Raptor Floaters at Moffat's Equilibrium

Explanations of population size often invoke density-dependent reductions in fecundity and survival under conditions of Malthusian growth. An alternative, that territorial bird numbers change arithmetically as a consequence of spatially imposed limits to fecundity was proposed by C. B. Moffat in 190...

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Bibliographic Details
Published in:Oikos 1998-05, Vol.82 (1), p.191-197
Main Author: Hunt, W. Grainger
Format: Article
Language:English
Subjects:
Animal and plant ecology
Animal, plant and microbial ecology
Animals
Aves
Aviculture
Biological and medical sciences
Bird nesting
Birds of prey
Breeding
Demecology
Eagles
Ecological balance
Forum
Fundamental and applied biological sciences. Psychology
Mortality
Nesting sites
Population growth rate
Population size
Vertebrata
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Summary:Explanations of population size often invoke density-dependent reductions in fecundity and survival under conditions of Malthusian growth. An alternative, that territorial bird numbers change arithmetically as a consequence of spatially imposed limits to fecundity was proposed by C. B. Moffat in 1903. Restrictions in the size of annual cohorts set the upper limit of an equilibrium size range for the population deriving from any defined area, while the lower limit is maintained by the buffering effect of floaters (non-breeding adults) in filling breeding vacancies as they occur. Density-dependent floater pressure on reproduction and breeder survival, though not essential to equilibrium, is a likely focus of regulatory adjustment in healthy raptor populations. This essay considers the development of floating population segments and outlines some simple principles of modeling bird populations which contain floaters. Estimates of population size at equilibrium and the floater-to-breeder ratio offer particularly clear measures of the potential of defined populations to act as sources of recruits to the larger landscape and are more informative than traditional growth rate estimates in assessing population health and stability of territorial species.
ISSN:0030-1299
1600-0706
DOI:10.2307/3546929