The relationship between target strength frequency response and vertical swim velocity: a new approach for fish discrimination

IF 1.5 4区 农林科学 Q3 FISHERIES
H. Homma, I. Ostrovsky
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引用次数: 2

Abstract

In-situ identification of fish species using acoustic methods is a key issue for fisheries research and ecological applications. We propose a novel approach to fish discrimination based on the relationship between target strength frequency response (TS(f)) and vertical swim velocity (VSV), as a proxy of fish body orientation. The measurements were carried out with a wideband echosounder on live fish of five species confined in a net cage. The data show a large dependence of TS(f) on VSV. To compare the variability of frequency responses of different fishes, we calculated ΔTS(f, VSV) as the difference between the TS(f) at given VSV and the TS(f) at VSV = 0, i.e. when the fish was swimming horizontally. We demonstrated that the relationships between ΔTS and VSV were similar for fish of the same species but dissimilar for different species. This implies that the acoustic fish discrimination in nature might be performed when the variations of the VSV can be measured from acoustically tracked fish. This can be a promising method for remote fish discrimination, for instance, for fish with diurnal vertical migrations. Further validation of this approach for fish recognition is required.
目标强度频率响应与垂直游动速度的关系:一种识别鱼类的新方法
利用声学方法对鱼类进行原位识别是渔业研究和生态应用的一个关键问题。基于目标强度频率响应(TS(f))与垂直游动速度(VSV)之间的关系,提出了一种新的鱼类识别方法。测量是用宽频回声测深仪对关在网箱里的五种活鱼进行的。数据显示TS(f)与VSV有很大的相关性。为了比较不同鱼类频率响应的可变性,我们计算ΔTS(f, VSV)作为给定VSV时的TS(f)与VSV = 0时(即鱼水平游动时)的TS(f)之差。我们证明了ΔTS和VSV之间的关系在同一物种的鱼类中是相似的,但在不同物种中则不同。这意味着,当可以从声学跟踪的鱼类中测量到VSV的变化时,可以进行自然中的声学鱼类识别。这可能是一种很有前途的远程鱼类识别方法,例如,对于每天垂直迁徙的鱼类。需要进一步验证这种方法用于鱼类识别。
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来源期刊
Aquatic Living Resources
Aquatic Living Resources 农林科学-海洋与淡水生物学
CiteScore
2.30
自引率
0.00%
发文量
10
审稿时长
>24 weeks
期刊介绍: Aquatic Living Resources publishes original research papers, review articles and propective notes dealing with all exploited (i.e. fished or farmed) living resources in marine, brackish and freshwater environments. Priority is given to ecosystem-based approaches to the study of fishery and aquaculture social-ecological systems, including biological, ecological, economic and social dimensions. Research on the development of interdisciplinary methods and tools which can usefully support the design, implementation and evaluation of alternative management strategies for fisheries and/or aquaculture systems at different scales is particularly welcome by the journal. This includes the exploration of scenarios and strategies for the conservation of aquatic biodiversity and research relating to the development of integrated assessment approaches aimed at ensuring sustainable and high quality uses of aquatic living resources.
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