We used Polymerase Chain Reaction (PCR) amplification of 16S rRNA genes and Denaturing Gradient Gel Electrophoresis (DGGE) to describe the microbial communities present in the cloacae of spotted towhees Pipilo maculatus. Our goals were to quantify bacterial diversity of breeding females, describe microgeographic variation of cloacal communities in a network of four urban parks in Portland, OR, and evaluate the degree to which microbial species richness varied with individual female characteristics (age, size, and condition). We detected 57 Operational Taxonomic Units (OTUs) in 46 towhees, but most OTUs showed a relatively low prevalence. Discriminant function analysis correctly classified 69.6% of towhees to their park of origin based on the presence or absence of five OTUs. Parks thus had unique “microbial signatures”. The presence or absence of specific OTUs was not associated with a female's age, but a general linear models analysis established that OTU richness was greatest among females with short tails, narrow bills, and with the exception of one individual, among relatively heavy birds. We speculate that the microgeographic differences in cloacal microbial community structure may exist due to differences in anthropogenic influences among parks. The explanations for the negative relationship between microbial richness and flight feather length, but positive relationship between microbial richness and body condition are unclear, but may reflect the different time frames over which feather growth and body mass are determined.
Th e extra-pair (EP) mating system of birds may be infl uenced by food resources, such that nutritionally stressed females are unable to pursue EP fertilizations (constrained female hypothesis; CFH), or that females on poor territories acquire EP fertilizations during extra-territorial forays in search of food (mating opportunity hypothesis; MOH). Edges of urban habitat fragments are sites of apparent high food abundance for spotted towhees Pipilo maculatus , and we used distance to habitat edge in four urban parks in Portland, OR, USA (2004 -2006), to test the CFH and MOH. EP paternity was independent of park identity and year; 44% of nests contained EP young and 26% of all young were EP. As predicted by the CFH, EP paternity was more common in nests of long-tailed (presumably) high quality females. However, independently of tail length, younger females had more EP young than older females, a fi nding consistent with the MOH. Contrary to predictions of both hypotheses, the probability that a nest contained EP young was highest both at the habitat edge and habitat interior while the proportion of young in nests of EP origin (for nests with EP young) was highest at intermediate distances from habitat edge. We propose that high frequency of EP paternity among females in the interior occurred because, as predicted by the MOH, they ranged more widely in search of food and often encountered EP males. High probability of EP paternity near edges was likely unrelated to female quality. Instead, anthropogenic food sources may have attracted individuals to edges and increased encounters between potential EP mates. Simple opportunity seems likely to account for patterns of EP paternity in spotted towhees, suggesting that human altered environments have the potential to substantially aff ect EP mating behavior.
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