Evaluating ecological restoration in urban ecosystems with acoustic telemetry: marine and freshwater case studies

IF 2.5 3区 环境科学与生态学 Q2 BIODIVERSITY CONSERVATION
Morgan L. Piczak, Saron Berhe, Anne C. Knag, Robert J. Lennox, Knut Wiik Vollset, Rick Portiss, Jonathan D. Midwood, Steven J. Cooke
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Abstract

Around the globe, ecological restoration projects are being undertaken to mitigate anthropogenic impacts and recover lost biodiversity; however, evaluations of efficacy can lack robustness or, more often, are not completed at all. In this perspective piece, to demonstrate the utility of acoustic telemetry to assess ecological restoration in aquatic systems, we synthesize two case studies in coastal freshwater and marine urban ecosystems: Toronto, Canada, and Bergen, Norway. In Toronto Harbour, a Before-After-Control-Impact experimental design was instrumental in detecting differences attributed to ecological restoration across multiple species of fish. Additionally, acoustic telemetry data were paired with catch and community traits derived from electrofishing, which provided a more complete understanding of fish responses to restoration. In Bergen Harbour, the acoustic telemetry array was deployed before restoration, providing a Before-After comparison of habitat use by several fish species and European lobster (Homarus gammarus). In addition to acoustic telemetry, blood samples were taken from multiple fishes, to examine the levels of contaminants before and after restoration, adding an ecotoxicological dimension to the assessment. Incorporating these complementary methods contributed to a more holistic understanding of animal response to ecological restoration. Finally, we also identified indicators that could be calculated using acoustic telemetry data, including those derived from addition sensors (e.g., pressure). As we look to the future within the Anthropocene, it will be imperative that ecological restoration achieves intended goals and we contend that acoustic telemetry has a bigger role to play in the evaluation of efficacy as it provides continuous monitoring compared to more traditional, discrete sampling.

Abstract Image

利用声学遥测技术评估城市生态系统的生态恢复:海洋和淡水案例研究
全球各地都在开展生态恢复项目,以减轻人为影响并恢复失去的生物多样性;然而,对效果的评估可能缺乏稳健性,或者更常见的情况是根本没有完成。在这篇视角文章中,为了证明声学遥测技术在评估水生系统生态恢复方面的实用性,我们综合了沿海淡水和海洋城市生态系统的两个案例研究:加拿大多伦多和挪威卑尔根。在多伦多港,"控制前-影响后 "的实验设计有助于检测多种鱼类因生态恢复而产生的差异。此外,声学遥测数据与电鱼获得的渔获量和群落特征相匹配,从而更全面地了解了鱼类对生态恢复的反应。在卑尔根港,声学遥测阵列是在恢复之前部署的,因此可以对几种鱼类和欧洲龙虾(Homarus gammarus)的栖息地使用情况进行前后比较。除声学遥测外,还采集了多种鱼类的血液样本,以检查修复前后的污染物水平,为评估增添了生态毒理学维度。结合这些互补方法,有助于更全面地了解动物对生态恢复的反应。最后,我们还确定了可使用声学遥测数据计算的指标,包括从附加传感器(如压力)中得出的指标。展望人类世的未来,生态恢复必须实现预期目标,我们认为声学遥测技术在效果评估方面可以发挥更大的作用,因为与更传统的离散采样相比,声学遥测技术可以提供连续监测。
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来源期刊
Urban Ecosystems
Urban Ecosystems BIODIVERSITY CONSERVATION-ECOLOGY
CiteScore
5.70
自引率
6.90%
发文量
113
期刊介绍: Urban Ecosystems is an international journal devoted to scientific investigations of urban environments and the relationships between socioeconomic and ecological structures and processes in urban environments. The scope of the journal is broad, including interactions between urban ecosystems and associated suburban and rural environments. Contributions may span a range of specific subject areas as they may apply to urban environments: biodiversity, biogeochemistry, conservation biology, wildlife and fisheries management, ecosystem ecology, ecosystem services, environmental chemistry, hydrology, landscape architecture, meteorology and climate, policy, population biology, social and human ecology, soil science, and urban planning.
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