Estimation of katydid calling activity from soundscape recordings

IF 1 Q3 ENTOMOLOGY
L. Symes, S. Madhusudhana, S. Martinson, Ciara E. Kernan, Kristin B. Hodge, Daniel P. Salisbury, H. Klinck, Hannah M. ter Hofstede
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引用次数: 1

Abstract

Insects are an integral part of terrestrial ecosystems, but while they are ubiquitous, they can be difficult to census. Passive acoustic recording can provide detailed information on the spatial and temporal distribution of sound-producing insects. We placed recording devices in the forest canopy on Barro Colorado Island in Panamá and identified katydid calls in recordings to assess what species were present, in which seasons they were signaling, and how often they called. Soundscape recordings were collected at a height of 24 m in two replicate sites, sampled at three time-windows per night across five months, spanning both wet and dry seasons. Katydid calls were commonly detected in recordings, but the call repetition rates of many species were quite low, consistent with data from focal recordings of individual insects where calls were also repeated rarely. The soundscape recordings contained 6,789 calls with visible pulse structure. Of these calls, we identified 4,371 to species with the remainder representing calls that could not be identified to species. The identified calls corresponded to 24 species, with 15 of these species detected at both replicate sites. Katydid calls were detected throughout the night. Most species were detected at all three time points in the night, although some species called more just after dusk and just before dawn. The annotated dataset provided here serves as an archival sample of the species diversity and number of calls present in the forest canopy of Barro Colorado Island, Panama. These hand-annotated data will also be key for evaluating automated approaches to detecting and classifying insect calls. In changing forests and with declining insect populations, consistent approaches to insect sampling will be key for generating interpretable and actionable data.
从声景记录中估计katydid呼叫活动
昆虫是陆地生态系统不可分割的一部分,但尽管它们无处不在,但很难对其进行普查。被动声学记录可以提供关于发声昆虫的空间和时间分布的详细信息。我们在巴拿马巴罗科罗拉多岛的森林树冠中放置了录音设备,并在录音中识别了katydid的叫声,以评估存在哪些物种,它们在哪个季节发出信号,以及它们的叫声频率。声景录音是在两个复制地点的24米高处收集的,在五个月内每晚三个时间窗口采样,横跨雨季和旱季。Katydid叫声通常在录音中被检测到,但许多物种的叫声重复率相当低,这与单个昆虫的焦点录音数据一致,在这些昆虫的叫声也很少重复。声景录音包含6789个具有可见脉冲结构的呼叫。在这些叫声中,我们鉴定了4371个属于物种,其余的叫声代表了无法鉴定为物种的叫声。已识别的叫声对应于24个物种,其中15个物种在两个复制位点都被检测到。整个晚上都发现了Katydid的电话。大多数物种都是在夜间的三个时间点被检测到的,尽管有些物种在黄昏后和黎明前会发出更多的叫声。这里提供的注释数据集是巴拿马巴罗科罗拉多岛森林树冠中物种多样性和叫声数量的档案样本。这些手工注释的数据也将是评估昆虫叫声检测和分类的自动化方法的关键。在森林变化和昆虫数量下降的情况下,一致的昆虫采样方法将是生成可解释和可操作数据的关键。
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来源期刊
Journal of Orthoptera Research
Journal of Orthoptera Research Agricultural and Biological Sciences-Insect Science
CiteScore
1.90
自引率
25.00%
发文量
20
审稿时长
12 weeks
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