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Robert K. Colwell

Museum Curator Adjoint in Entomology


Curriculum vitae


robertkcolwell [at] gmail.com


Museum of Natural History

University of Colorado

Boulder, CO 80309, USA




robertkcolwell [at] gmail.com


Museum of Natural History

University of Colorado

Boulder, CO 80309, USA



How Ants Drop Out: Ant Abundance on Tropical Mountains


Journal article


J. Longino, M. Branstetter, R. K. Colwell
PloS one, 2014

Semantic Scholar DOI PubMedCentral PubMed
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Cite

APA   Click to copy
Longino, J., Branstetter, M., & Colwell, R. K. (2014). How Ants Drop Out: Ant Abundance on Tropical Mountains. PloS One.


Chicago/Turabian   Click to copy
Longino, J., M. Branstetter, and R. K. Colwell. “How Ants Drop Out: Ant Abundance on Tropical Mountains.” PloS one (2014).


MLA   Click to copy
Longino, J., et al. “How Ants Drop Out: Ant Abundance on Tropical Mountains.” PloS One, 2014.


BibTeX   Click to copy

@article{j2014a,
  title = {How Ants Drop Out: Ant Abundance on Tropical Mountains},
  year = {2014},
  journal = {PloS one},
  author = {Longino, J. and Branstetter, M. and Colwell, R. K.}
}

Abstract

In tropical wet forests, ants are a large proportion of the animal biomass, but the factors determining abundance are not well understood. We characterized ant abundance in the litter layer of 41 mature wet forest sites spread throughout Central America (Chiapas, Guatemala, Honduras, Nicaragua, and Costa Rica) and examined the impact of elevation (as a proxy for temperature) and community species richness. Sites were intentionally chosen to minimize variation in precipitation and seasonality. From sea level to 1500 m ant abundance very gradually declined, community richness declined more rapidly than abundance, and the local frequency of the locally most common species increased. These results suggest that within this elevational zone, density compensation is acting, maintaining high ant abundance as richness declines. In contrast, in sites above 1500 m, ant abundance dropped abruptly to much lower levels. Among these high montane sites, community richness explained much more of the variation in abundance than elevation, and there was no evidence of density compensation. The relative stability of abundance below 1500 m may be caused by opposing effects of temperature on productivity and metabolism. Lower temperatures may decrease productivity and thus the amount of food available for consumers, but slower metabolisms of consumers may allow maintenance of higher biomass at lower resource supply rates. Ant communities at these lower elevations may be highly interactive, the result of continuous habitat presence over geological time. High montane sites may be ephemeral in geological time, resulting in non-interactive communities dominated by historical and stochastic processes. Abundance in these sites may be determined by the number of species that manage to colonize and/or avoid extinction on mountaintops.


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