Biogeomorphological floodplain dynamics along a degradation gradient of an Alpine river

IF 1.7 4区 环境科学与生态学 Q4 ENVIRONMENTAL SCIENCES
Thomas C. Wagner, Romy Woellner, Veronika Kloska, Johannes Kollmann
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Abstract

Channel migration, furcation, and vegetation succession are characteristic processes of braided gravel rivers in Alpine regions. These are associated with a frequent turnover of large parts of the active floodplain. However, more than one century of river regulation has reduced or destroyed most of these ecosystem dynamics. More recently, there have been attempts to restore at least some sections of degraded rivers, while there is little monitoring of the biogeomorphological dynamics of such rivers. Thus, we did a four-year analysis of four representative sections of the upper River Isar in Southern Germany differing in their degree of naturalness. Dynamics of channels, gravel bars, and vegetation were recorded by drone images, and braiding and gravel indices were calculated. When comparing the near-natural, semi-natural, degraded or restored sections, there was a gradient of decreasing channel migration, gravel bank expansion, and bank erosion due to a reduced turnover frequency. Biogeomorphological variation among years correlated with log peak discharge within the four sections. In addition, the cover and height growth of vegetation increased with river degradation, and channel migration was positively related to the braiding index. The total turnover of the active river corridor and of the vegetation were positively correlated with log peak discharge within the four sections. The floodplain dynamics of the restored section were improved compared to the degraded section but did not reach a near-natural state. Thus, Alpine river sections with contrasting degrees of naturalness differ in terms of habitat turnover and vegetation succession, and these characteristics can only partially be restored by local measures.
阿尔卑斯山河流退化梯度上的洪泛区生物地貌动力学
河道迁移、毛皮化和植被演替是阿尔卑斯地区辫状砾石河流的特征过程。这些过程与大片活跃洪泛区的频繁更替有关。然而,一个多世纪以来的河流治理减少或破坏了这些生态系统的大部分动态变化。最近,人们试图恢复至少部分退化河流的河段,但对这些河流的生物地貌动态监测却很少。因此,我们对德国南部伊萨尔河上游四个具有代表性的河段进行了为期四年的分析,这些河段的自然程度各不相同。通过无人机拍摄的图像记录了河道、砾石滩和植被的动态,并计算了辫状河和砾石指数。比较近自然河段、半自然河段、退化河段或恢复河段,发现河道迁移、砾石滩扩展和河岸侵蚀呈梯度下降趋势,原因是河道周转频率降低。不同年份的生物地貌变化与四个河段的对数峰值排水量相关。此外,植被的覆盖度和生长高度随河道退化而增加,河道迁移与辫状指数呈正相关。活动河道走廊和植被的总周转率与四个河段的对数峰值排水量呈正相关。与退化河段相比,恢复河段的洪泛区动态有所改善,但并未达到接近自然的状态。因此,自然程度不同的阿尔卑斯河段在生境更替和植被演替方面存在差异,这些特征只能通过局部措施得到部分恢复。
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来源期刊
River Research and Applications
River Research and Applications 环境科学-环境科学
CiteScore
4.60
自引率
9.10%
发文量
158
审稿时长
6 months
期刊介绍: River Research and Applications , previously published as Regulated Rivers: Research and Management (1987-2001), is an international journal dedicated to the promotion of basic and applied scientific research on rivers. The journal publishes original scientific and technical papers on biological, ecological, geomorphological, hydrological, engineering and geographical aspects related to rivers in both the developed and developing world. Papers showing how basic studies and new science can be of use in applied problems associated with river management, regulation and restoration are encouraged as is interdisciplinary research concerned directly or indirectly with river management problems.
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