Internal seiches in a karstic mesotrophic lake (Prošće, Plitvice Lakes, Croatia)

IF 0.9 4区 地球科学 Q4 GEOCHEMISTRY & GEOPHYSICS
Geofizika Pub Date : 2020-12-23 DOI:10.15233/gfz.2020.37.11
Z. Klaic, Karmen Babić, T. Mareković
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引用次数: 2

Abstract

A lake temperature experiment was performed at the Prošće, Plitvice Lakes, Croatia during a 4-month observational period (6 July–4 November, 2019) to investigate the occurrence and characteristics of internal seiches in the lake. Two-minute mean lake temperatures were measured at a single lake point at fifteen depths ranging from 0.2 to 27 m. Analysis of these data provided insight into the previously unknown and rather complex Prošće Lake seiching. Power spectral densities (PSDs) and magnitude-squared coherences (γ2), together with corresponding cross-spectrum phases that were obtained from the hourly mean lake temperature, air pressure and wind speed data, suggested the presence of three vertical modes of an internal seiche. The first mode (V1H1, period of 6.09 h) corresponds to free baroclinic oscillations; the second mode (V2H1, period of 11.64 h) and the third mode (V3H1, period of 25.60 h) are associated with forced baroclinic oscillations of the lake interior. Excitation of the higher vertical modes is attributed to the influence of dense tributary water. Due to this water influence, vertical temperature gradients in the lake interior were relatively weak; consequently, a single thick metalimnion and/or two metalimnetic layers were established, which resulted in the presence of the V2H1 and V3H1 modes, respectively. Additionally, due to the influence of tributary water, the lake did not attain the typical stratification that is characterized by hypolimnetic temperatures of ≈ 4°C. Instead, during the entire observational period, the hypolimnetic temperatures were consistently above 7.6 °C.
岩溶中营养湖泊中的内部裂缝(克罗地亚普利特维斯湖Prošće)
在克罗地亚Plitvice湖的Prošće进行了为期4个月的观测期(2019年7月6日至11月4日)的湖泊温度实验,以调查湖泊内部裂缝的发生和特征。在0.2至27米的15个深度的单个湖泊点测量了两分钟的平均湖泊温度。对这些数据的分析使我们得以深入了解以前未知且相当复杂的Prošć湖。功率谱密度(PSD)和震级平方相干(γ2),以及从每小时平均湖泊温度、气压和风速数据中获得的相应的互谱相位,表明存在内部地震的三种垂直模式。第一种模式(V1H1,周期6.09h)对应于自由斜压振荡;第二模式(V2H1,周期11.64小时)和第三模式(V3H1,周期25.60小时)与湖泊内部的强迫斜压振荡有关。较高垂直模式的激发归因于密集支流水的影响。由于这种水的影响,湖泊内部的垂直温度梯度相对较弱;因此,建立了单个厚金属离子和/或两个金属网层,这分别导致V2H1和V3H1模式的存在。此外,由于支流水的影响,该湖没有达到以≈4°C的低湖温为特征的典型分层。相反,在整个观测期内,低气候温度始终高于7.6°C。
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来源期刊
Geofizika
Geofizika 地学-地球化学与地球物理
CiteScore
1.60
自引率
0.00%
发文量
17
审稿时长
>12 weeks
期刊介绍: The Geofizika journal succeeds the Papers series (Radovi), which has been published since 1923 at the Geophysical Institute in Zagreb (current the Department of Geophysics, Faculty of Science, University of Zagreb). Geofizika publishes contributions dealing with physics of the atmosphere, the sea and the Earth''s interior.
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