Studying the Fluxes of the Marine Ecosystem Components from the Northwestern Shelf to the Deep Part of the Black Sea

IF 0.7 Q4 OCEANOGRAPHY
V. Dorofeyev, L. Sukhikh
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引用次数: 2

Abstract

Purpose. The study represents analysis of the features of the Black Sea ecosystem components transfer from the northwestern shelf to the deep-sea part and its dependence on circulation in the sea upper layer. Methods and Results. The fluxes of water mass, nutrients and bioproduction from the shelf zone to the deep part of the sea were calculated using the current fields and biogeochemical ones resulted from the reanalysis, which, in its turn, was carried out due to the Black Sea ecosystem model including assimilation of remote sensing data both in the numerical circulation model and in the biogeochemical block. Numerical modeling permitted to calculate the fluxes through three sections that bound the shelf zone (by the capes Kaliakra and Chersonesus, and along the 200 m isobath). Behavior of the RIM Current jet and, consequently, direction and magnitude of the flows through the boundaries of the northwestern shelf depend on the wind stress vorticity over the western part of the Black Sea. The type of circulation with the intense RIM Current jet pressed to the shelf edge, is characterized by the pattern of distribution of the inorganic nitrogen and phytoplankton surface concentration as a narrow strip of its high values along the Black Sea western and partially southern coasts. When the RIM Current jet is weak or moves from the shelf edge (that corresponds to the low values of the wind stress vorticity) the increased concentration values are located on the northwestern shelf. Conclusions. Direction, magnitude and character of horizontal distribution of the nutrient and bioproduction fluxes are determined mainly by circulation in the sea upper layer. The magnitude of these flows is significantly affected by difference between the nutrient and bioproduction concentrations in the shelf zone and in the deep part of the Black Sea.
西北陆架至黑海深部海洋生态系统成分通量的研究
目的。本研究分析了黑海生态系统组分从西北陆架向深海转移的特征及其对海洋上层环流的依赖。方法与结果。利用再分析得到的海流场和生物地球化学场计算了陆架带向深海的水通量、营养物通量和生物产量通量,再分析又利用黑海生态系统模型进行了再分析,其中包括在数值环流模型和生物地球化学块中同化遥感数据。数值模拟可以计算出连接陆架带的三个部分(卡利亚克拉角和切尔松苏斯角,以及沿200米等深线)的通量。黑海西部的风应力涡度决定了RIM急流的行为,从而决定了西北陆架边界气流的方向和大小。该环流类型以强烈的RIM急流压向陆架边缘为特征,其特征是无机氮和浮游植物表面浓度沿黑海西部和部分南部海岸呈高值窄条状分布。当RIM急流较弱或从陆架边缘移动时(对应于风应力涡度值较低),增加的浓度值位于西北陆架。结论。营养通量和生物生产通量水平分布的方向、大小和特征主要由海洋上层环流决定。这些流动的大小受到大陆架带和黑海深处营养物和生物生产浓度差异的显著影响。
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来源期刊
Physical Oceanography
Physical Oceanography OCEANOGRAPHY-
CiteScore
1.80
自引率
25.00%
发文量
8
审稿时长
24 weeks
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