Abstract
AbstractIn lowland Neotropical regions, where air temperature and day length remain relatively constant year round, seasonality is determined primarily by changes in rainfall. The wet season triggers the start of breeding for many Neotropical birds but also alters the antigenic environment, likely increasing the risk of disease transmission. We explored 2 hypotheses about temporal variation in constitutive innate immunity of a Neotropical bird, the House Wren (Troglodytes aedon). The antigen response hypothesis proposes that Neotropical wrens upregulate their immune function in the wet season either in anticipation of or in response to vectors that become more prevalent. The resource constraint hypothesis proposes that during periods of putative high resource demand, such as when parents are feeding young, immune function should be compromised and downregulated. Controlling for reproductive stage, we found that microbicidal capacity of blood against Escherichia coli was higher in the wet than the dry season, consistent with the antigen response hypothesis. Phagocytosis of E. coli and Staphylococcus aureus did not differ between wet and dry seasons. Microbicidal capacity and H/L ratio of tropical House Wrens did not vary among reproductive stages, and our data offered no support for the idea that immune function is compromised during the period when parents are feeding young.
Highlights
The field of ecological immunity has burgeoned in the last decades providing us with information on the operation of the vertebrate immune system in natural environments
Quantifying various measures of the constitutive innate immune system of Neotropical House Wrens, we found some but limited variation in immunity with season and none with reproductive stage
Our results partly supported the hypothesis that birds in the wet season have an elevated immune system
Summary
The field of ecological immunity has burgeoned in the last decades providing us with information on the operation of the vertebrate immune system in natural environments. In the Panamanian Neotropics there is a clear distinction between the rainy season and the dry season and, in a number of species, breeding occurs in both seasons (Freed 1987, Tieleman et al 2008) This provides the opportunity to uncouple rainfall and reproductive stage in order to determine the independent influences of workload and environment on the immune system. By integrating immune components present in the cellular and plasma fractions of whole blood, our microorganism-killing and phagocytosis assays take a functional approach, providing a measure of blood’s ability to act against pathogens (Tieleman et al 2005, Matson et al 2006a, 2006b; Millet et al 2007). The antigen response and resource constraint hypotheses make contrasting predictions regarding seasonal patterns in H/L ratios
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