Abstract
Genetic differentiation among Spotted Owl (Strix occidentalis) subspecies has been established in prior studies. These investigations also provided evidence for introgression and hybridization among taxa but were limited by a lack of samples from geographic regions where subspecies came into close contact. We analyzed new sets of samples from Northern Spotted Owls (NSO: S. o. caurina) and California Spotted Owls (CSO: S. o. occidentalis) in northern California using mitochondrial DNA sequences (mtDNA) and 10 nuclear microsatellite loci to obtain a clearer depiction of genetic differentiation and hybridization in the region. Our analyses revealed that a NSO population close to the northern edge of the CSO range in northern California (the NSO Contact Zone population) is highly differentiated relative to other NSO populations throughout the remainder of their range. Phylogenetic analyses identified a unique lineage of mtDNA in the NSO Contact Zone, and Bayesian clustering analyses of the microsatellite data identified the Contact Zone as a third distinct population that is differentiated from CSO and NSO found in the remainder of the subspecies' range. Hybridization between NSO and CSO was readily detected in the NSO Contact Zone, with over 50% of individuals showing evidence of hybrid ancestry. Hybridization was also identified among 14% of CSO samples, which were dispersed across the subspecies' range in the Sierra Nevada Mountains. The asymmetry of hybridization suggested that the hybrid zone may be dynamic and moving. Although evidence of hybridization existed, we identified no F1 generation hybrid individuals. We instead found evidence for F2 or backcrossed individuals among our samples. The absence of F1 hybrids may indicate that (1) our 10 microsatellites were unable to distinguish hybrid types, (2) primary interactions between subspecies are occurring elsewhere on the landscape, or (3) dispersal between the subspecies' ranges is reduced relative to historical levels, potentially as a consequence of recent regional fires.
Highlights
Studies of hybrids can provide new insights regarding interactions of species
We focus on analyses of two subspecies of Spotted Owls (Strix occidentalis) where they come into close contact in northern California, USA
By placing data from our new samples (10 microsatellite loci and mitochondrial DNA sequence data) in the context of results from previous range-w ide studies of Spotted Owls (Funk et al, 2008; Haig, Mullins, & Forsman, 2004), our new analyses allow us to (1) make refined inferences about genetic diversity and differentiation patterns of Spotted Owls, in northern California, and (2) characterize hybridization and introgression patterns where Northern Spotted Owls (NSO) and California Spotted Owls (CSO) come into close contact
Summary
Studies of hybrids can provide new insights regarding interactions of species. Hybridization may occur when the distributions of two taxa come into secondary contact (Barton & Hewitt, 1985), the specific outcomes of hybridization can vary (Abbott et al, 2013; Arnold, 1997; Moore, 1977; Todesco et al, 2016). These inferences come from analyses that lacked samples from landscape regions where the subspecies come into closest contact (Barrowclough, Groth, Mertz, & Gutiérrez, 2005; Funk, Forsman, Mullins, & Haig, 2008; Haig, Mullins, & Forsman, 2004) or are based solely on mitochondrial DNA sequences (mtDNA) (Barrowclough, Gutiérrez, Groth, Lai, & Rock, 2011), thereby limiting their ability to identify and quantify hybridization patterns in detail In this investigation, we used new NSO and CSO samples from northern California where the two subspecies come into close proximity, thereby allowing us to make more refined inferences about interactions between Northern Spotted Owls and California Spotted Owls. By placing data from our new samples (10 microsatellite loci and mitochondrial DNA sequence data) in the context of results from previous range-w ide studies of Spotted Owls (Funk et al, 2008; Haig, Mullins, & Forsman, 2004), our new analyses allow us to (1) make refined inferences about genetic diversity and differentiation patterns of Spotted Owls, in northern California, and (2) characterize hybridization and introgression patterns where NSO and CSO come into close contact
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