港口建设的环境影响:Sillamäe港口案例研究(波罗的海芬兰湾)

K. Orviku, H. Tõnisson, R. Aps, J. Kotta, I. Kotta, G. Martin, U. Suursaar, R. Tamsalu, V. Zalesny
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引用次数: 5

摘要

这项研究的目的是评估和绘制西拉玛乌勒港附近环境敏感地区(宝贵的海洋生境)的位置和状况,并评估疏浚和处置作业对当地海洋生态(特别是对宝贵的生境)的潜在影响。自从西拉马乌勒前铀浓缩厂的放射性物质倾倒场投入使用以来,就在那里进行了观察和实地测量。本研究对排土场窄隔坝的侵蚀速率和岸边泥沙的堆积速度进行了评估。近年来对海岸动态的监测主要集中在港口以东地区。虽然是一个吸引当地人的休闲区,但该地区的特点是活跃的自然过程。进行重复测量的目的是监测港口对海岸过程的影响,特别是对海岸侵蚀加剧的影响。2004年以来的最新调查并未显示港口设施对海岸动态有任何直接影响。与此同时,2005年1月或2006-2007年冬季的超强风暴造成的变化是明显的。在过去的30年里,平均冻结日期从12月转移到1月,冰的破裂开始得更早。因此,当波浪作用可以自由地到达海岸时,无冰期逐渐变长,这主要是由于秋季和冬季的暴风雨较多。疏浚和处置作业可能对底栖无脊椎动物产生直接(清除或掩埋)或/和间接影响(提高浊度和沉降率,以及改变水文状况)。因此,影响的大小和方向取决于所涉及的过程。在疏浚和处置之前、期间和之后获得的数据显示,在骚乱停止一年后,直接受影响的社区得以重建。特别监测项目的结果表明,疏浚作业对底栖生物群落的环境影响是极小至中等的。利用Sillama umle港区域的水动力模拟结果,使用FRESCO高分辨率、sigma坐标、非流体静力、斜压模型系统模拟了疏浚和处置混凝土材料产生的悬浮沉积物羽流的行为。采用窄方向近似模型计算风浪,采用k-omega湍流近似模型计算湍流混合。对四个不同空间分辨率的嵌套海相盆地进行了数值实验。在最高分辨率嵌套域,水平网格尺寸约为1/10海里。模拟结果包括悬浮沉积物浓度和沉积速率的空间信息。
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Environmental impact of port construction: Port of Sillamäe case study (Gulf of Finlad, Baltic Sea)
The aim of the study was to assess and map the location and status of environmentally sensitive areas (valuable marine habitats) near the Port of Sillama umle, and to assess the potential impacts from the dredging and disposal operations on the local marine ecology (especially on valuable habitats). The observations and field measurements were carried out there since the time when the dumping site of radioactive substances from the former uranium enrichment plant at Sillama umle was in use. The rate of erosion of the narrow separating dam of the dumping site and the velocities of accumulation of shore sediment were assessed in this study. The monitoring of seashore dynamics in recent years has been focused on an area east of the port. While being an attractive recreation area for the local people, that area is characterized by active natural processes. Repetitive measurements are carried out with the aim of monitoring the impact of the port on shore processes, particularly on increasing erosion of the shores. The most recent investigations since 2004 have not revealed any direct impact of the port facilities on shore dynamics. At the same time, changes caused by extremely strong storms of January 2005 or of winter 2006-2007 are evident. Over the last 30 years, the average freezing date has shifted from December to January and ice break-up begins earlier. As a result, the ice-free period, when wave action can freely access the coast, gets gradually longer, and it happens mainly on account of more stormy autumn and winter months. Dredging and disposal operations may have either direct (removal or burial) or/and indirect effects (enhanced turbidity and sedimentation rates, and changes in hydrographic regime) on benthic invertebrates. Thus, the magnitude and direction of the effects depend on the processes involved. The data obtained before, during and after dredging and disposal revealed the re-establishment of directly affected communities following a year after the cessation of disturbance. The results of special monitoring program concluded that the environmental impact of the dredging operations on the benthic communities was minimal to moderate. Using the results of hydrodynamic modeling of the area at the Port of Sillama umle, the behavior of suspended sediment plumes from dredging and disposal of concrete material was modeled using FRESCO high resolution, sigma coordinate, non-hydrostatic, baroclinic model system. Wind waves are calculated by narrow directional approximation model and the turbulent mixing based on the k-omega turbulence closer model. Numerical experiments have been performed for four nested marine basins with different space resolution. In the highest resolution nested domain the horizontal grid size was approximately 1/10 of nautical miles. Modeling results included spatial information on suspended sediment concentrations and sedimentation rates.
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