Seasonal patterns in immune indices reflect microbial loads on birds but not microbes in the wider environment

N.P.C. Horrocks, K.D. Matson, M. Shobrak, J.M. Tinbergen, B.I. Tieleman

Research output: Contribution to journalArticleAcademicpeer-review


Documenting patterns in immune function is a first step to understanding immune variation, but to comprehend causes and consequences, antigen and parasite exposure that may drive such variation must be determined. We measured host-independent microbial exposure in five species of larks (Alaudidae) in the Arabian Desert by sampling ambient air for culturable microbes during late spring and winter, two periods with contrasting environmental conditions. We developed a novel technique to assay densities of microbes shed from birds, and we quantified four indices of constitutive innate immunity. Birds shed significantly more microbes during spring than winter, and all immune indices except one were also significantly higher during spring. In contrast, concentrations of airborne environmental microbes were higher in winter. Among all birds in both seasons, lysis titers were positively correlated with total densities of microbes shed from birds, suggesting that immune defenses are directed towards the microbes that birds carry, rather than microbes in the wider environment. Our findings highlight the relevance of quantifying non-specific immune challenges in ecological immunology studies, and reinforce the importance of both host-dependent and host-independent measures of antigenic pressure for understanding immune variation. Read More:
Original languageEnglish
Article number19
Number of pages14
Issue number2
Publication statusPublished - 2012


  • feather-degrading bacteria
  • arabian desert
  • saudi-arabia
  • life-history
  • trade-offs
  • ecological immunology
  • evolutionary ecology
  • atmospheric bacteria
  • airborne particles
  • aridity gradient

Fingerprint Dive into the research topics of 'Seasonal patterns in immune indices reflect microbial loads on birds but not microbes in the wider environment'. Together they form a unique fingerprint.

Cite this