Spatiotemporal variations in vertical profiles of Fukushima-derived 137Cs in the Kuroshio-Oyashio confluence region from 2011 to 2018: Implications for local water mass dynamics and basin-scale circulations

IF 3.8 3区 地球科学 Q1 OCEANOGRAPHY Progress in Oceanography Pub Date : 2024-08-14 DOI:10.1016/j.pocean.2024.103321
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Abstract

Tracking the processes of the spread of Fukushima-derived 137Cs (137CsF) contributes to a better understanding of North Pacific water dynamics. In this study, the vertical distributions of 137Cs and 90Sr in the Kuroshio-Oyashio confluence region were investigated in May 2018, and 137CsF was separated from the background 137Cs by exploiting the constant global fallout 137Cs/90Sr ratio. To the north of 35°N, 137CsF peaked in the upper 100 m layer, whereas in and just south of the Kuroshio Extension (KE), 137CsF exhibited subsurface peaks at depths of 300–500 m. The T/S diagram indicated that the 137CsF maxima were distributed mainly within the range of lighter central mode water (L-CMW) during May 2018, even in and just south of the KE. We found that anticyclonic (cyclonic) eddies can promote (prevent) the intrusion of 137CsF into the ocean interior. In addition, the high activity of regional anticyclonic eddies in the upstream KE resulted in the modification of 137CsF-rich subtropical mode water (STMW) to L-CMW. Temporal changes in the 137CsF vertical profiles and inventories revealed that 137CsF in transitional and subarctic regions has increased since July 2014, implying the existence of additional sources of 137CsF after July 2014, whereas 137CsF in and just south of the KE has remained constant since July 2014, indicating that the 137CsF entrained by STMW has recirculated in the western subtropical gyre. The comparison between surface 137CsF concentrations in transitional and subarctic regions and those observed in Oyashio waters during 2018 did not support the return of 137CsF to our study area via the western or whole subarctic gyre by May 2018. In contrast, the sea surface height distributions from 2016 to 2017 provide clear evidence that the warm-core rings and quasistationary Isoguchi western jet generated from the Kuroshio Current and KE intruded into the transitional region and even into the subarctic region. Therefore, we concluded that a portion of the 137CsF that subducted into the subtropical western North Pacific during 2011–2012 have entered the transition zone and even the subarctic region since 2016. These results not only enhance our understanding of the protracted spread and fate of 137CsF in the North Pacific but also provide important insights into North Pacific water mass circulation and mixing patterns.

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2011 年至 2018 年黑潮-大矢志汇流区福岛 137Cs 垂直剖面的时空变化:对当地水团动力学和海盆尺度环流的影响
跟踪福岛源 137Cs(137CsF)的扩散过程有助于更好地了解北太平洋水体动力学。本研究调查了 2018 年 5 月黑潮-大矢代汇流区 137Cs 和 90Sr 的垂直分布,并利用恒定的全球降尘 137Cs/90Sr 比率将 137CsF 与本底 137Cs 分离开来。T/S图显示,2018年5月期间,137CsF最大值主要分布在较轻的中央模式水(L-CMW)范围内,即使在黑潮扩展区(KE)及其以南也是如此。我们发现,反气旋(气旋)涡可以促进(阻止)137CsF侵入海洋内部。此外,KE 上游的区域性反气旋漩涡活动频繁,导致富含 137CsF 的副热带模式水(STMW)转变为低纬度模式水(L-CMW)。137CsF 垂直剖面和库存的时间变化显示,2014 年 7 月以来,过渡区和亚北极区的 137CsF 有所增加,这意味着在 2014 年 7 月之后存在额外的 137CsF 来源,而自 2014 年 7 月以来,KE 内及以南地区的 137CsF 保持不变,这表明 STMW 所夹带的 137CsF 在西副热带涡旋中再循环。过渡区和副北极区的海面 137CsF 浓度与 2018 年期间在大屋洋水域观测到的浓度进行了比较,结果并不支持 137CsF 在 2018 年 5 月之前通过西部或整个副北极涡旋返回我们的研究区域。与此相反,2016 年至 2017 年的海面高度分布提供了明确的证据,证明从黑潮和 KE 产生的暖核环流和准静止矶口西喷流侵入了过渡区甚至亚北极区。因此,我们得出结论,2011-2012 年期间潜入北太平洋副热带西部的 137CsF 有一部分自 2016 年以来进入了过渡带甚至亚北极地区。这些结果不仅加深了我们对 137CsF 在北太平洋长期扩散和归宿的理解,还为我们了解北太平洋水团环流和混合模式提供了重要启示。
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来源期刊
Progress in Oceanography
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.
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