Your search keyword '"Robert G Moyle"' showing total 22 results

1. Ultraconserved elements support the elevation of a new avian family, Eurocephalidae, the white-crowned shrikes

Author

Jenna M McCullough, Jack P Hruska, Carl H Oliveros, Robert G Moyle, and Michael J Andersen

Subjects

Animal Science and Zoology, Ecology, Evolution, Behavior and Systematics

Abstract

In this study, we infer genus-level relationships within shrikes (Laniidae), crows (Corvidae), and their allies using ultraconserved elements (UCEs). We confirm previous results of the Crested Shrikejay (Platylophus galericulatus) as comprising its own taxonomic family and find strong support for its sister relationship to laniid shrikes. We also find strong support that the African-endemic genus Eurocephalus, which comprises two allopatric species (E. ruppelli and E. anguitimens), are not “true-shrikes”. We propose elevating the white-crowned shrikes to their own family, Eurocephalidae.

Published

2023

2. Wallacean and Melanesian Islands Promote Higher Rates of Diversification within the Global Passerine Radiation Corvides

Author

Jenna M, McCullough, Carl H, Oliveros, Brett W, Benz, Rosana, Zenil-Ferguson, Joel, Cracraft, Robert G, Moyle, and Michael J, Andersen

Subjects

Islands, Songbirds, Australia, Genetics, Animals, Water, Melanesia, Phylogeny, Ecology, Evolution, Behavior and Systematics

Abstract

The complex island archipelagoes of Wallacea and Melanesia have provided empirical data behind integral theories in evolutionary biology, including allopatric speciation and island biogeography. Yet, questions regarding the relative impact of the layered biogeographic barriers, such as deep-water trenches and isolated island systems, on faunal diversification remain underexplored. One such barrier is Wallace’s Line, a significant biogeographic boundary that largely separates Australian and Asian biodiversity. To assess the relative roles of biogeographic barriers—specifically isolated island systems and Wallace’s Line—we investigated the tempo and mode of diversification in a diverse avian radiation, Corvides (Crows and Jays, Birds-of-paradise, Vangas, and allies). We combined a genus-level data set of thousands of ultraconserved elements (UCEs) and a species-level, 12-gene Sanger sequence matrix to produce a well-resolved supermatrix tree that we leveraged to explore the group’s historical biogeography and the effects of the biogeographic barriers on their macroevolutionary dynamics. The tree is well resolved and differs substantially from what has been used extensively for past comparative analyses within this group. We confirmed that Corvides, and its major constituent clades, arose in Australia and that a burst of dispersals west across Wallace’s Line occurred after the uplift of Wallacea during the mid-Miocene. We found that dispersal across this biogeographic barrier was generally rare, though westward dispersals were two times more frequent than eastward dispersals. Wallacea’s central position between Sundaland and Sahul no doubt acted as a bridge for island-hopping dispersal out of Australia, across Wallace’s Line, to colonize the rest of Earth. In addition, we found that the complex island archipelagoes east of Wallace’s Line harbor the highest rates of net diversification and are a substantial source of colonists to continental systems on both sides of this biogeographic barrier. Our results support emerging evidence that island systems, particularly the geologically complex archipelagoes of the Indo-pacific, are drivers of species diversification. [Historical biogeography; island biogeography; Melanesia; molecular phylogenetics; state-dependent diversification and extinction.]

Published

2022

3. Ultraconserved elements resolve the phylogeny and corroborate patterns of molecular rate variation in herons (Aves: Ardeidae)

Author

Jack P Hruska, Jesse Holmes, Carl Oliveros, Subir Shakya, Philip Lavretsky, Kevin G McCracken, Frederick H Sheldon, and Robert G Moyle

Subjects

Animal Science and Zoology, Ecology, Evolution, Behavior and Systematics

Abstract

Thoroughly sampled and well-supported phylogenetic trees are essential to taxonomy and to guide studies of evolution and ecology. Despite extensive prior inquiry, a comprehensive tree of heron relationships (Aves: Ardeidae) has not yet been published. As a result, the classification of this family remains unstable, and their evolutionary history remains poorly studied. Here, we sample genome-wide ultraconserved elements (UCEs) and mitochondrial DNA sequences (mtDNA) of >90% of extant species to estimate heron phylogeny using a combination of maximum likelihood, coalescent, and Bayesian inference methods. The UCE and mtDNA trees are mostly concordant with one another, providing a topology that resolves relationships among the 5 heron subfamilies and indicates that the genera Gorsachius, Botaurus, Ardea, and Ixobrychus are not monophyletic. We also present the first genetic data from the Forest Bittern Zonerodius heliosylus, an enigmatic species of New Guinea; our results suggest that it is a member of the genus Ardeola and not the Tigrisomatinae (tiger herons), as previously thought. Finally, we compare molecular rates between heron clades in the UCE tree with those in previously constructed mtDNA and DNA–DNA hybridization trees. We show that rate variation in the UCE tree corroborates rate patterns in the previously constructed trees—that bitterns (Ixobrychus and Botaurus) evolved comparatively faster, and some tiger herons (Tigrisoma) and the Boat-billed Heron (Cochlearius) more slowly, than other heron taxa.

Published

2023

4. Genomic and geographic diversification of a 'great-speciator' (Rhipidura rufifrons)

Author

Lukas B Klicka, Luke C Campillo, Joseph D Manthey, Michael J Andersen, John P Dumbacher, Christopher E Filardi, Leo Joseph, J Albert C Uy, Douglas E Weidemann, and Robert G Moyle

Subjects

Animal Science and Zoology, Ecology, Evolution, Behavior and Systematics

Abstract

The radiation of so-called “great speciators” represents a paradox among the myriad of avian radiations endemic to the southwest Pacific. In such radiations, lineages otherwise capable of dispersing across vast distances of open ocean differentiate rapidly and frequently across relatively short geographic barriers. Here, we evaluate the phylogeography of the Rufous Fantail (Rhipidura rufifrons). Although a presumed “great-speciator”, no formal investigations across its range have been performed. Moreover, delimitation of lineages within R. rufifrons, and the biogeographic implications of those relationships, remain unresolved. To investigate whether R. rufifrons represents a great speciator we identified thousands of single nucleotide polymorphisms for 89 individuals, representing 19 described taxa. Analyses recovered 7 divergent lineages and evidence of gene flow between geographically isolated populations. We also found plumage differences to be a poor proxy for evolutionary relationships. Given the relatively recent divergence dates for the clade (1.35–2.31 mya), rapid phenotypic differentiation, and evidence for multiple independent lineages within the species complex, we determine that R. rufifrons possesses the characteristics of a great speciator.

Published

2022

5. Genomic differentiation in an endemic Philippine genus (Aves: Sarcophanops) owing to geographical isolation on recently disassociated islands

Author

Luke C. Campillo, Robert C. Thomson, Peter A. Hosner, Joseph D. Manthey, and Robert G. Moyle

Subjects

0106 biological sciences, 0301 basic medicine, Mitochondrial DNA, Allopatric speciation, Last Glacial Maximum, Biology, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Gene flow, 03 medical and health sciences, 030104 developmental biology, Genus, Evolutionary biology, Genetic structure, Genetic variation, Sarcophanops steerii, Ecology, Evolution, Behavior and Systematics

Abstract

Phylogeographical studies of Philippine vertebrates have demonstrated that genetic variation is broadly partitioned by Pleistocene island aggregation. Contemporary island discontinuity is expected to influence genetic differentiation but remains relatively undocumented, perhaps because the current episode of island isolation started in relatively recent times. We investigated inter- and intra-island population structure in a Philippine endemic bird genus (Sarcophanops) to determine whether genetic differentiation has evolved during the recent period of isolation. We sequenced thousands of genome-wide restriction site associated DNA (RAD) markers from throughout the Mindanao group to assess fine-scale genetic structure across islands. Specifically, we investigated patterns of gene flow and connectivity within and between taxonomic and geographical bounds. A previous assessment of mitochondrial DNA detected deep structure between Sarcophanops samarensis and a sister species, Sarcophanops steerii, but was insufficient to detect differentiation within either species. Analysis of RAD markers, however, revealed structure within S. samarensis between the islands of Samar/Leyte and Bohol. This genetic differentiation probably demonstrates an effect of recent geographical isolation (after the Last Glacial Maximum) on the genetic structure of Philippine avifauna. We suggest that the general lack of evidence for differentiation between recently isolated populations is a failure to detect subtle population structure owing to past genetic sampling constraints, rather than the absence of such structure.

Published

2020

6. Multiple and Independent Phases of Transposable Element Amplification in the Genomes of Piciformes (Woodpeckers and Allies)

Author

Robert G. Moyle, Stéphane Boissinot, and Joseph D. Manthey

Subjects

0301 basic medicine, diversification, Retroelements, woodpeckers, Retrotransposon, Genomics, Woodpecker, Genome, Birds, Evolution, Molecular, 03 medical and health sciences, Genome Size, Phylogenetics, Genetics, Animals, Clade, CR1, Genome size, Phylogeny, Ecology, Evolution, Behavior and Systematics, Polymorphism, Genetic, biology, biology.organism_classification, 030104 developmental biology, Evolutionary biology, DNA Transposable Elements, transposable elements, Piciformes, Research Article

Abstract

The small and conserved genomes of birds are likely a result of flight-related metabolic constraints. Recombination-driven deletions and minimal transposable element (TE) expansions have led to continually shrinking genomes during evolution of many lineages of volant birds. Despite constraints of genome size in birds, we identified multiple waves of amplification of TEs in Piciformes (woodpeckers, honeyguides, toucans, and barbets). Relative to other bird species’ genomic TE abundance (

Published

2018

7. Extensive paraphyly in the typical owl family (Strigidae)

Author

Joseph D. Manthey, Peter A. Hosner, Mark B. Robbins, Robert G. Moyle, Carl H. Oliveros, Brant C. Faircloth, Jessie F. Salter, and Robb T. Brumfield

Subjects

0106 biological sciences, Paraphyly, PHYLOGENY, AVES-STRIGIDAE, SOFTWARE, SYSTEMATICS, 010603 evolutionary biology, 01 natural sciences, GENE TREE, MITOCHONDRIAL, Coalescent theory, taxonomy, 03 medical and health sciences, Phylogenomics, Polyphyly, Taxonomic rank, UCEs, insular distributions, Ninox, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, 0303 health sciences, morphological convergence, biology, Phylogenetic tree, phylogenomics, biology.organism_classification, EVOLUTION, Evolutionary biology, ASYMMETRY, STRIGIFORMES, INFERENCE, Animal Science and Zoology, Taxonomy (biology), owls

Abstract

The typical owl family (Strigidae) comprises 194 species in 28 genera, 14 of which are monotypic. Relationships within and among genera in the typical owls have been challenging to discern because mitochondrial data have produced equivocal results and because many monotypic genera have been omitted from previous molecular analyses. Here, we collected and analyzed DNA sequences of ultraconserved elements (UCEs) from 43 species of typical owls to produce concatenated and multispecies coalescent-based phylogenetic hypotheses for all but one genus in the typical owl family. Our results reveal extensive paraphyly of taxonomic groups across phylogenies inferred using different analytical approaches and suggest the genera Athene, Otus, Asio, Megascops, Bubo, and Strix are paraphyletic, whereas Ninox and Glaucidium are polyphyletic. Secondary analyses of protein-coding mitochondrial genes harvested from off-target sequencing reads and mitochondrial genomes downloaded from GenBank generally support the extent of paraphyly we observe, although some disagreements exist at higher taxonomic levels between our nuclear and mitochondrial phylogenetic hypotheses. Overall, our results demonstrate the importance of taxon sampling for understanding and describing evolutionary relationships in this group, as well as the need for additional sampling, study, and taxonomic revision of typical owl species. Additionally, our findings highlight how both divergence and convergence in morphological characters have obscured our understanding of the evolutionary history of typical owls, particularly those with insular distributions.

Published

2019

8. Biotic interactions are the dominant drivers of phylogenetic and functional structure in bird communities along a tropical elevational gradient

Author

Robert G. Moyle, Thomas E. Martin, Frederick H. Sheldon, Andy J. Boyce, and Subir B. Shakya

Subjects

0106 biological sciences, Abiotic component, 0303 health sciences, Biotic component, Community, Ecology, media_common.quotation_subject, Community structure, Biodiversity, Interspecific competition, Biology, 010603 evolutionary biology, 01 natural sciences, Competition (biology), 03 medical and health sciences, Habitat, Animal Science and Zoology, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, media_common

Abstract

Understanding how biotic and abiotic interactions influence community assembly and composition is a fundamental goal in community ecology. Addressing this issue is particularly tractable along elevational gradients in tropical mountains that feature substantial abiotic gradients and rates of species turnover. We examined elevational patterns of avian community structure on 2 mountains in Malaysian Borneo to assess changes in the relative strength of biotic interactions and abiotic constraints. In particular, we used metrics based on (1) phylogenetic relatedness and (2) functional traits associated with both resource acquisition and tolerance of abiotic challenges to identify patterns and causes of elevational differences in community structure. High elevation communities were composed of more phylogenetically and functionally similar species than would be expected by chance. Resource acquisition traits, in particular, were clustered at high elevations, suggesting low resource and habitat diversity were important drivers of those communities. Traits typically associated with tolerance of cold temperatures and low atmospheric pressure showed no elevational patterns. All traits were neutral or overdispersed at low elevations suggesting an absence of strong abiotic filters or an increased influence of interspecific competition. However, relative bill size, which is important for thermoregulation, was larger in low elevation communities, suggesting abiotic factors were also influential there. Regardless of metric, clustered and neutral communities were more frequent than overdispersed communities overall, implying that interspecific competition among close relatives may not be a pervasive driver of elevational distribution and community structure of tropical birds. Overall, our analyses reveal that a diverse set of predominantly biotic factors underlie elevational variation in community structure on tropical mountains.

Published

2019

9. Biodiversity genomics of North American Dryobates woodpeckers reveals little gene flow across the D. nuttallii x D. scalaris contact zone

Author

Robert G. Moyle, Joseph D. Manthey, and Stéphane Boissinot

Subjects

0106 biological sciences, 0303 health sciences, biology, Range (biology), Biodiversity, Introgression, Woodpecker, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Gene flow, 03 medical and health sciences, Hybrid zone, Picoides, Effective population size, Evolutionary biology, Animal Science and Zoology, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology

Abstract

Evolutionary biologists have long used behavioral, ecological, and genetic data from contact zones between closely related species to study various phases of the speciation continuum. North America has several concentrations of avian contact zones, where multiple pairs of sister lineages meet, with or without hybridization. In a southern California contact zone, 2 species of woodpeckers, Nuttall’s Woodpecker (Dryobates nuttallii) and the Ladder-backed Woodpecker (D. scalaris), occasionally hybridize. We sampled these 2 species in a transect across this contact zone and included samples of their closest relative, the Downy Woodpecker (D. pubescens), to obtain large single nucleotide polymorphism panels using restriction-site associated DNA sequencing (RAD-seq). Furthermore, we used whole-genome resequencing data for 2 individuals per species to identify whether patterns of diversity inferred from RAD-seq were representative of whole-genome diversity. We found that these 3 woodpecker species are genomically distinct. Although low levels of gene flow occur between D. nuttallii and D. scalaris across the contact zone, there was no evidence for widespread genomic introgression between these 2 species. Overall patterns of genomic diversity from the RAD-seq and wholegenome datasets appear to be related to distributional range size and, by extension, are likely related to effective population sizes for each species.

Published

2019

10. Rethinking phylogeographic structure and historical refugia in the rufous-capped babbler Cyanoderma ruficeps in light of range-wide genetic sampling and paleodistributional reconstructions

Author

Robert G. Moyle, Peter A. Hosner, Huatao Liu, and A. Townsend Peterson

Subjects

Ecological niche, Phylogeography, education.field_of_study, Ecology, Range (biology), Population, Climate change, Animal Science and Zoology, Last Glacial Maximum, Biology, Disjunct, education, Environmental niche modelling

Abstract

Combining ecological niche modeling with phylogeography has become a popular approach to understand how historical climate changes have created and maintained population structure. However, methodological choices in geographic extents and environmental layer sets employed in modeling may affect results and interpretations profoundly. Here, we infer range-wide phylogeographic structure and model ecological niches of Cyanoderma ruficeps, and compare results to previous studies that examined this species across mainland China and Taiwan only. Use of dense taxon sampling of closely related species as outgroups question C. ruficeps monophyly. Furthermore, previously unsampled C. ruficeps populations from central Vietnam were closely related to disjunct western populations (Nepal, Tibet, Myanmar, Yunnan), rather than to geographically proximate populations in northern Vietnam and eastern China. Phylogeographic structure is more complex than previously appreciated; niche model projections to Last Glacial Maximum climate scenarios identified larger areas of suitable conditions than previous studies, but potential distributional limits differed markedly between climate models employed and were dependent upon interpretation of non-analogous historical climate scenarios. Previously identified population expansion across central China may result from colonization from refugial distributions during the Last Interglacial, rather than the Last Glacial Maximum, as previously understood.

Published

2015

11. Divergence history of the Rufous-tailed Tailorbird (Orthotomus sericeus) of Sundaland: Implications for the biogeography of Palawan and the taxonomy of island species in general

Author

Haw Chuan Lim, Vivien L. Chua, Mustafa Abdul Rahman, Carl H. Oliveros, Robert G. Moyle, Phred M. Benham, and Frederick H. Sheldon

Subjects

Genetic divergence, Phylogeography, biology, Ecology, Biogeography, Orthotomus sericeus, Animal Science and Zoology, Taxonomy (biology), Subspecies, Tailorbird, biology.organism_classification, Ecology, Evolution, Behavior and Systematics, Coalescent theory

Abstract

The Rufous-tailed Tailorbird (Orthotomus sericeus)—a Sunda endemic—is divided into 3 morphologically based subspecies: one in western Sundaland (Malay Peninsula, Sumatra, and associated islands), one from the Natuna Islands in the South China Sea, and one on Borneo, Palawan, and smaller islands of the Sunda continental shelf east of Borneo. Previous study, however, suggested that these subspecies do not conform to molecular genetic subdivisions of the species. We reexamined the morphology and performed molecular phylogeographic and multi-locus coalescent analysis of two subspecies of Rufous-tailed Tailorbird comprising populations on the Malay Peninsula, Sumatra, Borneo, and Palawan. We found (1) little morphological difference among the two subspecies, (2) no substantial genetic differences between the Borneo and western Sunda populations, but (3) marked genetic divergence between the Palawan and other populations. We conclude that the Bornean and western Sunda populations interbred extensively ...

Published

2014

12. Avian evolution and speciation in the Southeast Asian tropics

Author

A. Townsend Peterson, Luke B. Klicka, Peter A. Hosner, Frederick H. Shledon, Fumin Lei, Fasheng Zou, Luke C. Campillo, Haw Chuan Lim, Árpád S. Nyári, Sushma Reddy, Robert G. Moyle, and Yanhua Qu

Subjects

Geography, Evolutionary biology, Ecology, Genetic algorithm, Tropics, Animal Science and Zoology, Southeast asian

Published

2015

13. Patterns of avian diversification in Borneo: The case of the endemic Mountain Black-eye (Chlorocharis emiliae)

Author

Dency F. Gawin, Mohamad Fizl Sidq Ramji, Brian Tilston Smith, Robert G. Moyle, Frederick H. Sheldon, Haw Chuan Lim, and Mustafa Abdul Rahman

Subjects

education.field_of_study, Ecology, Range (biology), Population, Last Glacial Maximum, Reproductive isolation, Diversification (marketing strategy), Biology, Phylogeography, parasitic diseases, Animal Science and Zoology, Clade, education, Ecology, Evolution, Behavior and Systematics, Hybrid

Abstract

The Mountain Black-eye (Chlorocharis emiliae) is an endemic white-eye (Zosteropidae) of Borneo with a unique ‘‘sky island’’ distribution. We compared mitochondrial ND2, ND3, Cytb, and control region DNA sequences (2,194 nucleotides) to study the phylogeographic relationships of five populations of this species that span its range: Mounts Kinabalu, Trus Madi, Murud, Mulu, and Pueh. These comparisons showed that black-eyes are divided into two main clades that correspond generally to subspecific morphological groups: one in Sabah, Malaysia (Kinabalu and Trus Madi), and one in Sarawak, Malaysia (Murud, Mulu, and Pueh). The genetic and morphologic subdivision of black-eyes disputes the expected merging of populations during the Last Glacial Maximum (LGM), when montane forest presumably expanded and provided the opportunity for currently isolated populations to intermingle. Instead the genetic aging of black-eye populations indicates they diversified long before the LGM, and either did not expand sufficiently in range during the LGM to reach one another, or were reproductively isolated by the time of the LGM and thus prevented from interbreeding. Moreover, the subdivision between black-eyes in Sabah and Sarawak means that this species (and probably several other montane species) has a phylogeographic structure remarkably similar to Borneo’s lowland bird populations, which are presumed to have evolved under different paleo-geographic conditions. The similar phylogeographic pattern found in both montane and lowland species requires that we rethink the causes of bird population diversification on the island of Borneo.

Published

2014

14. Molecular systematics of the world's most polytypic bird: thePachycephala pectoralis/melanura(Aves: Pachycephalidae) species complex

Author

Christopher E. Filardi, Ian J Mason, Michael J. Andersen, John P. Dumbacher, Leo Joseph, Árpád S. Nyári, and Robert G. Moyle

Subjects

Species complex, Pachycephala jacquinoti, biology, Pachycephalidae, Zoology, Animal Science and Zoology, Subspecies, Pachycephala citreogaster, biology.organism_classification, Clade, Pachycephala, Ecology, Evolution, Behavior and Systematics, Coalescent theory

Abstract

With more than 70 described subspecies distributed from Java to Fiji, the Golden Whistler species complex (Aves: Pachycephala pectoralis/melanura) is the world's most geographically variable bird species. We sequenced ten genes totalling 5743 bp from 202 individuals and 32 nominal subspecies, mostly from the Australasian and Polynesian lineages. We used concatenated maximum likelihood and Bayesian inference, as well as coalescent species tree analysis, to reconstruct a phylogeny. The resulting phylogeny is the most densely sampled and robust estimate of this group's evolutionary history to date and many novel relationships are revealed. The ingroup comprised three well-supported clades. An Australasian clade inclusive of Vanuatu was sister to a clade including the Bismarck Archipelago, the Solomon Islands, and the Polynesian taxa minus Vanuatu, and sister to these two clades was Pachycephala citreogaster collaris of the Louisiade Archipelago. Some species-level taxa endemic to the Pacific were found to be embedded in the ingroup (e.g. Pachycephala feminina, Pachycephala flavifrons, and Pachycephala jacquinoti), whereas others were found to be outside of the species complex (e.g. Pachycephala implicata). Generally, most nodes in the tree had strong support with the exception of several Polynesian lineages whose relationships remain equivocal. Relationships within each clade are discussed in detail, and current taxonomic treatments are critiqued in light of our results. © 2013 The Linnean Society of London

Published

2013

15. Phylogeography of theRobsoniusGround-Warblers (Passeriformes: Locustellidae) Reveals an Undescribed Species from Northeastern Luzon, Philippines

Author

Phillip A. Alviola, Luis A. Sánchez-González, Rolly C. Urriza, Peter A. Hosner, Nikki Boggess, Robert G. Moyle, and Carl H. Oliveros

Subjects

education.field_of_study, geography, geography.geographical_feature_category, biology, Ecology, Population, Holotype, Locustellidae, biology.organism_classification, Phylogeography, Specimen collection, Archipelago, Animal Science and Zoology, Napothera, education, Endemism, Ecology, Evolution, Behavior and Systematics

Abstract

The Robsonius ground-warblers are forest birds endemic to the Luzon Island complex in the Philippine archipelago. Their systematic relationships have long remained ambiguous; until recently they were included in the timaliid genus Napothera. Two Robsonius species are currently recognized on the basis of plumage differences: R. rabori from northern Luzon in the Cordillera Central and the northern Sierra Madre, and R. sorsogonensis from southern Luzon and Catanduanes Island. Recent specimen collections, including the first adult specimen from the Cordillera Central, establish plumage differences between populations of R. rabori in the Cordillera Central and Sierra Madre and reveal a third diagnosable population within Luzon. These differences have gone unnoticed because R. rabori (sensu stricto) had been known only from the juvenile holotype. Molecular phylogenetic data further support the hypothesis that three highly divergent taxa occur across the Luzon Island complex: Robsonius rabori is known ...

Published

2013

16. Phylogeography of the Variable Dwarf-KingfisherCeyx Lepidus(Aves: Alcedinidae) inferred from mitochondrial and nuclear DNA sequences

Author

Robert G. Moyle, Carl H. Oliveros, Christopher E. Filardi, and Michael J. Andersen

Subjects

Ceyx lepidus, Species complex, Mitochondrial DNA, biology, Ecology, Subspecies, biology.organism_classification, Monophyly, Phylogeography, Evolutionary biology, Animal Science and Zoology, Kingfisher, Clade, Ecology, Evolution, Behavior and Systematics

Abstract

We reconstructed the phylogeographic relationships of the Variable Dwarf-Kingfisher (Ceyx lepidus) using DNA sequence data. Maximum likelihood and Bayesian analysis methods were used to reconstruct trees from a multilocus data set of all 15 named subspecies of the Ceyx lepidus species complex. The concatenated data-set length was 2,471 base pairs and included two mitochondrial genes and two noncoding nuclear introns. Support for the monophyly of C. lepidus was equivocal. We instead found support for a clade including all C. lepidus subspecies plus two endemic Philippine taxa: C. argentatus and C. cyanopectus. Relationships among subspecific taxa were not well resolved, and many nodes were collapsed into polytomies suggesting a rapid and widespread colonization. In situ diversification likely played a role in generating current diversity within four archipelagos: the Philippines, Malukus, Bismarcks, and Solomons. Some biogeographic patterns recovered for the Solomon Islands taxa match those seen ...

Published

2013

17. A molecular phylogeny of black-tyrants (Tyrannidae:Knipolegus) reveals strong geographic patterns and homoplasy in plumage and display behavior

Author

Peter A. Hosner and Robert G. Moyle

Subjects

Phylogenetic tree, Sympatric speciation, Evolutionary biology, Plumage, Knipolegus, Biogeography, Molecular phylogenetics, Animal Science and Zoology, Biology, Parapatric speciation, Clade, biology.organism_classification, Ecology, Evolution, Behavior and Systematics

Abstract

We present the first molecular phylogenetic hypothesis for Knipolegus (black-tyrants), a widespread genus of South American tyrant-flycatchers, based on nuclear and mitochondrial DNA sequences. Bayesian and maximum-likelihood analyses support three clades within Knipolegus, one confined to northern South America, one confined to southeast Brazil, and one confined to the Southern Cone and southern Andes. Within each clade, two or more species are broadly sympatric or parapatric, overlapping in general distribution but differing in habitat specialization. Maximum-likelihood ancestral state reconstructions using an equal-rate stochastic model support a single origin of austral migration in the southern group. Contrasting with these strong geographic patterns, ancestral state reconstructions of plumage and display evolution were more complex, with multiple inferred character-state changes. Ancestral state reconstructions suggest a sexually dimorphic ancestor of Knipolegus, and sexually similar pluma...

Published

2012

18. Diversification of an endemic Southeast Asian genus: Phylogenetic relationships of the spiderhunters (Nectariniidae:Arachnothera)

Author

Robert G. Moyle, Sabrina S. Taylor, Haw Chuan Lim, Carl H. Oliveros, Mustafa Abdul Rahman, Cheryl L. Haines, and Frederick H. Sheldon

Subjects

Phylogenetic tree, biology, Sympatric speciation, Genus, Allopatric speciation, Arachnothera longirostra, Zoology, Biological dispersal, Animal Science and Zoology, Spiderhunter, biology.organism_classification, Southeast asian, Ecology, Evolution, Behavior and Systematics

Abstract

The phylogeny of spiderhunters (Nectariniidae: Arachnothera) was reconstructed by comparing mitochondrial and nuclear DNA sequences of all currently recognized species and with broad geographic sampling of two particularly variable species complexes, the Little Spiderhunter (Arachnothera longirostra) and the streaky spiderhunters (A. modesta and A. affinis). It appears to be a relatively old group, whose diversification was not caused by recent sea-level changes. However, the modern, highly sympatric distribution of the large species in the Sunda lowlands was probably a result of dispersal via recent land bridges. Within the highly variable A. longirostra group, there are substantially diverged taxa in the Philippines that should be considered different species. Within the A. affinis—modesta complex, there are three distinct species and a closely related fourth, which describe a clear allopatric distribution: A. affinis in Java, A. modesta in the rest of the Sunda lowlands (except Sabah), A. mag...

Published

2011

19. Systematics of the scimitar babblers (Pomatorhinus: Timaliidae): phylogeny, biogeography, and species-limits of four species complexes

Author

Robert G. Moyle and Sushma Reddy

Subjects

Pomatorhinus horsfieldii, Pomatorhinus ochraceiceps, biology, Pomatorhinus erythrogenys, Pomatorhinus schisticeps, Pomatorhinus ferruginosus, Zoology, Pomatorhinus ruficollis, biology.organism_classification, Ecology, Evolution, Behavior and Systematics, Pomatorhinus, Pomatorhinus montanus

Abstract

Monophyly of the scimitar babblers (Pomatorhinus, Xiphirhynchus: Timaliidae), traditionally defined by the characteristic of having long, curved bills, has been questioned by recent molecular phylogenetic results. We examined representatives of all scimitar babbler species complexes, including all distinct lineages of four complexes as well as several potential relatives, and corroborate that Xiphirhynchus and some species of Stachyris group within Pomatorhinus. Pomatorhinus species comprise three separate clades: larger scimitar babblers (Pomatorhinus hypoleucos, Pomatorhinus erythrogenys complexes); orange- and coral-billed scimitar babblers (Pomatorhinus ochraceiceps, Pomatorhinus ferruginosus complexes); and small scimitar babblers (Pomatorhinus schisticeps, Pomatorhinus ruficollis, Pomatorhinus horsfieldii, Pomatorhinus montanus complexes). Additionally, at least two of the traditional species complexes are not monophyletic. Lineages of the ruficollis and schisticeps groups are intertwined, and P. montanus and P. horsfieldi group within the schisticeps complex. Upon revision of four traditional species complexes, P. hypoluecos, P. ferruginosus, P. schisticeps, and P. ruficollis (with 41 subspecies described in total), 27 distinct, independent lineages or phylogenetic species were distinguished. Two contrasting biogeographical patterns are evident in these groups: Sino-Himalayan areas are either sister to south-east Asian areas or are embedded within a clade of other Asian areas. The present study demonstrates the need for unraveling the confusion in traditional taxonomy to allow the study of complex biodiversity patterns in tropical Asia. © 2011 The Linnean Society of London, Biological Journal of the Linnean Society, 2011, 102, 846–869.

Published

2011

20. A Molecular Phylogeny of Kingfishers (Alcedinidae) With Insights Into Early Biogeographic History

Author

Robert G. Moyle

Subjects

Animal Science and Zoology, Ecology, Evolution, Behavior and Systematics

Abstract

The phylogeny of kingfishers was reconstructed by comparing mitochondrial and nuclear DNA sequences representing 38 ingroup species. Analysis of the combined data and the nuclear data alone recovered the Alcedininae as the basal lineage in the family. This basal arrangement, and support for many relationships within the three subfamilies, allows discussion of biogeographic issues. The Australian region and Pacific islands display the highest diversity of kingfishers, but this diversity is not a reflection of a long history in the region. Rather, high diversity and endemism in the Australian region is inferred to result from relatively recent radiations from southern Asia. The most parsimonious explanation for the origin of New World taxa is two dispersal events from the Old World. Within the large Halcyon radiation, the phylogeny is well resolved and allows evaluation of generic assignments. The phylogeny supports splitting Todiramphus from Halcyon. Todiramphus and Syma are sister taxa, as are Halcyon and Pelargopsis. Thus, merging or retaining those genera is a more subjective decision. Although not fully resolved, relationships within the alcedinines indicate that Ceyx and Alcedo, as currently delimited, are not natural groups.Phylogénie Moléculaire des Alcedinidae avec un Aperçu de l'Histoire Biogéographique Ancienne

Published

2006

21. Phylogeny and biogeographical history of Trogoniformes, a pantropical bird order

Author

Robert G. Moyle

Subjects

biology, Phylogenetics, Trogon, Vicariance, Pharomachrus, Pantropical, Zoology, Disjunct, Molecular clock, biology.organism_classification, Ecology, Evolution, Behavior and Systematics, Priotelus

Abstract

With highly conserved morphology throughout the family, a tropical distribution, and no close living relatives, the trogons (Aves: Trogonidae) pose a difficult problem for systematists. Disjunct tropical distributions are often attributed to Gondwanan vicariance, but the fossil record for trogons is mostly from the Tertiary of Europe. This study examined support for the basal relationships among trogons using a combination of nuclear (RAG-1) and mitochondrial (ND2) DNA sequence data. Although some nodes could not be resolved with significant support, there is strong support for the basal position of three New World genera (Pharomachrus, Euptilotis, and Priotelus). This phylogenetic hypothesis differs markedly from previous studies of trogon relationships and taxonomic treatments. Biogeographically, it implies an origin and early vicariance events for the crown clade in the New World. Molecular divergence estimates place all of the basal nodes of the trogon phylogeny in the Oligocene, precluding a Gondwanan origin for modern trogons. © 2005 The Linnean Society of London, Biological Journal of the Linnean Society, 2005, 84, 725–738.

Published

2005

22. Flight without Horizon References in European Starlings

Author

Frank Heppner and Robert G. Moyle

Subjects

Sparrow, biology, Zoology, Junco hyemalis, biology.organism_classification, Geography, Overcast, Sturnus, biology.animal, Herring gull, Animal Science and Zoology, Melospiza, Larus, Junco, Ecology, Evolution, Behavior and Systematics

Abstract

Many birds fly at night, or in conditions in which a horizon reference is obscured or missing (Berthold 1993). Nonmigratory species such as European Starlings (Sturnus vulgaris) will fly near their roosts in large flocks long after the sun has set (Eastwood 1967). Nocturnal migration and flocking after dusk occur under a variety of meteorological conditions, including fog and heavy cloud cover (Evans 1972, Elkins 1983). These behaviors suggest that for some bird species, visual references are not always necessary to maintain straight and level flight. Radar studies (Griffin 1972) suggest that some birds can maintain straight and level flight under completely overcast conditions, but birds flying within clouds may produce erratic tracks, suggesting disorientation in the absence of visual cues. Able (1982) used a tracking radar to examine the behavior of nocturnal migrants under overcast conditions and concluded that overcast skies did not result in changes in flight behavior. However, he acknowledged that some degree of disorientation occurred when birds seemed to be flying within or between cloud layers. Williams and Teal (1973) blindfolded individuals of six species of birds (Song Sparrow [Melospiza melodia], White-throated Sparrow [Zonotrichia albicollis], Dark-eyed Junco [Junco hyemalis], House Sparrow [Passer domesticus], Rock Dove [Columba livia], and Herring Gull [Larus argentatus]) to observe their flight in the absence of visual cues. One out of every six birds tested tried to fly upside down and crashed, and one-third of the birds dropped immediately to the ground, often using fluttering flight. Only Her

Published

1998