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深海信号:爱尔兰西部喙鲸的时空声学出现。

Signals from the deep: Spatial and temporal acoustic occurrence of beaked whales off western Ireland.

机构信息

JASCO Applied Sciences, Dartmouth, Nova Scotia, Canada.

Marine and Freshwater Research Centre, Galway-Mayo Institute of Technology, Galway, Ireland.

出版信息

PLoS One. 2018 Jun 21;13(6):e0199431. doi: 10.1371/journal.pone.0199431. eCollection 2018.

DOI:10.1371/journal.pone.0199431
PMID:29928009
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6013249/
Abstract

Little is known of the spatio-temporal occurrence of beaked whales off western Ireland, limiting the ability of Regulators to implement appropriate management and conservation measures. To address this knowledge gap, static acoustic monitoring was carried out using eight fixed bottom-mounted autonomous acoustic recorders: four from May to December 2015 on Ireland's northern slope and four from March to November 2016 on the western and southern slopes. Recorders ran for 205 to 230 days, resulting in 4.09 TB of data sampled at 250 kHz which could capture beaked whale acoustic signals. Zero-crossing-based automated detectors identified beaked whale clicks. A sample of detections was manually validated to evaluate and optimize detector performance. Analysis confirmed the occurrence of Sowerby's and Cuvier's beaked whales and Northern bottlenose whales. Northern bottlenose whale clicks occurred in late summer and autumn, but were too few to allow further analysis. Cuvier's and Sowerby's clicks occurred at all stations throughout the monitoring period. There was a significant effect of month and station (latitude) on the mean daily number of click detections for both species. Cuvier's clicks were more abundant at lower latitudes while Sowerby's were greater at higher latitudes, particularly in the spring, suggesting a spatial segregation between species, possibly driven by prey preference. Cuvier's occurrence increased in late autumn 2015 off northwest Porcupine Bank, a region of higher relative occurrence for each species. Seismic airgun shots, with daily sound exposure levels as high as 175 dB re 1 μPa2·s, did not appear to impact the mean daily number of Cuvier's or Sowerby's beaked whale click detections. This work provides insight into the significance of Irish waters for beaked whales and highlights the importance of using acoustics for beaked whale monitoring.

摘要

人们对爱尔兰西部喙鲸的时空发生情况知之甚少,这限制了监管机构实施适当管理和保护措施的能力。为了填补这一知识空白,我们使用 8 个固定的海底自主声学记录仪进行了静态声学监测:2015 年 5 月至 12 月在爱尔兰北部斜坡进行了 4 次监测,2016 年 3 月至 11 月在西部和南部斜坡进行了 4 次监测。记录仪运行时间为 205 至 230 天,产生了 4.09TB 的数据,采样频率为 250kHz,可以捕捉到喙鲸的声学信号。基于过零的自动探测器识别出了喙鲸的咔哒声。对检测结果的一个样本进行了手动验证,以评估和优化探测器的性能。分析结果证实了抹香鲸和柯氏喙鲸以及北方瓶鼻海豚的存在。北方瓶鼻海豚的咔哒声出现在夏末和秋季,但数量太少,无法进一步分析。在整个监测期间,柯氏喙鲸和抹香鲸的咔哒声在所有站点都有发生。两种喙鲸的咔哒声日平均数量都受到月份和站位(纬度)的显著影响。柯氏喙鲸的咔哒声在较低纬度更为丰富,而抹香鲸的咔哒声在较高纬度更为丰富,特别是在春季,这表明两种喙鲸存在空间隔离,可能是由猎物偏好驱动的。2015 年秋末,西北明奇贝地区喙鲸的数量有所增加,该地区各物种的相对丰度较高。地震气枪的每日声暴露水平高达 175dB re 1 μPa2·s,但似乎并未影响柯氏喙鲸或抹香鲸咔哒声检测的日平均数量。这项工作深入了解了爱尔兰水域对喙鲸的重要意义,并强调了声学监测在喙鲸监测中的重要性。

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2
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3
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Proc Biol Sci. 2019 Mar 27;286(1899):20182592. doi: 10.1098/rspb.2018.2592.
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4
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5
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