The Rapid Response of Southern Ocean Biological Productivity to Changes in Background Small Scale Turbulence

IF 3.3 2区 地球科学 Q1 OCEANOGRAPHY Journal of Geophysical Research-Oceans Pub Date : 2024-10-06 DOI:10.1029/2024JC021158
E. Ellison, M. Mazloff, A. Mashayek
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Abstract

Background subsurface vertical mixing rates in the Southern Ocean (SO) are known to vary by an order of magnitude temporally and spatially, due to variability in their generating mechanisms, which include winds and shear instabilities at the surface, and the interaction of tides and lee waves with rough bottom topography. There is great uncertainty in the parameterization of this mixing in coarse resolution Earth System Models (ESM), and in the impact that this has on SO biological productivity on sub decadal timescales. Using a data assimilating biogeochemical ocean model we show that SO phytoplankton productivity is highly sensitive to differences in background diapycnal mixing over short timescales. Changes in the background vertical mixing rates alter key biogeochemical and physical conditions. The greatest changes to the distribution of physical and biogeochemical tracers occur in regions with very strong tracer vertical gradients. A combination of reduced nutrient limitation and reduced light limitation causes a strong increase in SO phytoplankton productivity with higher background mixing. This leads to increased summer carbon export but reduced wintertime export over the mixed layer depth, which could alter the strength of the SO biological carbon pump and atmospheric CO 2 ${\text{CO}}_{2}$ concentrations on centennial to millennial timescales. This study demonstrates the importance of accurately representing diapycnal mixing in ESM to predict SO biogeochemical dynamics and their broader climatic implications.

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南大洋生物生产力对背景小尺度湍流变化的快速反应
南大洋(SO)的本底次表层垂直混合率在时间和空间上都有数量级的变化,这是由于其产生机制的可变性造成的,其中包括海面的风和剪切不稳定性,以及潮汐和利波与粗糙海底地形的相互作用。在粗分辨率地球系统模式(ESM)中,这种混合的参数化存在很大的不确定性,而且在十年以下的时间尺度上,这种混合对 SO 生物生产力的影响也存在很大的不确定性。通过使用数据同化生物地球化学海洋模式,我们发现在短时标上,海洋浮游植物生产力对背景近岸混合的差异非常敏感。背景垂直混合率的变化会改变关键的生物地球化学和物理条件。物理和生物地球化学示踪剂分布的最大变化发生在示踪剂垂直梯度非常强的区域。养分限制减少和光照限制减少的共同作用,导致 SO 浮游植物生产力随着更高的背景混合率而大幅提高。这导致夏季碳输出增加,但冬季混合层深度的碳输出减少,从而可能在百年到千年时间尺度上改变 SO 生物碳泵的强度和大气中 CO 2 ${text{CO}}_{2}$ 的浓度。这项研究表明,在预测 SO 的生物地球化学动力学及其对气候的广泛影响时,必须在 ESM 中准确表示近缘混合。
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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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