飞旋海豚(Stenella longirostris)发出特征性哨声的首个声学证据。

IF 1.9 2区 生物学 Q3 BEHAVIORAL SCIENCES
Raul Rio
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引用次数: 0

摘要

海豚的标志性哨音(SW)是一种独特的声学信号,以独特的频率调制轮廓的阵列模式发出;它使属于特定群体的个体能够相互识别,从而保持联系和凝聚力。目前的研究首次从科学角度证明了飞旋海豚(Stenella longirostris)会发出 SWs。声学数据是在巴西费尔南多-德诺罗尼亚群岛一个名为 "比博卡 "的浅水休憩湾记录的。共分析了 1902 个哨音,其中 40% (753/1,902)被归类为定型哨音(STW)。根据 SIGID 方法,所有 STW 中的 63%(472/753)被确定为 SW;随后,它们被归入 18 种 SW 类型之一。SW 占声谱的 25%(472/1,902)。外部观察者在将口哨归入所采用的 SW 分类中显示出近乎完美的一致性。对 SW 类口哨测量的大多数声学和时间变量的平均值与其他针对飞旋海豚的研究中记录的平均值相似,而这些研究的作者并未将 SW 类口哨与非 SW 类口哨区分开来。主成分分析解释了 78% 的 SW 总变异,并强调了形状/轮廓和频率变量与 SW 变异的相关性。这一科学发现有助于提高有关所调查物种的生物声学知识。未来在费尔南多-德诺罗尼亚群岛开展的研究应侧重于继续调查长尾鳕(S. longirostris)的SW发展和使用情况,扩大个体识别范围(照片ID和诺罗尼亚西南群岛目录),评估长期哨声稳定性和发射率,并根据性别差异进行母子比较。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

First acoustic evidence of signature whistle production by spinner dolphins (Stenella longirostris)

First acoustic evidence of signature whistle production by spinner dolphins (Stenella longirostris)

First acoustic evidence of signature whistle production by spinner dolphins (Stenella longirostris)

A dolphin’s signature whistle (SW) is a distinctive acoustic signal, issued in a bout pattern of unique frequency modulation contours; it allows individuals belonging to a given group to recognize each other and, consequently, to maintain contact and cohesion. The current study is the first scientific evidence that spinner dolphins (Stenella longirostris) produce SWs. Acoustic data were recorded at a shallow rest bay called “Biboca”, in Fernando de Noronha Archipelago, Brazil. In total, 1902 whistles were analyzed; 40% (753/1,902) of them were classified as stereotyped whistles (STW). Based on the SIGID method, 63% (472/753) of all STWs were identified as SWs; subsequently, they were categorized into one of 18 SW types. SWs accounted for 25% (472/1,902) of the acoustic repertoire. External observers have shown near perfect agreement to classify whistles into the adopted SW categorization. Most acoustic and temporal variables measured for SWs showed mean values similar to those recorded in other studies with spinner dolphins, whose authors did not differentiate SWs from non-SWs. Principal component analysis has explained 78% of total SW variance, and it emphasized the relevance of shape/contour and frequency variables to SW variance. This scientific discovery helps improving bioacoustics knowledge about the investigated species. Future studies to be conducted in Fernando de Noronha Archipelago should focus on continuous investigations about SW development and use by S. longirostris, expanding individuals’ identifications (Photo ID and SW Noronha Catalog), assessing long-term whistle stability and emission rates, and making mother–offspring comparisons with sex-based differences.

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来源期刊
Animal Cognition
Animal Cognition 生物-动物学
CiteScore
4.50
自引率
18.50%
发文量
125
审稿时长
4-8 weeks
期刊介绍: Animal Cognition is an interdisciplinary journal offering current research from many disciplines (ethology, behavioral ecology, animal behavior and learning, cognitive sciences, comparative psychology and evolutionary psychology) on all aspects of animal (and human) cognition in an evolutionary framework. Animal Cognition publishes original empirical and theoretical work, reviews, methods papers, short communications and correspondence on the mechanisms and evolution of biologically rooted cognitive-intellectual structures. The journal explores animal time perception and use; causality detection; innate reaction patterns and innate bases of learning; numerical competence and frequency expectancies; symbol use; communication; problem solving, animal thinking and use of tools, and the modularity of the mind.
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