1980-2019年黑海深处氧气状况的变化

IF 0.7 Q4 OCEANOGRAPHY
A. Vidnichuk, S. Konovalov
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引用次数: 2

摘要

意图这项工作的目标是评估过去40年来在气候和人为因素影响下黑海深水区氧气状况的变化。方法和结果。在分析中,使用了探险队的数据(2015-2019)和俄罗斯科学院海洋水文研究所数据库的数据(1980-2013)。黑海深水部分(深度超过200米)的数据是从阵列中选择的。对水物理和水化学参数的数据进行了专家评估,包括数值随机误差在内的数据被排除在阵列之外。然后在密度标度(σt)中绘制温度、盐度、氧浓度、氧饱和度和硝酸盐浓度的平均曲线。通过逆距离法进行平均,然后通过低频滤波法进行附加平滑。结论。在水柱上层温度升高、冬季对流混合强度降低的背景下,黑海好氧区各层的氧气供应均减少。经过分析,1980-2019年期间的数据显示,在现阶段,由于气候变化和人为负荷的共同影响,黑海深水区的生态系统发生了“制度转变”。在好氧带的整个厚度上,水的氧饱和度的降低表明,黑海流域富营养化过程是影响黑海水域氧动力学的重要因素。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Changes in the Oxygen Regime in the Deep Part of the Black Sea in 1980–2019
Purpose. Assessing changes in the oxygen regime of the deep-water part of the Black Sea under the influence of climatic and anthropogenic factors over the past 40 years is the goal of the work. Methods and Results. For the analysis, the expedition data (2015–2019) and those from the Databank of the Marine Hydrophysical Institute, Russian Academy of Sciences, (1980–2013) were used. The data for the deep-water part of the Black Sea (the depths exceeding 200 m) were selected from the array. The data on hydrophysical and hydrochemical parameters were subjected to expert assessment, and those including random errors in the values were excluded from the array. Then the average profiles of temperature, salinity, oxygen concentration, oxygen saturation, and nitrates concentration were plotted in the density scale (σt). Averaging was carried out by the inverse distance method followed by additional smoothing by the low-frequency filtering method. Conclusions. Against the background of the tendency of temperature increase in the upper layers of the water column and decrease of winter convective mixing intensity, the oxygen supply diminishes in all the layers of the Black Sea aerobic zone. Having been analyzed, of the data for the 1980–2019 period showed that at the present stage, a "regime shift" resulting from the joint effect of climate changes and anthropogenic load took place in the ecosystem of the deep-water part of the Black Sea. Decrease in the oxygen saturation of water throughout the entire thickness of the aerobic zone shows that the process of the Black Sea basin eutrophication constitutes a significant factor affecting oxygen dynamics in the Black Sea waters.
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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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