风浪对半封闭波罗的海环境噪声和气泡夹带深度的影响

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-04-01 DOI:10.1016/j.oceano.2023.12.003
Agata Dragan-Górska , Natalia Gorska , Piotr Markuszewski , Zygmunt Klusek
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引用次数: 0

摘要

半封闭、受风向限制的水域为风浪的发展和破浪创造了独特的条件。破浪参数会影响气泡夹带深度和相关噪声,这也是半封闭海域与开放海域不同的原因。虽然既定的噪声-风速关系在海洋条件下成立,但在波罗的海等受陆地限制的盆地中却有所不同。为了探索噪声水平、气泡夹带深度和风速之间的关系,我们连续两个夏天在波罗的海选定区域进行了噪声和次表层气泡测量,并进行了风速观测。采用了一种新方法来估算强反向散射条件下的气泡夹带深度。采用波场参数的模型数据来评估它们对噪声级和气泡夹带深度的影响。结果表明,与波龄和风海陡度相比,噪声级与风速和波高之间的联系更为密切。气泡夹带深度与风速和波场参数之间的相关性也是如此。参数化的噪声水平-风速关系与海洋条件下的关系不同,而且在不同的测量时段也有差异。观测到的差异是由不同的风浪条件造成的,特别是风速、风向、波高和是否有涌浪。首次报告了波罗的海条件下噪声水平与气泡夹带深度的关系。为了全面分析这些因素对噪声和气泡的影响,需要在不同风浪条件下进行更长时间的测量,以考虑特定地点的波场特征。
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Influence of wind and waves on ambient noise and bubble entrainment depth in the semi-enclosed Baltic Sea

Semi-enclosed, fetch-limited waters create unique conditions for wind wave development and breaking. Parameters of breaking waves influence bubble entrainment depth and associated noise, which is why they differ in semi-enclosed sea compared to open waters. While the established noise-wind speed relationship holds in oceanic conditions, it differs in land-constrained basins like the Baltic Sea. To explore noise level, bubble entrainment depth and wind speed relationships, we conducted noise and sub-surface bubble measurements, coupled with wind observations, in the selected area of the Baltic Sea during two consecutive summers. A novel method was employed to estimate bubble entrainment depth under conditions of strong backscatter. Model data of wave field parameters were employed to assess their influence on noise level and bubble entrainment depth. Results suggest stronger connections between noise level and wind speed, as well as wave height, compared to wave age and wind sea steepness. The same patterns hold true for the correlation between bubble entrainment depth and both wind speed and wave field parameters. The parameterized noise level-wind speed relationship differs from that obtained for oceanic conditions and also varies across measurement periods. Observed differences were shaped by varying wind-wave conditions, notably differences in wind speed, direction, wave height, and the presence of swell. The noise level-bubble entrainment depth relation is reported for the first time for Baltic Sea conditions. For a thorough analysis of the influence of these factors on noise and bubbles, longer measurements under diverse wind-wave conditions are required to account for site-specific wave field characteristics.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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