Spatial distribution of vertical carbon fluxes on the Agulhas Bank and its possible implication for the benthic nepheloid layer

IF 2.3 3区 地球科学 Q2 OCEANOGRAPHY
Nwabisa V. Malongweni , Emma Rocke , Michael J. Roberts , Sarah L.C. Giering
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Abstract

Vertical particle fluxes of particulate organic carbon (POC), chlorophyll a (Chl a) and biogenic silica (bSi) were measured on the productive shelf of southern Africa, the Agulhas Bank (AB), in March 2019. Sinking particulate material in the form of aggregates is hypothesized to form the benthic nepheloid layer (BNL) which is a turbid layer found near the seabed. This layer is known to affect the spawning success of squid as it is linked to high turbidity which reduces visibility during mating. To determine the distribution of fluxes and particle composition in the AB, we collected water samples below the surface mixed layer (‘export’) and near the seabed (‘bottom’) using a Marine Snow Catcher. POC export fluxes were significantly higher inshore than offshore (mean ± SD: 944.6 ± 302.0 & 461.1 ± 162.1 mg POC m−2 d−1, respectively). There was no significant difference in the cross-shelf distribution of Chl a and bSi export fluxes, however the inshore fluxes of Chl a and bSi were higher than offshore, suggesting a link between export fluxes and sinking organic matter derived from the more productive inshore surface waters. All bottom fluxes were significantly higher inshore, suggesting the contribution of sinking organic particles and resuspended bottom sediments to inshore fluxes. POC export efficiency (ratio of exported POC flux relative to net primary production (NPP)) was higher on the AB (range: 0.58–9.56) compared to the global shelf seas ratio of 0.18 and not related to NPP, suggesting an export of standing stock of carbon biomass, likely produced before the cruise. Transfer efficiency (i.e., the amount of exported flux that reaches the bottom) was also high (max: 0.99, 1.0 and 33.04 for POC, Chl a and bSi, respectively) but did not show a clear spatial pattern. We observed a significant positive correlation between bottom turbidity (a proxy for BNL presence) and export POC flux, suggesting the possibility that sinking organic matter is contributing to BNL formation on the AB.

Agulhas河岸垂直碳通量的空间分布及其对底栖霞石层的可能意义
2019年3月,在南部非洲的生产陆架Agulhas Bank(AB)上测量了颗粒有机碳(POC)、叶绿素a(Chl a)和生物二氧化硅(bSi)的垂直颗粒通量。假设以聚集体形式下沉的颗粒物质形成海底霞石层(BNL),这是一种在海底附近发现的混浊层。众所周知,这一层会影响鱿鱼的产卵成功,因为它与高浊度有关,从而降低交配过程中的能见度。为了确定AB中通量和颗粒组成的分布,我们使用海洋捕雪器收集了地表混合层(“出口”)下方和海床附近(“底部”)的水样。近海POC出口通量显著高于近海(平均值±标准差分别为944.6±302.0和461.1±162.1 mg POC m−2 d−1)。Chl a和bSi出口通量的跨大陆架分布没有显著差异,但Chl a、bSi的近海通量高于近海,表明出口通量与来自生产力较高的近海表层水的下沉有机物之间存在联系。所有底部通量都显著高于近海,这表明下沉的有机颗粒和再悬浮的底部沉积物对近海通量的贡献。AB上的POC出口效率(出口POC通量相对于净初级生产(NPP)的比率)高于0.18的全球陆架海比率(范围:0.58–9.56),与NPP无关,这表明可能在巡航前生产的碳生物质存量出口。转移效率(即到达底部的出口通量)也很高(POC、Chl a和bSi的最大值分别为0.99、1.0和33.04),但没有显示出明确的空间模式。我们观察到底部浊度(BNL存在的代表)和出口POC通量之间存在显著的正相关性,这表明下沉的有机物可能有助于在AB上形成BNL。
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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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