Estimating activity of Japanese macaques (Macaca fuscata) using accelerometers

Accelerometers have been used to study both terrestrial and aquatic wildlife, mainly for mammal and bird species. In terrestrial mammals, there is a bias toward ungulates and carnivores, with fewer studies on nonhuman primates. In this study, we tested the use of accelerometers for studying the acti...

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Published inAmerican journal of primatology Vol. 79; no. 10
Main Authors Sha, John C. M., Kaneko, Akihisa, Suda‐Hashimoto, Naoko, He, Tianmeng, Take, Makiko, Peng, Zhang, Hanya, Goro
Format Journal Article
LanguageEnglish
Published United States Wiley Subscription Services, Inc 01.10.2017
Subjects
Accelerometers
Accelerometry - veterinary
Animals
animal‐mounted
behavior
Behavior, Animal
Bias
bio‐logging
Birds
Carnivores
Circadian rhythm
Circadian rhythms
Classification
Estimates
Feasibility
Female
Macaca
Macaca fuscata
Male
Mammals
primate
Primates
Remote sensing
Rhythm
Sampling
Technology
Time use
Ungulates
Video data
Wildlife
primate
bio-logging
behavior
remote-sensing
animal-mounted
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Abstract Accelerometers have been used to study both terrestrial and aquatic wildlife, mainly for mammal and bird species. In terrestrial mammals, there is a bias toward ungulates and carnivores, with fewer studies on nonhuman primates. In this study, we tested the use of accelerometers for studying the activity of Japanese macaques (Macaca fuscata). We modeled the activity of a male and a female subject by matching continuous focal observations from video recordings to sensor parameters derived from collar‐mounted accelerometers. Models achieved classification performance (AUC) of greater than 90% for both subjects, with similar results when subjects were cross‐validated. Accelerometer‐based estimates of activity had comparable accuracies to estimates from instantaneous sampling at 1 min and 5 min intervals. We further demonstrated the use of model estimates for analyzing circadian rhythm and night time activity of M. fuscata. Our results add support to the feasibility of using accelerometers for studying activity of nonhuman primates. We discussed the limitations, benefits and potential applications of remote‐sensing technology like accelerometers for advancing primalotogical studies.
AbstractList Accelerometers have been used to study both terrestrial and aquatic wildlife, mainly for mammal and bird species. In terrestrial mammals, there is a bias toward ungulates and carnivores, with fewer studies on nonhuman primates. In this study, we tested the use of accelerometers for studying the activity of Japanese macaques (Macaca fuscata). We modeled the activity of a male and a female subject by matching continuous focal observations from video recordings to sensor parameters derived from collar-mounted accelerometers. Models achieved classification performance (AUC) of greater than 90% for both subjects, with similar results when subjects were cross-validated. Accelerometer-based estimates of activity had comparable accuracies to estimates from instantaneous sampling at 1 min and 5 min intervals. We further demonstrated the use of model estimates for analyzing circadian rhythm and night time activity of M. fuscata. Our results add support to the feasibility of using accelerometers for studying activity of nonhuman primates. We discussed the limitations, benefits and potential applications of remote-sensing technology like accelerometers for advancing primalotogical studies.Accelerometers have been used to study both terrestrial and aquatic wildlife, mainly for mammal and bird species. In terrestrial mammals, there is a bias toward ungulates and carnivores, with fewer studies on nonhuman primates. In this study, we tested the use of accelerometers for studying the activity of Japanese macaques (Macaca fuscata). We modeled the activity of a male and a female subject by matching continuous focal observations from video recordings to sensor parameters derived from collar-mounted accelerometers. Models achieved classification performance (AUC) of greater than 90% for both subjects, with similar results when subjects were cross-validated. Accelerometer-based estimates of activity had comparable accuracies to estimates from instantaneous sampling at 1 min and 5 min intervals. We further demonstrated the use of model estimates for analyzing circadian rhythm and night time activity of M. fuscata. Our results add support to the feasibility of using accelerometers for studying activity of nonhuman primates. We discussed the limitations, benefits and potential applications of remote-sensing technology like accelerometers for advancing primalotogical studies.
Accelerometers have been used to study both terrestrial and aquatic wildlife, mainly for mammal and bird species. In terrestrial mammals, there is a bias toward ungulates and carnivores, with fewer studies on nonhuman primates. In this study, we tested the use of accelerometers for studying the activity of Japanese macaques (Macaca fuscata). We modeled the activity of a male and a female subject by matching continuous focal observations from video recordings to sensor parameters derived from collar-mounted accelerometers. Models achieved classification performance (AUC) of greater than 90% for both subjects, with similar results when subjects were cross-validated. Accelerometer-based estimates of activity had comparable accuracies to estimates from instantaneous sampling at 1min and 5min intervals. We further demonstrated the use of model estimates for analyzing circadian rhythm and night time activity of M. fuscata. Our results add support to the feasibility of using accelerometers for studying activity of nonhuman primates. We discussed the limitations, benefits and potential applications of remote-sensing technology like accelerometers for advancing primalotogical studies.
Accelerometers have been used to study both terrestrial and aquatic wildlife, mainly for mammal and bird species. In terrestrial mammals, there is a bias toward ungulates and carnivores, with fewer studies on nonhuman primates. In this study, we tested the use of accelerometers for studying the activity of Japanese macaques (Macaca fuscata). We modeled the activity of a male and a female subject by matching continuous focal observations from video recordings to sensor parameters derived from collar‐mounted accelerometers. Models achieved classification performance (AUC) of greater than 90% for both subjects, with similar results when subjects were cross‐validated. Accelerometer‐based estimates of activity had comparable accuracies to estimates from instantaneous sampling at 1 min and 5 min intervals. We further demonstrated the use of model estimates for analyzing circadian rhythm and night time activity of M. fuscata. Our results add support to the feasibility of using accelerometers for studying activity of nonhuman primates. We discussed the limitations, benefits and potential applications of remote‐sensing technology like accelerometers for advancing primalotogical studies.
Author Sha, John C. M.
Suda‐Hashimoto, Naoko
He, Tianmeng
Hanya, Goro
Kaneko, Akihisa
Take, Makiko
Peng, Zhang
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Snippet Accelerometers have been used to study both terrestrial and aquatic wildlife, mainly for mammal and bird species. In terrestrial mammals, there is a bias...
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SubjectTerms Accelerometers
Accelerometry - veterinary
Animals
animal‐mounted
behavior
Behavior, Animal
Bias
bio‐logging
Birds
Carnivores
Circadian rhythm
Circadian rhythms
Classification
Estimates
Feasibility
Female
Macaca
Macaca fuscata
Male
Mammals
primate
Primates
Remote sensing
Rhythm
Sampling
Technology
Time use
Ungulates
Video data
Wildlife
Title Estimating activity of Japanese macaques (Macaca fuscata) using accelerometers
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fajp.22694
https://www.ncbi.nlm.nih.gov/pubmed/28892192
https://www.proquest.com/docview/1942295669
https://www.proquest.com/docview/1937757277
Volume 79
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