Shigeru Aoki

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引用次数: 0

摘要

在 2018/2019 年澳大利亚夏季期间，我们首次对 1996 年 BROKE 试验（横跨 80 至 150°E 的南极边缘；Bindoff 等人，2000 年）的全深度水文断面进行了重访。我们描述了 2019 年的次表层物理海洋学以及 1996 年至 2019 年间的水文变化，这些变化在之前的研究中没有记录。此次调查捕捉到了从南极环极流（ACC）南侧到大陆架的海洋结构的十年变化。在 1996 年和 2019 年测量结果具有可比性的五个跨坡经向断面（112、120、128、140 和 150°E）中，ACC 南侧边界（50-120 公里）的极向移动在大陆隆起附近普遍存在。气压性 ACC 锋面的位移和深水的极向移动同时导致了全深度变暖（0.1-1.6 ℃），并可能导致底层水体积的减少。从深层到底层广泛观测到清新现象（∼0.02 g/kg），信号从大陆坡上部开始延伸。底层强化的清新伴随着 10-20 μmol/kg 的增氧，表明清新驱动的底层增氧抵消了极向气压锋面移动的脱氧效应。从 1996 年到 2019 年，南极斜坡洋流的西向输送在五个横断面上减少了 10 Sv 以上；其锋面特征和洋流轴线在 112-140°E 向离岸移动了 20 公里以上。此外，在整个大陆坡上部还普遍检测到沿改良环极深水的次表层增温，最高达 0.4 ℃。就 2019 年的水文地理而言，在 Mertz Polynya（142-148°E）以东发现了密度足以形成底层水（28.35 kg/m3）的陆架水，这意味着 Mertz Polynya 东缘有一条高密度陆架水输出通道。我们的发现强调了持续努力广泛覆盖南极东缘进行现场观测的重要性。

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Revisiting circulation and water masses over the East Antarctic margin (80–150°E)

Full-depth hydrographic sections of the BROKE experiment in 1996 (across the Antarctic margin from 80 to 150°E; Bindoff et al., 2000) were revisited for the first time during the 2018/2019 austral summer. We describe the subsurface physical oceanography in 2019 and the hydrographic changes between 1996 and 2019 not documented in earlier studies. The survey captured decadal changes in ocean structure from the southern flank of the Antarctic Circumpolar Current (ACC) to the continental shelves. In five cross-slope meridional sections, where 1996 and 2019 measurements are comparable (112, 120, 128, 140, and 150°E), the poleward shift of the southern boundary of the ACC (50–120 km) prevailed near the continental rise. The simultaneous displacement of barotropic ACC fronts and poleward migration of deep water contributed to full-depth warming (0.1–1.6 °C) and potentially to a reduction in the bottom water volume. Freshening was widely observed from the deep to bottom layers (∼0.02 g/kg), with the signal extending from the upper continental slope. Bottom-intensified freshening was accompanied by an oxygenation of 10–20 μmol/kg, indicating that freshening-driven oxygenation of bottom layers counteracted the deoxygenation effect of the poleward barotropic frontal shift. Westward transport of the Antarctic Slope Current decreased by more than 10 Sv from 1996 to 2019 in the five cross-slope sections; its frontal features and current axis shifted offshore by more than 20 km in 112–140°E. Additionally, subsurface warming along modified Circumpolar Deep Water by up to 0.4 °C was commonly detected across the upper continental slope. For the 2019 hydrography, shelf water sufficiently dense to form bottom water (>28.35 kg/m³) was found to the east of Mertz Polynya (142–148°E), implying a pathway for dense shelf water export from the eastern margin of Mertz Polynya. Our findings underscore the importance of sustained efforts for in-situ observations that widely cover the East Antarctic margin.

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来源期刊

Progress in Oceanography 地学-海洋学

CiteScore

7.20

自引率

4.90%

发文量

138

审稿时长

3 months

期刊介绍： Progress in Oceanography publishes the longer, more comprehensive papers that most oceanographers feel are necessary, on occasion, to do justice to their work. Contributions are generally either a review of an aspect of oceanography or a treatise on an expanding oceanographic subject. The articles cover the entire spectrum of disciplines within the science of oceanography. Occasionally volumes are devoted to collections of papers and conference proceedings of exceptional interest. Essential reading for all oceanographers.