Species' Geographic Ranges and Distributional Limits: Pattern Analysis and Statistical Issues. Fortin, M. J., Keitt, T. H., Maurer, B. A., Taper, M. L., Kaufman, D. M., & Blackburn, T. M. Oikos, 108(1):7–17, January, 2005.
doi  abstract   bibtex   
With the increasing concern about species conservation, a need exists for quantitaive characterization of species' geographic range and their borders. In this paper, we survey tools appropriate for the quantification of static spatial patterns related to geographical ranges and their borders. We then build on these static methods to consider the problem of changes in geographic range through time. Methods discussed are illustrated using lark sparrow data from the North American Breeding Bird Survey. While there is no such thing as the "best" or "only" method to analyze species geographical range and border, we show that a series of methods can be used in sequence to provide complementary and useful quantitative information for species occupancy of range. Indeed, the location of species' borders estimated at different times can be compared to identify locations where species expand or go locally extinct. The ability to delineate accurately species' ranges will be useful to conservation biologists, managers and ecologists.
@article{fortinSpeciesGeographicRanges2005,
  title = {Species' Geographic Ranges and Distributional Limits: Pattern Analysis and Statistical Issues},
  author = {Fortin, M. J. and Keitt, T. H. and Maurer, B. A. and Taper, M. L. and Kaufman, Dawn M. and Blackburn, T. M.},
  year = {2005},
  month = jan,
  volume = {108},
  pages = {7--17},
  issn = {0030-1299},
  doi = {10.1111/j.0030-1299.2005.13146.x},
  abstract = {With the increasing concern about species conservation, a need exists for quantitaive characterization of species' geographic range and their borders. In this paper, we survey tools appropriate for the quantification of static spatial patterns related to geographical ranges and their borders. We then build on these static methods to consider the problem of changes in geographic range through time. Methods discussed are illustrated using lark sparrow data from the North American Breeding Bird Survey. While there is no such thing as the "best" or "only" method to analyze species geographical range and border, we show that a series of methods can be used in sequence to provide complementary and useful quantitative information for species occupancy of range. Indeed, the location of species' borders estimated at different times can be compared to identify locations where species expand or go locally extinct. The ability to delineate accurately species' ranges will be useful to conservation biologists, managers and ecologists.},
  journal = {Oikos},
  keywords = {*imported-from-citeulike-INRMM,~INRMM-MiD:c-1185599,~to-add-doi-URL,conservation,ecology,spatial-analysis,spatial-pattern,species-distribution},
  lccn = {INRMM-MiD:c-1185599},
  number = {1}
}
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