Decadal Changes in the Pathways of the Atlantic Water Core in the Arctic Ocean Inferred From Transient Tracers

IF 3.3 2区地球科学 Q1 OCEANOGRAPHY Journal of Geophysical Research-Oceans Pub Date : 2024-11-22 DOI:10.1029/2024JC021419

Wiebke Körtke, Maren Walter, Oliver Huhn, Torsten Kanzow, Monika Rhein

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Abstract

The Atlantic Water plays a major and increasing role in the heat budget of the Arctic Ocean (Atlantification). The pathways of Atlantic Water within the Arctic Ocean, and in particular their sensitivities to large-scale atmospheric patterns such as the Arctic Oscillation, remain unclear. In this study, we used the trace gases CFC-12 and ${SF}_{6}$ to investigate the Atlantic Water pathways during different phases of the Arctic Oscillation. We calculated tracer ages for the temperature maximum of the Atlantic Water, focusing on repeated transects (1994, 2005, 2015) in the Amerasian Basin of the Arctic Ocean. During a positive phase of the Arctic Oscillation in 1994, tracer ages were low along the Chukchi shelf due to a strong coherent boundary current. In contrast, the ages were up to 10 years higher in 2015 without this coherent current during a mixed phase of the Arctic Oscillation. Further, we identified a discontinuity in the inflow between the Makarov Basin and the Canada Basin during this phase. Tracer ages were 10 years higher in the Canada Basin, suggesting a closed circulation without direct inflow in this region. Our tracer ages generally align with previously proposed circulation schemes and water ages, with major exceptions in 2015. We have shown that the tracer ages are applicable to identify decadal changes in the Atlantic Water core pathways in the central Arctic Ocean.

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从瞬态示踪剂推断北冰洋大西洋核心水道的十年变化

大西洋水在北冰洋热量预算（大西洋化）中发挥着越来越重要的作用。大西洋水在北冰洋中的路径，尤其是它们对北极涛动等大尺度大气模式的敏感性，仍不清楚。在这项研究中，我们使用痕量气体 CFC-12 和 SF 6 ${text{SF}}_{6}$ 来研究大西洋水在北极涛动不同阶段的路径。我们计算了大西洋水最高温度的示踪年龄，重点是北冰洋美洲海盆的重复横断面（1994、2005、2015）。在 1994 年北极涛动的积极阶段，由于强大的相干边界流，楚科奇大陆架沿岸的示踪剂年龄较低。与此相反，在 2015 年北极涛动的混合阶段，在没有这种相干流的情况下，示踪年龄要高出 10 年。此外，我们还发现在这一阶段，马卡洛夫盆地和加拿大盆地之间的流入量出现了不连续性。加拿大盆地的示踪剂年龄要高出 10 年，这表明该地区的环流是封闭的，没有直接流入。我们的示踪剂年龄与之前提出的环流方案和水年龄基本一致，但 2015 年的情况例外。我们已经证明，示踪剂年龄适用于确定北冰洋中部大西洋水核心路径的十年变化。

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