Vertical imbalance in organic carbon budgets is indicative of a missing vertical transfer during a phytoplankton bloom near South Georgia (COMICS)

IF 2.3 3区 地球科学 Q2 OCEANOGRAPHY Deep-sea Research Part Ii-topical Studies in Oceanography Pub Date : 2023-06-01 DOI:10.1016/j.dsr2.2023.105277
S.L.C. Giering , R. Sanders , S. Blackbird , N. Briggs , F. Carvalho , H. East , B. Espinola , S.A. Henson , K. Kiriakoulakis , M.H. Iversen , R.S. Lampitt , K. Pabortsava , C. Pebody , K. Peel , C. Preece , K. Saw , M. Villa-Alfageme , G.A. Wolff
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引用次数: 3

Abstract

The biological carbon pump, driven principally by the surface production of sinking organic matter and its subsequent remineralization to carbon dioxide (CO2) in the deep ocean, maintains atmospheric CO2 concentrations around 200 ppm lower than they would be if the ocean were abiotic. One important driver of the magnitude of this effect is the depth to which organic matter sinks before it is remineralised, a parameter we have limited confidence in measuring given the difficulty involved in balancing sources and sinks in the ocean's interior. One solution to this imbalance might be a temporal offset in which organic carbon accumulates in the mesopelagic zone (100–1000 m depth) early in the productive season before it is consumed later. Here, we develop a novel accounting method to address non-steady state conditions by estimating fluxes of particulate organic matter into, and accumulation within, distinct vertical layers in the mesopelagic zone using high-resolution spatiotemporal vertical profiles. We apply this approach to a time series of measurements made during the declining phase of a large diatom bloom in a low-circulation region of the Southern Ocean downstream of South Georgia. Our data show that the major export event led to a significant accumulation of organic matter in the upper mesopelagic zone (100–200 m depth) which declined over the following weeks, implying that temporal offsets need to be considered when compiling budgets. However, even when accounting for this accumulation, a mismatch in the vertically resolved organic carbon budget remained, implying that there are likely widespread processes that we do not yet understand that redistribute material vertically within the mesopelagic zone.

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有机碳预算的垂直失衡表明,在南乔治亚州附近的浮游植物水华期间,垂直转移缺失(COMICS)
生物碳泵主要由下沉有机物的表面产生及其随后在深海中再矿化为二氧化碳(CO2)驱动,使大气中的CO2浓度保持在比海洋为非生物时低200ppm左右。这种影响的一个重要驱动因素是有机物在再矿化前的下沉深度,考虑到平衡海洋内部的源和汇的困难,我们对测量这个参数的信心有限。这种不平衡的一个解决方案可能是时间偏移,即有机碳在生产季节的早期积累在中层带(100-1000米深),然后被消耗掉。在这里,我们开发了一种新的核算方法,通过使用高分辨率时空垂直剖面估计颗粒有机物进入中上层不同垂直层的通量和在中上层不同竖直层内的积累,来解决非稳态条件。我们将这种方法应用于南乔治亚州下游南大洋低环流区大型硅藻华衰退期的一系列测量。我们的数据显示,这一重大出口事件导致上层中上层带(100-200米深度)的有机物大量积累,在接下来的几周里有所下降,这意味着在编制预算时需要考虑时间偏移。然而,即使考虑到这种积累,垂直解析的有机碳预算仍然不匹配,这意味着我们可能还不了解在中上层带内垂直重新分配物质的广泛过程。
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来源期刊
CiteScore
6.40
自引率
16.70%
发文量
115
审稿时长
3 months
期刊介绍: Deep-Sea Research Part II: Topical Studies in Oceanography publishes topical issues from the many international and interdisciplinary projects which are undertaken in oceanography. Besides these special issues from projects, the journal publishes collections of papers presented at conferences. The special issues regularly have electronic annexes of non-text material (numerical data, images, images, video, etc.) which are published with the special issues in ScienceDirect. Deep-Sea Research Part II was split off as a separate journal devoted to topical issues in 1993. Its companion journal Deep-Sea Research Part I: Oceanographic Research Papers, publishes the regular research papers in this area.
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