印度尼西亚贯通流与塞舌尔-查戈斯热跃层海脊叶绿素藻华之间的关系

IF 3.8 3区 地球科学 Q1 OCEANOGRAPHY Progress in Oceanography Pub Date : 2024-05-31 DOI:10.1016/j.pocean.2024.103287
M.D. Carr , B. Aguiar-González , J. Hermes , J. Veitch , C.J.C. Reason
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引用次数: 0

摘要

塞舌尔-查戈斯热跃层海脊(SCTR)是印度洋西南部(南纬 5-10 度,东经 45-90 度)受热带涡旋影响而形成的一个具有重要生物学意义的开阔洋上升流区域。南印度洋上升流指的是一个拉长的地貌,它连接了两个当地的热跃层深度最小值:塞舌尔穹隆(SD)和查戈斯穹隆(CD)。印度尼西亚贯通流(ITF)从东面进入海洋盆地,与上升流区域相互作用,但迄今为止,与 SCTR 相关的浮游植物大量繁殖与 ITF 之间的关系尚未得到研究。利用现场观测数据和遥感数据,我们发现来自 ITF 的浮力通量在季节和年际尺度上对 SCTR 东端查戈斯穹顶的地表叶绿素-a(chl-a)浓度有很大影响。因此,我们发现 ITF 的高度计体积传输与地表叶绿素-a 浓度之间存在明显的反相关性(r = -0.43)。如果只考虑 ITF 容积传输异常的第 10 和第 90 百分位数,则这种反相关性会增加(r = -0.61),这表明 ITF 的影响可能会超过其他物理驱动因素,尤其是在极端 ITF 事件下。我们假设,强 ITF 输入的浮力通量用温暖、盐度较低的海水 "封盖 "了查戈斯穹顶,抑制了表层浮游植物,降低了表层 chl-a 浓度。该地区的遥感表面盐度和表面 chl-a 之间存在显著的强相关性(r = 0.66),从而支持了这一假设。在塞舌尔群岛穹顶上没有发现这种关系,因为 ITF 对藻华的直接影响较弱。这些结果表明,ITF 水域的西行可能会制约 SCTR 的东扩,从而影响相关 chl-a 水华的区域范围。这在季节和年际时间尺度上与下沉罗斯比波的传播同时发生,加深了热层,促进了 ITF 水体的西进。这一点可以通过南极研究堆东部海域的 RAMA 停泊阵列的遥感和现场深度观测结合起来看出来,在那里,典型的 ITF 水域--温暖、盐度较低的水域的侵入与下沉的罗斯比波同时加深了温跃层。因此,ITF 水域的西行和下行 Rossby 波的传播都决定了 SCTR 的东扩,从而决定了每年相关地表 chl-a 水华的区域范围。
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On relationships between the Indonesian Throughflow and the chlorophyll bloom within the Seychelles-Chagos Thermocline Ridge

The Seychelles-Chagos Thermocline Ridge (SCTR) is a biologically important region of open ocean upwelling within the south west Indian Ocean (5–10°S and 45–90°E), driven by the tropical gyre. The SCTR refers to an elongated feature that joins two local minima in thermocline depth; the Seychelles Dome (SD) and Chagos Dome (CD). Entering the ocean basin from the east, the Indonesian Throughflow (ITF) has been shown to interact with the upwelling region, although the relationship between the phytoplankton bloom associated with the SCTR and the ITF are so far unexplored. Using in situ observations and remotely sensed data, the buoyancy fluxes from the ITF are shown to strongly condition surface chlorophyll-a (chl-a) concentrations over the Chagos Dome, the eastern extreme of the SCTR, at seasonal and interannual scales. Accordingly, we find a significant inverse correlation (r = −0.43) between the altimeter-derived volume transport of the ITF and the surface chl-a concentrations. This inverse correlation increases (r = −0.61) when only the 10th and 90th percentile of the ITF volume transport anomalies are considered, indicating the influence of the ITF may be overcoming other physical drivers, especially under extreme ITF events. We hypothesise that the buoyancy flux of a strong ITF input ‘caps’ the Chagos Dome with warm, less saline waters, suppressing surface phytoplankton and reducing the surface chl-a concentrations. This hypothesis is supported by a strong, significant correlation (r = 0.66) between remotely sensed surface salinity and surface chl-a over the region. This relationship is not found over the Seychelles Dome, where the ITF has a weaker direct impact over the bloom. These results suggest that the westward travel of ITF waters may condition the eastward expansion of the SCTR and, therefore, the zonal extent of the associated chl-a bloom. This happens at seasonal and interannual time-scales concomitantly with the propagation of downwelling Rossby waves, deepening the thermocline and facilitating the westward advance of ITF waters. This is visible through a combination of remotely sensed and in situ observations at depth from the RAMA mooring array at the eastern domain of the SCTR, where intrusions of warm, less saline waters, typical of ITF waters, coincide with downwelling Rossby waves deepening the thermocline. Thus, both the westward travel of ITF waters and the propagation of downwelling Rossby waves shape the eastward expansion of the SCTR and, therefore, the zonal extent of the associated surface chl-a bloom on a year-to-year basis.

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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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