How Ebola impacts social dynamics in gorillas: a multistate modelling approach

Emerging infectious diseases can induce rapid changes in population dynamics and threaten population persistence. In socially structured populations, the transfers of individuals between social units, for example, from breeding groups to non‐breeding groups, shape population dynamics. We suggest tha...

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Bibliographic Details
Published in:The Journal of animal ecology 2015-01, Vol.84 (1), p.166-176
Main Authors: Genton, Céline, Pierre, Amandine, Cristescu, Romane, Lévréro, Florence, Gatti, Sylvain, Pierre, Jean‐Sébastien, Ménard, Nelly, Le Gouar, Pascaline, Altizer, Sonia
Format: Article
Language:English
Subjects:
Animal populations
Animals
Ape Diseases - virology
breeding
capture–recapture
Cognitive Sciences
Congo
data collection
demographic crash
Ebola virus
emerging diseases
emerging infectious disease
environmental factors
Female
females
Gorilla
Gorilla gorilla
Gorilla gorilla gorilla
Gorillas
Hemorrhagic Fever, Ebola - virology
immigration
Life Sciences
Male
males
Models, Biological
Neurobiology
Neurons and Cognition
Population Dynamics
Population ecology
Psychology and behavior
recovery
Social Behavior
social impact
social structure
sociality
viruses
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Summary:Emerging infectious diseases can induce rapid changes in population dynamics and threaten population persistence. In socially structured populations, the transfers of individuals between social units, for example, from breeding groups to non‐breeding groups, shape population dynamics. We suggest that diseases may affect these crucial transfers. We aimed to determine how disturbance by an emerging disease affects demographic rates of gorillas, especially transfer rates within populations and immigration rates into populations. We compared social dynamics and key demographic parameters in a gorilla population affected by Ebola using a long‐term observation data set including pre‐, during and post‐outbreak periods. We also studied a population of undetermined epidemiological status in order to assess whether this population was affected by the disease. We developed a multistate model that can handle transition between social units while optimizing the number of states. During the Ebola outbreak, social dynamics displayed increased transfers from a breeding to a non‐breeding status for both males and females. Six years after the outbreak, demographic and most of social dynamics parameters had returned to their initial rates, suggesting a certain resilience in the response to disruption. The formation of breeding groups increased just after Ebola, indicating that environmental conditions were still attractive. However, population recovery was likely delayed because compensatory immigration was probably impeded by the potential impact of Ebola in the surrounding areas. The population of undetermined epidemiological status behaved similarly to the other population before Ebola. Our results highlight the need to integrate social dynamics in host‐population demographic models to better understand the role of social structure in the sensitivity and the response to disease disturbances.
ISSN:0021-8790
1365-2656
DOI:10.1111/1365-2656.12268