将功能性生境和鱼类种群动态模型联系起来,改进河流恢复规划和评估。

IF 8 2区 环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES
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引用次数: 0

摘要

内流生境改善被广泛用于改善河流的生态条件,通常优先考虑关键的鱼类生命阶段,如产卵和幼鱼发育。然而,目前还没有标准方法来预测它们对鱼类繁殖和种群的影响。在这里,我们使用了一个空间明确的种群动力学模型,该模型整合了功能性生境动力学,以评估因河(德国东南部)受水电影响河段的两项恢复措施对四种嗜流性和嗜石性鱼类--灰鳞鱼、鳢、鲃和鲢--的繁殖潜力的影响。所实施的修复措施包括修建一条旁通河道和一个岛屿边河道系统,以改善纵向连通性和栖息地条件。此外,我们还分析了两个替代方案,这两个方案可将育苗栖息地的功能可用性从实际的 33.2% 分别提高到 66.8% 和 95.3%。结果表明,栖息地条件改善后,目标物种的平均产量将增加 14.9 头/公顷(5.6 千克/公顷)。然而,可用育苗栖息地的有限可及性对所有物种而言都是一个重要的繁殖瓶颈。在替代方案中,功能连通性的提高将使平均密度分别达到 17.9 和 25.8 个/公顷。然而,由于种群对产卵-育苗栖息地比率的反应各不相同,潜在的进一步改善也因物种而异,密度变化在灰鳕-11.7%和鲢-172.6%之间。这项研究不仅证明了建模方法在评估和规划恢复措施方面的适用性,还强调了考虑栖息地比率及其功能连通性以优化繁殖潜力的重要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Linking functional habitat and fish population dynamics modeling to improve river rehabilitation planning and assessment

In-stream habitat enhancement is widely used to improve ecological conditions in rivers, often prioritizing key fish life stages such as spawning and juvenile development. However, no standard approaches exist to predict their effects on fish recruitment and populations. Here, we use a spatially-explicit population dynamics model that integrates functional habitat dynamics to assess the impact of two rehabilitation measures in a hydropower-impacted section of the Inn River (SE Germany) on the recruitment potential of four rheophilic and lithophilic fish species — grayling, nase, barbel, and chub. Rehabilitation measures implemented included the construction of a bypass channel and an island side-channel system to improve both longitudinal connectivity and habitat conditions. In addition, we analyzed two alternatives, which would enhance functional availability of nursery habitats from actual 33.2% to 66.8% and 95.3%, respectively. The results suggest that the improved habitat conditions will yield on average additional 14.9 individuals/ha (5.6 kg/ha) of the target species. However, the limited accessibility of usable nursery habitat constitutes a significant recruitment bottleneck for all species. In the alternative scenarios, the increase of functional connectivity will result in average densities of 17.9 and 25.8 individuals/ha, respectively. However, potential further improvements are species-specific, because of distinct population responses to spawning-to-nursery habitat ratios, with density changes varying between -11.7% for grayling and +172.6% for chub. This study not only demonstrates the applicability of the modeling approach for assessing and planning rehabilitation measures but also emphasizes the importance of considering habitat ratios and their functional connectivity to optimize recruitment potential.

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来源期刊
Journal of Environmental Management
Journal of Environmental Management 环境科学-环境科学
CiteScore
13.70
自引率
5.70%
发文量
2477
审稿时长
84 days
期刊介绍: The Journal of Environmental Management is a journal for the publication of peer reviewed, original research for all aspects of management and the managed use of the environment, both natural and man-made.Critical review articles are also welcome; submission of these is strongly encouraged.
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