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Abstract Character displacement theory predicts that closely-related co-occurring species should diverge in relevant traits to reduce costly interspecific interactions such as competition or hybridization. While many studies document character shifts in sympatry, few provide corresponding evidence that these shifts are driven by the costs of co-occurrence. Black-capped (Poecile atricapillus) and mountain chickadees (Poecile gambeli) are closely-related, ecologically similar, and broadly distributed songbirds with both allopatric and sympatric populations. In sympatry, both species appear to suffer costs of their co-occurrence: (a) both species are in worse body condition compared to allopatry and (b) hybridization sometimes yields sterile offspring. Here, we explored character displacement in the songs of black-capped and mountain chickadees by characterizing variation in male songs from sympatric and allopatric populations. We found that mountain chickadees sing differently in sympatry versus allopatry. Specifically, they produced more notes per song, were more likely to include an extra introductory note, and produced a smaller glissando in their first notes compared to all other populations. Combined with previous research on social dominance and maladaptive hybridization between black-capped and mountain chickadees, we posit that differences in sympatric mountain chickadee song are population-wide shifts to reduce aggression from dominant black-capped chickadees and/or prevent maladaptive hybridization. 

Abstract Hemosporidian parasite communities are broadly similar in Boulder County, Colorado, between two common songbirds––the Black-capped Chickadee (Poecile atricapillus) and Mountain Chickadee (Poecile gambeli). However, Mountain Chickadees appear more likely to be infected with Plasmodium and potentially experience higher infection burdens with Leucocytozoon in contrast to Black-capped Chickadees. We found that elevation change (and associated ecology) drives the distributions of these parasite genera. For Boulder County chickadees, environmental factors play a more important role in structuring hemosporidian communities than host evolutionary differences. However, evolutionary differences are likely key to shaping the probability of infection, infection burden, and whether an infection remains detectable over time. We found that for recaptured birds, their infection status (i.e. presence or absence of detectable parasite infection) tends to remain consistent across capture periods. We sampled 235 chickadees between 2017 and 2021 across a ~1,500-m elevation gradient from low elevation (i.e. the city of Boulder) to comparatively high elevation (i.e. the CU Boulder Mountain Research Station). It is unknown whether long-term hemosporidian abundance trends have changed over time in our sampling region. However, we ask whether potentially disparate patterns of Plasmodium susceptibility and Leucocytozoon infection burden could be playing a role in the negative population trends of Mountain Chickadees. 

Abstract Single‐nucleotide polymorphisms (SNPs) are preferred over microsatellite markers in many evolutionary studies, but have only recently been applied to studies of parentage. Evaluations ofSNPs and microsatellites for assigning parentage have mostly focused on special cases that require a relatively large number of heterozygous loci, such as species with low genetic diversity or with complex social structures. We developed 120SNPmarkers from a transcriptome assembled usingRNA‐sequencing of a songbird with the most common avian mating system—social monogamy. We compared the effectiveness of 97 novelSNPs and six previously described microsatellites for assigning paternity in the black‐throated blue warbler,Setophaga caerulescens. We show that the full panel of 97SNPs (meanH_o = 0.19) was as powerful for assigning paternity as the panel of multiallelic microsatellites (meanH_o = 0.86). Paternity assignments using the two marker types were in agreement for 92% of the offspring. Filtering individual samples by a 50% call rate andSNPs by a 75% call rate maximized the number of offspring assigned with 95% confidence usingSNPs. We also found that the 40 most heterozygousSNPs (meanH_o = 0.37) had similar power to assign paternity as the full panel of 97SNPs. These findings demonstrate that a relatively small number of variableSNPs can be effective for parentage analyses in a socially monogamous species. We suggest that the development ofSNPmarkers is advantageous for studies that require high‐throughput genotyping or that plan to address a range of ecological and evolutionary questions.