Constitutive immune defences correlate with life-history variables in tropical birds

1. It has been suggested that immune defences are shaped by life history and ecology, but few general patterns have been described across species. We hypothesized that 'fast' life-history traits (e.g. short development times, large clutch sizes) would be associated with developmentally ine...

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Published in:The Journal of animal ecology 2008-03, Vol.77 (2), p.356-363
Main Authors: Lee, K. A., Wikelski, M., Robinson, W. D., Robinson, T. R., Klasing, K. C.
Format: Article
Language:English
Subjects:
Animal and plant ecology
Animal ecology
Animal populations
Animal, plant and microbial ecology
Animals
Antibodies
Antibody Formation
Aves
Biological and medical sciences
Bird Diseases - immunology
Bird nesting
Birds
Birds - immunology
Body Size
Clutch Size
Ecological genetics
Ecological life histories
Ecology
Evolution
Evolutionary Ecology
Female
Fundamental and applied biological sciences. Psychology
General aspects
Immunity - immunology
Immunity - physiology
Immunology
incubation
life history
Male
natural antibodies
Nesting Behavior - physiology
Phylogenetics
Species
Species Specificity
Time Factors
tropical birds
Tropical Climate
Vertebrates: general zoology, morphology, phylogeny, systematics, cytogenetics, geographical distribution
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Summary:1. It has been suggested that immune defences are shaped by life history and ecology, but few general patterns have been described across species. We hypothesized that 'fast' life-history traits (e.g. short development times, large clutch sizes) would be associated with developmentally inexpensive immune defences, minimizing the resource demands of young animals' immune systems during periods of rapid growth. Conversely, 'slow' life histories should be associated with well developed antibody-mediated defences, which are developmentally costly. 2. We therefore predicted that 'fast-living' species would exhibit higher levels of complement proteins, a component of non-specific innate defence, but lower levels of constitutive ('natural') antibodies. Additionally, we predicted that constitutive immune defences in general would be higher in species with ecological characteristics that might increase exposure to pathogens, such as open nests, omnivorous diets, gregariousness, and closed forested habitat. 3. Across 70 Neotropical bird species, we found a strongly positive relationship between incubation period and natural antibody levels in adult birds, suggesting that longer developmental times might allow the production of a more diverse and/or more reactive adaptive immune system. Complement activity was positively, although weakly, correlated with clutch size, providing some support for the hypothesis that faster-living species rely more on innate defences, such as complement. Unexpectedly, solitary species had higher natural antibody titres than species that frequently join flocks. 4. Our results suggest that, despite probably widespread differences in the intensity and diversity of pathogen exposure, species-level variation in constitutive immune defences is understandable within the context of life-history theory.
ISSN:0021-8790
1365-2656
DOI:10.1111/j.1365-2656.2007.01347.x