Social affiliation and contact patterns among white-tailed deer in disparate landscapes

Department of Veterinary and Animal Sciences

Social affiliation and contact patterns among white-tailed deer in disparate landscapes: Implications for disease transmission

Research output: Contribution to journal › Journal article › Research › peer-review

Standard

Social affiliation and contact patterns among white-tailed deer in disparate landscapes : Implications for disease transmission. / Schauber, Eric M.; Nielsen, Clayton K.; Kjær, Lene J.; Anderson, Charles W.; Storm, Daniel J.

In: Journal of Mammalogy, Vol. 96, No. 1, 01.02.2015, p. 16-28.

Research output: Contribution to journal › Journal article › Research › peer-review

Harvard

Schauber, EM, Nielsen, CK, Kjær, LJ, Anderson, CW & Storm, DJ 2015, 'Social affiliation and contact patterns among white-tailed deer in disparate landscapes: Implications for disease transmission', Journal of Mammalogy, vol. 96, no. 1, pp. 16-28. https://doi.org/10.1093/jmammal/gyu027

APA

Schauber, E. M., Nielsen, C. K., Kjær, L. J., Anderson, C. W., & Storm, D. J. (2015). Social affiliation and contact patterns among white-tailed deer in disparate landscapes: Implications for disease transmission. Journal of Mammalogy, 96(1), 16-28. https://doi.org/10.1093/jmammal/gyu027

Vancouver

Schauber EM, Nielsen CK, Kjær LJ, Anderson CW, Storm DJ. Social affiliation and contact patterns among white-tailed deer in disparate landscapes: Implications for disease transmission. Journal of Mammalogy. 2015 Feb 1;96(1):16-28. https://doi.org/10.1093/jmammal/gyu027

Author

Schauber, Eric M. ; Nielsen, Clayton K. ; Kjær, Lene J. ; Anderson, Charles W. ; Storm, Daniel J. / Social affiliation and contact patterns among white-tailed deer in disparate landscapes : Implications for disease transmission. In: Journal of Mammalogy. 2015 ; Vol. 96, No. 1. pp. 16-28.

Bibtex

@article{a7fa4f420c51493e9c26e7b01ba85da4,

title = "Social affiliation and contact patterns among white-tailed deer in disparate landscapes: Implications for disease transmission",

abstract = "In social species, individuals contact members of the same group much more often than those of other groups, particularly for contacts that could directly transmit disease agents. This disparity in contact rates violates the assumptions of simple disease models, hinders disease spread between groups, and could decouple disease transmission from population density. Social behavior of white-tailed deer has important implications for the long-term dynamics and impact of diseases such as bovine tuberculosis and chronic wasting disease (CWD), so expanding our understanding of their social system is important. White-tailed deer form matrilineal groups, which inhabit stable home ranges that overlap somewhat with others - a pattern intermediate between mass-action and strict territoriality. To quantify how group membership affects their contact rates and document the spectrum of social affiliation, we analyzed location data from global positioning system (GPS) collars on female and juvenile white-tailed deer in 2 study areas: near Carbondale in forest-dominated southern Illinois (2002-2006) and near Lake Shelbyville in agriculture-dominated central Illinois (2006-2009). For each deer dyad (i.e., 2 individual deer with sufficient overlapping GPS data), we measured space-use overlap, correlation of movements, direct contact rate (simultaneous GPS locations < 10 m apart), and indirect contact rate (GPS locations < 10 m apart when offset by 1 or 3 days). Direct contact rates were substantially higher for within-group dyads than between-group dyads, but group membership had little apparent effect on indirect contact rates. The group membership effect on direct contact rates was strongest in winter and weakest in summer, with no apparent difference between study areas. Social affiliations were not dichotomous, with some deer dyads showing loose but positive affiliation. Even for obvious within-group dyads, their strength of affiliation fluctuated between years, seasons, and even days. Our findings highlight the poor fit between deer behavior and simple models of disease transmission and, combined with previous infection data, suggest that direct contact is the primary driver of CWD transmission among free-living female and juvenile white-tailed deer.",

keywords = "contact, disease, global positioning system, group, Illinois, landscape, Odocoileus virginianus, transmission, whitetailed deer",

author = "Schauber, {Eric M.} and Nielsen, {Clayton K.} and Kj{\ae}r, {Lene J.} and Anderson, {Charles W.} and Storm, {Daniel J.}",

year = "2015",

month = feb,

day = "1",

doi = "10.1093/jmammal/gyu027",

language = "English",

volume = "96",

pages = "16--28",

journal = "Journal of Mammalogy",

issn = "0022-2372",

publisher = "Oxford University Press",

number = "1",

}

RIS

TY - JOUR

T1 - Social affiliation and contact patterns among white-tailed deer in disparate landscapes

T2 - Implications for disease transmission

AU - Schauber, Eric M.

AU - Nielsen, Clayton K.

AU - Kjær, Lene J.

AU - Anderson, Charles W.

AU - Storm, Daniel J.

PY - 2015/2/1

Y1 - 2015/2/1

N2 - In social species, individuals contact members of the same group much more often than those of other groups, particularly for contacts that could directly transmit disease agents. This disparity in contact rates violates the assumptions of simple disease models, hinders disease spread between groups, and could decouple disease transmission from population density. Social behavior of white-tailed deer has important implications for the long-term dynamics and impact of diseases such as bovine tuberculosis and chronic wasting disease (CWD), so expanding our understanding of their social system is important. White-tailed deer form matrilineal groups, which inhabit stable home ranges that overlap somewhat with others - a pattern intermediate between mass-action and strict territoriality. To quantify how group membership affects their contact rates and document the spectrum of social affiliation, we analyzed location data from global positioning system (GPS) collars on female and juvenile white-tailed deer in 2 study areas: near Carbondale in forest-dominated southern Illinois (2002-2006) and near Lake Shelbyville in agriculture-dominated central Illinois (2006-2009). For each deer dyad (i.e., 2 individual deer with sufficient overlapping GPS data), we measured space-use overlap, correlation of movements, direct contact rate (simultaneous GPS locations < 10 m apart), and indirect contact rate (GPS locations < 10 m apart when offset by 1 or 3 days). Direct contact rates were substantially higher for within-group dyads than between-group dyads, but group membership had little apparent effect on indirect contact rates. The group membership effect on direct contact rates was strongest in winter and weakest in summer, with no apparent difference between study areas. Social affiliations were not dichotomous, with some deer dyads showing loose but positive affiliation. Even for obvious within-group dyads, their strength of affiliation fluctuated between years, seasons, and even days. Our findings highlight the poor fit between deer behavior and simple models of disease transmission and, combined with previous infection data, suggest that direct contact is the primary driver of CWD transmission among free-living female and juvenile white-tailed deer.

AB - In social species, individuals contact members of the same group much more often than those of other groups, particularly for contacts that could directly transmit disease agents. This disparity in contact rates violates the assumptions of simple disease models, hinders disease spread between groups, and could decouple disease transmission from population density. Social behavior of white-tailed deer has important implications for the long-term dynamics and impact of diseases such as bovine tuberculosis and chronic wasting disease (CWD), so expanding our understanding of their social system is important. White-tailed deer form matrilineal groups, which inhabit stable home ranges that overlap somewhat with others - a pattern intermediate between mass-action and strict territoriality. To quantify how group membership affects their contact rates and document the spectrum of social affiliation, we analyzed location data from global positioning system (GPS) collars on female and juvenile white-tailed deer in 2 study areas: near Carbondale in forest-dominated southern Illinois (2002-2006) and near Lake Shelbyville in agriculture-dominated central Illinois (2006-2009). For each deer dyad (i.e., 2 individual deer with sufficient overlapping GPS data), we measured space-use overlap, correlation of movements, direct contact rate (simultaneous GPS locations < 10 m apart), and indirect contact rate (GPS locations < 10 m apart when offset by 1 or 3 days). Direct contact rates were substantially higher for within-group dyads than between-group dyads, but group membership had little apparent effect on indirect contact rates. The group membership effect on direct contact rates was strongest in winter and weakest in summer, with no apparent difference between study areas. Social affiliations were not dichotomous, with some deer dyads showing loose but positive affiliation. Even for obvious within-group dyads, their strength of affiliation fluctuated between years, seasons, and even days. Our findings highlight the poor fit between deer behavior and simple models of disease transmission and, combined with previous infection data, suggest that direct contact is the primary driver of CWD transmission among free-living female and juvenile white-tailed deer.

KW - contact

KW - disease

KW - global positioning system

KW - group

KW - Illinois

KW - landscape

KW - Odocoileus virginianus

KW - transmission

KW - whitetailed deer

U2 - 10.1093/jmammal/gyu027

DO - 10.1093/jmammal/gyu027

M3 - Journal article

AN - SCOPUS:84920525997

VL - 96

SP - 16

EP - 28

JO - Journal of Mammalogy

JF - Journal of Mammalogy

SN - 0022-2372

IS - 1

ER -

ID: 210974825