Your search keyword '"Spellman GM"' showing total 34 results

1. Genetic, bioacoustic and morphological analyses reveal cryptic speciation in the warbling vireo complex (Vireo gilvus: Vireonidae: Passeriformes)

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Author

Carpenter, AM, primary, Graham, BA, additional, Spellman, GM, additional, Klicka, J, additional, and Burg, TM, additional

Published

2021

2. Middle Ear Mechanics in the Barn Owl.

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Author

Peacock J, Benson MA, Field DJ, and Spellman GM

Subjects

Animals, Hearing physiology, Acoustic Stimulation, Biomechanical Phenomena, Vibration, Ear, Inner physiology, Ear, Inner anatomy & histology, Pressure, Strigiformes physiology, Ear, Middle physiology, Ear, Middle anatomy & histology

Abstract

The barn owl is a common research subject in auditory science due to its exceptional capacity for high frequency hearing and superb sound source localization capabilities. Despite longstanding interest in the auditory performance of barn owls, the function of its middle ear has attracted remarkably little attention. Here, we report the middle ear transfer function measured by laser Doppler vibrometry and direct measurements of inner ear pressures. Our results illustrate that the barn owl middle ear produces a pressure gain between the ear canal and the inner ear vestibule of up to 35 dB, which is comparable to that seen in mammals. The footplate velocity transfer function magnitudes overlap with those measured in other bird species, however the differences in phase between the footplate velocity and the sound pressure stimulus indicate a middle ear group delay that is notably shorter than other birds. This work brings us closer to a more complete understanding of the physiology of hearing in a model organism in auditory science., (© 2025 The Author(s). Journal of Morphology published by Wiley Periodicals LLC.) more...

Published

2025

3. Recombination rate variation shapes genomic variability of phylogeographic structure in a widespread North American songbird (Aves: Certhia americana).

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Author

Manthey JD and Spellman GM

Subjects

Animals, Phylogeny, Genetics, Population, Genetic Variation, North America, Genome genetics, Whole Genome Sequencing, Phylogeography, Recombination, Genetic, Songbirds genetics, Songbirds classification

Abstract

The nonrandom distribution of chromosomal characteristics and functional elements-genomic architecture-impacts the relative strengths and impacts of population genetic processes across the genome. Due to this relationship, genomic architecture has the potential to shape variation in population genetic structure across the genome. Population genetic structure has been shown to vary across the genome in a variety of taxa, but this body of work has largely focused on pairwise population genomic comparisons between closely related taxa. Here, we used whole genome sequencing of seven phylogeographically structured populations of a North American songbird, the Brown Creeper (Certhia americana), to determine the impacts of genomic architecture on phylogeographic structure variation across the genome. Using multiple methods to infer phylogeographic structure-ordination, clustering, and phylogenetic methods-we found that recombination rate variation explained a large proportion of phylogeographic structure variation. Genomic regions with low recombination showed phylogeographic structure consistent with the genome-wide pattern. In regions with high recombination, we found strong phylogeographic structure, but with discordant patterns relative to the genome-wide pattern. In regions with high recombination rate, we found that populations with small effective population sizes evolve relatively more rapidly than larger populations, leading to discordant signatures of phylogeographic structure. These results suggest that the interplay between recombination rate variation and effective population sizes shape the relative impacts of selection and genetic drift in different parts of the genome. Overall, the combined interactions of population genetic processes, genomic architecture, and effective population sizes shape patterns of variability in phylogeographic structure across the genome of the Brown Creeper., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Inc. All rights reserved.) more...

Published

2024

4. Comparative morphology of the avian bony columella.

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Author

Peacock J, Spellman GM, Field DJ, Mason MJ, and Mayr G

Subjects

Phylogeny, Vibration, Cochlea, Bone and Bones, Ear, Inner

Abstract

In birds, the columella is the only bony element of the sound conducting apparatus, conveying vibrations of the cartilaginous extracolumella to the fluid of the inner ear. Although avian columellar morphology has attracted some attention over the past century, it nonetheless remains poorly described in the literature. The few existing studies mostly focus on morphological descriptions in relatively few taxa, with no taxonomically broad surveys yet published. Here we use observations of columellae from 401 extant bird species to provide a comprehensive survey of columellar morphology in a phylogenetic context. We describe the columellae of several taxa for the first time and identify derived morphologies characterizing higher-level clades based on current phylogenies. In particular, we identify a derived columellar morphology diagnosing a major subclade of Accipitridae. Within Suliformes, we find that Fregatidae, Sulidae, and Phalacrocoracidae share a derived morphology that is absent in Anhingidae, suggesting a secondary reversal. Phylogenetically informed comparisons allow recognition of instances of homoplasy, including the distinctive bulbous columellae in suboscine passerines and taxa belonging to Eucavitaves, and bulging footplates that appear to have evolved at least twice independently in Strigiformes. We consider phylogenetic and functional factors influencing avian columellar morphology, finding that aquatic birds possess small footplates relative to columellar length, possibly related to hearing function in aquatic habitats. By contrast, the functional significance of the distinctive bulbous basal ends of the columellae of certain arboreal landbird taxa remains elusive., (© 2023 American Association for Anatomy.) more...

Published

2024

5. Genomic divergence and introgression between cryptic species of a widespread North American songbird.

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Author

Askelson KK, Spellman GM, and Irwin D

Subjects

Animals, Genomics, Genome genetics, Reproductive Isolation, Gene Flow, Genetic Speciation, Songbirds genetics, Passeriformes genetics

Abstract

Analysis of genomic variation among related populations can sometimes reveal distinct species that were previously undescribed due to similar morphological appearances, and close examination of such cases can provide much insight regarding speciation. Genomic data can also reveal the role of reticulate evolution in differentiation and speciation. White-breasted nuthatches (Sitta carolinensis) are widely distributed North American songbirds that are currently classified as a single species but have been suspected to represent a case of cryptic speciation. Previous genetic analyses suggested four divergent groups, but it was unclear whether these represented multiple reproductively isolated species. Using extensive genomic sampling of over 350 white-breasted nuthatches from across North America and a new chromosome-level reference genome, we asked if white-breasted nuthatches are comprised of multiple species and whether introgression has occurred between divergent populations. Genomic variation of over 300,000 loci revealed four highly differentiated populations (Pacific, n = 45; Eastern, n = 23; Rocky Mountains North, n = 138; and Rocky Mountains South, n = 150) with geographic ranges that are adjacent. We observed a moderate degree of admixture between Rocky Mountain populations but only a small number of hybrids between the Rockies and the Eastern population. The rarity of hybrids together with high levels of differentiation between populations is supportive of populations having some level of reproductive isolation. Between populations, we show evidence for introgression from a divergent ghost lineage of white-breasted nuthatches into the Rocky Mountains South population, which is otherwise closely related to Rocky Mountains North. We conclude that white-breasted nuthatches are best considered at least three species and that ghost lineage introgression has contributed to differentiation between the two Rocky Mountain populations. White-breasted nuthatches provide a dramatic case of morphological similarity despite high genomic differentiation, and the varying levels of reproductive isolation among the four groups provide an example of the speciation continuum., (© 2023 John Wiley & Sons Ltd.) more...

Published

2023

6. Estimating phylogenies from genomes: A beginners review of commonly used genomic data in vertebrate phylogenomics.

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Author

Carter JK, Kimball RT, Funk ER, Kane NC, Schield DR, Spellman GM, and Safran RJ

Subjects

Animals, Phylogeny, Biological Evolution, Vertebrates genetics, Genomics methods, Genome

Abstract

Despite the increasing feasibility of sequencing whole genomes from diverse taxa, a persistent problem in phylogenomics is the selection of appropriate genetic markers or loci for a given taxonomic group or research question. In this review, we aim to streamline the decision-making process when selecting specific markers to use in phylogenomic studies by introducing commonly used types of genomic markers, their evolutionary characteristics, and their associated uses in phylogenomics. Specifically, we review the utilities of ultraconserved elements (including flanking regions), anchored hybrid enrichment loci, conserved nonexonic elements, untranslated regions, introns, exons, mitochondrial DNA, single nucleotide polymorphisms, and anonymous regions (nonspecific regions that are evenly or randomly distributed across the genome). These various genomic elements and regions differ in their substitution rates, likelihood of neutrality or of being strongly linked to loci under selection, and mode of inheritance, each of which are important considerations in phylogenomic reconstruction. These features may give each type of marker important advantages and disadvantages depending on the biological question, number of taxa sampled, evolutionary timescale, cost effectiveness, and analytical methods used. We provide a concise outline as a resource to efficiently consider key aspects of each type of genetic marker. There are many factors to consider when designing phylogenomic studies, and this review may serve as a primer when weighing options between multiple potential phylogenomic markers., (© The Author(s) 2023. Published by Oxford University Press on behalf of The American Genetic Association. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.) more...

Published

2023

7. The genetic basis of plumage coloration and elevation adaptation in a clade of recently diverged alpine and arctic songbirds.

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Author

Funk ER, Spellman GM, Winker K, Withrow JJ, Ruegg KC, and Taylor SA

Subjects

Animals, Phenotype, Genome, Acclimatization, Sexual Selection, Genetic Speciation, Songbirds genetics

Abstract

Trait genetic architecture plays an important role in the probability that variation in that trait leads to divergence and speciation. In some cases, speciation may be driven by the generation of novel phenotypes through the recombination of genes associated with traits that are important for local adaptation or sexual selection. Here, we investigate the genetic basis of three plumage color traits, and one ecological trait, breeding elevation, in a recent avian radiation, the North American rosy-finches (Leucosticte spp.). We identify unique genomic regions associated with each trait and highlight 11 candidate genes. Among these are well-characterized melanogenesis genes, including Mitf and Tyrp1, and previously reported hypoxia-related genes including Egln1. Additionally, we use mitochondrial data to date the divergence of rosy-finch clades which appear to have diverged within the past 250 ky. Given the low levels of genome-wide differentiation among rosy-finch taxa, and evidence for extensive introgression in North America, plumage coloration and adaptation to high elevations have likely played large roles in generating the observed patterns of lineage divergence. The relative independence of these candidate regions across the genome suggests that recombination might have led to multiple phenotypes, and subsequent rosy-finch speciation, over short periods of time., (© The Author(s) 2022. Published by Oxford University Press on behalf of The Society for the Study of Evolution (SSE). All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.) more...

Published

2023

8. Survey of haemosporidian parasite infections in an endangered high alpine bird.

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Author

Theodosopoulos AN, Spellman GM, and Taylor SA

Subjects

Male, Female, Animals, Birds parasitology, Prevalence, Phylogeny, Bird Diseases epidemiology, Bird Diseases parasitology, Haemosporida genetics, Parasites genetics, Parasitic Diseases, Protozoan Infections, Animal epidemiology, Protozoan Infections, Animal parasitology

Abstract

The Brown-capped Rosy-Finch is an endangered high alpine specialist that breeds on cliffs in the Rocky Mountains of North America. We know little about the parasites that infect these birds but filling this knowledge gap is important for understanding their population decline. The aim of this study was to survey haemosporidian parasite infections in Brown-capped Rosy-Finches. We sampled 104 Brown-capped Rosy-Finches during their breeding season at six sampling sites spanning the Colorado Rocky Mountains where they are nearly endemic. We used nested PCR methods to screen birds for parasite infections, and Sanger sequencing data were used to identify parasite lineages. Four of the sampling sites had birds with infections. Females were more often infected than males (prevalence = 15.6% and 9.7%, respectively). We observed twice as many infected birds sampled in July compared to birds sampled in June (prevalence = 12.5% and 6.25%, respectively). The percent of infected birds by sampling site ranged from 0 to over 20%. In total we identified eight different genetic lineages of haemosporidian parasites infecting Brown-capped Rosy-Finches-seven were in the genus Leucocytozoon, and one was in the genus Haemoproteus. Network analysis clearly separates Haemoproteus from Leucocytozoon, with Leucocytozoon lineages comprising two major clusters. Based on reports made to the MalAvi database, all lineages in Cluster 1 have the same reported insect vector, Simulium silvestre. We report that Brown-capped Rosy-Finches experience infections with haemosporidian parasites and that the percentage of infected birds differed markedly between sampling sites. We hypothesize that vector ecology and associated variation in climate at sampling sites explain our observations., (© 2023. The Author(s).) more...

Published

2023

9. Correction: Do habitat and elevation promote hybridization during secondary contact between three genetically distinct groups of warbling vireo (Vireo gilvus)?

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Author

Carpenter AM, Graham BA, Spellman GM, and Burg TM

Published

2022

10. Do habitat and elevation promote hybridization during secondary contact between three genetically distinct groups of warbling vireo (Vireo gilvus)?

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Author

Carpenter AM, Graham BA, Spellman GM, and Burg TM

Subjects

Animals, DNA, Mitochondrial genetics, Ecosystem, Microsatellite Repeats, Hybridization, Genetic, Passeriformes genetics

Abstract

Following postglacial expansion, secondary contact can occur between genetically distinct lineages. These genetic lineages may be associated with specific habitat or environmental variables and therefore, their distributions in secondary contact could reflect such conditions within these areas. Here we used mtDNA, microsatellite, and morphological data to study three genetically distinct groups of warbling vireo (Vireo gilvus) and investigate the role that elevation and habitat play in their distributions. We studied two main contact zones and within each contact zone, we examined two separate transects. Across the Great Plains contact zone, we found that hybridization between eastern and western groups occurs along a habitat and elevational gradient, whereas hybridization across the Rocky Mountain contact zone was not as closely associated with habitat or elevation. Hybrids in the Great Plains contact zone were more common in transitional areas between deciduous and mixed-wood forests, and at lower elevations (<1000 m). Hybridization patterns were similar along both Great Plains transects indicating that habitat and elevation play a role in hybridization between distinct eastern and western genetic groups. The observed patterns suggest adaptation to different habitats, perhaps originating during isolation in multiple Pleistocene refugia, is facilitating hybridization in areas where habitat types overlap., (© 2022. The Author(s), under exclusive licence to The Genetics Society.) more...

Published

2022

11. The Genomic Signature of Allopatric Speciation in a Songbird Is Shaped by Genome Architecture (Aves: Certhia americana).

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Author

Manthey JD, Klicka J, and Spellman GM

Subjects

Animals, Gene Flow, Genetic Speciation, Genome, Genomics, Selection, Genetic, Passeriformes genetics, Songbirds genetics

Abstract

The genomic signature of speciation with gene flow is often attributed to the strength of divergent selection and recombination rate in regions harboring targets for selection. In contrast, allopatric speciation provides a different geographic context and evolutionary scenario, whereby introgression is limited by isolation rather than selection against gene flow. Lacking shared divergent selection or selection against hybridization, we would predict the genomic signature of allopatric speciation would largely be shaped by genomic architecture-the nonrandom distribution of functional elements and chromosomal characteristics-through its role in affecting the processes of selection and drift. Here, we built and annotated a chromosome-scale genome assembly for a songbird (Passeriformes: Certhia americana). We show that the genomic signature of allopatric speciation between its two primary lineages is largely shaped by genomic architecture. Regionally, gene density and recombination rate variation explain a large proportion of variance in genomic diversity, differentiation, and divergence. We identified a heterogeneous landscape of selection and neutrality, with a large portion of the genome under the effects of indirect selection. We found higher proportions of small chromosomes under the effects of indirect selection, likely because they have relatively higher gene density. At the chromosome scale, differential genomic architecture of macro- and microchromosomes shapes the genomic signatures of speciation: chromosome size has: 1) a positive relationship with genetic differentiation, genetic divergence, rate of lineage sorting in the contact zone, and proportion neutral evolution and 2) a negative relationship with genetic diversity and recombination rate., (© The Author(s) 2021. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution.) more...

Published

2021

12. Phylogenomic Data Reveal Widespread Introgression Across the Range of an Alpine and Arctic Specialist.

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Author

Funk ER, Spellman GM, Winker K, Withrow JJ, Ruegg KC, Zavaleta E, and Taylor SA

Subjects

Animals, Arctic Regions, Bayes Theorem, Biological Evolution, Phylogeny, Finches genetics, Gene Flow, Genome genetics

Abstract

Understanding how gene flow affects population divergence and speciation remains challenging. Differentiating one evolutionary process from another can be difficult because multiple processes can produce similar patterns, and more than one process can occur simultaneously. Although simple population models produce predictable results, how these processes balance in taxa with patchy distributions and complicated natural histories is less certain. These types of populations might be highly connected through migration (gene flow), but can experience stronger effects of genetic drift and inbreeding, or localized selection. Although different signals can be difficult to separate, the application of high-throughput sequence data can provide the resolution necessary to distinguish many of these processes. We present whole-genome sequence data for an avian species group with an alpine and arctic tundra distribution to examine the role that different population genetic processes have played in their evolutionary history. Rosy-finches inhabit high elevation mountaintop sky islands and high-latitude island and continental tundra. They exhibit extensive plumage variation coupled with low levels of genetic variation. Additionally, the number of species within the complex is debated, making them excellent for studying the forces involved in the process of diversification, as well as an important species group in which to investigate species boundaries. Total genomic variation suggests a broadly continuous pattern of allele frequency changes across the mainland taxa of this group in North America. However, phylogenomic analyses recover multiple distinct, well supported, groups that coincide with previously described morphological variation and current species-level taxonomy. Tests of introgression using D-statistics and approximate Bayesian computation reveal significant levels of introgression between multiple North American taxa. These results provide insight into the balance between divergent and homogenizing population genetic processes and highlight remaining challenges in interpreting conflict between different types of analytical approaches with whole-genome sequence data. [ABBA-BABA; approximate Bayesian computation; gene flow; phylogenomics; speciation; whole-genome sequencing.]., (© The Author(s) 2020. Published by Oxford University Press, on behalf of the Society of Systematic Biologists. All rights reserved. For permissions, please email: journals.permissions@oup.com.) more...

Published

2021

13. A comparative study of avian middle ear mechanics.

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Author

Peacock J, Spellman GM, Tollin DJ, and Greene NT

Subjects

Animals, Birds, Hearing, Sound, Ear, Middle

Abstract

Sound and hearing play an important role in the lives of many birds, and studies have been published on the acoustic habitat of various species, as well as on various aspects of their hearing system. However the function of the middle ear remains largely unexplored, with existing studies focusing on either single species, or a very narrow range of species. In this article we report measurements of the middle ear transfer function in 39 taxonomically diverse avian species. We used laser vibrometry to measure the vibrations of the columellar footplate in response to tones played in each animal's ear canal, and calculated the middle ear transfer functions. Transfer functions varied substantially across species, but appeared to follow common trends. Comparisons between the peak frequency in the transfer function and length/mass of the columella reveal a correlation between the three, however statistical analysis suggests that columellar length is a primary indicator of the peak frequency. These results provide a broad survey of avian middle ear function, and the observed trends provide a method with which to begin to predict the response of single ossicle middle ear systems., (Copyright © 2020 Elsevier B.V. All rights reserved.) more...

Published

2020

14. Scaling of the avian middle ear.

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Author

Peacock J, Spellman GM, Greene NT, and Tollin DJ

Subjects

Animals, Birds, Mammals, Stapes, Tympanic Membrane, Ear, Middle

Abstract

This article presents a comparative study of morphology of the avian middle ear. The general morphology of the columella shows considerable variation across species, yet few studies have attempted to provide quantitative comparisons, and basic anatomical data has not been thoroughly reported. In this study, we examined the middle ear in 49 taxonomically diverse species of bird. We found significant correlations between measurements of several features (columellar length, mass, tympanic membrane area, footplate area) and interaural diameter. While scaling of columellar length with interaural diameter is consistent with isometry, masses and areas showed negative allometry, or a non-proportional scaling with interaural diameter. These observations remained true even for species with unusual middle ear morphology, such as Alcedinidae (Kingfishers) in which the basal struts of the columella form a structure almost resembling a mammalian stapes, or Tytonidae (Barn Owls) which have a highly bulbous footplate. It therefore appears that allometry cannot help explain the morphological variation in the columella., (Copyright © 2020 Elsevier B.V. All rights reserved.) more...

Published

2020

15. Dense Geographic and Genomic Sampling Reveals Paraphyly and a Cryptic Lineage in a Classic Sibling Species Complex.

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Author

Linck E, Epperly K, Van Els P, Spellman GM, Bryson RW, McCormack JE, Canales-Del-Castillo R, and Klicka J

Subjects

Animals, Genetic Variation, Mexico, Selection Bias, United States, Genetic Markers genetics, Phylogeny, Songbirds classification, Songbirds genetics

Abstract

Incomplete or geographically biased sampling poses significant problems for research in phylogeography, population genetics, phylogenetics, and species delimitation. Despite the power of using genome-wide genetic markers in systematics and related fields, approaches such as the multispecies coalescent remain unable to easily account for unsampled lineages. The Empidonax difficilis/Empidonax occidentalis complex of small tyrannid flycatchers (Aves: Tyrannidae) is a classic example of widely distributed species with limited phenotypic geographic variation that was broken into two largely cryptic (or "sibling") lineages following extensive study. Though the group is well-characterized north of the US Mexico border, the evolutionary distinctiveness and phylogenetic relationships of southern populations remain obscure. In this article, we use dense genomic and geographic sampling across the majority of the range of the E. difficilis/E. occidentalis complex to assess whether current taxonomy and species limits reflect underlying evolutionary patterns, or whether they are an artifact of historically biased or incomplete sampling. We find that additional samples from Mexico render the widely recognized species-level lineage E. occidentalis paraphyletic, though it retains support in the best-fit species delimitation model from clustering analyses. We further identify a highly divergent unrecognized lineage in a previously unsampled portion of the group's range, which a cline analysis suggests is more reproductively isolated than the currently recognized species E. difficilis and E. occidentalis. Our phylogeny supports a southern origin of these taxa. Our results highlight the pervasive impacts of biased geographic sampling, even in well-studied vertebrate groups like birds, and illustrate what is a common problem when attempting to define species in the face of recent divergence and reticulate evolution., (© The Author(s) 2019. Published by Oxford University Press, on behalf of the Society of Systematic Biologists. All rights reserved. For Permissions, please email: journals.permissions@oup.com.) more...

Published

2019

16. Sedentary songbirds maintain higher prevalence of haemosporidian parasite infections than migratory conspecifics during seasonal sympatry.

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Author

Slowinski SP, Fudickar AM, Hughes AM, Mettler RD, Gorbatenko OV, Spellman GM, Ketterson ED, and Atwell JW

Subjects

Animals, Prevalence, Seasons, Sedentary Behavior, Songbirds parasitology, Sympatry, Animal Migration physiology, Haemosporida pathogenicity, Protozoan Infections, Animal epidemiology, Songbirds physiology

Abstract

Long-distance migrations influence the physiology, behavior, and fitness of migratory animals throughout their annual cycles, and fundamentally alter their interactions with parasites. Several hypotheses relating migratory behavior to the likelihood of parasitism have entered the literature, making conflicting, testable predictions. To assess how migratory behavior of hosts is associated with parasitism, we compared haemosporidian parasite infections between two closely related populations of a common North American sparrow, the dark-eyed junco, that co-occur in shared habitats during the non-breeding season. One population is sedentary and winters and breeds in the Appalachian Mountains. The other population is migratory and is found in seasonal sympatry with the sedentary population from October through April, but then flies (≥ 900 km) northwards to breed. The populations were sampled in the wild on the shared montane habitat at the beginning of winter and again after confining them in a captive common environment until the spring. We found significantly higher prevalence of haemosporidian parasite infections in the sedentary population. Among infected juncos, we found no difference in parasite densities (parasitemias) between the sedentary and migrant populations and no evidence for winter dormancy of the parasites. Our results suggest that long-distance migration may reduce the prevalence of parasite infections at the population level. Our results are inconsistent with the migratory exposure hypothesis, which posits that long-distance migration increases exposure of hosts to diverse parasites, and with the migratory susceptibility hypothesis, which posits that trade-offs between immune function and migration increase host susceptibility to parasites. However, our results are consistent with the migratory culling hypothesis, which posits that heavily infected animals are less likely to survive long-distance migration, and with the migratory escape hypothesis, which posits that long-distance migration allows host populations to seasonally escape areas of high infection risk., Competing Interests: The authors have declared that no competing interests exist. more...

Published

2018

17. Chromosomal patterns of diversity and differentiation in creepers: a next-gen phylogeographic investigation of Certhia americana.

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Author

Manthey JD, Klicka J, and Spellman GM

Subjects

Animals, Genetic Drift, High-Throughput Nucleotide Sequencing, Models, Genetic, North America, Phylogeography, Polymorphism, Single Nucleotide, Sequence Analysis, DNA, Chromosomes genetics, Genetic Variation, Songbirds genetics

Abstract

With methods for sequencing thousands of loci for many individuals, phylogeographic studies have increased inferential power and the potential for applications to new questions. In songbirds, strong patterns of inter-chromosomal synteny, the published genome of a songbird and the ability to obtain thousands of genetic loci for many individuals permit the investigation of differentiation between and diversity within lineages across chromosomes. Here, we investigate patterns of differentiation and diversity in Certhia americana, a widespread North American songbird, using next-generation sequencing. Additionally, we reassess previous phylogeographic studies within the group. Based on ~30 million sequencing reads and more than 16,000 single-nucleotide polymorphisms in 41 individuals, we identified a strong positive relationship between genetic differentiation and chromosome size, with a negative relationship between genetic diversity and chromosome size. A combination of selection and drift may explain these patterns, although we found no evidence for selection. Because the observed genomic patterns are very similar between widespread, allopatric clades, it is unlikely that selective pressures would be so similar across such different ecological conditions. Alternatively, the accumulation of fixed differences between lineages and loss of genetic variation within lineages due to genetic drift alone may explain the observed patterns. Due to relatively higher recombination rates on smaller chromosomes, larger chromosomes would, on average, accumulate fixed differences between lineages and lose genetic variation within lineages faster, leading to the patterns observed here in C. americana. more...

Published

2015

18. Extensive gene flow characterizes the phylogeography of a North American migrant bird: Black-headed Grosbeak (Pheucticus melanocephalus).

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Author

van Els P, Spellman GM, Smith BT, and Klicka J

Subjects

Animal Migration, Animals, DNA, Mitochondrial chemistry, Genetic Variation, North America, Phylogeny, Phylogeography, Sequence Analysis, DNA, Gene Flow, Passeriformes classification, Passeriformes genetics

Abstract

We describe range-wide phylogeographic variation in the Black-headed Grosbeak (Pheucticus melanocephalus), a songbird that is widely distributed across North American scrublands and forests. Phylogenetic analysis of mitochondrial DNA (mtDNA, n=424) revealed three geographically structured clades. One widespread clade occurs throughout the Rocky Mountains, Great Basin, and Mexican Plateau, a second clade is found on the Pacific coast and in coastal ranges; and, a third in the Sierra Madre del Sur of Oaxaca and Guerrero. Some geographical structuring occurs in Mexican Plateau and Sierra Madre Oriental mtDNA clade, presumably because these populations have been more stable over time than northern populations. Multiple mitochondrial groups are found sympatrically in the Okanogan River Valley in Washington, the eastern Sierra Nevada, and the Transvolcanic Belt across central Mexico, indicating that there is a potential for introgression. Analyses of 12 nuclear loci did not recover the same geographically structured clades. Population analyses show high levels of gene flow in nucDNA from the Interior into the Sierra Madre del Sur and Pacific population groups, possibly indicating expansion of the Interior population at the expense of peripheral populations., (Copyright © 2014 Elsevier Inc. All rights reserved.) more...

Published

2014

19. Multilocus phylogeny and biogeography of the New World Pheucticus grosbeaks (Aves: Cardinalidae).

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Author

Pulgarín-R PC, Smith BT, Bryson RW Jr, Spellman GM, and Klicka J

Subjects

Animals, DNA, Mitochondrial genetics, Passeriformes genetics, Phylogeography, Sequence Analysis, DNA, Biological Evolution, Passeriformes classification, Phylogeny

Abstract

Using a multilocus approach, we investigated the tempo and pattern of diversification in a widely distributed New World songbird, the cardinalid genus Pheucticus. Each of the three geographic groups recovered (North American, Middle American, and South American) was comprised of a pair of currently recognized species, and four, three, and three geographically and genetically distinct phylogeographic lineages respectively. Diversification within Pheucticus appears to have occurred at a relatively constant pace throughout the Pleistocene and evenly across a broad latitudinal distribution. The Isthmus of Panama completion and Pleistocene glacial cycles both appear to have played prominent roles in the diversification of this group., (Copyright © 2013 Elsevier Inc. All rights reserved.) more...

Published

2013

20. Speciation in the White-breasted Nuthatch (Sitta carolinensis): a multilocus perspective.

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Author

Walstrom VW, Klicka J, and Spellman GM

Subjects

Animals, Cell Nucleus genetics, DNA, Mitochondrial genetics, Ecosystem, Gene Flow, Molecular Sequence Data, North America, Passeriformes genetics, Phylogeography, Principal Component Analysis, Reproductive Isolation, Sequence Analysis, DNA, Genetic Speciation, Passeriformes classification

Abstract

Inferring the evolutionary and ecological processes that have shaped contemporary species distributions using the geographic distribution of gene lineages is the principal goal of phylogeographic research. Researchers in the field have recognized that inferences made from a single gene, often mitochondrial, can be informative regarding the pattern of diversification but lack conclusive information regarding the evolutionary mechanisms that led to the observed patterns. Here, we use a multilocus (20 loci) data set to explore the evolutionary history of the White-breasted Nuthatch (Sitta carolinensis). A previous single-locus study found S. carolinensis is comprised of four reciprocally monophyletic clades geographically restricted to the pine and oak forests of: (i) eastern North America, (ii) southern Rocky Mountain and Mexican Mountain ranges, (iii) Eastern Sierra Nevada and Northern Rocky Mountains and (iv) Pacific slope of North America. The diversification of the clades was attributed to the fragmentation of North American pine and oak woodlands in the Pliocene with subsequent divergences owing to the Pleistocene glacial cycles. Principal component, clustering and species tree analyses of the multilocus data resolved the same four groups or lineages found in the single-locus study. Coalescent analyses and hypothesis testing of nested isolation and migration models indicate that isolation and not gene flow has been the major evolutionary mechanism responsible for shaping genetic variation, and all the divergence events within S. carolinensis have occurred in response to the Pleistocene glacial cycles., (© 2011 Blackwell Publishing Ltd.) more...

Published

2012

21. Is gene flow promoting the reversal of pleistocene divergence in the Mountain Chickadee (Poecile gambeli)?

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Author

Manthey JD, Klicka J, and Spellman GM

Subjects

Animal Migration, Animals, Ecosystem, Genetic Markers, Genetics, Population, Haplotypes genetics, Models, Biological, Phylogeny, Population Density, Time Factors, United States, Gene Flow genetics, Genetic Variation, Passeriformes genetics

Abstract

The Pleistocene glacial cycles left a genetic legacy on taxa throughout the world; however, the persistence of genetic lineages that diverged during these cycles is dependent upon levels of gene flow and introgression. The consequences of secondary contact among taxa may reveal new insights into the history of the Pleistocene's genetic legacy. Here, we use phylogeographic methods, using 20 nuclear loci from regional populations, to infer the consequences of secondary contact following divergence in the Mountain Chickadee (Poecile gambeli). Analysis of nuclear data identified two geographically-structured genetic groups, largely concordant with results from a previous mitochondrial DNA (mtDNA) study. Additionally, the estimated multilocus divergence times indicate a Pleistocene divergence, and are highly concordant with mtDNA. The previous mtDNA study showed a paucity of sympatry between clades, while nuclear patterns of gene flow show highly varied patterns between populations. The observed pattern of gene flow, from coalescent-based analyses, indicates southern populations in both clades exhibit little gene flow within or between clades, while northern populations are experiencing higher gene flow within and between clades. If this pattern were to persist, it is possible the historical legacy of Pleistocene divergence may be preserved in the southern populations only, and the northern populations would become a genetically diverse hybrid species. more...

Published

2012

22. Isolation-driven divergence: speciation in a widespread North American songbird (Aves: Certhiidae).

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Author

Manthey JD, Klicka J, and Spellman GM

Subjects

Animals, California, DNA, Mitochondrial genetics, Ecosystem, Gene Flow, Genetic Variation, Humans, Molecular Sequence Data, Reproductive Isolation, Evolution, Molecular, Genetic Speciation, Phylogeography, Songbirds genetics

Abstract

Lineage, or true 'species', trees may differ from gene trees because of stochastic processes in molecular evolution leading to gene-tree heterogeneity. Problems with inferring species trees because of excessive incomplete lineage sorting may be exacerbated in lineages with rapid diversification or recent divergences necessitating the use of multiple loci and individuals. Many recent multilocus studies that investigate divergence times identify lineage splitting to be more recent than single-locus studies, forcing the revision of biogeographic scenarios driving divergence. Here, we use 21 nuclear loci from regional populations to re-evaluate hypotheses identified in an mtDNA phylogeographic study of the Brown Creeper (Certhia americana), as well as identify processes driving divergence. Nuclear phylogeographic analyses identified hierarchical genetic structure, supporting a basal split at approximately 32°N latitude, splitting northern and southern populations, with mixed patterns of genealogical concordance and discordance between data sets within the major lineages. Coalescent-based analyses identify isolation, with little to no gene flow, as the primary driver of divergence between lineages. Recent isolation appears to have caused genetic bottlenecks in populations in the Sierra Madre Oriental and coastal mountain ranges of California, which may be targets for conservation concerns., (© 2011 Blackwell Publishing Ltd.) more...

Published

2011

23. Cryptic diversity in a widespread North American songbird: phylogeography of the Brown Creeper (Certhia americana).

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Author

Manthey JD, Klicka J, and Spellman GM

Subjects

Animals, Bayes Theorem, Central America, DNA, Mitochondrial genetics, Geography, Likelihood Functions, Models, Genetic, North America, Phylogeography, Sequence Analysis, DNA, Songbirds classification, Evolution, Molecular, Genetic Variation, Phylogeny, Songbirds genetics

Abstract

The identification of species via morphological characteristics has traditionally left cryptic species undescribed in taxa under selection for morphological conservation (or a lack of selection for morphological change). Treecreepers (Genus: Certhia) have a conserved morphological appearance, making it difficult to ascertain relationships in the genus based on morphology alone. Recent genetic and song structure studies of Eurasian Treecreepers identified cryptic species within Old World Certhia that were previously undescribed using morphological characteristics. Here, we use mtDNA to investigate cryptic diversity and patterns of diversification in the Brown Creeper (Certhia americana), the single described Certhia species in the Americas. Phylogenetic analyses identified six well-supported geographically-structured clades; the basal divergence separates a northern and a southern lineage in the Brown Creeper, likely cryptic species previously characterized as many subspecies. Sympatry is prevalent between clades in western North America, where possible contact zones warrant further investigation. Allopatry appears to be the primary driver of deep phylogeographic structure within the Brown Creeper; however, within clade diversity is highly correlated with the life history traits of the populations that comprise the geographically structured phylogroups., (Published by Elsevier Inc.) more...

Published

2011

24. Tylosin and chlortetracycline effects during swine manure digestion: influence of sodium azide.

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Author

Stone JJ, Clay SA, and Spellman GM

Subjects

Animals, Biodegradation, Environmental drug effects, Carbon Dioxide analysis, Methane analysis, Polymorphism, Restriction Fragment Length, Sus scrofa, Time Factors, Volatilization drug effects, Chlortetracycline pharmacology, Manure analysis, Sodium Azide pharmacology, Tylosin pharmacology

Abstract

The antibiotics tylosin and chlortetracycline (CTC), which are commonly used in pig production, were studied to determine their effects on swine manure digestion in the presence and absence of biocide sodium azide. CTC enhanced initial hydrolysis reactions through volatile suspended solids production, while inhibiting methane and carbon dioxide production. Tylosin did not affect methane and carbon dioxide production; however, the relative abundance of both hydrogen utilizing and acetate-only utilizing microbial populations was significantly compromised. Sodium azide in the absence of antibiotics enhanced metabolic output and initial biomass production, and this observation suggests that populations of Methanobacteriales and Methanosaetaceae spp. appeared to contain sufficient periplasmic bound reductase to effectively utilize acetate and hydrogen in the presence of sodium azide. However, the combination of sodium azide and either CTC or tylosin was a very effective metabolic inhibitor, inhibiting methane and carbon dioxide production and VSS consumption compared to their no-azide counterpart., (Copyright (c) 2010 Elsevier Ltd. All rights reserved.) more...

Published

2010

25. Effect of antimicrobial compounds tylosin and chlortetracycline during batch anaerobic swine manure digestion.

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Author

Stone JJ, Clay SA, Zhu Z, Wong KL, Porath LR, and Spellman GM

Subjects

Anaerobiosis, Animals, Anti-Bacterial Agents metabolism, Biodegradation, Environmental, Bioreactors microbiology, Carbon Dioxide metabolism, Ecosystem, Fatty Acids, Volatile metabolism, Hydrolysis, Methane metabolism, Methanosarcinaceae growth & development, Methanosarcinaceae metabolism, Methanosarcinales growth & development, Methanosarcinales metabolism, Swine, Chlortetracycline metabolism, Manure analysis, Organic Chemicals metabolism, Tylosin metabolism

Abstract

Tylosin and chlortetracycline (CTC) are antimicrobial chemicals that are fed to >45% of the US swine herds at therapeutic and sub-therapeutic dosages to enhance growth rates and treat swine health problems. These compounds are poorly absorbed during digestion so that the bioactive compound or metabolites are excreted. This study investigated the degradation and stabilization of swine manure that contained no additives and compared the observed processes with those of manure containing either tylosin or CTC. The batch anaerobic incubation lasted 216 days. The breakdown of insoluble organic matter through anaerobic hydrolysis reactions was faster for manure containing CTC compared with tylosin or no-antimicrobial treatments. Volatile fatty acid (VFA) accumulation, including acetate, butyrate, and propionate, was greater for CTC-containing manure compared to tylosin and no-antimicrobial treatments. The relative abundance of two aceticlastic methanogens, Methanosaetaceae and Methanosarcinaceae spp., were less for CTC manure than manure with no-antimicrobial treatment. In addition, generation of methane and carbon dioxide was inhibited by 27.8% and 28.4%, respectively, due to the presence of CTC. Tylosin effects on manure degradation were limited, however the relative abundance of Methanosarcinaceae spp. was greater than found in the CTC or no-antimicrobial manures. These data suggest that acetate and other C-1 VFA compounds would be effectively utilized during methanogenesis in the presence of tylosin. more...

Published

2009

26. A hybrid zone revisited: molecular and morphological analysis of the maintenance, movement, and evolution of a Great Plains avian (Cardinalidae: Pheucticus) hybrid zone.

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Author

Mettler RD and Spellman GM

Subjects

Animals, Cell Nucleus genetics, DNA, Mitochondrial genetics, DNA, Z-Form genetics, Female, Haplotypes, Hybridization, Genetic, Male, Passeriformes anatomy & histology, Passeriformes classification, Phylogeny, Polymorphism, Genetic, Sequence Analysis, DNA, South Dakota, Evolution, Molecular, Genetics, Population, Passeriformes genetics

Abstract

Black-headed grosbeaks (Pheucticus melanocephalus) and rose-breasted grosbeaks (Pheucticus ludovicianus) are passerine bird species known to hybridize in the Great Plains of North America. Both extrinsic (environmental) and intrinsic factors (pre- and postzygotic reproductive isolation) have been credited for the generation and maintenance of the grosbeak hybrid zone, but little is known about the genetic characteristics of this hybrid zone. To investigate the stability and extent of the grosbeak hybrid zone, we constructed clines from both molecular sequence data (mtDNA, three autosomal intron loci, and one Z-linked locus) and morphological data (morphometric analyses and hybrid index scores) to determined zone centre and width. Hybrid zone centre and width were also determined for samples collected across the zone 40 years ago from morphological data. The present and past clines were compared and provided support for stability in hybrid zone location and width, and the evolutionary implications of this are discussed. Three models of hybrid zone maintenance were investigated to consider the influence of intrinsic and extrinsic factors on this zone. Our results suggest low hybrid frequencies, a stable zone location and narrow width, and reduced hybrid fitness over the past 40 years best categorize the grosbeak hybrid zone as a tension zone. more...

Published

2009

27. Clarifying the systematics of an enigmatic avian lineage: what is a bombycillid?

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Author

Spellman GM, Cibois A, Moyle RG, Winker K, and Keith Barker F

Subjects

Animals, Bayes Theorem, DNA, Mitochondrial genetics, Exons, Genes, Mitochondrial, Genes, RAG-1, Likelihood Functions, Markov Chains, Mitochondria genetics, Models, Genetic, Sequence Alignment, Sequence Analysis, DNA, Evolution, Molecular, Passeriformes classification, Passeriformes genetics, Phylogeny

Published

2008

28. The complete CDS of the prion protein (PRNP) gene of African lion (Panthera leo).

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Author

Maj A, Spellman GM, and Sarver SK

Subjects

Amino Acid Sequence, Animals, Base Sequence, Genes, Molecular Sequence Data, Prions chemistry, Sequence Alignment, Lions genetics, Phylogeny, Prions genetics

Abstract

We provide the complete PRNP CDS sequence for the African lion, which is different from the previously published sequence and more similar to other carnivore sequences. The newly obtained prion protein sequence differs from the domestic cat sequence at three amino acid positions and contains only four octapeptide repeats. We recommend that this sequence be used as the reference sequence for future studies of the PRNP gene for this species. more...

Published

2008

29. Defining a monophyletic Cardinalini: a molecular perspective.

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Author

Klicka J, Burns K, and Spellman GM

Subjects

Animals, Base Sequence, Cytochromes b genetics, NADH Dehydrogenase genetics, Phylogeny, Evolution, Molecular, Passeriformes genetics

Abstract

Within the New World nine-primaried oscine assemblage, feeding morphology and behavior have long been used as a guideline for assigning membership to subgroups. For example, birds with stout, conical bills capable of crushing heavy seeds have generally been placed within the tribe Cardinalini (cardinal-grosbeaks). Many workers have tried to characterize this group more definitively, using a variety of morphological characters; however, the characters used often conflicted with one another. Previous molecular studies addressing the monophyly of Cardinalini have had only limited sampling within the group. In this study, we analyze mtDNA sequence data from all genera and 34 of the 42 Cardinalini species (sensu [Sibley, C.G., Monroe, B.L., 1990. Distribution and Taxonomy of the Birds of the World, Yale University Press, New Haven, CT]) to address the monophyly of the group and to reconstruct the most complete phylogeny of this tribe published to date. We found strong support for a redefined Cardinalini that now includes some members previously placed within Thraupini (tanagers; the genera Piranga, Habia, Chlorothraupis, and Amaurospiza) and some members previously placed within the Parulini (wood-warblers; the genus Granatellus). In addition, some genera traditionally considered members of the Cardinalini are shown to have affinities with other groups (the genera Porphyrospiza, Parkerthraustes, and Saltator). Our redefined Cardinalini contains 48 species, six more than are listed in Sibley and Monroe's (1990) taxonomy of the group. Within the nine-primaried oscine assemblage, the Cardinalini are more closely related to the Thraupini (tanagers) than they are to the Emberizini (sparrows), Parulini (wood-warblers), or Icterini (blackbirds), consistently forming a monophyletic group with Thraupini across all analyses. The reconfigured Cardinalini is comprised of five well-supported, major clades: (1) a "masked" clade (Piranga, Cardinalis, Caryothraustes, Periporphyrus, and Rhodothraupis), (2) a "blue" clade (Amaurospiza, Cyanocompsa, Cyanoloxia, Passerina, and Spiza), (3) a clade containing the genera Habia and Chlorothraupis, (4) a clade containing all species of Granatellus, and (5) a clade containing only species of Pheucticus. Diversification of these five lineages from one another occurred relatively rapidly during the mid-Pliocene, around 5 or 8 million years ago. Each of these major clades includes both North and South American species; thus, a complex biogeographic history is inferred for the group. more...

Published

2007

30. Phylogeography of the white-breasted nuthatch (Sitta carolinensis): diversification in North American pine and oak woodlands.

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Author

Spellman GM and Klicka J

Subjects

Animals, DNA, Mitochondrial chemistry, Ecosystem, Evolution, Molecular, Gene Flow, Genetic Variation, NADH Dehydrogenase chemistry, North America, Passeriformes genetics, Passeriformes physiology, Pinus growth & development, Protein Subunits chemistry, Quercus growth & development, Sequence Analysis, DNA, Trees, Geography, Passeriformes classification, Phylogeny

Abstract

Pine and oak woodlands are common North American floral communities with distinct regional species composition. The white-breasted nuthatch (Aves: Sitta carolinensis) is a common resident bird of North American pine and oak woodlands, and is distributed continentally across the highly disjunct distribution of these woodlands. We propose three historical hypotheses to explain the evolution of the white-breasted nuthatch in its principal habitat. (i) The species evolved in situ in the regional pine-oak communities and the isolation of populations in these regions is captured in cryptic genetic variation. (ii) Migration of individuals between regions is frequent enough to maintain the widespread distributions and prevent regional divergence. (iii) The species have recently expanded to occupy their current distributions and an insufficient amount of time has passed for divergence to occur. Phylogenetic analysis of mitochondrial DNA (ND2 gene) variation (N = 216) in the white-breasted nuthatch reveals four reciprocally monophyletic clades concordant with the distribution of the regional North American pine and oak woodlands, and supports hypothesis 1 of in situ evolution of populations in the regional pine and oak communities. Within-clade population structure and demographic history are also discussed. more...

Published

2007

31. Phylogeography of the mountain chickadee (Poecile gambeli): diversification, introgression, and expansion in response to Quaternary climate change.

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Author

Spellman GM, Riddle B, and Klicka J

Subjects

Animals, Canada, DNA, Mitochondrial chemistry, Gene Flow, Geography, Homing Behavior, Passeriformes classification, Passeriformes physiology, Sequence Analysis, DNA, United States, Climate, Genetic Variation, Passeriformes genetics, Phylogeny

Abstract

Since the late 1990s, molecular techniques have fuelled debate about the role of Pleistocene glacial cycles in structuring contemporary avian diversity in North America. The debate is still heated; however, there is widespread agreement that the Pleistocene glacial cycles forced the repeated contraction, fragmentation, and expansion of the North American biota. These demographic processes should leave genetic 'footprints' in modern descendants, suggesting that detailed population genetic studies of contemporary species provide the key to elucidating the impact of the late Quaternary (late Pleistocene-Holocene). We present an analysis of mitochondrial DNA (mtDNA) variation in the mountain chickadee (Poecile gambeli) in an attempt to examine the genetic evidence of the impact of the late Quaternary glacial cycles. Phylogenetic analyses reveal two strongly supported clades of P. gambeli: an Eastern Clade (Rocky Mountains and Great Basin) and a Western Clade (Sierra Nevada and Cascades). Post-glacial introgression is apparent between these two clades in the Mono Lake region of Central California. Within the Eastern Clade there is evidence of isolation-by-distance in the Rocky Mountain populations, and of limited gene flow into and around the Great Basin. Coalescent analysis of genetic variation in the Western Clade indicates that northern (Sierra Nevada/Cascades) and southern (Transverse/Peninsular Ranges) populations have been isolated and evolving independently for nearly 60,000 years. more...

Published

2007

32. Testing hypotheses of Pleistocene population history using coalescent simulations: phylogeography of the pygmy nuthatch (Sitta pygmaea).

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Author

Spellman GM and Klicka J

Subjects

Animals, Computer Simulation, Ecosystem, Mexico, Models, Biological, Passeriformes genetics, Pinus ponderosa classification, Pinus ponderosa genetics, Population Dynamics, United States, Geography, Passeriformes classification, Phylogeny

Abstract

In this paper, we use mitochondrial NADH dehydrogenase subunit 2 sequences to test Pleistocene refugial hypotheses for the pygmy nuthatch (Sitta pygmaea). Pygmy nuthatches are a common resident of long-needle pine forests in western North America and demonstrate a particular affinity with ponderosa pine (Pinus ponderosa). Palaeoecological and genetic data indicate that ponderosa pine was isolated in two Pleistocene refugia corresponding to areas in the southern Sierra Nevada in the west and southern Arizona and New Mexico in the east. We use coalescent simulations to test the hypothesis that pygmy nuthatches tracked the Pleistocene history of their preferred habitat and persisted in two refugia during the periods of glacial maxima. Coalescent simulation of population history does not support the hypothesis of two Pleistocene refugia for the pygmy nuthatch. Instead, our data are consistent with a single refuge model. Nucleotide diversity is greatest in the western populations of southern and coastal California. We suggest that the pygmy nuthatch expanded from a far western glacial refuge into its current distribution since the most recent glacial maximum. more...

Published

2006

33. A molecular phylogenetic analysis of the "true thrushes" (Aves: Turdinae).

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Author

Klicka J, Voelker G, and Spellman GM

Subjects

Animals, Geography, Evolution, Molecular, Phylogeny, Songbirds genetics

Abstract

The true thrushes (Passeriformes: Muscicapidae, subfamily Turdinae) are a speciose and widespread avian lineage presumed to be of Old World origin. Phylogenetic relationships within this assemblage were investigated using mitochondrial DNA (mtDNA) sequence data that included the cytochrome b and ND2 genes. Our ingroup sampling included 54 species representing 17 of 20 putative turdine genera. Phylogenetic trees derived via maximum parsimony and maximum likelihood were largely congruent. Most of the Turdine taxa sampled can be placed into one of six well supported clades. Our data indicate a polyphyletic Zoothera which can be divided into at least two (Afro-Asian and Austral-Asian) main clades. The genus Turdus, as presently recognized, is paraphyletic but forms a well supported clade with the addition of three mostly monotypic genera (Platycichla, Nesocichla, and Cichlherminia). We identify an exclusively New World clade that includes a monophyletic Catharus, Hylocichla, Cichlopsis, Entomodestes, Ridgwayia, and Ixoreus. Members of the morphologically and behaviorally distinct genera Sialia, Myadestes, and Neocossyphus unexpectedly form a basal clade. Using multiple outgroup choices, we show that this group is distantly related, but unequivocally the sister group to the remaining Turdines sampled. The Turdinae appear to be a relatively old songbird lineage, originating in the mid to late Miocene. If the Turdinae are indeed Old World in origin, our data indicate a minimum of three separate invasions of the New World. more...

Published

2005

34. Nuclear and mitochondrial DNA evidence of polyphyly in the avian superfamily Muscicapoidea.

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Author

Voelker G and Spellman GM

Subjects

Animals, Birds, Cytochromes b metabolism, L-Lactate Dehydrogenase (Cytochrome) metabolism, Likelihood Functions, Phylogeny, Proto-Oncogene Proteins c-mos metabolism, Cell Nucleus metabolism, DNA genetics, DNA, Mitochondrial genetics

Abstract

Nucleotide sequences of the nuclear c-mos gene and the mitochondrial cytochrome b and ND2 genes were used to assess the monophyly of Sibley and Monroe's [Distribution and Taxonomy of Birds of the World, Yale University Press, New Haven, 1990] Muscicapoidea superfamily. The relationships and monophyly of major lineages within the superfamily, as well as genera membership in major lineages was also assessed. Analyses suggest that Bombycillidae is not a part of Muscicapoidea, and there is strongly supported evidence to suggest that Turdinae is not part of the Muscicapidae, but is instead sister to a Sturnidae+Cinclidae clade. This clade is in turn sister to Muscicapidae (Muscicapini+Saxicolini). Of the 49 Turdinae and Muscicapidae genera that we included in our analyses, 10 (20%) are shown to be misclassified to subfamily or tribe. Our results place one current Saxicolini genus in Turdinae, two Saxicolini genera in Muscicapini, and five Turdinae and two Muscicapini genera in Saxicolini; these relationships are supported with 100% Bayesian support. Our analyses suggest that c-mos was only marginally useful in resolving these "deep" phylogenetic relationships. more...

Published

2004