Hydro-morphological alteration and related effects on fish habitat induced by sediment management in a regulated Alpine river

IF 3.5 2区 环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES
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引用次数: 0

Abstract

Sediment pulses can cause relevant geomorphological alteration and fine sediment deposition, affecting the entire river ecosystem. Quantifying the impact of these events is becoming increasingly important, as sediment disturbance is predicted to intensify because of growing anthropogenic activity combined to the effects of current climate change. In this paper, the effects of a sediment pulse event on riverbed morphology and, in turn, on fish habitat availability are assessed in a regulated river, located in the southern European Alps. Specifically, four target fish species were selected: marble (Salmo marmoratus) and brown trout (Salmo trutta), grayling (Thymallus thymallus), and bullhead (Cottus gobio). The investigated event was triggered by the effects of localized landslides combined with an uncontrolled sediment release from a hydropower reservoir. A pre-post event integrated approach was applied, involving topographic surveys, fine sediment deposition measurements, and eco-hydraulic modeling. Habitat availability analysis was done using two-dimensional steady-state channel-flow simulation and standard habitat suitability modeling, with univariate suitability curves as biological input. The investigation focused on two river reaches, quite close each other, but characterized by significantly different streamflow patterns, due to the layout of the local hydropower system. The results showed that noticeable riverbed fining occurred at both study reaches after the pulse, with the maximum thickness of the fine sediment deposits up to one meter, and higher amounts of deposition detected in areas wetted at baseflow. Moreover, for both reaches, recovery to the pre-event riverbed grain-size condition occurred in about a year, but with differences related to different streamflow patterns. Pre-post topographic comparison showed that areas of erosion prevailed over areas of deposition, and fine sediment deposition was not systematically associated to the riverbed elevation raise. Simulated habitat availability was affected by both topographic changes and fine sediment deposition, with the latter predominantly impacting juveniles and the most bottom dwelling species, i.e., the bullhead. The study confirms the need for improving the management of the hydro-sedimentary regime of regulated rivers to preserve the habitat of fish species, particularly of those characterized by conservation status already endangered.

高寒河流泥沙管理引起的水文形态变化及其对鱼类生境的影响
泥沙脉动可引起相应的地貌变化和细沙沉积,影响整个河流生态系统。量化这些事件的影响正变得越来越重要,因为据预测,由于日益增长的人为活动加上当前气候变化的影响,沉积物扰动将加剧。在本文中,沉积物脉冲事件对河床形态的影响,进而对鱼类栖息地的可用性进行了评估,位于欧洲阿尔卑斯山南部的一条受管制的河流。具体而言,选择了四种目标鱼类:大理石鱼(Salmo marmoratus)和褐鳟(Salmo trutta)、灰鳟(Thymallus Thymallus)和牛头鱼(Cottus gobio)。所调查的事件是由局部滑坡的影响和水电站水库不受控制的泥沙释放引起的。采用事件前后综合方法,包括地形调查、细沉积物沉积测量和生态水力建模。采用二维稳态通道流模拟和标准生境适宜性模型,以单变量适宜性曲线作为生物输入,进行生境可用性分析。调查的重点是两条河段,它们相距很近,但由于当地水电系统的布局,其水流形态有明显不同。结果表明,脉冲后,两个研究河段的河床都发生了明显的细砂沉积,细砂沉积的最大厚度可达1米,在基流湿润的区域检测到的沉积物量更高。此外,两河段的河床粒度恢复时间均在1年左右,但因径流类型不同而存在差异。地形前后对比表明,侵蚀区大于淤积区,细沙淤积与河床高程升高无系统关联。模拟生境可得性受地形变化和细沙沉积的双重影响,其中细沙沉积主要影响幼鱼和最底栖物种,即大头鱼。这项研究证实有必要改进对受管制河流的水沉积制度的管理,以保护鱼类的生境,特别是那些已处于濒危状态的鱼类的生境。
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来源期刊
International Journal of Sediment Research
International Journal of Sediment Research 环境科学-环境科学
CiteScore
6.90
自引率
5.60%
发文量
88
审稿时长
74 days
期刊介绍: International Journal of Sediment Research, the Official Journal of The International Research and Training Center on Erosion and Sedimentation and The World Association for Sedimentation and Erosion Research, publishes scientific and technical papers on all aspects of erosion and sedimentation interpreted in its widest sense. The subject matter is to include not only the mechanics of sediment transport and fluvial processes, but also what is related to geography, geomorphology, soil erosion, watershed management, sedimentology, environmental and ecological impacts of sedimentation, social and economical effects of sedimentation and its assessment, etc. Special attention is paid to engineering problems related to sedimentation and erosion.
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