Measuring variation in the frequency of group fission and fusion from continuous monitoring of group sizes
The frequency of group fission and fusion is critical for understanding the evolution of sociality, as it measures group cohesiveness, which can confer a high fitness value on individuals who practice it. Variations in the frequency of fission and fusion can also reveal an individual's response...
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American Society of Mammalogists
2021
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Online Access: | https://doi.org/10.1093/jmammal/gyv084 |
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ftbioone:10.1093/jmammal/gyv084 2024-06-02T08:13:38+00:00 Measuring variation in the frequency of group fission and fusion from continuous monitoring of group sizes Guillaume Body Robert B. Weladji Øystein Holand Mauri Nieminen Guillaume Body Robert B. Weladji Øystein Holand Mauri Nieminen world 2021-08-23 text/HTML https://doi.org/10.1093/jmammal/gyv084 en eng American Society of Mammalogists doi:10.1093/jmammal/gyv084 All rights reserved. https://doi.org/10.1093/jmammal/gyv084 Text 2021 ftbioone https://doi.org/10.1093/jmammal/gyv084 2024-05-07T00:55:29Z The frequency of group fission and fusion is critical for understanding the evolution of sociality, as it measures group cohesiveness, which can confer a high fitness value on individuals who practice it. Variations in the frequency of fission and fusion can also reveal an individual's response to environmental changes. As fission–fusion group dynamics influence the risk of disease transmission, measuring it accurately may have implications for population management. Here, we extend a method to assess the frequency of fission and fusion from continuous monitoring of group composition. The former method was based on the variation in group size (i.e., party/subgroup size) within which marked individuals were successively recorded. Upon validation of the method here, we propose a correction, using the coefficient of variation in group size instead of the variation in group size. We performed our study on an enclosed herd of reindeer, Rangifer tarandus. All reindeer were tracked using Global Positioning System (GPS) collars and followed by direct observations. GPS collars allowed us to obtain accurate measures of the frequency of fission and fusion that we used to validate our models. The resulting method best described the temporal variation in fission and fusion frequency without the confounding effect of the variation in group size. This method can easily be applied to other populations where some individuals can be recognized and their group size repeatedly recorded. It will also help in quantifying the 2nd dimension of the fission–fusion group dynamics: the variation in group size. Text Rangifer tarandus BioOne Online Journals Journal of Mammalogy 96 4 791 799 |
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The frequency of group fission and fusion is critical for understanding the evolution of sociality, as it measures group cohesiveness, which can confer a high fitness value on individuals who practice it. Variations in the frequency of fission and fusion can also reveal an individual's response to environmental changes. As fission–fusion group dynamics influence the risk of disease transmission, measuring it accurately may have implications for population management. Here, we extend a method to assess the frequency of fission and fusion from continuous monitoring of group composition. The former method was based on the variation in group size (i.e., party/subgroup size) within which marked individuals were successively recorded. Upon validation of the method here, we propose a correction, using the coefficient of variation in group size instead of the variation in group size. We performed our study on an enclosed herd of reindeer, Rangifer tarandus. All reindeer were tracked using Global Positioning System (GPS) collars and followed by direct observations. GPS collars allowed us to obtain accurate measures of the frequency of fission and fusion that we used to validate our models. The resulting method best described the temporal variation in fission and fusion frequency without the confounding effect of the variation in group size. This method can easily be applied to other populations where some individuals can be recognized and their group size repeatedly recorded. It will also help in quantifying the 2nd dimension of the fission–fusion group dynamics: the variation in group size. |
author2 |
Guillaume Body Robert B. Weladji Øystein Holand Mauri Nieminen |
format |
Text |
author |
Guillaume Body Robert B. Weladji Øystein Holand Mauri Nieminen |
spellingShingle |
Guillaume Body Robert B. Weladji Øystein Holand Mauri Nieminen Measuring variation in the frequency of group fission and fusion from continuous monitoring of group sizes |
author_facet |
Guillaume Body Robert B. Weladji Øystein Holand Mauri Nieminen |
author_sort |
Guillaume Body |
title |
Measuring variation in the frequency of group fission and fusion from continuous monitoring of group sizes |
title_short |
Measuring variation in the frequency of group fission and fusion from continuous monitoring of group sizes |
title_full |
Measuring variation in the frequency of group fission and fusion from continuous monitoring of group sizes |
title_fullStr |
Measuring variation in the frequency of group fission and fusion from continuous monitoring of group sizes |
title_full_unstemmed |
Measuring variation in the frequency of group fission and fusion from continuous monitoring of group sizes |
title_sort |
measuring variation in the frequency of group fission and fusion from continuous monitoring of group sizes |
publisher |
American Society of Mammalogists |
publishDate |
2021 |
url |
https://doi.org/10.1093/jmammal/gyv084 |
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world |
genre |
Rangifer tarandus |
genre_facet |
Rangifer tarandus |
op_source |
https://doi.org/10.1093/jmammal/gyv084 |
op_relation |
doi:10.1093/jmammal/gyv084 |
op_rights |
All rights reserved. |
op_doi |
https://doi.org/10.1093/jmammal/gyv084 |
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Journal of Mammalogy |
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96 |
container_issue |
4 |
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791 |
op_container_end_page |
799 |
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1800737212124364800 |