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Multiple-species analysis of point count data: a more parsimonious modelling framework

  1. MATHEW W. ALLDREDGE1,2,
  2. KENNETH H. POLLOCK2,
  3. THEODORE R. SIMONS1,2,
  4. SUSAN A. SHRINER3

Article first published online: 7 FEB 2007

DOI: 10.1111/j.1365-2664.2006.01271.x

Issue

Journal of Applied Ecology

Journal of Applied Ecology

Volume 44, Issue 2, pages 281–290, April 2007

Additional Information

How to Cite

ALLDREDGE, M. W., POLLOCK, K. H., SIMONS, T. R. and SHRINER, S. A. (2007), Multiple-species analysis of point count data: a more parsimonious modelling framework. Journal of Applied Ecology, 44: 281–290. doi: 10.1111/j.1365-2664.2006.01271.x

Author Information

  1. 1

    USGS, NC Cooperative Fish and Wildlife Research Unit,

  2. 2

    Department of Zoology, North Carolina State University, Raleigh, NC 27695, USA; and

  3. 3

    Department of Fish, Wildlife and Conservation Biology, Colorado State University, Fort Collins, CO 80523, USA

* Mathew W. Alldredge, Colorado Division of Wildlife, 317 W. Prospect, Fort Collins, Colorado 80526, USA (fax 970 472 4457; e-mail mat.alldredge@state.co.us).

Publication History

  1. Issue published online: 19 FEB 2007
  2. Article first published online: 7 FEB 2007
  3. Received 18 November 2005; final copy received 22 November 2006Editor: Jack Lennon

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Keywords:

  • abundance;
  • capture–recapture;
  • multiple-species modelling;
  • point count surveys;
  • population surveys

Summary

  • 1
    Although population surveys often provide information on multiple species, these data are rarely analysed within a multiple-species framework despite the potential for more efficient estimation of population parameters.
  • 2
    We have developed a multiple-species modelling framework that uses similarities in capture/detection processes among species to model multiple species data more parsimoniously. We present examples of this approach applied to distance, time of detection and multiple observer sampling for avian point count data.
  • 3
    Models that included species as a covariate and individual species effects were generally selected as the best models for distance sampling, but group models without species effects performed best for the time of detection and multiple observer methods. Population estimates were more precise for no-species-effect models than for species-effect models, demonstrating the benefits of exploiting species’ similarities when modelling multiple species data. Partial species-effect models and additive models were also useful because they modelled similarities among species while allowing for species differences.
  • 4
    Synthesis and applications. We recommend the adoption of multiple-species modelling because of its potential for improved population estimates. This framework will be particularly beneficial for modelling count data from rare species because information on the detection process can be ‘borrowed’ from more common species. The multiple-species modelling framework presented here is applicable to a wide range of sampling techniques and taxa.
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