Consistent but secondary influence of hydropeaking on stream fish assemblages in space and time

IF 4.6 Q2 ENVIRONMENTAL SCIENCES
C. Judes, V. Gouraud, Hervé Capra, Anthony Maire, A. Barillier, Nicolas, Lamouroux
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引用次数: 15

Abstract

Abstract Hydropeaking corresponds to rapid artificial discharge variations, designed to address sub-daily peaks in electricity demand. It generates rapid changes in physical habitat (e.g., flow velocity and water depth) with potential impacts on stream assemblages. For assessing the generality of hydropeaking effects on fish assemblages, we present an original combination of spatial (among 45 reaches, including six groups of nearby reaches) and temporal (over 3-17 years) analyses of these effects. Our analyses involved descriptions of natural and artificial hydraulic variations in reaches, obtained after translating hourly discharge data into hydraulics. We found that the influence of hydropeaking was secondary compared to well-known spatial variations in fish assemblage structure along longitudinal gradients, and negative influences of floods on annual densities. However, the spatial and temporal analyses consistently suggested that hydropeaking may disfavour fish species typical of medium-sized streams relative to species of headwater streams (Salmo trutta, Phoxinus phoxinus, Cottus gobio). The magnitude of hydropeaking effects observed here, as well as an apparent weaker effect of ramping rates than the frequency of hydropeaks, may be due to lower ramping rates in our data set than in other studies.
在空间和时间上,水峰对溪流鱼类群落的影响是一致的,但却是次要的
水力调峰与快速人工放电变化相对应,旨在解决电力需求的次日峰值。它使自然生境(例如流速和水深)发生迅速变化,对河流组合有潜在影响。为了评估水峰效应对鱼类群落的一般性影响,我们对这些影响进行了空间(45条河段,包括6组附近河段)和时间(3-17年)的原始组合分析。我们的分析涉及对河段自然和人工水力变化的描述,这些变化是在将每小时的流量数据转换为水力数据后获得的。我们发现,与众所周知的鱼类组合结构纵向梯度的空间变化和洪水对年密度的负面影响相比,水峰化的影响是次要的。然而,空间和时间分析一致表明,相对于源头河流的物种(Salmo trutta, Phoxinus Phoxinus, Cottus gobio),水力峰值可能不利于中型河流的典型鱼类。这里观察到的水峰效应的大小,以及明显弱于水峰频率的斜坡速率效应,可能是由于我们数据集中的斜坡速率比其他研究中的要低。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
7.10
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