Coastal海狸、奇努克、河鳕、鲑鱼和鳟鱼对筑堤和大规模水坝拆除引起的近岸变化的反应:海岸带的协同生态系统工程和恢复

IF 1.2 Q3 BIODIVERSITY CONSERVATION
J. Shaffer, D. Parks, K. Campbell, Anna Moragne, Bligh Hueske, Pamela Adams, Jenise M. Bauman
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引用次数: 0

摘要

在本文中,我们评估了长期趋势和栖息地变化,以了解海岸海狸(Castor canadensis),鲑鱼,海岸线变化,大规模水坝拆除和近岸生态恢复之间的关系。从这项工作中,我们得出结论,埃尔瓦河上两座大型水坝的拆除有利于海狸利用沿海地区,因为水质的变化使海狸能够重新建立高质量的区域,并扩大了河岸地带,为海狸提供了广泛的新食物资源。然而,下游河流的水动力过程继续受到当地政府和土地所有者在20世纪60年代在Elwha沿海地区为防洪而修建的200米土堤的干扰。该堤防是下游河流地貌的驱动因素,并导致沿下游河道形成了一个巨大而持久的横向沙坝。相关的水动力破坏正在导致未蓄水的下游河道的关键海岸地带被填满。与大坝拆除前相比,该水道栖息地减少了23%,年平均萎缩率为13%,导致沿海地区野生幼鱼苗圃功能的质量和数量下降,而历史记录显示,这是濒危鲑鱼和鳟鱼幼鱼的最高功能。相反,物理变化,包括相邻淤积的西侧河道的水质改善和西三角洲侧坝沿岸植被的持续扩张,有利于在大坝拆除后重新定居在西三角洲的海岸海狸。新定居的海岸海狸可能提供生态工程服务,以抵消侧航道的损失,并促进鱼类的持续进入。然而,娱乐用途被发现对该地区的海狸使用产生了负面影响。因此,我们建议采取一系列额外的生态系统恢复行动,将海狸作为海岸带生态系统恢复的组成部分。这些行动包括一项公共宣传计划,鼓励采取被动休闲措施,以防止对海狸的负面影响,以及遗产,生态系统规模的恢复项目,重新连接西部三角洲的水动力学,以完成埃尔华生态系统的恢复。这些步骤如果一起实施,将会在整个流域产生生态系统的协同恢复,使沿海生态系统受益,包括海狸和鲑鱼,正如大规模大坝拆除项目所期望的那样。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Coastal beaver, Chinook, coho, chum salmon and trout response to nearshore changes resulting from diking and large-scale dam removals: synergistic ecosystem engineering and restoration in the coastal zone
In this paper we assess long-term trends and habitat changes to understand the relationships between coastal beaver (Castor canadensis), salmon, shoreline alterations, large-scale dam removals and nearshore ecological restoration. From this work we conclude that the removal of two large scale dams in the Elwha River has benefited beaver use of the coastal zone through water quality changes that allow beaver to re-establish high-quality zones and the expansion of riparian zones that provide extensive new food resources to beaver. However, the lower river hydrodynamic processes continue to be disrupted by a 200-meter earthen dike installed by local government and landowners for flood protection in the Elwha coastal zone in the 1960’s. The dike acts as a driver of lower river geomorphology and has resulted in the formation of a large and persistent lateral bar along the lower river channel. Associated disrupted hydrodynamics are causing a critical coastal zone of the unimpounded lower river side channels to fill in. This channel habitat has decreased by 23%, with an annual average shrinkage rate of 13%, from pre-dam removal size, resulting in a decrease in both quality and quantity of nursery function for juvenile wild fish in a coastal zone that was historically documented to be the highest functioning for endangered juvenile salmon and trout. Inversely, physical changes including improved water quality in the adjacent impounded west side channel and continued expansion of riparian vegetation along the west delta lateral bar benefitted coastal beaver that recolonized the west delta after dam removals. The newly colonized coastal beaver may provide ecological engineering services to offset side channel loss as well as promote continued fish access. However recreational use was found to negatively impact beaver use of the area. We therefore recommend a series of additional ecosystem restoration actions that incorporate beaver as an ecosystem restoration component of the coastal zone. These actions include a public outreach program to encourage passive recreation measures to prevent negative impacts to beaver, and legacy, ecosystem scale restoration projects that reconnect the hydrodynamics of the west delta to complete Elwha ecosystem restoration. Together, these steps, if implemented, will result in a synergistic ecosystem restoration throughout the watershed to the benefit of the coastal ecosystem, including both beaver and salmon, as intended by the large-scale dam removal project.
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来源期刊
Nature Conservation Research
Nature Conservation Research BIODIVERSITY CONSERVATION-
CiteScore
4.70
自引率
5.90%
发文量
34
审稿时长
13 weeks
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