Raise your pitch! Changes in the acoustic emissions of resident bottlenose dolphins in the proximity of vessels

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-11-14 DOI:10.1111/mms.13090
Filipa V. Sobreira, Ana R. Luís, Inês S. Alves, Miguel N. Couchinho, Manuel E. dos Santos
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Abstract

Maritime traffic is a major contributor of anthropogenic disturbance for cetaceans, especially for coastal populations, such as that of resident common bottlenose dolphins (Tursiops truncatus) in the Sado estuary (Portugal). Animals have been found to adjust their vocal behavior by changing vocal rates, or call frequency and/or duration, to overcome masking effects of underwater noise. To evaluate the potential impacts of boat traffic on the acoustic behavior of these dolphins, emission rates and acoustic characteristics of whistles and burst-pulsed signals were analyzed with and without boats operating nearby. In this study, no significant differences were found for emission rates of each type of vocal element in the presence of vessels. However, significant differences were found in acoustic parameters, namely changes in frequency and duration, for whistles and for pulsed sounds (creaks, grunts, squeaks, and gulps). These changes, such as a shift in vocal frequencies and production of shorter signals, may represent behavioral strategies to compensate for the noisy environment. Although resident bottlenose dolphins in the Sado region seem to have developed some tolerance to vessel noise, continuous noise exposure and noise-induced frequency shifts in vocal outputs could have indirect fitness costs for this population.

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提高你的音调在船只附近栖息的瓶鼻海豚声发射的变化
海上交通是造成鲸目动物人为干扰的主要因素,尤其是对沿海种群,如葡萄牙萨多河口的常住普通瓶鼻海豚(Tursiops truncatus)。研究发现,海豚会通过改变发声率、叫声频率和/或持续时间来调整其发声行为,以克服水下噪声的掩蔽效应。为了评估船只交通对这些海豚声学行为的潜在影响,研究人员分析了在附近有无船只作业时哨声和脉冲信号的发射率和声学特征。在这项研究中,每种发声元素的发射率在有船只的情况下没有发现明显的差异。不过,在口哨声和脉冲声(吱吱声、咕噜声、吱吱声和咕噜声)的声学参数(即频率和持续时间的变化)方面发现了明显的差异。这些变化,如发声频率的改变和发出较短的信号,可能代表了补偿嘈杂环境的行为策略。尽管佐渡地区的常住瓶鼻海豚似乎已经对船只噪声有了一定的耐受性,但持续的噪声暴露和噪声引起的发声频率变化可能会使这一种群付出间接的健康代价。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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