Yunli Shao scite author profile

Yunli Shao

2Publications

50Citation Statements Received

64Citation Statements Given

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University of Michigan–Ann Arbor

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A day in the life of a dolphin: Using bio‐logging tags for improved animal health and well‐being

Shorter

Shao

Ojeda

et al. 2017

Marine Mammal Science

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Little quantitative information on the behavior, health, and activity level of managed marine mammals is currently collected, though it has the potential to significantly contribute to management and welfare of these animals. To address this, high‐resolution motion‐sensing digital acoustic recording tags (DTAGs) collected data from animals under human care (n = 5) during their daily routine, and classification algorithms were used for gait analysis and event detection. We collected and examined ~57 h of data from five bottlenose dolphins (Tursiops truncatus). Day‐scale changes in behavior and activity level were observed and diurnal changes were detected with lower activity at night (n = 1). During the day, animals spent about 70% of their time swimming. The deepest part of the lagoon is ~3 m and individual dives were typically shallow (~1 m) with the dolphins tending to utilize a fluke and glide gait pattern. Activity level was quantified using overall dynamic body acceleration. A significant relationship between normalized activity level and glide duration during different portions of the dive was measured; animals fluked more during descent and glided more during ascent. This could indicate that even during very shallow dives the dolphins use their positive buoyancy to improve energy economy.

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Variation in echolocation calls of Hipposideros amiger during habituation to a novel, captive environment

Chen¹,

Liu²,

Shao³

et al. 2015

Behav

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Animals alter their behaviour during habituation to novel environments. Echolocating bats exhibit remarkable flexibility in their acoustic signals to sense diverse microhabitats. Previous studies have described intra-individual variation in echolocation calls of bats in different environments, but few studies have systematically quantified these changes in detail. We investigated variation in echolocation call structure of the great leaf-nosed bat, Hipposideros armiger during habituation to a novel, captive environment. Echolocation calls of free-ranging bats were recorded in the natural habitat and in captivity over a three-week period. We found that bats exhibited significant changes in some call parameters following introduction to the novel captive environment, and some parameters changed continuously over time. We observed plasticity in peak frequency, pulse duration and pulse rate during the captive period. This suggests that variation in echolocation calls of bats in response to a novel captive environment is a progressive process, during which bats adjust echolocation call structure to habituate gradually to their surroundings.

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Yunli Shao

A day in the life of a dolphin: Using bio‐logging tags for improved animal health and well‐being

Variation in echolocation calls of Hipposideros amiger during habituation to a novel, captive environment

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