All Journals > The American Naturalist > February 2008 > Spatial Dynamics of Plague

Article Tools

Search for Related Articles

Highlighted Article

"Density-dependent male mating harassment, female resistance and male mimicry"
Thomas P. Gosden and Erik I. Svensson


male blue-tailed damselfly matting with his doppelganger

A male mating with his female doppelganger (photo: Erik Svensson) 

Females in the blue-tailed damselfly (Ischnura elegans) occur in three different inherited color forms: green, red, and blue, with the blue form looking confusingly similar to males, perhaps to avoid repeated excessive sexual harassment. By dusting the males with a fluorescent powder, the authors monitored both the intensity of male mating harassment and the number of matings of the three female forms. The avoidance through male mimicry only seems to benefit the females when their “more attractive” sisters are at higher densities.

Press Release

Snapshot of Speciation
Study catches two bird populations as they split into seperate species

A new study finds that a change in a single gene has sent two closely related bird populations on their way to becoming two distinct species. The study, published in the August issue of The American Naturalist, is one of only a few to investigate the specific genetic changes that drive two populations toward speciation.

Parasites May Help Keep Sex On Top

What’s so great about sex? From an evolutionary perspective, the answer is not as obvious as one might think. An article published in the July issue of The American Naturalist suggests that sex may have evolved in part as a defense against parasites.

Michael J. Wade to Receive 2009 Sewall Wright Award

Harvard Biologist Jonathan Losos to Receive 2009 E. O. Wilson Naturalist Award

In the News

Featured in Scientific American
"Are Parasites To Thank for Sex?" July 8, 2009
The Maintenance of Sex, Clonal Dynamics, and Host-Parasite Coevolution in a Mixed Population of Sexual and Asexual Snails
Jukka Jokela, Mark F. Dybdahl, and Curtis M. Lively
A study in the journal The American Naturalist implies that parasites helped drive the development of sex, because the shuffling of genes gives sex-produced progeny an advantage over asexual genetic clones. Cynthia Graber reports.

Featured in ScienceNOW
"On the Road to a New Species" June 15, 2009
Difference in Plumage Color Used in Species Recognition between Incipient Species Is Linked to a Single Amino Acid Substitution in the Melanocortin‐1 Receptor
J. Albert C. Uy, Robert G. Moyle, Christopher E. Filardi, and Zachary A. Cheviron, Associate Editor: Ben C. Sheldon, Editor: Monica A. Geber
Next, the researchers evaluated whether this color change might make any difference to the birds. They put stuffed birds of either color into the territories of live flycatchers. Flycatchers are not bothered by most foreign birds, but they will attack potential rivals of the same species. Black bird decoys drew angry responses from black birds but little reaction from brown-belly birds and vice versa, Uy and his colleagues report in the August issue of The American Naturalist.

February 2008

Volume 171, Number 2
Am Nat 2008. Vol. 171, pp. 238–248
© 2007 by The University of Chicago.
0003-0147/2008/17102-42142$15.00
DOI: 10.1086/525051

Climate‐Driven Spatial Dynamics of Plague among Prairie Dog Colonies

T. Snäll,1,*

R. B. O’Hara,2,

C. Ray,1, and

S. K. Collinge1,3,§

1. Department of Ecology and Evolutionary Biology, University of Colorado, Boulder, Colorado 80309;

2. Department of Mathematics and Statistics, University of Helsinki, FIN‐00014, Finland;

3. Environmental Studies Program, University of Colorado, Boulder, Colorado 80309

We present a Bayesian hierarchical model for the joint spatial dynamics of a host‐parasite system. The model was fitted to long‐term data on regional plague dynamics and metapopulation dynamics of the black‐tailed prairie dog, a declining keystone species of North American prairies. The rate of plague transmission between colonies increases with increasing precipitation, while the rate of infection from unknown sources decreases in response to hot weather. The mean annual dispersal distance of plague is about 10 km, and topographic relief reduces the transmission rate. Larger colonies are more likely to become infected, but colony area does not affect the infectiousness of colonies. The results suggest that prairie dog movements do not drive the spread of plague through the landscape. Instead, prairie dogs are useful sentinels of plague epizootics. Simulations suggest that this model can be used for predicting long‐term colony and plague dynamics as well as for identifying which colonies are most likely to become infected in a specific year.

Submitted October 13, 2006; Accepted August 14, 2007; Electronically published December 21, 2007

Keywords:

plague, host‐pathogen dynamics, prairie dog, hierarchical, Bayesian.

Associate Editor: Matthew J. Keeling

Editor: Michael C. Whitlock

Cited by

Rebecca J. Eisen, Kenneth L. Gage. (2009) Adaptive strategies of Yersinia pestis to persist during inter-epizootic and epizootic periods. Veterinary Research 1
Online publication date: 1-Apr-2009.
CrossRef
Seth B. Magle, David M. Theobald, Kevin R. Crooks. (2009) A comparison of metrics predicting landscape connectivity for a highly interactive species along an urban gradient in Colorado, USA. Landscape Ecology 24:2, 267-280
Online publication date: 1-Mar-2009.
CrossRef
Michael F. Antolin. (2009) Unpacking β : Within-Host Dynamics and the Evolutionary Ecology of Pathogen Transmission. Annual Review of Ecology, Evolution, and Systematics 39:1, 415-437
Online publication date: 1-Jan-2009.
CrossRef
T. SNÄLL, R. E. BENESTAD, N. C. STENSETH. (2009) Expected future plague levels in a wildlife host under different scenarios of climate change. Global Change Biology
Online publication date: 1-Jan-2009.
CrossRef
R. Jory Brinkerhoff, Sharon K. Collinge, Ying Bai, Chris Ray. (2008) Are Carnivores Universally Good Sentinels of Plague?. Vector-Borne and Zoonotic Diseases 0:0, 081030104341093-8
Online publication date: 30-Nov-2008.
CrossRef
Back to Top
Close Popup