Effects of different conditions on particle dynamics and properties in West-Estonian coastal areas

IF 2.6 3区 地球科学 Q2 OCEANOGRAPHY Oceanologia Pub Date : 2022-10-01 DOI:10.1016/j.oceano.2022.06.006
Mirjam Uusõue , Martin Ligi , Tiit Kutser , François Bourrin , Kristi Uudeberg , Kersti Kangro , Birgot Paavel
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引用次数: 2

Abstract

Satellite sensors are used to monitor water on a large scale. One of the key variables defining the water-leaving signal is suspended particulate matter (SPM) and thus it is important to understand its properties to improve remote sensing algorithms. However, only a few studies investigating the variability of SPM properties (concentration, nature and size) under different seasonal, weather and geographical conditions have been carried out in the Baltic Sea. We focused on relatively shallow areas (maximum depth of 10 m) where there is strong sediment transport by rivers and resuspension of the particles by wave action and advection by currents. Eleven field campaigns were conducted using a set of instruments measuring inherent optical properties, auxiliary data, and, in Pärnu Bay, also particle size distributions. The results showed that the SPM concentrations, particulate absorption, mass-specific particulate scattering, and backscattering varied temporally and spatially from 5.5–19.6 g m−3, 0–5.62 m−1, 0.08–1.45 m2 g−1, and 0.0009–0.25 m2 g−1, respectively. The spectral backscattering ratio, which in general is considered to be constant in bio-optical remote sensing algorithms, was actually wavelength-dependent and varied between 0.005 and 0.09 depending on the origin of the particles (organic or mineral matter), particle size distribution, weather conditions, and location. In situ particle size measurements in coastal waters of Pärnu Bay also showed that resuspended fine clay particles agglomerated into flocs of >30 µm in the brackish waters of the Baltic Sea having random shapes and different sizes.

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不同条件对爱沙尼亚西部沿海地区粒子动力学和特性的影响
卫星传感器被用于大规模监测水资源。悬浮颗粒物(SPM)是确定水体离开信号的关键变量之一,因此了解其性质对改进遥感算法具有重要意义。然而,在波罗的海,只有少数研究调查了不同季节、天气和地理条件下SPM性质(浓度、性质和大小)的变异性。我们将重点放在相对较浅的区域(最大深度为10米),那里有很强的河流沉积物运输和波浪作用和水流平流对颗粒的再悬浮。使用一套测量固有光学特性、辅助数据以及(Pärnu Bay)粒径分布的仪器进行了11次实地考察。结果表明,SPM浓度、颗粒吸收、质量比颗粒散射和后向散射在时间和空间上分别为5.5 ~ 19.6 g m−3、0 ~ 5.62 m−1、0.08 ~ 1.45 m2 g−1和0.0009 ~ 0.25 m2 g−1。在生物光学遥感算法中,光谱后向散射比通常被认为是恒定的,但实际上与波长有关,根据颗粒的来源(有机物或矿物)、颗粒大小分布、天气条件和位置,光谱后向散射比在0.005至0.09之间变化。Pärnu湾沿海水域的原位粒径测量也表明,在波罗的海的半咸淡水中,重悬浮的细粘土颗粒聚集成>30µm的絮凝体,形状随机,大小不一。
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来源期刊
Oceanologia
Oceanologia 地学-海洋学
CiteScore
5.30
自引率
6.90%
发文量
63
审稿时长
146 days
期刊介绍: Oceanologia is an international journal that publishes results of original research in the field of marine sciences with emphasis on the European seas.
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