Graduate Degree Program in Ecology, Colorado State University Fort Collins, CO, 80523-1474.
Ecol Evol. 2013 Jul;3(7):2030-7. doi: 10.1002/ece3.608. Epub 2013 May 31.
Audio recordings made from free-ranging animals can be used to investigate aspects of physiology, behavior, and ecology through acoustic signal processing. On-animal acoustical monitoring applications allow continuous remote data collection, and can serve to address questions across temporal and spatial scales. We report on the design of an inexpensive collar-mounted recording device and present data on the activity budget of wild mule deer (Odocoileus hemionus) derived from these devices applied for a 2-week period. Over 3300 h of acoustical recordings were collected from 10 deer on their winter range in a natural gas extraction field in northwestern Colorado. Analysis of a subset of the data indicated deer spent approximately 33.5% of their time browsing, 20.8% of their time processing food through mastication, and nearly 38.3% of their time digesting through rumination, with marked differences in diel patterning of these activities. Systematic auditory vigilance was a salient activity when masticating, and these data offer options for quantifying wildlife responses to varying listening conditions and predation risk. These results (validated using direct observation) demonstrate that acoustical monitoring is a viable and accurate method for characterizing individual time budgets and behaviors of ungulates, and may provide new insight into the ways external forces affect wildlife behavior.
从自由放养动物身上录制的音频可以通过声学信号处理来研究生理学、行为和生态学等方面。动物身上的声学监测应用允许进行连续的远程数据收集,并可用于解决跨时间和空间尺度的问题。我们报告了一种廉价的佩戴式记录设备的设计,并展示了从应用于科罗拉多州西北部一个天然气开采区的两周期间的这些设备收集的野生骡鹿(Odocoileus hemionus)活动预算的数据。从 10 只鹿身上收集了超过 3300 小时的声学记录,这些鹿在冬季的自然气田范围内活动。对数据的一部分进行分析表明,鹿大约 33.5%的时间在觅食,20.8%的时间在通过咀嚼来处理食物,将近 38.3%的时间在反刍中消化,这些活动在昼夜模式上有明显的差异。在咀嚼时,系统的听觉警觉是一项重要的活动,这些数据为量化野生动物对不同听力条件和捕食风险的反应提供了选择。这些结果(通过直接观察验证)表明,声学监测是一种可行且准确的方法,可用于描述有蹄类动物的个体时间预算和行为,并可能为外部力量如何影响野生动物行为提供新的见解。
