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To understand intra-specific interactions in populations, scientists measure the spatial arrangement of species individuals. This geographic arrangement is known as the species distribution or dispersion. Highly territorial species exhibit a uniform distribution pattern, in which individuals are spaced at relatively equal distances from one another. Species that are highly tied to particular resources, such as food or shelter, tend to concentrate around those resources, and thus exhibit a...
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Small population sizes put a species at extreme risk of extinction due to a lack of variation, and a consequent decrease in adaptability. This weakens the chances of survival under pressures such as climate change, competition from other species, or new diseases. Large populations are more likely to survive pressures such as these, as such populations are more likely to harbor individuals that have genetic variants that are adaptive under new stresses. Small populations are much less...
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Related Experiment Video

Updated: Apr 15, 2026

Visually Sexing Loggerhead Shrike Lanius Ludovicianus Using Plumage Coloration and Pattern
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Elevational distribution and extinction risk in birds.

Rachel L White1, Peter M Bennett1

  • 1Durrell Institute of Conservation and Ecology, University of Kent, Canterbury, Kent, United Kingdom.

Plos One
|April 8, 2015
PubMed
Summary
This summary is machine-generated.

Mountain biodiversity is at risk. A bird study reveals that elevational range is a crucial factor in predicting extinction risk, complementing geographical range size. Conservation efforts must consider elevation.

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Area of Science:

  • Ecology
  • Conservation Biology
  • Biodiversity Science

Background:

  • Mountainous regions are critical biodiversity hotspots facing significant human-induced threats like habitat loss and climate change.
  • Research on extinction dynamics has largely focused on islands, with limited investigation into mountain ecosystems despite their vulnerability.
  • Previous data limitations hindered a comprehensive assessment of how elevational distribution influences extinction risk in mountain-dwelling species.

Purpose of the Study:

  • To globally quantify the impact of elevational distribution (range, maximum, midpoint) on avian extinction risk.
  • To investigate this relationship across different biogeographic realms, taxonomic levels, and phylogenetic groups.
  • To identify elevational distribution as a potentially overlooked factor in current conservation prioritization schemes.

Main Methods:

  • Utilized a novel global species-level avian database to analyze extinction risk.
  • Quantified three measures of elevational distribution: range, maximum elevation, and midpoint elevation.
  • Controlled for confounding variables including phylogenetic, distributional, morphological, life history, and niche breadth traits.

Main Results:

  • All three measures of elevational distribution (range, maximum, midpoint) were significant negative predictors of avian extinction risk.
  • Elevational range proved to be a strong predictor, comparable and complementary to geographical range size.
  • Extinction risk was positively correlated with body weight, development time, and adult survival, but negatively with reproduction and niche breadth.

Conclusions:

  • Elevational distribution is a key driver of extinction dynamics in birds, comparable in importance to geographical range.
  • Current extinction risk assessments and conservation prioritization schemes for birds may be incomplete without considering elevational distribution.
  • Further research is needed to assess the generality of these findings across non-avian taxa and improve data on species' elevational ranges.