The effect of seasonality, density and climate on the population dynamics of Montana deer mice, important reservoir hosts for Sin Nombre hantavirus

  1. Angela D. Luis1,*,
  2. Richard J. Douglass2,
  3. James N. Mills3,
  4. Ottar N. Bjørnstad1

Article first published online: 8 DEC 2009

DOI: 10.1111/j.1365-2656.2009.01646.x

Issue

Journal of Animal Ecology

Journal of Animal Ecology

Volume 79, Issue 2, pages 462–470, March 2010

Additional Information

How to Cite

Luis, A. D., Douglass, R. J., Mills, J. N. and Bjørnstad, O. N. (2010), The effect of seasonality, density and climate on the population dynamics of Montana deer mice, important reservoir hosts for Sin Nombre hantavirus. Journal of Animal Ecology, 79: 462–470. doi: 10.1111/j.1365-2656.2009.01646.x

Author Information

  1. 1

    Department of Biology, The Pennsylvania State University, University Park, PA 16801, USA

  2. 2

    Department of Biology, Montana Tech of the University of Montana, Butte, MT 59701, USA

  3. 3

    Division of Viral and Rickettsial Diseases, National Center for Zoonotic, Vector-Borne, and Enteric Diseases, Centers for Disease Control and Prevention, Atlanta, GA 30333, USA

* *Correspondence author. E-mail: ADL12@psu.edu

Publication History

  1. Issue published online: 5 FEB 2010
  2. Article first published online: 8 DEC 2009
  3. Received 9 March 2009; accepted 16 November 2009 Handling Editor: Bryan Manly

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Keywords:

  • rodent;
  • small mammal;
  • SNV;
  • temporal variation;
  • trophic cascade hypothesis

Summary

1. Since Sin Nombre virus was discovered in the U.S. in 1993, longitudinal studies of the rodent reservoir host, the deer mouse (Peromyscus maniculatus) have demonstrated a qualitative correlation among mouse population dynamics and risk of hantavirus pulmonary syndrome (HPS) in humans, indicating the importance of understanding deer mouse population dynamics for evaluating risk of HPS.

2. Using capture–mark–recapture statistical methods on a 15-year data set from Montana, we estimated deer mouse survival, maturation and recruitment rates and tested the relative importance of seasonality, population density and local climate in explaining temporal variation in deer mouse demography.

3. From these estimates, we designed a population model to simulate deer mouse population dynamics given climatic variables and compared the model to observed patterns.

4. Month, precipitation 5 months previously, temperature 5 months previously and to a lesser extent precipitation and temperature in the current month, were important in determining deer mouse survival. Month, the sum of precipitation over the last 4 months, and the sum of the temperature over the last 4 months were important in determining recruitment rates. Survival was more important in determining the growth rate of the population than recruitment.

5. While climatic drivers appear to have a complex influence on dynamics, our forecasts were good. Our quantitative model may allow public health officials to better predict increased human risk from basic climatic data.

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