Pied tamarins change their vocal behavior in response to noise levels in the largest city in the Amazon

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-02-10 DOI:10.1002/ajp.23606
Tainara Venturini Sobroza, Marcelo Gordo, Jacob C. Dunn, Pedro Aurélio Costa Lima Pequeno, Bruna Mendel Naissinger, Adrian Paul Ashton Barnett
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Abstract

Many animal species depend on sound to communicate with conspecifics. However, human-generated (anthropogenic) noise may mask acoustic signals and so disrupt behavior. Animals may use various strategies to circumvent this, including shifts in the timing of vocal activity and changes to the acoustic parameters of their calls. We tested whether pied tamarins (Saguinus bicolor) adjust their vocal behavior in response to city noise. We predicted that both the probability of occurrence and the number of long calls would increase in response to anthropogenic noise and that pied tamarins would temporally shift their vocal activity to avoid noisier periods. At a finer scale, we anticipated that the temporal parameters of tamarin calls (e.g., call duration and syllable repetition rate) would increase with noise amplitude. We collected information on the acoustic environment and the emission of long calls in nine wild pied tamarin groups in Manaus, Brazil. We found that the probability of long-call occurrence increased with higher levels of anthropogenic noise, though the number of long calls did not. The number of long calls was related to the time of day and the distance from home range borders—a proxy for the distance to neighboring groups. Neither long-call occurrence nor call rate was related to noise levels at different times of day. We found that pied tamarins decreased their syllable repetition rate in response to anthropogenic noise. Long calls are important for group cohesion and intergroup communication. Thus, it is possible that the tamarins emit one long call with lower syllable repetition, which might facilitate signal reception. The occurrence and quantity of pied tamarin' long calls, as well as their acoustic proprieties, seem to be governed by anthropogenic noise, time of the day, and social mechanisms such as proximity to neighboring groups.

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在亚马逊最大的城市里,雌狨会根据噪音水平改变发声行为。
许多动物依靠声音与同类交流。然而,人类产生的(人为)噪音可能会掩盖声音信号,从而干扰行为。动物可能会使用各种策略来规避这种情况,包括改变发声活动的时间和改变叫声的声学参数。我们测试了双色狨(Saguinus bicolor)是否会调整其发声行为以应对城市噪音。我们预测,长叫声的出现概率和数量都会随着人为噪声的增加而增加,而且雌狮驼会在时间上改变它们的发声活动,以避开噪声较高的时段。在更小的尺度上,我们预计狨叫声的时间参数(如叫声持续时间和音节重复率)将随噪声幅度的增加而增加。我们收集了巴西玛瑙斯 9 个野生鲮鱼群的声学环境和长叫声发射信息。我们发现,随着人为噪声水平的升高,长叫声出现的概率也会增加,但长叫声的数量却没有增加。长叫声的数量与一天中的时间和距离家园边界的远近有关--家园边界代表与邻近群体的距离。长叫发生率和长叫率都与一天中不同时间的噪音水平无关。我们发现,在人为噪声的影响下,姬松鼠的音节重复率降低了。长叫对于群体凝聚力和群体间交流非常重要。因此,玳瑁可能会发出一种音节重复率较低的长叫声,这可能有助于信号接收。禺狨长叫的发生和数量以及它们的声学特性似乎受人为噪声、一天中的时间和社会机制(如与邻近群体的距离)的影响。
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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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