海峡内水交换阻塞对环境的影响——波罗的海的一项多学科研究

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-01-01 DOI:10.1016/j.oceano.2023.06.002
Taavi Liblik , Fred Buschmann , Enriko Siht , Ivan Kuprijanov , Germo Väli , Maarja Lipp , Ants Erm , Jaan Laanemets , Redik Eschbaum , Aare Verliin , Lauri Saks , Ivar Zekker
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引用次数: 0

摘要

在这项研究中,我们报告了 1896 年在波罗的海东北部浅海韦克海峡修建的 3 公里公路大坝阻断水交换对环境的影响。通过多学科测量活动和数值模拟,我们发现该海峡的生态条件发生了很大变化;以前自由流动的海峡现在由两个具有独立循环系统的海湾组成。大坝附近区域的水交换量减少了 10-12 倍。由于平流作用减弱,与大气和沉积物的交换在形成水体特征方面的作用相对更大。因此,夏季在大坝附近偶尔会观察到极高的海面温度、盐度和总氮,以及水温(>4°C)和溶解氧(>4 mg l-1)的强烈昼夜循环。冬季氧气水平持续低于饱和状态,冰层覆盖时氧气浓度偶尔会降至缺氧水平。大坝附近沉积物中的氮含量是附近地区的 3-4 倍。大坝还改变了海峡的海平面、风浪和悬浮物模式。大坝附近沉积物中有害物质含量较高,可能与大坝道路交通有关。大坝附近的底栖生物群落以一年生绿藻为主,这些绿藻在冬季会大量分解。大坝可能会阻碍鱼类在合适的觅食区和产卵区之间洄游,海平面的急剧波动也曾导致鱼类死亡,而大坝又放大了这一影响。修建新的开口将减轻大坝的负面影响。
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Environmental impact of water exchange blocking in a strait – a multidisciplinary study in the Baltic Sea

In this study, we report the environmental impact of water exchange blocking by a 3 km road dam built in 1896 in the shallow Väike Strait, north-eastern Baltic Sea. Using a multidisciplinary measurement campaign and numerical simulations, we show ecological conditions in the strait have considerably altered; the previously free-flowing strait now comprises two bays with separate circulation systems. Water exchange in the area close to the dam has decreased 10–12-fold. Since advection is weakened, exchange with the atmosphere and sediments has a relatively greater role in shaping water characteristics. Consequently, occasional very high sea surface temperature, salinity, and total nitrogen, and strong diurnal cycles in water temperature (>4°C) and dissolved oxygen (>4 mg l−1) were observed near the dam in summer. Oxygen levels are continuously below saturation in winter and concentration occasionally drops to hypoxic levels with ice cover. Nitrogen content in sediments near the dam is 3–4 times higher than in neighboring areas. The dam also modifies sea level, wind wave and suspended matter patterns in the strait. Sediments near the dam show elevated content of hazardous substances likely associated with traffic on the dam road. The phytobenthos community near the dam is dominated by annual green algae, which massively decompose during winter. The dam likely impedes fish migration between suitable feeding and spawning areas, also there have been fish kills caused by rapid fluctuations in sea levels, amplified by dam. The construction of new openings would alleviate negative impacts of the dam.

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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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