Limits...
Mule deer spatial association patterns and potential implications for transmission of an epizootic disease

View Article: PubMed Central - PubMed

ABSTRACT

Animal social behaviour can have important effects on the long-term dynamics of diseases. In particular, preferential spatial relationships between individuals can lead to differences in the rates of disease spread within a population. We examined the concurrent influence of genetic relatedness, sex, age, home range overlap, time of year, and prion disease status on proximal associations of adult Rocky Mountain mule deer (Odocoileus hemionus hemionus) in a chronic wasting disease endemic area. We also quantified the temporal stability of these associations across different sex, age, and disease status classes. We used three years of high frequency telemetry data from 74 individuals to record encounters within 25 m of each other, and to calculate seasonal home range overlap measured by volume of intersection (VI). The strength of pairwise spatial association between adult mule deer was independent of genetic relatedness, age and disease status. Seasonal variation in association strength was not consistent across years, perhaps due to annual changes in weather conditions. The influence of home range overlap on association strength varied seasonally, whereby associations were stronger in pre-rut and fawning than in the rest of the seasons. The sexes of individuals also interacted with both VI and season. At increasing levels of VI, associations were stronger between females than between males and between females and males. The strongest associations in pre-rut were between males, while the strongest in rut were between females and males. The temporal stability of associations was markedly dependant on the sex and the diagnosis of the associating pair. Our findings highlight the importance of considering concurrent effects of biological and environmental factors when seeking to understand the role of social preference in behavioural ecology and disease spread. Applying this knowledge in epidemiological modelling will shed light on the dynamics of disease transmission among mule deer.

No MeSH data available.


Predicted pairwise spatial association indices by sex class at different levels of volume of intersection (VI) among adult mule deer.FF are pairs of females, MM are pairs of males, and FM are female-male pairs. No confidence intervals (CI) are shown to facilitate graph readability. For CI and observed values, see S3 Fig.
© Copyright Policy
Related In: Results  -  Collection

License
getmorefigures.php?uid=PMC5384682&req=5

pone.0175385.g004: Predicted pairwise spatial association indices by sex class at different levels of volume of intersection (VI) among adult mule deer.FF are pairs of females, MM are pairs of males, and FM are female-male pairs. No confidence intervals (CI) are shown to facilitate graph readability. For CI and observed values, see S3 Fig.

Mentions: Sex classes and VI also interacted significantly in their effects on association strength (P < 0.0001) (Fig 4;), as did season and VI (P < 0.0001) (Fig 5). For all sexes (Fig 4) and all seasons (Fig 5), an increase in VI resulted in an increase in association strength. Notably, at increasing levels of VI, associations were stronger for FF pairs than for MM and FM pairs (Fig 4), and in pre-rut and fawning than in the rest of the seasons (Fig 5).


Mule deer spatial association patterns and potential implications for transmission of an epizootic disease
Predicted pairwise spatial association indices by sex class at different levels of volume of intersection (VI) among adult mule deer.FF are pairs of females, MM are pairs of males, and FM are female-male pairs. No confidence intervals (CI) are shown to facilitate graph readability. For CI and observed values, see S3 Fig.
© Copyright Policy
Related In: Results  -  Collection

License
Show All Figures
getmorefigures.php?uid=PMC5384682&req=5

pone.0175385.g004: Predicted pairwise spatial association indices by sex class at different levels of volume of intersection (VI) among adult mule deer.FF are pairs of females, MM are pairs of males, and FM are female-male pairs. No confidence intervals (CI) are shown to facilitate graph readability. For CI and observed values, see S3 Fig.
Mentions: Sex classes and VI also interacted significantly in their effects on association strength (P < 0.0001) (Fig 4;), as did season and VI (P < 0.0001) (Fig 5). For all sexes (Fig 4) and all seasons (Fig 5), an increase in VI resulted in an increase in association strength. Notably, at increasing levels of VI, associations were stronger for FF pairs than for MM and FM pairs (Fig 4), and in pre-rut and fawning than in the rest of the seasons (Fig 5).

View Article: PubMed Central - PubMed

ABSTRACT

Animal social behaviour can have important effects on the long-term dynamics of diseases. In particular, preferential spatial relationships between individuals can lead to differences in the rates of disease spread within a population. We examined the concurrent influence of genetic relatedness, sex, age, home range overlap, time of year, and prion disease status on proximal associations of adult Rocky Mountain mule deer (Odocoileus hemionus hemionus) in a chronic wasting disease endemic area. We also quantified the temporal stability of these associations across different sex, age, and disease status classes. We used three years of high frequency telemetry data from 74 individuals to record encounters within 25 m of each other, and to calculate seasonal home range overlap measured by volume of intersection (VI). The strength of pairwise spatial association between adult mule deer was independent of genetic relatedness, age and disease status. Seasonal variation in association strength was not consistent across years, perhaps due to annual changes in weather conditions. The influence of home range overlap on association strength varied seasonally, whereby associations were stronger in pre-rut and fawning than in the rest of the seasons. The sexes of individuals also interacted with both VI and season. At increasing levels of VI, associations were stronger between females than between males and between females and males. The strongest associations in pre-rut were between males, while the strongest in rut were between females and males. The temporal stability of associations was markedly dependant on the sex and the diagnosis of the associating pair. Our findings highlight the importance of considering concurrent effects of biological and environmental factors when seeking to understand the role of social preference in behavioural ecology and disease spread. Applying this knowledge in epidemiological modelling will shed light on the dynamics of disease transmission among mule deer.

No MeSH data available.