Your search keyword '"Finches classification"' showing total 56 results

1. Interdependent Phenotypic and Biogeographic Evolution Driven by Biotic Interactions.

Author

Quintero I and Landis MJ

Subjects

Animals, Computer Simulation, Finches classification, Biological Evolution, Classification methods, Models, Biological

Abstract

Biotic interactions are hypothesized to be one of the main processes shaping trait and biogeographic evolution during lineage diversification. Theoretical and empirical evidence suggests that species with similar ecological requirements either spatially exclude each other, by preventing the colonization of competitors or by driving coexisting populations to extinction, or show niche divergence when in sympatry. However, the extent and generality of the effect of interspecific competition in trait and biogeographic evolution has been limited by a dearth of appropriate process-generating models to directly test the effect of biotic interactions. Here, we formulate a phylogenetic parametric model that allows interdependence between trait and biogeographic evolution, thus enabling a direct test of central hypotheses on how biotic interactions shape these evolutionary processes. We adopt a Bayesian data augmentation approach to estimate the joint posterior distribution of trait histories, range histories, and coevolutionary process parameters under this analytically intractable model. Through simulations, we show that our model is capable of distinguishing alternative scenarios of biotic interactions. We apply our model to the radiation of Darwin's finches-a classic example of adaptive divergence-and find limited support for in situ trait divergence in beak size, but stronger evidence for convergence in traits such as beak shape and tarsus length and for competitive exclusion throughout their evolutionary history. These findings are more consistent with presympatric, rather than postsympatric, niche divergence. Our modeling framework opens new possibilities for testing more complex hypotheses about the processes underlying lineage diversification. More generally, it provides a robust probabilistic methodology to model correlated evolution of continuous and discrete characters. [Bayesian; biotic interactions; competition; data augmentation; historical biogeography; trait evolution.]., (© 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.)

Published

2020

2. Cryptic Speciation of the Oriental Greenfinch Chloris sinica on Oceanic Islands.

Author

Saitoh T, Kawakami K, Red'kin YA, Nishiumi I, Kim CH, and Kryukov AP

Subjects

Animals, China, DNA, Mitochondrial analysis, Finches anatomy & histology, Japan, Male, Republic of Korea, Russia, Sequence Analysis, DNA veterinary, Finches classification, Finches genetics, Genetic Speciation, Genetic Variation, Phylogeny

Abstract

The Oriental greenfinch, Chloris sinica , is a small seed-eating finch that breeds in the eastern Palearctic region, an area that spans from Russia in the east to China, Korea, and Japan in the south and southwest. Several subspecies have been described based on subtle morphological characteristics, although the taxonomy varies among different authors. Although many ecological studies have been performed, there has been no phylogenetic study that encompasses the species' entire geographical range. We used four regions of mitochondrial DNA to analyze the intraspecies genetic phylogeny and diversity of the Oriental greenfinch. In addition, we performed morphometric analyses using museum specimens. Genetic analysis identified two clades that diverged approximately 1.06 million years ago. These were a population from the Ogasawara Islands, Japan (subspecies kittlitzi , Clade B), and the other populations (Clade A, which could not be subdivided according to geographic context). Morphometric analyses showed that the population on the Kuril Islands (subspecies kawarahiba ) had the longest mean wing length, whereas C. s. kittlitzi had the shortest wings. Chloris s. kittlitzi also had the longest mean bill length, probably because it has adapted to feeding on the Ogasawara Islands. Based on molecular phylogeny and morphology analyses, we recommend that C. s. kittlitzi should be treated as a completely distinct species, called the Ogasawara greenfinch, Chloris kittlitzi . It is critically endangered and needs to be specially protected.

Published

2020

3. A genome-wide linkage map for the house sparrow (Passer domesticus) provides insights into the evolutionary history of the avian genome.

Author

Hagen IJ, Lien S, Billing AM, Elgvin TO, Trier C, Niskanen AK, Tarka M, Slate J, Saetre GP, and Jensen H

Subjects

Animals, Birds classification, Chickens classification, Chickens genetics, Chromosome Mapping, Chromosomes genetics, Female, Finches classification, Finches genetics, Genetic Linkage, Male, Polymorphism, Single Nucleotide, Sparrows classification, Birds genetics, Evolution, Molecular, Genome, Sparrows genetics

Abstract

The house sparrow is an important model species for studying physiological, ecological and evolutionary processes in wild populations. Here, we present a medium density, genome wide linkage map for house sparrow (Passer domesticus) that has aided the assembly of the house sparrow reference genome, and that will provide an important resource for ongoing mapping of genes controlling important traits in the ecology and evolution of this species. Using a custom house sparrow 10 K iSelect Illumina SNP chip we have assigned 6,498 SNPs to 29 autosomal linkage groups, based on a mean of 430 informative meioses per SNP. The map was constructed by combining the information from linkage with that of the physical position of SNPs within scaffold sequences in an iterative process. Averaged between the sexes; the linkage map had a total length of 2,004 cM, with a longer map for females (2,240 cM) than males (1,801 cM). Additionally, recombination rates also varied along the chromosomes. Comparison of the linkage map to the reference genomes of zebra finch, collared flycatcher and chicken, showed a chromosome fusion of the two avian chromosomes 8 and 4A in house sparrow. Lastly, information from the linkage map was utilized to conduct analysis of linkage disequilibrium (LD) in eight populations with different effective population sizes (N e ) in order to quantify the background level LD. Together, these results aid the design of future association studies, facilitate the development of new genomic tools and support the body of research that describes the evolution of the avian genome., (© 2020 The Authors. Molecular Ecology Resources published by John Wiley & Sons Ltd.)

Published

2020

4. Rare bird's detection highlights promise of 'environmental DNA'.

Author

Lewis D

Subjects

Animals, Australia, DNA, Environmental genetics, Ecology, Finches classification, Finches genetics, DNA, Environmental analysis, Endangered Species

Published

2019

5. Species Limits and Phylogenomic Relationships of Darwin's Finches Remain Unresolved: Potential Consequences of a Volatile Ecological Setting.

Author

Zink RM and Vázquez-Miranda H

Subjects

Animals, Ecuador, Finches genetics, Genetic Variation, Genome genetics, Species Specificity, Ecosystem, Finches classification, Phylogeny

Abstract

Island biotas have become paradigms for illustrating many evolutionary processes. The fauna of the Galapagos Islands includes several taxa that have been focal points for evolutionary studies. Perhaps their most famous inhabitants, Darwin's finches, represent a go-to icon when thinking about how species originate and adapt to the environment. However, unlike other adaptive radiations, past morphological and molecular studies of Darwin's finches have yielded inconsistent hypotheses of species limits and phylogenetic relationships. Expecting that idiosyncrasies of prior data and analytic methods explained different proposed classifications, we were surprised to observe that three new phylogenetic hypotheses derived mostly from the same genomics data were topologically inconsistent. We found that the differences between some of these genomics trees were as great as one would expect between two random trees with the same number of taxa. Thus, the phylogeny of Darwin's finches remains unresolved, as it has for more than a century. A component of phylogenetic uncertainty comes from unclear species limits, under any species concept, in the ground finches (Geospiza) and tree finches (Camarhynchus). We suggest that past authors should have tested the species limits of Lack, rather than uncritically accepting them. In fact, the impressive amount of genomics data do not provide unambiguous hypotheses of the number of species of Geospiza or Camarhynchus, although they imply greater species diversity than Lack's taxonomy. We suggest that insufficient sampling of species populations across islands (35.6% for morphometrics and 20.4% for genomics) prevents accurate diagnoses of species limits. However, it is unknown whether samples from a greater number of islands might result in bridging differences between species, or reveal many new ones. We conclude that attempts to interpret patterns of variation among the finches under standard evolutionary paradigms have obscured some major messages, most specifically the ongoing reciprocal interactions between geographic isolation and lineage divergence, and dispersal and gene flow caused by the volatile ecological conditions in the islands. Although the finches provide textbook examples of natural selection, better understanding of species limits and a robust phylogenetic hypothesis are required to corroborate past hypotheses of speciation and adaptive radiation in the finches of the Galapagos.

Published

2019

6. Detecting introgression despite phylogenetic uncertainty: The case of the South American siskins.

Author

Beckman EJ, Benham PM, Cheviron ZA, and Witt CC

Subjects

Animals, Genes, Mitochondrial, Genetics, Population, Genotyping Techniques, Likelihood Functions, Models, Genetic, Polymorphism, Single Nucleotide, Sequence Analysis, DNA, South America, Uncertainty, Biological Evolution, Finches classification, Phylogeny

Abstract

Genetic introgression among closely related species is a widespread phenomenon across the Tree of Life and could be an important source of adaptive variation during early stages of diversification. In particular, genomic studies have revealed that many rapidly radiating clades tend to have complex, reticulate evolutionary histories. Although rapid radiations appear to be susceptible to introgression, they present special challenges for its detection because formal tests require accurate phylogenies, and paradoxically, introgression itself may obscure evolutionary relationships. To address this methodological challenge, we assessed introgression in a recent, rapid avian radiation in the Andes, the South American siskins (Spinus). Using ~45,000 SNPs, we estimated the Spinus phylogeny using multiple analytical approaches and recovered four strongly conflicting topologies. We performed a series of complimentary introgression tests that included valid tests for each of the likely species trees. From the consilience of test results, we inferred multiple introgression events among Andean Spinus in a way that was robust to phylogenetic uncertainty in the species tree. Positive tests for introgression were corroborated by independent population structure and ancestral assignment analyses, as well as a striking geographic pattern of mitochondrial haplotype sharing among species. The methodological approach we describe could be applied using any genomewide data, including SNP data, for clades without fully resolvable species trees. Our discovery of multiple introgression events within the Andean radiation of Spinus siskins is consistent with an emerging paradigm, that introgression tends to accompany the early stages of diversification., (© 2018 John Wiley & Sons Ltd.)

Published

2018

7. The gut of the finch: uniqueness of the gut microbiome of the Galápagos vampire finch.

Author

Michel AJ, Ward LM, Goffredi SK, Dawson KS, Baldassarre DT, Brenner A, Gotanda KM, McCormack JE, Mullin SW, O'Neill A, Tender GS, Uy JAC, Yu K, Orphan VJ, and Chaves JA

Subjects

Animals, Bacteria classification, Bacteria genetics, Biological Evolution, Climate, DNA, Bacterial genetics, Ecuador, Feces microbiology, Finches classification, Finches genetics, Gastrointestinal Tract microbiology, Phylogeny, RNA, Ribosomal, 16S genetics, Seasons, Bacteria isolation & purification, Finches microbiology, Gastrointestinal Microbiome

Abstract

Background: Darwin's finches are a clade of 19 species of passerine birds native to the Galápagos Islands, whose biogeography, specialized beak morphologies, and dietary choices-ranging from seeds to blood-make them a classic example of adaptive radiation. While these iconic birds have been intensely studied, the composition of their gut microbiome and the factors influencing it, including host species, diet, and biogeography, has not yet been explored., Results: We characterized the microbial community associated with 12 species of Darwin's finches using high-throughput 16S rRNA sequencing of fecal samples from 114 individuals across nine islands, including the unusual blood-feeding vampire finch (Geospiza septentrionalis) from Darwin and Wolf Islands. The phylum-level core gut microbiome for Darwin's finches included the Firmicutes, Gammaproteobacteria, and Actinobacteria, with members of the Bacteroidetes at conspicuously low abundance. The gut microbiome was surprisingly well conserved across the diversity of finch species, with one exception-the vampire finch-which harbored bacteria that were either absent or extremely rare in other finches, including Fusobacterium, Cetobacterium, Ureaplasma, Mucispirillum, Campylobacter, and various members of the Clostridia-bacteria known from the guts of carnivorous birds and reptiles. Complementary stable isotope analysis of feathers revealed exceptionally high δ 15 N isotope values in the vampire finch, resembling top marine predators. The Galápagos archipelago is also known for extreme wet and dry seasons, and we observed a significant seasonal shift in the gut microbial community of five additional finch species sampled during both seasons., Conclusions: This study demonstrates the overall conservatism of the finch gut microbiome over short (< 1 Ma) divergence timescales, except in the most extreme case of dietary specialization, and elevates the evolutionary importance of seasonal shifts in driving not only species adaptation, but also gut microbiome composition.

Published

2018

8. Evaluation of Best Practices for the Euthanasia of Zebra Finches ( Taeniopygia guttata ).

Author

Scott KE, Bracchi LA, Lieberman MT, Hill NJ, Caron TJ, and Patterson MM

Subjects

Animals, Animals, Laboratory, Female, Finches classification, Male, Animal Welfare, Carbon Dioxide administration & dosage, Euthanasia, Animal methods, Finches physiology, Isoflurane administration & dosage, Pentobarbital administration & dosage

Abstract

Although zebra finches (Taeniopygia guttata) have been used in biomedical research for many years, no published reports are available about euthanizing these small birds. In this study, we compared 5 methods for zebra finch euthanasia: sodium pentobarbital (NaP) given intracoelomically with physical restraint but no anesthesia; isoflurane anesthesia followed by intracoelomic injection of NaP; and CO2 asphyxiation at 20%, 40%, and 80% chamber displacement rates (percentage of chamber volume per minute). Birds undergoing euthanasia were videorecorded and scored by 2 observers for behaviors potentially related to discomfort or distress. Time to recumbency and time until respiratory arrest (RA) were also assessed. RA was achieved faster by using NaP in a conscious bird compared to using isoflurane anesthesia followed by NaP; however, neither method caused behaviors that might affect animal welfare, such as open-mouth breathing, to any appreciable extent. Among the CO2 treatment groups, there was an inverse correlation between the chamber displacement rate used and the duration of open-mouth breathing, onset of head retroflexion, and time to RA. The results demonstrate that the intracoelomic administration of NaP in an awake, restrained zebra finch is a rapid and effective method of euthanasia. If CO2 is used to euthanize these birds, a high displacement rate (for example, 80%) will minimize the duration of the procedure and associated behaviors.

Published

2017

9. Gene flow, ancient polymorphism, and ecological adaptation shape the genomic landscape of divergence among Darwin's finches.

Author

Han F, Lamichhaney S, Grant BR, Grant PR, Andersson L, and Webster MT

Subjects

Adaptation, Physiological genetics, Animal Distribution, Animals, Ecuador, Finches classification, Genetic Loci, Genomic Islands, Haplotypes, Microsatellite Repeats, Polymorphism, Genetic, Selection, Genetic, Sympatry, Finches genetics, Gene Flow, Genetic Speciation, Genome, Phylogeny

Abstract

Genomic comparisons of closely related species have identified "islands" of locally elevated sequence divergence. Genomic islands may contain functional variants involved in local adaptation or reproductive isolation and may therefore play an important role in the speciation process. However, genomic islands can also arise through evolutionary processes unrelated to speciation, and examination of their properties can illuminate how new species evolve. Here, we performed scans for regions of high relative divergence ( F ST ) in 12 species pairs of Darwin's finches at different genetic distances. In each pair, we identify genomic islands that are, on average, elevated in both relative divergence ( F ST ) and absolute divergence ( d XY ). This signal indicates that haplotypes within these genomic regions became isolated from each other earlier than the rest of the genome. Interestingly, similar numbers of genomic islands of elevated d XY are observed in sympatric and allopatric species pairs, suggesting that recent gene flow is not a major factor in their formation. We find that two of the most pronounced genomic islands contain the ALX1 and HMGA2 loci, which are associated with variation in beak shape and size, respectively, suggesting that they are involved in ecological adaptation. A subset of genomic island regions, including these loci, appears to represent anciently diverged haplotypes that evolved early during the radiation of Darwin's finches. Comparative genomics data indicate that these loci, and genomic islands in general, have exceptionally low recombination rates, which may play a role in their establishment., (© 2017 Han et al.; Published by Cold Spring Harbor Laboratory Press.)

Published

2017

10. Estrogen levels influence medullary bone quantity and density in female house finches and pine siskins.

Author

Squire ME, Veglia MK, Drucker KA, Brazeal KR, Hahn TP, and Watts HE

Subjects

Animals, Corticosterone blood, Female, Finches classification, Bone Density drug effects, Estrogens pharmacology, Finches physiology, X-Ray Microtomography methods

Abstract

Medullary bone, a non-structural osseous tissue, serves as a temporary storage site for calcium that is needed for eggshell production in a number of avian species. Previous research focusing primarily on domesticated species belonging to the Anseriformes, Galliformes, and Columbiformes has indicated that rising estrogen levels are a key signal stimulating medullary bone formation; Passeriformes (which constitute over half of extant bird species and are generally small) have received little attention. In the current study, we examined the influence of estrogen on medullary bone and cortical bone in two species of Passeriformes: the Pine Siskin (Spinus pinus) and the House Finch (Haemorhous mexicanus). Females of these species received either an estradiol implant or were untreated as a control. After 4.5-5months, reproductive condition was assessed and leg (femora) and wing (humeri) bones were collected for analysis using high-resolution (10μm) micro-computed tomography scanning. We found that in both species estradiol-treated females had significantly greater medullary bone quantity in comparison to untreated females, but we found no differences in cortical bone quantity or microarchitecture. We were also able to examine medullary bone density in the pine siskins and found that estradiol treatment significantly increased medullary bone density. Furthermore, beyond the effect of the estradiol treatment, we observed a relationship between medullary bone quantity and ovarian condition that suggests that the timing of medullary bone formation may be related to the onset of yolk deposition in these species. Further research is needed to better understand the precise timing and endocrine regulation of medullary bone formation in Passerines and to determine the extent to which female Passerines rely on medullary bone calcium during the formation of calcified eggshells., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published

2017

11. A beak size locus in Darwin's finches facilitated character displacement during a drought.

Author

Lamichhaney S, Han F, Berglund J, Wang C, Almén MS, Webster MT, Grant BR, Grant PR, and Andersson L

Subjects

Animals, Body Size genetics, Ecuador, Female, Finches classification, Genomics, Genotype, HMGA2 Protein genetics, Haplotypes, Organ Size genetics, Phylogeny, Beak anatomy & histology, Droughts, Finches anatomy & histology, Finches genetics, Quantitative Trait Loci, Selection, Genetic

Abstract

Ecological character displacement is a process of morphological divergence that reduces competition for limited resources. We used genomic analysis to investigate the genetic basis of a documented character displacement event in Darwin's finches on Daphne Major in the Galápagos Islands: The medium ground finch diverged from its competitor, the large ground finch, during a severe drought. We discovered a genomic region containing the HMGA2 gene that varies systematically among Darwin's finch species with different beak sizes. Two haplotypes that diverged early in the radiation were involved in the character displacement event: Genotypes associated with large beak size were at a strong selective disadvantage in medium ground finches (selection coefficient s = 0.59). Thus, a major locus has apparently facilitated a rapid ecological diversification in the adaptive radiation of Darwin's finches., (Copyright © 2016, American Association for the Advancement of Science.)

Published

2016

12. High major histocompatibility complex class I polymorphism despite bottlenecks in wild and domesticated populations of the zebra finch (Taeniopygia guttata).

Author

Newhouse DJ and Balakrishnan CN

Subjects

Animals, Australia, Finches classification, Finches immunology, Gene Frequency, Genetic Drift, Genetics, Population, Haplotypes, Indonesia, Molecular Sequence Data, NADH Dehydrogenase genetics, Polymorphism, Genetic, Finches genetics

Abstract

Background: Two subspecies of zebra finch, Taeniopygia guttata castanotis and T. g. guttata are native to Australia and the Lesser Sunda Islands, respectively. The Australian subspecies has been domesticated and is now an important model system for research. Both the Lesser Sundan subspecies and domesticated Australian zebra finches have undergone population bottlenecks in their history, and previous analyses using neutral markers have reported reduced neutral genetic diversity in these populations. Here we characterize patterns of variation in the third exon of the highly variable major histocompatibility complex (MHC) class I α chain. As a benchmark for neutral divergence, we also report the first mitochondrial NADH dehydrogenase 2 (ND2) sequences in this important model system., Results: Despite natural and human-mediated population bottlenecks, we find that high MHC class I polymorphism persists across all populations. As expected, we find higher levels of nucleotide diversity in the MHC locus relative to neutral loci, and strong evidence of positive selection acting on important residues forming the peptide-binding region (PBR). Clear population differentiation of MHC allele frequencies is also evident, and this may be due to adaptation to new habitats and associated pathogens and/or genetic drift. Whereas the MHC Class I locus shows broad haplotype sharing across populations, ND2 is the first locus surveyed to date to show reciprocal monophyly of the two subspecies., Conclusions: Despite genetic bottlenecks and genetic drift, all surveyed zebra finch populations have maintained high MHC Class I diversity. The diversity at the MHC Class I locus in the Lesser Sundan subspecies contrasts sharply with the lack of diversity in previously examined neutral loci, and may thus be a result of selection acting to maintain polymorphism. Given uncertainty in historical population demography, however, it is difficult to rule out neutral processes in maintaining the observed diversity. The surveyed populations also differ in MHC Class I allele frequencies, and future studies are needed to assess whether these changes result in functional immune differences.

Published

2015

13. Sisyphean evolution in Darwin's finches.

Author

McKay BD and Zink RM

Subjects

Animals, Ecuador, Finches anatomy & histology, Finches genetics, Genetic Variation, Selection, Genetic, Species Specificity, Biological Evolution, Finches classification

Abstract

The trajectory of speciation involves geographic isolation of ancestral populations followed by divergence by natural selection, genetic drift or sexual selection. Once started, the process may experience fits and starts, as sometimes diverging populations intermittently reconnect. In theory populations might cycle between stages of differentiation and never attain species status, a process we refer to as Sisyphean evolution. We argue that the six putative ground finch species (genus Geospiza) of the Galápagos Islands represent a dramatic example of Sisyphean evolution that has been confused with the standard model of speciation. The dynamic environment of the Galápagos, closely spaced islands, and frequent dispersal and introgression have prevented the completion of the speciation process. We suggest that morphological clusters represent locally adapted ecomorphs, which might mimic, and have been confused with, species, but these ecomorphs do not form separate gene pools and are ephemeral in space and time. Thus the pattern of morphological, behavioural and genetic variation supports recognition of a single species of Geospiza, which we suggest should be recognized as Darwin's ground finch (Geospiza magnirostris). We argue that instead of providing an icon of insular speciation and adaptive radiation, which is featured in nearly every textbook on evolutionary biology, Darwin's ground finch represents a potentially more interesting phenomenon, one of transient morphs trapped in an unpredictable cycle of Sisyphean evolution. Instead of revealing details of the origin of species, the mechanisms underlying the transient occurrence of ecomorphs provide one of the best illustrations of the antagonistic effects of natural selection and introgression., (© 2014 The Authors. Biological Reviews © 2014 Cambridge Philosophical Society.)

Published

2015

14. Phylogeny and biogeography of the New World siskins and goldfinches: rapid, recent diversification in the Central Andes.

Author

Beckman EJ and Witt CC

Subjects

Animals, Bayes Theorem, Ecosystem, Genes, Mitochondrial, Introns, Likelihood Functions, Models, Genetic, Phylogeography, Sequence Analysis, DNA, South America, Biological Evolution, Finches classification, Passeriformes classification, Phylogeny

Abstract

Time-calibrated molecular phylogenies can help us to understand the origins of the diverse and unique Andean avifauna. Previous studies have shown that the tempo of diversification differed between the Andes and adjacent lowland regions of South America. Andean taxa were found to have speciated more recently and to have avoided the decelerated diversification that is typical of Neotropical lowland clades. The South American siskins, a Pleistocene finch radiation, may typify this Andean pattern. We investigated the phylogenetic biogeography of all the New World siskins and goldfinches in new detail. To understand the specific role of the Andes in siskin diversification, we asked: (1) Was diversification faster in Andean siskin lineages relative to non-Andean ones? (2) Did siskin lineages move into and out of the Andes at different rates? We found that siskin lineages in the Andes had higher diversification rates and higher outward dispersal rates than siskin lineages outside the Andes. We conclude that páramo expansion and contraction in response to Pleistocene climatic cycles caused accelerated diversification and outward dispersal in Andean siskins. The younger average age of bird species in the Andes compared to lowland South America may be attributable to bursts of recent diversification in siskins and several other vagile, open-habitat clades., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2015

15. Differentially expressed genes match bill morphology and plumage despite largely undifferentiated genomes in a Holarctic songbird.

Author

Mason NA and Taylor SA

Subjects

Animals, Arctic Regions, Beak anatomy & histology, Ecosystem, Feathers anatomy & histology, Female, Finches anatomy & histology, Gene Flow, Genetics, Population, High-Throughput Nucleotide Sequencing, Linear Models, Male, Models, Genetic, North America, Phylogeny, Polymorphism, Single Nucleotide, Sequence Analysis, DNA, Transcriptome, Finches classification, Phenotype

Abstract

Understanding the patterns and processes that contribute to phenotypic diversity and speciation is a central goal of evolutionary biology. Recently, high-throughput sequencing has provided unprecedented phylogenetic resolution in many lineages that have experienced rapid diversification. The Holarctic redpoll finches (Genus: Acanthis) provide an intriguing example of a recent, phenotypically diverse lineage; traditional sequencing and genotyping methods have failed to detect any genetic differences between currently recognized species, despite marked variation in plumage and morphology within the genus. We examined variation among 20 712 anonymous single nucleotide polymorphisms (SNPs) distributed throughout the redpoll genome in combination with 215 825 SNPs within the redpoll transcriptome, gene expression data and ecological niche modelling to evaluate genetic and ecological differentiation among currently recognized species. Expanding upon previous findings, we present evidence of (i) largely undifferentiated genomes among currently recognized species; (ii) substantial niche overlap across the North American Acanthis range; and (iii) a strong relationship between polygenic patterns of gene expression and continuous phenotypic variation within a sample of redpolls from North America. The patterns we report may be caused by high levels of ongoing gene flow between polymorphic populations, incomplete lineage sorting accompanying very recent or ongoing divergence, variation in cis-regulatory elements, or phenotypic plasticity, but do not support a scenario of prolonged isolation and subsequent secondary contact. Together, these findings highlight ongoing theoretical and computational challenges presented by recent, rapid bouts of phenotypic diversification and provide new insight into the evolutionary dynamics of an intriguing, understudied non-model system., (© 2015 John Wiley & Sons Ltd.)

Published

2015

16. When taxonomy meets genomics: lessons from a common songbird.

Author

Lifjeld JT

Subjects

Animals, Female, Male, Finches classification, Phenotype

Abstract

Taxonomy is being increasingly informed by genomics. Traditionally, taxonomy has relied extensively on phenotypic traits for the identification and delimitation of species, though with a growing influence from molecular phylogenetics in recent decades. Now, genomics opens up new and more powerful tools for analysing the evolutionary history and relatedness among species, as well as understanding the genetic basis for phenotypic traits and their role in reproductive isolation. New insights gained from genomics will therefore have major effects on taxonomic classifications and species delimitation. How a genomics approach can inform a flawed taxonomy is nicely exemplified by Mason & Taylor () in this issue of Molecular Ecology. They studied redpolls, which comprise a genus (Acanthis) of fringillid finches with a wide distribution in the Holarctic region, and whose species taxonomy has been a matter of much controversy for decades (Fig. ). Current authoritative checklists classify them into one, two or three species, and five or six subspecies, based largely on geographical differences in phenotypic traits. Previous studies, including a recent one of the subspecies on Iceland (Amouret et al. ), have found no evidence of differentiation between these taxa in conventional molecular markers. The lack of genetic structure has been interpreted as incomplete lineage sorting among rapidly evolving lineages. Now Mason & Taylor (), using a large data set of genomewide SNPs, verify that they all belong to a single gene pool with a common evolutionary history, and with little or no geographical structuring. They also show that phenotypic traits used in taxonomic classifications (plumage and bill morphology) are closely associated with polygenic patterns of gene expression, presumably driven by ecological selection on a few regulatory genes. Several lessons can be learned from this study. Perhaps the most important one for taxonomy is the risk of taxonomic inflation resulting from overemphasizing phenotypic traits under local adaptation and ignoring a lack of phylogenetic signal in molecular markers., (© 2015 John Wiley & Sons Ltd.)

Published

2015

17. Evolution of Darwin's finches and their beaks revealed by genome sequencing.

Author

Lamichhaney S, Berglund J, Almén MS, Maqbool K, Grabherr M, Martinez-Barrio A, Promerová M, Rubin CJ, Wang C, Zamani N, Grant BR, Grant PR, Webster MT, and Andersson L

Subjects

Animals, Avian Proteins genetics, Avian Proteins metabolism, Ecuador, Female, Finches classification, Finches embryology, Gene Flow, Genome genetics, Haplotypes genetics, Hybridization, Genetic, Indian Ocean Islands, Male, Molecular Sequence Data, Phylogeny, Transcription Factors genetics, Transcription Factors metabolism, Beak anatomy & histology, Evolution, Molecular, Finches anatomy & histology, Finches genetics

Abstract

Darwin's finches, inhabiting the Galápagos archipelago and Cocos Island, constitute an iconic model for studies of speciation and adaptive evolution. Here we report the results of whole-genome re-sequencing of 120 individuals representing all of the Darwin's finch species and two close relatives. Phylogenetic analysis reveals important discrepancies with the phenotype-based taxonomy. We find extensive evidence for interspecific gene flow throughout the radiation. Hybridization has given rise to species of mixed ancestry. A 240 kilobase haplotype encompassing the ALX1 gene that encodes a transcription factor affecting craniofacial development is strongly associated with beak shape diversity across Darwin's finch species as well as within the medium ground finch (Geospiza fortis), a species that has undergone rapid evolution of beak shape in response to environmental changes. The ALX1 haplotype has contributed to diversification of beak shapes among the Darwin's finches and, thereby, to an expanded utilization of food resources.

Published

2015

18. Darwin's finches join genome club.

Author

Marsh G

Subjects

Animals, Avian Proteins genetics, Costa Rica, Diet veterinary, Ecuador, Finches classification, Genetic Variation genetics, Genomics, Phylogeny, Selection, Genetic, Beak anatomy & histology, Biological Evolution, Finches anatomy & histology, Finches genetics, Genome genetics

Published

2015

19. Striped-tailed Yellow-finch nesting success in abandoned mining pits from central Brazilian cerrado.

Author

Gressler DT and Marini MÂ

Subjects

Animals, Brazil, Female, Finches classification, Male, Seasons, Ecosystem, Finches physiology, Nesting Behavior physiology, Reproduction physiology

Abstract

Suitability of degraded areas as breeding habitats can be tested through assessment of nest predation rates. In this study we estimated nest success in relation to several potential predictors of nest survival in the Stripe-tailed Yellow-finch (Sicalis citrina) breeding in abandoned mining pits at Brasília National Park. We monitored 73 nests during the 2007-breeding season. Predation was the main cause of nest failure (n = 48, 66%); while six nests were abandoned (8%) and 19 nests produced young (26%). Mayfield's daily survival rates and nest success were 0.94 and 23%, respectively. Our results from nest survival models on program MARK indicated that daily survival rates increase linearly towards the end of the breeding season and decrease as nests aged. None of the nest individual covariates we tested - nest height, nest size, nest substrate, and edge effect - were important predictors of nest survival; however, nests placed on the most common plant tended to have higher survival probabilities. Also, there was no observer effect on daily survival rates. Our study suggests that abandoned mining pits may be suitable alternative breeding habitats for Striped-tailed Yellow-finches since nest survival rates were similar to other studies in the central cerrado region.

Published

2015

20. Foraging behavior and diet of the vulnerable Cinereous Warbling-finch Poospiza cinerea (Aves, Emberizidae).

Author

Wischhoff U, Marques-Santos F, and Rodrigues M

Subjects

Animals, Finches classification, Behavior, Animal physiology, Diet classification, Feeding Behavior physiology, Finches physiology

Abstract

The Cinereous Warbling-finch Poospiza cinerea is a globally vulnerable Emberizidae passerine, patchily distributed and rare in the open savannah of central South America. Attributes of rare species include niche specificity such as feeding habits. To verify possible niche specialization in this species we aimed to describe its foraging habits related to substrate use, foraging and substrate height, attack maneuvers, and consumed food items. We monitored two groups at two study sites and sampled foraging events with intervals of 15 minutes. The substrates used in greater frequency were foliage and reproductive organs. Foraging and substrate height varied widely with study area. The attack maneuver adopted in greater frequency was glean. Most food items attacked were small invertebrates. Big invertebrates included Lepidoptera, Hemiptera, Coleoptera, Hymenoptera and Orthoptera. Poospiza cinerea was also recorded foraging in mixed bird flocks with seven other species. The generalist foraging behavior of the species cannot be associate to its rarity.

Published

2014

21. The evolutionary history of Darwin's finches: speciation, gene flow, and introgression in a fragmented landscape.

Author

Farrington HL, Lawson LP, Clark CM, and Petren K

Subjects

Animals, DNA, Mitochondrial genetics, Ecuador, Finches classification, Haplotypes, Introns, Islands, Microsatellite Repeats, Sequence Analysis, DNA, Biological Evolution, Finches genetics, Gene Flow, Genetic Speciation, Phylogeny

Abstract

Many classic examples of adaptive radiations take place within fragmented systems such as islands or mountains, but the roles of mosaic landscapes and variable gene flow in facilitating species diversification is poorly understood. Here we combine phylogenetic and landscape genetic approaches to understand diversification in Darwin's finches, a model adaptive radiation. We combined sequence data from 14 nuclear introns, mitochondrial markers, and microsatellite variation from 51 populations of all 15 recognized species. Phylogenetic species-trees recovered seven major finch clades: ground, tree, vegetarian, Cocos Island, grey and green warbler finches, and a distinct clade of sharp-beaked ground finches (Geospiza cf. difficilis) basal to all ground and tree finches. The ground and tree finch clades lack species-level phylogenetic structure. Interisland gene flow and interspecies introgression vary geographically in predictable ways. First, several species exhibit concordant patterns of population divergence across the channel separating the Galápagos platform islands from the separate volcanic province of northern islands. Second, peripheral islands have more admixed populations while central islands maintain more distinct species boundaries. This landscape perspective highlights a likely role for isolation of peripheral populations in initial divergence, and demonstrates that peripheral populations may maintain genetic diversity through outbreeding during the initial stages of speciation., (© 2014 The Author(s). Evolution © 2014 The Society for the Study of Evolution.)

Published

2014

22. Invasive parasites, habitat change and heavy rainfall reduce breeding success in Darwin's finches.

Author

Cimadom A, Ulloa A, Meidl P, Zöttl M, Zöttl E, Fessl B, Nemeth E, Dvorak M, Cunninghame F, and Tebbich S

Subjects

Animals, Breeding, Ecosystem, Ecuador, Female, Finches classification, Herbicides pharmacology, Male, Muscidae drug effects, Population Dynamics, Predatory Behavior, Rain, Risk Factors, Finches growth & development, Finches parasitology, Life Cycle Stages drug effects, Muscidae physiology

Abstract

Invasive alien parasites and pathogens are a growing threat to biodiversity worldwide, which can contribute to the extinction of endemic species. On the Galápagos Islands, the invasive parasitic fly Philornis downsi poses a major threat to the endemic avifauna. Here, we investigated the influence of this parasite on the breeding success of two Darwin's finch species, the warbler finch (Certhidea olivacea) and the sympatric small tree finch (Camarhynchus parvulus), on Santa Cruz Island in 2010 and 2012. While the population of the small tree finch appeared to be stable, the warbler finch has experienced a dramatic decline in population size on Santa Cruz Island since 1997. We aimed to identify whether warbler finches are particularly vulnerable during different stages of the breeding cycle. Contrary to our prediction, breeding success was lower in the small tree finch than in the warbler finch. In both species P. downsi had a strong negative impact on breeding success and our data suggest that heavy rain events also lowered the fledging success. On the one hand parents might be less efficient in compensating their chicks' energy loss due to parasitism as they might be less efficient in foraging on days of heavy rain. On the other hand, intense rainfalls might lead to increased humidity and more rapid cooling of the nests. In the case of the warbler finch we found that the control of invasive plant species with herbicides had a significant additive negative impact on the breeding success. It is very likely that the availability of insects (i.e. food abundance)is lower in such controlled areas, as herbicide usage led to the removal of the entire understory. Predation seems to be a minor factor in brood loss.

Published

2014

23. Refugia, colonization and diversification of an arid-adapted bird: coincident patterns between genetic data and ecological niche modelling.

Author

Barrientos R, Kvist L, Barbosa A, Valera F, Khoury F, Varela S, and Moreno E

Subjects

Africa, Africa, Northern, Animals, Climate Change, DNA, Mitochondrial genetics, Genetic Variation, Genetics, Population, Microsatellite Repeats, Middle East, Models, Biological, Molecular Sequence Data, Phylogeography, Sequence Analysis, DNA, Spain, Ecosystem, Finches classification

Abstract

Phylogeographical studies are common in boreal and temperate species from the Palaearctic, but scarce in arid-adapted species. We used nuclear and mitochondrial markers to investigate phylogeography and to estimate chronology of colonization events of the trumpeter finch Bucanetes githagineus, an arid-adapted bird. We used 271 samples from 16 populations, most of which were fresh samples but including some museum specimens. Microsatellite data showed no clear grouping according to the sampling locations. Microsatellite and mitochondrial data showed the clearest differentiation between Maghreb and Canary Islands and between Maghreb and Western Sahara. Mitochondrial data suggest differentiation between different Maghreb populations and among Maghreb and Near East populations, between Iberian Peninsula and Canary Islands, as well as between Western Sahara and Maghreb. Our coalescence analyses indicate that the trumpeter finch colonized North Africa during the humid Marine Isotope Stage 5 (MIS5) period of the Sahara region 125 000 years ago. We constructed an ecological niche model (ENM) to estimate the geographical distribution of climatically suitable habitats for the trumpeter finch. We tested whether changes in the species range in relation to glacial-interglacial cycles could be responsible for observed patterns of genetic diversity and structure. Modelling results matched with those from genetic data as the species' potential range increases in interglacial scenarios (in the present climatic scenario and during MIS5) and decreases in glacial climates (during the last glacial maximum, LGM, 21 000 years ago). Our results suggest that the trumpeter finch responded to Pleistocene climatic changes by expanding and contracting its range., (© 2013 John Wiley & Sons Ltd.)

Published

2014

24. Functional significance of a phylogenetically widespread sexual dimorphism in vasotocin/vasopressin production.

Author

Kelly AM and Goodson JL

Subjects

Aggression physiology, Animals, Animals, Genetically Modified, Anxiety metabolism, Behavior, Animal physiology, Female, Finches classification, Gene Knockdown Techniques, Male, Oligonucleotides, Antisense pharmacology, Phylogeny, Reproduction physiology, Finches genetics, Finches metabolism, Septal Nuclei metabolism, Sex Characteristics, Vasotocin genetics, Vasotocin metabolism

Abstract

Male-biased production of arginine vasotocin/vasopressin (VT/VP) in the medial bed nucleus of the stria terminalis (BSTm) represents one of the largest and most phylogenetically widespread sexual dimorphisms in the vertebrate brain. Although this sex difference was identified 30 years ago, the function of the dimorphism has yet to be determined. Because 1) rapid transcriptional activation of BSTm VT/VP neurons is observed selectively in response to affiliation-related stimuli, 2) BSTm VT/VP content and release correlates negatively with aggression, and 3) BSTm VT/VP production is often limited to periods of reproduction, we hypothesized that the sexual dimorphism serves to promote male-specific reproductive behaviors and offset male aggression in the context of reproductive affiliation. We now show that antisense knockdown of BSTm VT production in colony-housed finches strongly increases aggression in a male-specific manner and concomitantly reduces courtship. Thus, the widespread dimorphism may serve to focus males on affiliation in appropriate reproductive contexts (e.g., when courting) while concomitantly offsetting males' tendency for greater aggression relative to females., (© 2013. Published by Elsevier Inc. All rights reserved.)

Published

2013

25. Inferring the geographic mode of speciation by contrasting autosomal and sex-linked genetic diversity.

Author

Chu JH, Wegmann D, Yeh CF, Lin RC, Yang XJ, Lei FM, Yao CT, Zou FS, and Li SH

Subjects

Animals, Bayes Theorem, Computational Biology, Female, Gene Flow, Genetic Loci, Geographic Mapping, Male, Models, Genetic, Polymorphism, Genetic, Population Density, Selection, Genetic, Finches classification, Finches genetics, Genetic Speciation, Genetic Variation, Sex Chromosomes genetics

Abstract

When geographic isolation drives speciation, concurrent termination of gene flow among genomic regions will occur immediately after the formation of the barrier between diverging populations. Alternatively, if speciation is driven by ecologically divergent selection, gene flow of selectively neutral genomic regions may go on between diverging populations until the completion of reproductive isolation. It may also lead to an unsynchronized termination of gene flow between genomic regions with different roles in the speciation process. Here, we developed a novel Approximate Bayesian Computation pipeline to infer the geographic mode of speciation by testing for a lack of postdivergence gene flow and a concurrent termination of gene flow in autosomal and sex-linked markers jointly. We applied this approach to infer the geographic mode of speciation for two allopatric highland rosefinches, the vinaceous rosefinch Carpodacus vinaceus and the Taiwan rosefinch C. formosanus from DNA polymorphisms of both autosomal and Z-linked loci. Our results suggest that the two rosefinch species diverged allopatrically approximately 0.5 Ma. Our approach allowed us further to infer that female effective population sizes are about five times larger than those of males, an estimate potentially useful when comparing the intensity of sexual selection across species.

Published

2013

26. The origin of finches on Tristan da Cunha and Gough Island, central South Atlantic ocean.

Author

Ryan PG, Klicka LB, Barker KF, and Burns KJ

Subjects

Animal Distribution, Animals, Atlantic Ocean, DNA, Mitochondrial genetics, Female, Finches genetics, Islands, Male, Phylogeography, Sequence Analysis, DNA, Time Factors, Cell Nucleus genetics, DNA, Mitochondrial classification, Finches classification, Genetic Speciation, Phylogeny

Abstract

The Nesospiza finches of the Tristan da Cunha archipelago and Rowettia goughensis from Gough Island, 380 km distant, are both derived from tanager-finches (Thraupidae) that colonized the islands by crossing more than 3000 km of ocean from South America. Sequences from two mitochondrial and four nuclear genes indicate that the Patagonian bridled finches Melanodera are the closest relatives of the South Atlantic finches. Melanodera typically was sister to Rowettia, although some genes linked it more closely to Nesospiza. There was no evidence that Rowettia and Nesospiza are sister taxa, suggesting that the South Atlantic finches evolved from separate colonization events, as apparently was the case for moorhens Gallinula spp. at the two island groups. Genetic divergence between the two island finch genera thus provides an estimate of the maximum period of time they have been present at the islands, some 3-5 million years. A brief review of colonization histories suggests that island hopping by passerine birds is infrequent among islands more than 100-200 km apart., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published

2013

27. Evidence from a house finch (Haemorhous mexicanus) spleen transcriptome for adaptive evolution and biased gene conversion in passerine birds.

Author

Backström N, Zhang Q, and Edwards SV

Subjects

Animals, Finches classification, Evolution, Molecular, Finches genetics, Spleen metabolism, Transcriptome genetics

Abstract

Identifying genes influenced by natural selection can provide information about lineage-specific adaptations, and transcriptomes generated by next-generation sequencing are a useful resource for identifying such genes. Here, we utilize a spleen transcriptome for the house finch (Haemorhous mexicanus), an emerging model for sexual selection and disease ecology, together with previously sequenced avian genomes (chicken, turkey, and zebra finch), to investigate lineage-specific adaptations within birds. An analysis of 4,398 orthologous genes revealed a significantly higher ratio of nonsynonymous to synonymous substitutions and significantly higher GC content in passerines than in galliforms, an observation deviating from strictly neutral expectations but consistent with an effect of biased gene conversion on the evolutionary rate in passerines. These data also showed that genes exhibiting signs of positive selection and fast evolution in passerines have functional roles related to fat metabolism, neurodevelopment, and ion binding.

Published

2013

28. Complete mitochondrial genomes from four subspecies of common chaffinch (Fringilla coelebs): new inferences about mitochondrial rate heterogeneity, neutral theory, and phylogenetic relationships within the order Passeriformes.

Author

Marshall HD, Baker AJ, and Grant AR

Subjects

Animals, Finches classification, Humans, Mitochondria genetics, DNA, Mitochondrial genetics, Evolution, Molecular, Finches genetics, Genetic Variation, Genome, Mitochondrial genetics, Phylogeny

Abstract

We describe whole mitochondrial genome sequences from four subspecies of the common chaffinch (Fringilla coelebs), and compare them to 31 publicly available mitochondrial genome sequences from other Passeriformes. Rates and patterns of mitochondrial gene evolution are analyzed at different taxonomic levels within this avian order, and evidence is adduced for and against the nearly neutral theory of molecular evolution and the role of positive selection in shaping genetic variation of this small but critical genome. We find evidence of mitochondrial rate heterogeneity in birds as in other vertebrates, likely due to differences in mutational pressure across the genome. Unlike in gadine fish and some of the human mitochondrial work we do not observe strong support for the nearly neutral theory of molecular evolution; instead evidence from molecular clocks, distribution of dN/dS ratios at different levels of the taxonomic hierarchy and in different lineages, McDonald-Kreitman tests within Fringillidae, and site-specific tests of selection within Passeriformes, all point to a role for positive selection, especially for the complex I NADH dehydrogenase genes. The protein-coding mitogenome phylogeny of the order Passeriformes is broadly consistent with previously-reported molecular findings, but provides support for a sister relationship between the superfamilies Muscicapoidea and Passeroidea on a short basal internode of the Passerida where relationships have been difficult to resolve. An unexpected placement of the Paridae (represented by Hume's groundpecker) within the Muscicapoidea was observed. Consistent with other molecular studies the mtDNA phylogeny reveals paraphyly within the Muscicapoidea and a sister relationship of Fringilla with Carduelis rather than Emberiza., (Copyright © 2013 Elsevier B.V. All rights reserved.)

Published

2013

29. Recent allopatric divergence and niche evolution in a widespread Palearctic bird, the common rosefinch (Carpodacus erythrinus).

Author

Hung CM, Drovetski SV, and Zink RM

Subjects

Animals, Asia, DNA, Mitochondrial genetics, Ecosystem, Europe, Finches classification, Gene Flow, Genetics, Population, Haplotypes, Models, Biological, Phylogeography, Sequence Analysis, DNA, Biological Evolution, Finches genetics, Phylogeny

Abstract

A previously published phylogeographic analysis of mtDNA sequences from the widespread Palearctic common rosefinch (Carpodacus erythrinus) suggested the existence of three recently diverged groups, corresponding to the Caucasus, central-western Eurasia, and northeastern Eurasia. We re-evaluated the mtDNA data using coalescence methods and added sequence data from a sex-linked gene. The mtDNA gene tree and SAMOVA supported the distinctiveness of the Caucasian group but not the other two groups. However, UPGMA clustering of mtDNA Φ(ST)-values among populations recovered the three groups. The sex-linked gene tree recovered no phylogeographic signal, which was attributed to recent divergence and insufficient time for sorting of alleles. Overall, coalescence methods indicated a lack of gene flow among the three groups, and population expansion in the central-western and northeastern Eurasia groups. These three groups corresponded to named subspecies, further supporting their validity. A species distribution model revealed potential refugia at the Last Glacial Maximum. These three groups, which we hypothesized are in the early stages of speciation, provided an opportunity for testing tenets of ecological speciation. We showed that the early stages of speciation were not accompanied by ecological niche divergence, consistent with other avian studies., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2013

30. Can American goldfinches function as reservoirs for Mycoplasma gallisepticum?

Author

Dhondt AA, Dhondt KV, Hochachka WM, and Schat KA

Subjects

Animals, Bird Diseases microbiology, Bird Diseases transmission, Conjunctivitis, Bacterial epidemiology, Conjunctivitis, Bacterial transmission, Disease Reservoirs microbiology, Female, Finches classification, Male, Mycoplasma Infections epidemiology, Mycoplasma Infections transmission, Species Specificity, United States epidemiology, Bird Diseases epidemiology, Conjunctivitis, Bacterial veterinary, Disease Reservoirs veterinary, Finches microbiology, Mycoplasma Infections veterinary, Mycoplasma gallisepticum

Abstract

We performed experiments to test if American Goldfinches (Spinus tristis) could be a competent reservoir for Mycoplasma gallisepticum and play a role in the epidemic spread of mycoplasmal conjunctivitis among House Finches (Carpodacus mexicanus) in North America. We infected one of two individuals housed together in a cage and determined if transmission occurred to the second bird. Probability of transmission between an American Goldfinch and a House Finch (in either direction) was similar to that between two House Finches. In a second experiment small groups of birds (6-8) were housed in large aviaries. Two source birds were inoculated with M. gallisepticum, and transmission to the naive birds in the aviary was recorded. Transmission occurred among House Finches, among American Goldfinches, and from House Finches to American Goldfinches. Transmission was more likely between House Finches than among American Goldfinches, and between House Finches and American Goldfinches. We conclude that American Goldfinches are a competent reservoir for Mycoplasma gallisepticum and could have played a role in the spread of the epidemic as they are more migratory than House Finches.

Published

2013

31. The phylogenetic relationships and generic limits of finches (Fringillidae).

Author

Zuccon D, Prŷs-Jones R, Rasmussen PC, and Ericson PG

Subjects

Animals, DNA, Mitochondrial classification, DNA, Mitochondrial isolation & purification, Female, Finches classification, Male, Mitochondria genetics, Models, Genetic, Sequence Alignment, Sequence Analysis, DNA, Biological Evolution, Cell Nucleus genetics, Computational Biology, DNA, Mitochondrial genetics, Finches genetics, Phylogeny

Abstract

Phylogenetic relationships among the true finches (Fringillidae) have been confounded by the recurrence of similar plumage patterns and use of similar feeding niches. Using a dense taxon sampling and a combination of nuclear and mitochondrial sequences we reconstructed a well resolved and strongly supported phylogenetic hypothesis for this family. We identified three well supported, subfamily level clades: the Holoarctic genus Fringilla (subfamly Fringillinae), the Neotropical Euphonia and Chlorophonia (subfamily Euphoniinae), and the more widespread subfamily Carduelinae for the remaining taxa. Although usually separated in a different family-group taxon (Drepanidinae), the Hawaiian honeycreepers are deeply nested within the Carduelinae and sister to a group of Asian Carpodacus. Other new relationships recovered by this analysis include the placement of the extinct Chaunoproctus ferreorostris as sister to some Asian Carpodacus, a clade combining greenfinches (Carduelis chloris and allies), Rhodospiza and Rhynchostruthus, and a well-supported clade with the aberrant Callacanthis and Pyrrhoplectes together with Carpodacus rubescens. Although part of the large Carduelis-Serinus complex, the poorly known Serinus estherae forms a distinct lineage without close relatives. The traditionally delimited genera Carduelis, Serinus, Carpodacus, Pinicola and Euphonia are polyphyletic or paraphyletic. Based on our results we propose a revised generic classification of finches and describe a new monotypic genus for Carpodacus rubescens., (Copyright © 2011 Elsevier Inc. All rights reserved.)

Published

2012

32. Multilocus resolution of phylogeny and timescale in the extant adaptive radiation of Hawaiian honeycreepers.

Author

Lerner HR, Meyer M, James HF, Hofreiter M, and Fleischer RC

Subjects

Animals, Cell Nucleus genetics, Evolution, Molecular, Finches anatomy & histology, Genome, Mitochondrial, Geology, Hawaii, Phylogeny, Polymerase Chain Reaction veterinary, Finches classification, Finches genetics, Sequence Analysis, DNA methods

Abstract

Evolutionary theory has gained tremendous insight from studies of adaptive radiations. High rates of speciation, morphological divergence, and hybridization, combined with low sequence variability, however, have prevented phylogenetic reconstruction for many radiations. The Hawaiian honeycreepers are an exceptional adaptive radiation, with high phenotypic diversity and speciation that occurred within the geologically constrained setting of the Hawaiian Islands. Here we analyze a new data set of 13 nuclear loci and pyrosequencing of mitochondrial genomes that resolves the Hawaiian honeycreeper phylogeny. We show that they are a sister taxon to Eurasian rosefinches (Carpodacus) and probably came to Hawaii from Asia. We use island ages to calibrate DNA substitution rates, which vary substantially among gene regions, and calculate divergence times, showing that the radiation began roughly when the oldest of the current large Hawaiian Islands (Kauai and Niihau) formed, ~5.7 million years ago (mya). We show that most of the lineages that gave rise to distinctive morphologies diverged after Oahu emerged (4.0-3.7 mya) but before the formation of Maui and adjacent islands (2.4-1.9 mya). Thus, the formation of Oahu, and subsequent cycles of colonization and speciation between Kauai and Oahu, played key roles in generating the morphological diversity of the extant honeycreepers., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published

2011

33. A molecular phylogeny of the Sierra-Finches (Phrygilus, Passeriformes): extreme polyphyly in a group of Andean specialists.

Author

Campagna L, Geale K, Handford P, Lijtmaer DA, Tubaro PL, and Lougheed SC

Subjects

Algorithms, Altitude, Animals, Bayes Theorem, Cell Nucleus genetics, DNA, Mitochondrial genetics, Ecosystem, Finches genetics, Genetic Variation, Geography, Phylogeography, Sequence Analysis, DNA, Biological Evolution, Finches classification, Genetic Speciation, Phylogeny

Abstract

The unparalleled avian diversity of the Neotropics has long been argued to be in large part the evolutionary consequence of the incredible habitat diversity and rugged topography of the Andes mountains. Various scenarios have been proposed to explain how the Andean context could have generated lineage diversification (e.g. vicariant speciation or parapatric speciation across vertical ecological gradients), yet further study on Andean taxa is needed to reveal the relative importance of the different processes. Here we use mitochondrial and nuclear DNA sequences to derive the first phylogenetic hypothesis for Phrygilus (Sierra-Finches), one of the most species-rich genera of mainly Andean passerines. We find strong evidence that the genus is polyphyletic, comprising four distantly related clades with at least nine other genera interspersed between them (Acanthidops, Catamenia, Diglossa, Haplospiza, Idiopsar, Melanodera, Rowettia, Sicalis and Xenodacnis). These four Phrygilus clades coincide with groups previously established mainly on the basis of plumage characters, suggesting single evolutionary origins for each of these. We consider the history of diversification of each clade, analyzing the timing of splitting events, ancestral reconstruction of altitudinal ranges and current geographical distributions. Phrygilus species origins date mainly to the Pleistocene, with representatives diversifying within, out of, and into the Andes. Finally, we explored whether Phrygilus species, especially those with broad altitudinal and latitudinal Andean distributions, showed phylogeographic structure. Our best-sampled taxon (Phrygilus fruticeti) exhibited no clear pattern; however, we found deep genetic splits within other surveyed species, with Phrygilus unicolor being the most extreme case and deserving of further research., (Copyright © 2011 Elsevier Inc. All rights reserved.)

Published

2011

34. A molecular phylogeny of bullfinches Pyrrhula Brisson, 1760 (Aves: Fringillidae).

Author

Töpfer T, Haring E, Birkhead TR, Lopes RJ, Severinghaus LL, Martens J, and Päckert M

Subjects

Animals, Asia, Cell Nucleus genetics, DNA, Mitochondrial genetics, Europe, Finches classification, Genetic Variation, Introns genetics, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Evolution, Molecular, Finches genetics, Phylogeny

Abstract

We present a molecular phylogeny of bullfinches (Pyrrhula Brisson, 1760) based on 2357bp DNA sequence information of mitochondrial genes (cyt-b, 16S rRNA) and nuclear introns (fib-7, GAPDH-11). The genus is clearly a monophyletic group. Within the limits of Pyrrhula, molecular methods support the subdivision of three main groups: (1) "Southeast-Asian bullfinches" (P. nipalensis and P. leucogenis), (2) "Himalayan bullfinches" (P. aurantiaca, P. erythaca, P. erythrocephala), and (3) "Eurasian bullfinches" (P. pyrrhula s.l.). Within the last group there are four different subgroups: (3a) P. (p.) murina, (3b) P. (p.) cineracea, (3c) P. (p.) griseiventris, and (3d) P. pyrrhula s.str. The centre of origin of the genus Pyrrhula was most probably Southeast Asia. Incomplete lineage sorting of both mitochondrial and nuclear genes is observed among two apparently good species (P. erythaca and P. erythrocephala) indicating a very recent speciation event within the Himalayan Mountain chain. According to our estimates, the Pyrrhula ancestors split from the Pinicola ancestors before the Pleistocene. Apart from the subsequent Pre-Pleistocene splits of the three ancestral main groups, most of the diversification of today's representatives probably took place during the past 600,000 years, possibly in interaction with Pleistocene refugia and successive colonization movements after the last glaciation. Thus our work confirms the traditional delimitation of the bullfinches towards the other members of the finch family Fringillidae and corroborates most of the classic intra-generic subdivisions., (Copyright © 2010 Elsevier Inc. All rights reserved.)

Published

2011

35. Reconstructing the phylogeny of "Buarremon" brush-finches and near relatives (Aves, Emberizidae) from individual gene trees.

Author

Flórez-Rodríguez A, Carling MD, and Cadena CD

Subjects

Animals, Bayes Theorem, DNA, Mitochondrial genetics, Evolution, Molecular, Finches genetics, Multilocus Sequence Typing methods, Polymerase Chain Reaction, Sequence Alignment, Sequence Analysis, DNA, Finches classification, Phylogeny

Abstract

Gene trees are often assumed to be equivalent to species trees, but processes such as incomplete lineage sorting can generate incongruence among gene topologies and analyzing multilocus data in concatenated matrices can be prone to systematic errors. Accordingly, a variety of new methods have been developed to estimate species trees using multilocus data sets. Here, we apply some of these methods to reconstruct the phylogeny of Buarremon and near relatives, a group in which phylogenetic analyses of mitochondrial DNA sequences produced results that were inconsistent with relationships implied by a taxonomy based on variation in external phenotype. Gene genealogies obtained for seven loci (one mitochondrial, six nuclear) were varied, with some supporting and some rejecting the monophyly of Buarremon. Overall, our species-tree analyses tended to support a monophyletic Buarremon, but due to lack of congruence between methodologies, resolution of the phylogeny of this group remains uncertain. More generally, our study indicates that the number of individuals sampled can have an important effect on phylogenetic reconstruction, that the use of seven markers does not guarantee obtaining a strongly-supported species tree, and that methods for species-tree reconstruction can produce different results using the same data; these are important considerations for researchers using these new phylogenetic approaches in other systems., (Copyright © 2010 Elsevier Inc. All rights reserved.)

Published

2011

36. Reptiles and mammals have differentially retained long conserved noncoding sequences from the amniote ancestor.

Author

Janes DE, Chapus C, Gondo Y, Clayton DF, Sinha S, Blatti CA, Organ CL, Fujita MK, Balakrishnan CN, and Edwards SV

Subjects

Animals, Base Sequence, Birds classification, Chickens classification, Chickens genetics, Computational Biology, Dogs, Expressed Sequence Tags, Finches classification, Finches genetics, Genomics, Humans, Lizards genetics, Mice, Phylogeny, Reptiles classification, Transcription Factors metabolism, Birds genetics, Conserved Sequence, Evolution, Molecular, Genome genetics, Reptiles genetics

Abstract

Many noncoding regions of genomes appear to be essential to genome function. Conservation of large numbers of noncoding sequences has been reported repeatedly among mammals but not thus far among birds and reptiles. By searching genomes of chicken (Gallus gallus), zebra finch (Taeniopygia guttata), and green anole (Anolis carolinensis), we quantified the conservation among birds and reptiles and across amniotes of long, conserved noncoding sequences (LCNS), which we define as sequences ≥500 bp in length and exhibiting ≥95% similarity between species. We found 4,294 LCNS shared between chicken and zebra finch and 574 LCNS shared by the two birds and Anolis. The percent of genomes comprised by LCNS in the two birds (0.0024%) is notably higher than the percent in mammals (<0.0003% to <0.001%), differences that we show may be explained in part by differences in genome-wide substitution rates. We reconstruct a large number of LCNS for the amniote ancestor (ca. 8,630) and hypothesize differential loss and substantial turnover of these sites in descendent lineages. By contrast, we estimated a small role for recruitment of LCNS via acquisition of novel functions over time. Across amniotes, LCNS are significantly enriched with transcription factor binding sites for many developmental genes, and 2.9% of LCNS shared between the two birds show evidence of expression in brain expressed sequence tag databases. These results show that the rate of retention of LCNS from the amniote ancestor differs between mammals and Reptilia (including birds) and that this may reflect differing roles and constraints in gene regulation.

Published

2011

37. Disentangling ancient interactions: a new extinct passerine provides insights on character displacement among extinct and extant island finches.

Author

Rando JC, Alcover JA, and Illera JC

Subjects

Animals, Biological Evolution, Finches classification, Geography, Phylogeny, Spain, Endangered Species, Finches genetics, Paleontology

Abstract

Background: Evolutionary studies of insular biotas are based mainly on extant taxa, although such biotas represent artificial subsets of original faunas because of human-caused extinctions of indigenous species augmented by introduced exotic taxa. This makes it difficult to obtain a full understanding of the history of ecological interactions between extant sympatric species. Morphological bill variation of Fringilla coelebs and F. teydea (common and blue chaffinches) has been previously studied in the North Atlantic Macaronesian archipelagos. Character displacement between both species has been argued to explain bill sizes in sympatry. However, this explanation is incomplete, as similar patterns of bill size have been recorded in F. coelebs populations from islands with and without F. teydea., Methodology/principal Findings: The discovery of a new extinct species in Tenerife (Canary Islands), here named Carduelis aurelioi n. sp. (slender-billed greenfinch), provides the opportunity to study ancient ecological interactions among Macaronesian finches. To help understand the evolutionary histories of forest granivores in space and time, we have performed a multidisciplinary study combining: (1) morphological analyses and radiocarbon dating (11,460±60 yr BP) of the new taxon and, (2) molecular divergence among the extant finch species and populations in order to infer colonization times (1.99 and 1.09 My for F. teydea and F. coelebs respectively)., Conclusion/significance: C. aurelioi, F. coelebs and F. teydea co-habited in Tenerife for at least one million years. The unique anatomical trends of the new species, namely chaffinch-like beak and modified hind and forelimbs, reveal that there was a process of divergence of resource competition traits among the three sympatric finches. The results of our study, combined with the presence of more extinct greenfinches in other Macaronesian islands with significant variation in their beak sizes, suggests that the character displacement has influenced patterns of divergence in bill size and shape on other Macaronesian islands as well.

Published

2010

38. Summer feeding ecology of Great Pampa-finches, Embernagra platensis at Laguna de Guaminí, Buenos Aires, Argentina.

Author

Ferman LM and Montalti D

Subjects

Animals, Argentina, Female, Finches classification, Fresh Water, Male, Seasons, Feeding Behavior physiology, Finches physiology, Gastrointestinal Contents

Abstract

The aim of this study was to assemble data on the summer feeding ecology of the Great Pampa-finch, Embernagra platensis at the Laguna de Guaminí, Buenos Aires, Argentina, and to explore the differences related to the dietary patterns for each sex between winter and summer when possible. The stomach contents of 43 birds were analyzed. The animal fraction was composed of Hymenoptera (45.1%), Coleoptera (32.4%), Lepidoptera (6.0%), Araneae (5%) and Orthoptera (3.2%). The application of the index of relative importance (IRI) resulted in 1490.4 for Coleoptera, 428.5 for Hymenoptera and 162.5 for Lepidoptera caterpillars. The vegetal fraction consisted of Triticum aestivum (26.9%), Cyperaceous (25%), Poaceae (Gramineae) (19.3%) and Panicum sp. (11.2%). The IRI values were 893.8 for Triticum aestivum, 174.5 for Gramineae, 126.5 for Panicum sp. and 112.8 for Scirpus sp. The food niche width was 0.33 for both sexes; the diversity index resulted in 1.06 for females and 1.33 for males and specific diversity ranged from 1.87 to 2.84. A canonical component analysis (CCA) was performed on environmental and morphometric variables, and a Monte Carlo test confirmed the canonical correlations. A t-test showed that some birds harmonized with a logarithmic model and some with a geometric curve. During the summer, Embernagra platensis ingests Hymenoptera and Coleoptera more often than seeds, suggesting that two biological mechanisms could be taking place in this bird.

Published

2010

39. Accelerated evolution of PAK3- and PIM1-like kinase gene families in the zebra finch, Taeniopygia guttata.

Author

Kong L, Lovell PV, Heger A, Mello CV, and Ponting CP

Subjects

Animals, Base Sequence, Brain cytology, Brain enzymology, Finches anatomy & histology, Finches classification, Fungal Proteins, Humans, In Situ Hybridization, Male, Mitogen-Activated Protein Kinases chemistry, Mitogen-Activated Protein Kinases classification, Mitogen-Activated Protein Kinases metabolism, Models, Molecular, Molecular Sequence Data, Phylogeny, Protein Conformation, Sequence Alignment, p21-Activated Kinases chemistry, p21-Activated Kinases classification, p21-Activated Kinases metabolism, Evolution, Molecular, Finches genetics, Finches metabolism, Gene Expression Regulation, Mitogen-Activated Protein Kinases genetics, p21-Activated Kinases genetics

Abstract

Genes encoding protein kinases tend to evolve slowly over evolutionary time, and only rarely do they appear as recent duplications in sequenced vertebrate genomes. Consequently, it was a surprise to find two families of kinase genes that have greatly and recently expanded in the zebra finch (Taeniopygia guttata) lineage. In contrast to other amniotic genomes (including chicken) that harbor only single copies of p21-activated serine/threonine kinase 3 (PAK3) and proviral integration site 1 (PIM1) genes, the zebra finch genome appeared at first to additionally contain 67 PAK3-like (PAK3L) and 51 PIM1-like (PIM1L) protein kinase genes. An exhaustive analysis of these gene models, however, revealed most to be incomplete, owing to the absence of terminal exons. After reprediction, 31 PAK3L genes and 10 PIM1L genes remain, and all but three are predicted, from the retention of functional sites and open reading frames, to be enzymatically active. PAK3L, but not PIM1L, gene sequences show evidence of recurrent episodes of positive selection, concentrated within structures spatially adjacent to N- and C-terminal protein regions that have been discarded from zebra finch PAK3L genes. At least seven zebra finch PAK3L genes were observed to be expressed in testis, whereas two sequences were found transcribed in the brain, one broadly including the song nuclei and the other in the ventricular zone and in cells resembling Bergmann's glia in the cerebellar Purkinje cell layer. Two PIM1L sequences were also observed to be expressed with broad distributions in the zebra finch brain, one in both the ventricular zone and the cerebellum and apparently associated with glial cells and the other showing neuronal cell expression and marked enrichment in midbrain/thalamic nuclei. These expression patterns do not correlate with zebra finch-specific features such as vocal learning. Nevertheless, our results show how ancient and conserved intracellular signaling molecules can be co-opted, following duplication, thereby resulting in lineage-specific functions, presumably affecting the zebra finch testis and brain.

Published

2010

40. Evolution of a bitter taste receptor gene cluster in a New World sparrow.

Author

Davis JK, Lowman JJ, Thomas PJ, ten Hallers BF, Koriabine M, Huynh LY, Maney DL, de Jong PJ, Martin CL, and Thomas JW

Subjects

Amino Acid Sequence, Animals, Chromosome Breakage, Chromosome Inversion, Chromosome Mapping, Chromosomes, Artificial, Bacterial genetics, Finches classification, Finches genetics, Gene Duplication, Gene Rearrangement, Genetic Linkage, Genetic Variation, Haplotypes, Molecular Sequence Data, Phylogeny, Songbirds classification, Songbirds genetics, Sparrows classification, Species Specificity, Taste genetics, Evolution, Molecular, Multigene Family, Receptors, G-Protein-Coupled genetics, Sparrows genetics

Abstract

Bitter taste perception likely evolved as a protective mechanism against the ingestion of harmful compounds in food. The evolution of the taste receptor type 2 (TAS2R) gene family, which encodes the chemoreceptors that are directly responsible for the detection of bitter compounds, has therefore been of considerable interest. Though TAS2R repertoires have been characterized for a number of species, to date the complement of TAS2Rs from just one bird, the chicken, which had a notably small number of TAS2Rs, has been established. Here, we used targeted mapping and genomic sequencing in the white-throated sparrow (Zonotrichia albicollis) and sample sequencing in other closely related birds to reconstruct the history of a TAS2R gene cluster physically linked to the break points of an evolutionary chromosomal rearrangement. In the white-throated sparrow, this TAS2R cluster encodes up to 18 functional bitter taste receptors and likely underwent a large expansion that predates and/or coincides with the radiation of the Emberizinae subfamily into the New World. In addition to signatures of gene birth-and-death evolution within this cluster, estimates of Ka/Ks for the songbird TAS2Rs were similar to those previously observed in mammals, including humans. Finally, comparison of the complete genomic sequence of the cluster from two common haplotypes in the white-throated sparrow revealed a number of nonsynonymous variants and differences in functional gene content within this species. These results suggest that interspecies and intraspecies genetic variability does exist in avian TAS2Rs and that these differences could contribute to variation in bitter taste perception in birds.

Published

2010

41. [Stochastic elements of speciation in Darwin's finches and in Central European blackcaps].

Author

Gilgenkrantz S

Subjects

Animal Migration, Animals, Ecuador, Europe, Finches classification, Finches physiology, Phenotype, Songbirds classification, Songbirds physiology, Stochastic Processes, Vocalization, Animal, Finches genetics, Genetic Speciation, Songbirds genetics

Published

2010

42. Phylogeography and genetic structure of the Canarian common chaffinch (Fringilla coelebs) inferred with mtDNA and microsatellite loci.

Author

Suárez NM, Betancor E, Klassert TE, Almeida T, Hernández M, and Pestano JJ

Subjects

Animals, DNA, Mitochondrial genetics, Finches classification, Geography, Haplotypes, Microsatellite Repeats, Sequence Analysis, DNA, Spain, Evolution, Molecular, Finches genetics, Genetics, Population, Phylogeny

Abstract

The widespread common chaffinch (Fringilla coelebs) inhabits five of the seven Canary Islands. Sequences of the mitochondrial cytochrome b gene (1002bp) revealed new insights into the systematics and phylogeography of this taxon. Additionally, a set of microsatellite loci were analyzed to examine the structure of these populations. Our results suggest that a new species of the genus Fringilla is present in the Canary Islands, which comprises at least three subspecies, but with a different distribution to that which has been morphologically accepted. The specimens from Gran Canaria are genetically distinct from those of La Gomera and Tenerife (F. c. canariensis), which suggests the existence of an undescribed taxon. Furthermore, nuclear microsatellite data suggest an ongoing incipient speciation process in this population. This study provides both important conservationist implications and a basis for re-evaluating the taxonomic status of the Canarian Fringilla coelebs populations.

Published

2009

43. The species status of the Corsican finch Carduelis corsicana assessed by three genetic markers with different rates of evolution.

Author

Förschler MI, Senar JC, Perret P, and Björklund M

Subjects

Animals, Cell Nucleus genetics, DNA, Mitochondrial genetics, Finches classification, Genetic Markers, Genetic Speciation, Genetic Variation, Microsatellite Repeats, Phylogeny, Sequence Analysis, DNA, Species Specificity, Evolution, Molecular, Finches genetics, Genes, Mitochondrial, Genetics, Population

Abstract

Citril finches Carduelis c. citrinella and Corsican finches Carduelis c. corsicana represent two closely related forms, endemic to European mountains and some Mediterranean Islands. Their taxonomic status has recently been disputed based on the results from mitochondrial genes. We show that the use of different genetic markers may lead to different results in these two putative species. Using the mitochondrial ATP8+6 we found a clear difference between C. c. citrinella and C. c. corsicana (3.2%) suggesting a divergence time of 1.2MYR. In contrast, no clear difference was found using two nuclear genes. The mismatch between the different markers suggests that the separation of C. c. citrinella and C. c. corsicana is likely to be a rather recent event, involving bottlenecks, which have enhanced the divergence in the mtDNA. Our results call for caution when using mtDNA alone for assessing times of divergence and rates of evolution. We did not find any support for the view that C. c. corsicana is more related to Carduelis carduelis than C. c. citrinella as proposed by previous studies.

Published

2009

44. Molecular phylogeny of Carduelinae (Aves, Passeriformes, Fringillidae) proves polyphyletic origin of the genera Serinus and Carduelis and suggests redefined generic limits.

Author

Nguembock B, Fjeldså J, Couloux A, and Pasquet E

Subjects

Animals, Bayes Theorem, Cell Nucleus genetics, DNA, Mitochondrial genetics, Finches classification, Genes, Mitochondrial, Likelihood Functions, Models, Genetic, Sequence Analysis, DNA, Evolution, Molecular, Finches genetics, Genetic Speciation, Phylogeny

Abstract

Relationships of the 133 species of the subfamily Carduelinae (Fringillidae) are poorly resolved. For a more robust phylogenetic resolution, we sequenced two mitochondrial protein-coding genes (ATPase 6 and ND3), two nuclear introns (myoglobin intron 2 and transforming growth factor-beta2 intron 5) and one nuclear protein-coding gene (c-mos) from 50 cardueline taxa representing especially the large genera Serinus and Carduelis. A total of 2934bp obtained was subjected to maximum likelihood and Bayesian inference. Three of the five loci, as well as the combined dataset recovered the monophyly of the basal placement of Fringilla in the monophyletic Fringillidae, and the monophyly of the Carduelinae. While relationships within this group are moderately resolved by some individual gene trees (myoglobin and c-mos loci), high nodal support is provided in other individual gene trees and the combined tree. Among the well resolved terminal cardueline groups, Linurgus, Loxia and Pyrrhula are found to be monophyletic while genera Carpodacus, Carduelis and Serinus appear para- or polyphyletic. Within Serinus and Carduelis, the obtained phylogenetic structure corresponds well with the subdivisions suggested by H.E. Wolters, based on traditional methods. Thus, we support his generic subdivision (Ochrospiza, Dendrospiza and Crithagra for Serinus, and Chloris, Spinus, Sporagra, Pseudomitris, Acanthis and Linaria for Carduelis). Otherwise, we notice several cases of significant genetic divergence within traditional species suggesting incipient speciation in Linurgus olivaceus, Loxia curvirostra, Serinus mozambicus and Serinus burtoni. Some of these cases need a further phylogeographical study with a denser geographical sampling but for the case the most noteworthy, that of Serinus burtoni, we suggest a taxonomic change in this study.

Published

2009

45. Darwin's finches: analysis of beak morphological changes during evolution.

Author

Abzhanov A

Subjects

Animals, Female, Finches classification, Male, Models, Animal, Species Specificity, Beak anatomy & histology, Biological Evolution, Finches anatomy & histology

Published

2009

46. Postzygotic genetic incompatibility between sympatric color morphs.

Author

Pryke SR and Griffith SC

Subjects

Animals, Australia, Female, Finches classification, Genetics, Population, Male, Pigmentation, Finches anatomy & histology, Finches genetics

Abstract

Alternative genetically determined color morphs within a population or species are believed to successfully interbreed within a population. However, the occurrence of prezygotic or ecological selection in a number of polymorphic systems may lead to nonrandom mating and prevent genetic morphs from fully interbreeding. Here we show that postzygotic incompatibility significantly limits gene flow between the sympatric red and black color morphs of the Gouldian finch (Erythrura gouldiae). Using a balanced within-female experimental design, in which individuals were forced to breed in pure and mixed morph crosses, we found large inviability effects (>30%) in offspring resulting from genetically mixed genotypes. The consistent mortality effects across different stages of development (e.g., prehatching, juvenile, adulthood), unconfounded by environmentally derived parental effects or social environments, reveal an underlying genetic incompatibility between different genotypes. Furthermore, mortality in mixed morph genotypes was particularly severe (43.6%) for the heterogametic sex (daughters), which is consistent with Haldane's rule predicted for postzygotic incompatibilities between hybridizing species. This significant, but incomplete, postzygotic isolation suggests that the sympatric morphs may represent transient stages in the speciation-hybridization process.

Published

2009

47. Patchy distributions belie morphological and genetic homogeneity in rosy-finches.

Author

Drovetski SV, Zink RM, and Mode NA

Subjects

Animals, Asia, DNA, Mitochondrial genetics, Evolution, Molecular, Feathers anatomy & histology, Female, Finches anatomy & histology, Finches classification, Geography, Haplotypes, Male, Mitochondria genetics, North America, Phenotype, Pigmentation, Sequence Analysis, DNA, Species Specificity, Finches genetics, Genetic Speciation, Genetic Variation, Phylogeny

Abstract

DNA sequence data often appear to contradict low-level avian taxonomy, which is usually based on patterns of external phenotypic similarity. We examined such an apparent contradiction in the Nearctic rosy-finches. On the basis of several phenotypic characters the finches were divided into three species congeneric with three Asian species. When Nearctic taxa were analyzed in a principal components analysis, 66.9% of phenotypic variation was explained by differences between the Bering Sea and continental populations, sexual dimorphism and a latitudinal cline. Our phylogenetic analysis of mitochondrial ND2 sequences revealed four clades among six species of rosy-finches. Three clades corresponded to three Asian species. The fourth clade included all three Nearctic species. Their haplotypes were not reciprocally monophyletic and the combined genetic variability of all Nearctic taxa was lower than in two of their Asian congeners. A Z-specific intron (ACO1I9) and an autosomal coding locus (MC1R) provided little additional phylogenetic information, most likely because of the longer coalescence times relative to ND2. Phylogeographic analyses of ND2 data revealed significant gene flow among neighboring localities regardless of their taxonomic assignment. Our analyses showed that DNA and phenotypic data are not in conflict, but rather complement each other, and together help clarify species limits. Our data are consistent with a single species in North America, not three.

Published

2009

48. Nucleotide variation, linkage disequilibrium and founder-facilitated speciation in wild populations of the zebra finch (Taeniopygia guttata).

Author

Balakrishnan CN and Edwards SV

Subjects

Animals, Animals, Wild anatomy & histology, Animals, Wild classification, Animals, Wild genetics, Australia, DNA genetics, Evolution, Molecular, Female, Finches anatomy & histology, Finches classification, Founder Effect, Genetic Speciation, Genetic Variation, Genetics, Population, Indonesia, Linkage Disequilibrium, Male, Mutation, Polymorphism, Genetic, Time Factors, Finches genetics

Abstract

The zebra finch has long been an important model system for the study of vocal learning, vocal production, and behavior. With the imminent sequencing of its genome, the zebra finch is now poised to become a model system for population genetics. Using a panel of 30 noncoding loci, we characterized patterns of polymorphism and divergence among wild zebra finch populations. Continental Australian populations displayed little population structure, exceptionally high levels of nucleotide diversity (pi = 0.010), a rapid decay of linkage disequilibrium (LD), and a high population recombination rate (rho approximately 0.05), all of which suggest an open and fluid genomic background that could facilitate adaptive variation. By contrast, substantial divergence between the Australian and Lesser Sunda Island populations (K(ST) = 0.193), reduced genetic diversity (pi = 0.002), and higher levels of LD in the island population suggest a strong but relatively recent founder event, which may have contributed to speciation between these populations as envisioned under founder-effect speciation models. Consistent with this hypothesis, we find that under a simple quantitative genetic model both drift and selection could have contributed to the observed divergence in six quantitative traits. In both Australian and Lesser Sundas populations, diversity in Z-linked loci was significantly lower than in autosomal loci. Our analysis provides a quantitative framework for studying the role of selection and drift in shaping patterns of molecular evolution in the zebra finch genome.

Published

2009

49. Stable hydrogen isotope analysis as a method to identify illegally trapped songbirds.

Author

Kelly A, Thompson R, and Newton J

Subjects

Animal Migration, Animals, Crime, Mass Spectrometry methods, Societies legislation & jurisprudence, Species Specificity, Animal Welfare legislation & jurisprudence, Deuterium analysis, Feathers chemistry, Finches classification

Abstract

We measured stable hydrogen isotope ratios in the primary feathers of two subspecies of goldfinches, confiscated by the Police and the Royal Society for the Prevention of Cruelty to Animals (RSPCA) on suspicion that they had been illegally taken from the wild. We found significant differences in the delta2H values of the two subspecies indicating that they were sourced from different geographical regions. Our results correlated with isotopic precipitation maps and with the known distribution of the two subspecies of goldfinch. We believe that this technique could be used by law enforcement agencies to determine the origin of birds in cases where the species or subspecies involved are geographically distinct.

Published

2008

50. Phylogeography of the Buarremon brush-finch complex (Aves, Emberizidae) in Mesoamerica.

Author

Navarro-Sigüenza AG, Townsend Peterson A, Nyari A, García-Deras GM, and García-Moreno J

Subjects

Animals, Base Sequence, DNA genetics, DNA isolation & purification, DNA Primers, Genetic Variation, Geography, Finches classification, Phylogeny

Abstract

The Buarremon brush-finches represent a complex suite of populations distributed in the montane New World Tropics from Mexico south to South America. Traditional taxonomic arrangements have separated populations of this genus into three species, based on plumage variation, although plumage patterns are well known to exhibit homoplasy. We present a first detailed phylogeographic and phylogenetic study, focused on Mesoamerican populations, and signal the existence of strong differentiation among populations with a clear geographic structure. We find well differentiated clades for (1) the Sierra Madre Oriental and Sierra Madre del Sur in Oaxaca, (2) western Mexican populations, including the B. brunneinucha populations in the Sierra Madre del Sur and B. virenticeps, (3) Sierra Madre Oriental and Sierra de los Tuxtlas, (4) northern Central America, (5) southern Central America, (6) middle Central America, and (7) South America. We demonstrate a lack of concordance with plumage patterns, and argue for several additional species to be recognized in the complex.

Published

2008