利用水动力输运模式GETM对最近波罗的海流入的情景模拟

A. Stips, K. Bolding, M. Lilover
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引用次数: 4

摘要

本研究的目的是用GETM (http://getm.eu)水动力模型模拟从北海流入波罗的海到达哥特兰深的较大的盐水流入。具体来说,我们想测试不同的模型设置、不同的初始条件和各种强迫条件对咸水流入发生的影响。模式区覆盖了整个波罗的海和北海,因此不适用卡特加特地区规定的海平面强迫。初始条件和三维边界条件由气候资料导出。利用TOPEX/POSEIDON调和潮汐分析得到的13个局部潮汐,构建了英吉利海峡和北海开放边界的潮汐强迫。本文使用了来自ECMWF再分析数据的相对粗糙的气象强迫,这些强迫似乎具有足够的空间分辨率,可以再现近年来入流动态的主要特征。对于河流流入,我们使用了模式区域内30条最重要河流的气候数据。可以证明,通过使用这种低分辨率气象数据(0.5°× 0.5°)强迫模式,已经再现了该地区海平面变化的基本动态。在大多数情况下,海底和海面盐度的主要特征也得到了很好的模拟。此外,我们能够证明,对于更大的事件,从带海流入的盐水在模拟中也在前进,直到它到达哥特兰深。最后,我们将2002年和2003年的模拟情景与实测数据进行了比较。由此,我们试图确定允许海水流入的最重要标准,并试图更好地评估不确定性的范围。
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Scenario simulations of recent Baltic Sea inflows using the hydrodynamic transport model GETM
The aim of the present study is to simulate larger salt water inflows from the North Sea into the Baltic Sea reaching the Gotland Deep with the GETM (http://getm.eu) hydrodynamical model. Specifically we want to test the influence of different model settings, different initial conditions and a variety of forcing conditions on the occurrences of salt water inflows.The model area covers the whole Baltic Sea and North Sea, therefore no prescribed sealevel forcing in the Kattegat area is applied. Initial conditions and 3D boundary conditions are derived from climatological data. The tidal forcing at the open boundaries in the English Channel and the open North Sea are constructed from 13 partial tides taken from the TOPEX/POSEIDON harmonical tide analysis. Relatively coarse meteorological forcing available from ECMWF re-analysis data was used and seems to be of sufficient spatial resolution in order to reproduce the main features of the inflow dynamics during recent years. For the river inflow we used climatological data for the 30 most important rivers within the model area. It can be demonstrated, that the basic dynamics of sea level variations in that area is already reproduced by forcing the model with such low resolution meteorological data (0.5deg*0.5deg). Also the main characteristics of bottom and surface salinity are most of the time simulated sufficiently well. Further we are able to show, that for the larger events the inflowing salt water from the Belt Sea is also progressing in the simulations until it reaches the Gotland Deep. Finally we compare the modeled scenarios of the 2002 and 2003 inflows with measured data. From that we try to identify the most important criteria that allow salt water inflows to occur and we try to better assess the range of uncertainty.
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