黑海小颗粒的下沉速度:来自Bio-Argo连续后向散射测量的垂直分布和季节变化

IF 2.7 3区 地球科学 Q2 GEOSCIENCES, MULTIDISCIPLINARY Journal of Marine Systems Pub Date : 2022-03-01 DOI:10.1016/j.jmarsys.2021.103695
A.A. Kubryakov, S.V. Stanichny
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引用次数: 0

摘要

利用高分辨率Bio-Argo背向散射(bbp)测量数据,研究了黑海0 ~ 200 m层高反射小颗粒沉降的垂直分布和时间变异性。颗粒的演化分为三个阶段:形成、下沉和移除。高反射小颗粒的形成主要与初夏和初冬球石藻的大量繁殖和亚氧区悬浮氧化锰的形成有关。根据bbp的垂直分布及其在颗粒形成层上的值来估计颗粒的去除率。此外,利用bbp异常的时间-深度图等值线分析,自动估计下沉速度(w)的垂直分布和季节和年际变化,w的平均值为~0.8 m/d,与实验室估计的coccolith下沉一致(Fritz和Balch, 1996)。物理过程对w影响显著:秋末-初冬混合层加深w增加1 ~ 1.5 m/d;夏季增温和上层密度降低促进了球石藻深度加深(w = 0.9 ~ 1.1 m/d)。在40 ~ 80 m的主斜斜强分层层中,最小下沉速度出现在一年的暖期。在年际时间尺度上,我们观察到w在最强的球石藻华期间增加,这可能与颗粒聚集增强有关。球石藻冬季繁殖后沉降颗粒可追溯至缺氧区,可能影响含锰颗粒的沉降及相关生化过程。
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Sinking velocity of small particles in the Black Sea: Vertical distribution and seasonal variability from continuous Bio-Argo measurements of backscattering

High-resolution Bio-Argo measurements of backscattering (bbp) were used to study the vertical distribution and time variability of the sinking of small, highly reflective particles in the Black Sea in the 0–200 m layer. The evolution of particles is divided into three stages: formation, sinking, and removal. The formation of small, highly reflective particles is mainly related to early summer and early winter coccolithophore blooms and the formation of suspended oxidized manganese in the suboxic zone. The removal rate of the particles was estimated from the vertical distribution of bbp in relation to its values at the layers of particle formation. Further, contour analysis of the time-depth diagram of bbp anomalies was used to automatically estimate the vertical distribution and seasonal and interannual variability of sinking velocity (w). The average value of w is ~0.8 m/day, which agrees with laboratory estimates of coccolith sinking (Fritz and Balch, 1996). Physical processes significantly affect w: mixed layer deepening in late autumn-early winter increase w up to 1–1.5 m/day; warming and a decrease in density of upper layers promote coccolithophores deepening in summer (w = 0.9–1.1 m/day). Minimum sinking velocity is observed in the warm period of a year in the strongly stratified layers of the main pycnocline at 40–80 m. On interannual time scales, we observed an increase in w during the strongest coccolithophore blooms, which is probably related to the enhanced particle aggregation. Sinking particles after winter coccolithophore blooms are traced up to the suboxic zone, where it probably affects the settling of manganese-containing particles and related biochemical processes.

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来源期刊
Journal of Marine Systems
Journal of Marine Systems 地学-地球科学综合
CiteScore
6.20
自引率
3.60%
发文量
81
审稿时长
6 months
期刊介绍: The Journal of Marine Systems provides a medium for interdisciplinary exchange between physical, chemical and biological oceanographers and marine geologists. The journal welcomes original research papers and review articles. Preference will be given to interdisciplinary approaches to marine systems.
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