Your search keyword '"Bowie RC"' showing total 61 results

1. Peer Review #1 of "Population diversity and relatedness in Sugarbirds (Promeropidae: Promerops spp.) (v0.1)"

Author

Bowie, RC, additional

Published

2018

2. Specimen collection is essential for modern science.

Author

Nachman MW, Beckman EJ, Bowie RC, Cicero C, Conroy CJ, Dudley R, Hayes TB, Koo MS, Lacey EA, Martin CH, McGuire JA, Patton JL, Spencer CL, Tarvin RD, Wake MH, Wang IJ, Achmadi A, Álvarez-Castañeda ST, Andersen MJ, Arroyave J, Austin CC, Barker FK, Barrow LN, Barrowclough GF, Bates J, Bauer AM, Bell KC, Bell RC, Bronson AW, Brown RM, Burbrink FT, Burns KJ, Cadena CD, Cannatella DC, Castoe TA, Chakrabarty P, Colella JP, Cook JA, Cracraft JL, Davis DR, Davis Rabosky AR, D'Elía G, Dumbacher JP, Dunnum JL, Edwards SV, Esselstyn JA, Faivovich J, Fjeldså J, Flores-Villela OA, Ford K, Fuchs J, Fujita MK, Good JM, Greenbaum E, Greene HW, Hackett S, Hamidy A, Hanken J, Haryoko T, Hawkins MT, Heaney LR, Hillis DM, Hollingsworth BD, Hornsby AD, Hosner PA, Irham M, Jansa S, Jiménez RA, Joseph L, Kirchman JJ, LaDuc TJ, Leaché AD, Lessa EP, López-Fernández H, Mason NA, McCormack JE, McMahan CD, Moyle RG, Ojeda RA, Olson LE, Kin Onn C, Parenti LR, Parra-Olea G, Patterson BD, Pauly GB, Pavan SE, Peterson AT, Poe S, Rabosky DL, Raxworthy CJ, Reddy S, Rico-Guevara A, Riyanto A, Rocha LA, Ron SR, Rovito SM, Rowe KC, Rowley J, Ruane S, Salazar-Valenzuela D, Shultz AJ, Sidlauskas B, Sikes DS, Simmons NB, Stiassny MLJ, Streicher JW, Stuart BL, Summers AP, Tavera J, Teta P, Thompson CW, Timm RM, Torres-Carvajal O, Voelker G, Voss RS, Winker K, Witt C, Wommack EA, and Zink RM

Subjects

Animals, Natural History, Museums, Specimen Handling

Abstract

Natural history museums are vital repositories of specimens, samples and data that inform about the natural world; this Formal Comment revisits a Perspective that advocated for the adoption of compassionate collection practices, querying whether it will ever be possible to completely do away with whole animal specimen collection., Competing Interests: The authors have declared that no competing interests exist., (Copyright: This is an open access article, free of all copyright, and may be freely reproduced, distributed, transmitted, modified, built upon, or otherwise used by anyone for any lawful purpose. The work is made available under the Creative Commons CC0 public domain dedication.)

Published

2023

3. Phylogenomics of white-eyes, a 'great speciator', reveals Indonesian archipelago as the center of lineage diversity.

Author

Gwee CY, Garg KM, Chattopadhyay B, Sadanandan KR, Prawiradilaga DM, Irestedt M, Lei F, Bloch LM, Lee JG, Irham M, Haryoko T, Soh MC, Peh KS, Rowe KM, Ferasyi TR, Wu S, Wogan GO, Bowie RC, and Rheindt FE

Subjects

Animals, Gene Flow genetics, Indonesia, Genetic Speciation, Phylogeny, Songbirds genetics

Abstract

Archipelagoes serve as important 'natural laboratories' which facilitate the study of island radiations and contribute to the understanding of evolutionary processes. The white-eye genus Zosterops is a classical example of a 'great speciator', comprising c. 100 species from across the Old World, most of them insular. We achieved an extensive geographic DNA sampling of Zosterops by using historical specimens and recently collected samples. Using over 700 genome-wide loci in conjunction with coalescent species tree methods and gene flow detection approaches, we untangled the reticulated evolutionary history of Zosterops , which comprises three main clades centered in Indo-Africa, Asia, and Australasia, respectively. Genetic introgression between species permeates the Zosterops phylogeny, regardless of how distantly related species are. Crucially, we identified the Indonesian archipelago, and specifically Borneo, as the major center of diversity and the only area where all three main clades overlap, attesting to the evolutionary importance of this region., Competing Interests: CG, KG, BC, KS, DP, MI, FL, LB, JL, MI, TH, MS, KP, KR, TF, SW, GW, RB, FR No competing interests declared, (© 2020, Gwee et al.)

Published

2020

4. Biogeography and diversification dynamics of the African woodpeckers.

Author

Fuchs J, Pons JM, and Bowie RC

Subjects

Africa, Animals, Cell Nucleus genetics, Genetic Loci, Mitochondria genetics, Models, Theoretical, Phylogeny, Species Specificity, Time Factors, Biodiversity, Birds classification, Phylogeography

Abstract

The dynamics of species accumulation of African terrestrial vertebrates over time remains underexplored in comparison with those in the New World, despite Africa hosting about 25% of the world's avian diversity. This lack of knowledge hampers our understanding of the fundamental processes that drive biodiversity and the dynamics of speciation. To begin to address this gap, we reconstructed species-level phylogenies of two unrelated clades of African woodpeckers (12 species of Geocolaptes/Campethera and 13 species of Chloropicus/Mesopicos/Dendropicos/Ipophilus) that diverged from their closest Indo-Malayan relatives at similar times. Our results demonstrate that the current taxonomy is misleading: three (Campethera, Dendropicos and Mesopicos) out of four polytpic genera/subgenera are not monophyletic. Our results also show that current estimates of diversity at the species level are significantly understated, as up to 18 species for the 'Campethera clade' and 19 for the 'Dendropicos clade' could be recognized. The first splits within both clades involve species that are largely restricted to the Guineo-Congolian biogeographic regions, followed by later adaptations to particular habitats (forest versus savannah) and colonization of other regions (e.g. Southern Africa), each of which occurred multiple times in both clades. Assuming a conservative species delimitation scheme, our results indicate that diversification rates are decreasing through time for both clades. Applying a more extreme species recognition scheme (18 and 19 species for the Campethera and Dendropicos clades, respectively), our results support a decrease in diversification rates only for the Dendropicos clade and thus underline the importance of the number of species included in our diversification analyses. Greater ecological diversity of the Campethera clade where multiple species exhibit either an arboreal or terrestrial foraging strategy might explain the constant diversification rates through time we found under the eighteen species scheme., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2017

5. A new member of the greater double-collared sunbird complex (Passeriformes: Nectariniidae) from the Eastern Arc Mountains of Africa.

Author

Bowie RC, Fjeldså J, Kiure J, and Kristensen JB

Subjects

Animals, DNA, Mitochondrial analysis, Microsatellite Repeats, Passeriformes genetics, Phylogeny, Sequence Analysis, DNA, Species Specificity, Tanzania, Passeriformes anatomy & histology, Passeriformes classification

Abstract

We document the discovery of the first population of greater double-collared sunbird (Cinnyris afer complex) from the Eastern Arc Mountains of Tanzania. We assessed phylogenetic relationships and taxonomic rank based on mtDNA sequence data, nine microsatellite loci and morphology. This new taxon, locally distributed in the Rubeho and Udzungwa Highlands, has close affinities (< 1% uncorrected sequence divergence) with C. whytei (split here from C. ludovicensis) of the Nyika Plateau in Malawi, but differs in having longer tarsi and in subtle plumage details. Although the birds from Nyika and Udzungwa-Rubeho are reciprocally monophyletic for mitochondrial DNA, coalescent analyses of the microsatellite data and the total molecular dataset could not reject the possibility of continued gene flow between the two populations. Thus, although we favour the phylogenetic species concept, we adopt a cautious approach and formally describe the Rubeho and Udzungwa greater double-collared sunbird population as a subspecies of Cinnyris whytei. This new sunbird taxon has been recorded only above 1700 m in scrub on the forest/grassland ecotone in a very restricted area in the Rubeho and Udzungwa Highlands of Tanzania. The effects of human settlement and agriculture threaten this taxon.

Published

2016

6. Social selection parapatry in Afrotropical sunbirds.

Author

McEntee JP, Peñalba JV, Werema C, Mulungu E, Mbilinyi M, Moyer D, Hansen L, Fjeldså J, and Bowie RC

Subjects

Animal Distribution, Animals, Hybridization, Genetic, Songbirds genetics, Tanzania, Animal Communication, Selection, Genetic, Social Behavior, Songbirds physiology

Abstract

The extent of range overlap of incipient and recent species depends on the type and magnitude of phenotypic divergence that separates them, and the consequences of phenotypic divergence on their interactions. Signal divergence by social selection likely initiates many speciation events, but may yield niche-conserved lineages predisposed to limit each others' ranges via ecological competition. Here, we examine this neglected aspect of social selection speciation theory in relation to the discovery of a nonecotonal species border between sunbirds. We find that Nectarinia moreaui and Nectarinia fuelleborni meet in a ∼6 km wide contact zone, as estimated by molecular cline analysis. These species exploit similar bioclimatic niches, but sing highly divergent learned songs, consistent with divergence by social selection. Cline analyses suggest that within-species stabilizing social selection on song-learning predispositions maintains species differences in song despite both hybridization and cultural transmission. We conclude that ecological competition between moreaui and fuelleborni contributes to the stabilization of the species border, but that ecological competition acts in conjunction with reproductive interference. The evolutionary maintenance of learned song differences in a hybrid zone recommend this study system for future studies on the mechanisms of learned song divergence and its role in speciation., (© 2016 The Author(s). Evolution © 2016 The Society for the Study of Evolution.)

Published

2016

7. Replacement names for Chapinia and Ripleyia (Aves: Passeriformes: Muscicapidae).

Author

Voelker G, Bowie RC, and Conway KW

Subjects

Animals, Species Specificity, Passeriformes classification, Terminology as Topic

Abstract

Earlier this year, two of us (GV & RB) introduced the genus-group names Chapinia and Ripleyia (in Voelker et al. 2016) for two species of African flycatchers allied to Muscicapa. We recently became aware that both of these genus-group names are preoccupied within Animalia (Chapinia by Chapinia Ewing, 1927 [Insecta: Phthiraptera] and Ripleyia by Ripleyia Cossman, 1920 [Mollusca]), rendering them junior homonyms. Following Article 60 of the International Code of Zoological Nomenclature (ICZN 1999) we herein provide replacement names for the two generic names introduced in Voelker et al. (2016).

Published

2016

8. Description and molecular characterization of a new Leucocytozoon parasite (Haemosporida: Leucocytozoidae), Leucocytozoon californicus sp. nov., found in American kestrels (Falco sparverius sparverius).

Author

Walther E, Valkiūnas G, Wommack EA, Bowie RC, Iezhova TA, and Sehgal RN

Subjects

Animals, Bird Diseases epidemiology, Haemosporida genetics, Parasitemia veterinary, Phylogeny, Polymerase Chain Reaction veterinary, Protozoan Infections, Animal epidemiology, United States, Bird Diseases parasitology, Falconiformes parasitology, Haemosporida isolation & purification, Protozoan Infections, Animal parasitology

Abstract

Diurnal raptors in the order Accipitriformes are commonly parasitized with Leucocytozoon spp., and the prevalence and intensity of parasitemia are often high. However, for raptors in Falconiformes, several studies have reported relatively low prevalences (1 % or less) of Leucocytozoon spp. Leucocytozoon parasite pathogenicity has been documented in falcons, but little is known about the diversity, prevalence, and phylogenetic relationships among Leucocytozoon species in these predatory birds. The research reported here combines molecular and microscopic techniques to identify and describe Leucocytozoon parasites in Falco sparverius sparverius, the American kestrel, and place those parasites into a phylogenetic context with leucocytozoids previously found in other diurnal raptors (Accipitriformes), owls (Strigiformes), passerines (Passeriformes), and other bird species. Of 35 American kestrels sampled, 13 birds (37.1 %) were found by PCR to harbor the DNA lineage of a novel species, Leucocytozoon californicus. No other Leucocytozoon parasite lineages were identified in our sample. Phylogenetic analysis revealed that this parasite clusters more closely with leucocytozoids found in owls and passerines than it does with leucocytozoids found in birds of the genera Buteo and Accipiter of the order Accipitriformes. This is the first described species of Leucocytozoon that parasitizes diurnal raptors in which gametocytes develop exclusively in roundish host blood cells. It is also the first Leucocytozoon species that is described and named in birds of the Falconiformes, in which, for unclear reasons, leucocytozoids are significantly less prevalent and less diverse than in raptors with a similar behavioral ecology belonging to the Accipitriformes.

Published

2016

9. Phylogenetic and morphologic evidence confirm the presence of a new montane cloud forest associated bird species in Mexico, the Mountain Elaenia (Elaenia frantzii; Aves: Passeriformes: Tyrannidae).

Author

Hanna ZR, Ortiz-Ramírez MF, Ríos-Muñoz CA, Cayetano-Rosas H, Bowie RC, and Navarro-Sigüenza AG

Abstract

Here we provide evidence to support an extension of the recognized distributional range of the Mountain Elaenia (Elaenia frantzii) to include southern Mexico. We collected two specimens in breeding condition in northwestern Sierra Norte de Chiapas, Mexico. Morphologic and genetic evidence support their identity as Elaenia frantzii. We compared environmental parameters of records across the entire geographic range of the species to those at the northern Chiapas survey site and found no climatic differences among localities.

Published

2016

10. Cranial morphological variation in Peromyscus maniculatus over nearly a century of environmental change in three areas of California.

Author

Holmes MW, Boykins GK, Bowie RC, and Lacey EA

Subjects

Animals, Body Size, California, Environment, Biological Evolution, Peromyscus anatomy & histology, Skull anatomy & histology

Abstract

Determining how species respond to prolonged environmental change is critical to understanding both their evolutionary biology and their conservation needs. In general, organisms can respond to changing environmental conditions by moving, by adapting in situ, or by going locally or globally extinct. Morphological changes, whether plastic or adaptive, are one way that species may respond in situ to local environmental change. Because cranial morphology is influenced by selective pressures arising from an organism's abiotic and biotic environments, including aspects of thermal physiology, diet, and sensory ecology, studies of cranial morphology may generate important insights into how species are responding to environmental change. To assess potential response of deer mice (Peromyscus maniculatus) to changing conditions in the Sierra Nevada Mountains of California, we quantified cranial variation in museum specimens of this species collected approximately 100 years apart. Specifically, we examined how cranial morphology varies in three populations of this geographically widespread, ecological generalist over elevation and time. Our analyses indicate that cranial morphology does not differ with elevation within either modern or historical samples but does vary between time periods, suggesting that in situ responses to environmental change have occurred. Contrary to predictions based on Bergmann's rule, we found no consistent relationship between body size and either elevation or time, suggesting that morphological differences detected between historic and modern specimens are specific to factors influencing cranial structure. Collectively, these analyses demonstrate the potential importance of in situ changes in morphology as a response to changing environmental conditions., (© 2015 Wiley Periodicals, Inc.)

Published

2016

11. Concordant genetic structure in two species of woodpecker distributed across the primary West African biogeographic barriers.

Author

Fuchs J and Bowie RC

Subjects

Africa, Western, Animal Migration, Animals, Birds genetics, Genetic Variation, Phylogeography, Birds classification, Phylogeny

Abstract

The lowland forests of western and central tropical Africa are separated by several potential biogeographic barriers to dispersal for forest adapted vertebrates. The two primary barriers are (1) the Dahomey Gap, a savanna corridor that reaches the coast of southern Ghana, Togo and Benin, and separates the West African rainforest into the Upper (Ghana west to Guinea) and Lower Guinea (Nigeria to Uganda and Angola) forest blocks, and (2) the Lower Niger River, a large delta that separates Western and Eastern Nigeria. Previous studies on terrestrial vertebrates (lizards, mammals and birds) have highlighted a genetic break in the Dahomey Gap/Lower Niger River area although the relative importance of each barrier has not been assessed due to limitations in geographic sampling. We compared the phylogeographic history of two co-distributed sister-species of woodpeckers (Campethera caroli and C. nivosa) using data from three loci representing all inheritance modes. Our analyses revealed that both the Dahomey Gap and possibly the Lower Niger River acted as strong biogeographic barriers for the two woodpecker species, with the Lower Niger River being the first barrier to have formed, leading to three distinct populations of C. nivosa. Our divergence time analyses revealed that both these biogeographic barriers formed during the Pleistocene, supporting the Pleistocene refuge hypothesis, with the Dahomey Gap likely appearing about 0.5 myr BP. No genetic structure was recovered among sampled populations in either the Upper or the Lower Guinea Forest Block for both species, despite the considerable geographic area covered., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2015

12. Comparative genetic diversity of Lyme disease bacteria in Northern Californian ticks and their vertebrate hosts.

Author

Swei A, Bowie VC, and Bowie RC

Subjects

Animals, Borrelia burgdorferi isolation & purification, Borrelia burgdorferi Group isolation & purification, California epidemiology, Haplotypes, Ixodes microbiology, Nymph, Prevalence, Rabbits, Vertebrates, Arachnid Vectors microbiology, Borrelia burgdorferi genetics, Borrelia burgdorferi Group genetics, Genetic Variation, Lyme Disease microbiology

Abstract

Vector-borne pathogens are transmitted between vertebrate hosts and arthropod vectors, two immensely different environments for the pathogen. There is further differentiation among vertebrate hosts that often have complex, species-specific immunological responses to the pathogen. All this presents a heterogeneous environmental and immunological landscape with possible consequences on the population genetic structure of the pathogen. We evaluated the differential genetic diversity of the Lyme disease pathogen, Borrelia burgdorferi, in its vector, the western black-legged tick (Ixodes pacificus), and in its mammal host community using the 5S-23S rRNA intergenic spacer region. We found differences in haplotype distribution of B. burgdorferi in tick populations from two counties in California as well as between a sympatric tick and vertebrate host community. In addition, we found that three closely related haplotypes consistently occurred in high frequency in all sample types. Lastly, our study found lower species diversity of the B. burgdorferi species complex, known as B. burgdorferi sensu lato, in small mammal hosts versus the tick populations in a sympatric study area., (Copyright © 2015 Elsevier GmbH. All rights reserved.)

Published

2015

13. Coevolutionary patterns and diversification of avian malaria parasites in African sunbirds (Family Nectariniidae).

Author

Lauron EJ, Loiseau C, Bowie RC, Spicer GS, Smith TB, Melo M, and Sehgal RN

Subjects

Africa, Animals, Ecosystem, Host Specificity, Host-Parasite Interactions, Indian Ocean Islands, Multigene Family genetics, Passeriformes classification, Phylogeny, Phylogeography, Plasmodium classification, Plasmodium genetics, Biological Evolution, Malaria, Avian parasitology, Passeriformes parasitology, Plasmodium physiology

Abstract

The coevolutionary relationships between avian malaria parasites and their hosts influence the host specificity, geographical distribution and pathogenicity of these parasites. However, to understand fine scale coevolutionary host-parasite relationships, robust and widespread sampling from closely related hosts is needed. We thus sought to explore the coevolutionary history of avian Plasmodium and the widespread African sunbirds, family Nectariniidae. These birds are distributed throughout Africa and occupy a variety of habitats. Considering the role that habitat plays in influencing host-specificity and the role that host-specificity plays in coevolutionary relationships, African sunbirds provide an exceptional model system to study the processes that govern the distribution and diversity of avian malaria. Here we evaluated the coevolutionary histories using a multi-gene phylogeny for Nectariniidae and avian Plasmodium found in Nectariniidae. We then assessed the host-parasite biogeography and the structuring of parasite assemblages. We recovered Plasmodium lineages concurrently in East, West, South and Island regions of Africa. However, several Plasmodium lineages were recovered exclusively within one respective region, despite being found in widely distributed hosts. In addition, we inferred the biogeographic history of these parasites and provide evidence supporting a model of biotic diversification in avian Plasmodium of African sunbirds.

Published

2015

14. Sequence capture using PCR-generated probes: a cost-effective method of targeted high-throughput sequencing for nonmodel organisms.

Author

Peñalba JV, Smith LL, Tonione MA, Sass C, Hykin SM, Skipwith PL, McGuire JA, Bowie RC, and Moritz C

Subjects

Animals, High-Throughput Nucleotide Sequencing economics, Lizards classification, Lizards genetics, Passeriformes classification, Passeriformes genetics, Phylogeny, Polymerase Chain Reaction economics, Genomics methods, High-Throughput Nucleotide Sequencing methods, Oligonucleotide Probes genetics, Polymerase Chain Reaction methods

Abstract

Recent advances in high-throughput sequencing library preparation and subgenomic enrichment methods have opened new avenues for population genetics and phylogenetics of nonmodel organisms. To multiplex large numbers of indexed samples while sequencing predominantly orthologous, targeted regions of the genome, we propose modifications to an existing, in-solution capture that utilizes PCR products as target probes to enrich library pools for the genomic subset of interest. The sequence capture using PCR-generated probes (SCPP) protocol requires no specialized equipment, is highly flexible and significantly reduces experimental costs for projects where a modest scale of genetic data is optimal (25-100 genomic loci). Our alterations enable application of this method across a wider phylogenetic range of taxa and result in higher capture efficiencies and coverage at each locus. Efficient and consistent capture over multiple SCPP experiments and at various phylogenetic distances is demonstrated, extending the utility of this method to both phylogeographic and phylogenomic studies., (© 2014 John Wiley & Sons Ltd.)

Published

2014

15. Specimen collection: an essential tool.

Author

Rocha LA, Aleixo A, Allen G, Almeda F, Baldwin CC, Barclay MV, Bates JM, Bauer AM, Benzoni F, Berns CM, Berumen ML, Blackburn DC, Blum S, Bolaños F, Bowie RC, Britz R, Brown RM, Cadena CD, Carpenter K, Ceríaco LM, Chakrabarty P, Chaves G, Choat JH, Clements KD, Collette BB, Collins A, Coyne J, Cracraft J, Daniel T, de Carvalho MR, de Queiroz K, Di Dario F, Drewes R, Dumbacher JP, Engilis A Jr, Erdmann MV, Eschmeyer W, Feldman CR, Fisher BL, Fjeldså J, Fritsch PW, Fuchs J, Getahun A, Gill A, Gomon M, Gosliner T, Graves GR, Griswold CE, Guralnick R, Hartel K, Helgen KM, Ho H, Iskandar DT, Iwamoto T, Jaafar Z, James HF, Johnson D, Kavanaugh D, Knowlton N, Lacey E, Larson HK, Last P, Leis JM, Lessios H, Liebherr J, Lowman M, Mahler DL, Mamonekene V, Matsuura K, Mayer GC, Mays H Jr, McCosker J, McDiarmid RW, McGuire J, Miller MJ, Mooi R, Mooi RD, Moritz C, Myers P, Nachman MW, Nussbaum RA, Foighil DÓ, Parenti LR, Parham JF, Paul E, Paulay G, Pérez-Emán J, Pérez-Matus A, Poe S, Pogonoski J, Rabosky DL, Randall JE, Reimer JD, Robertson DR, Rödel MO, Rodrigues MT, Roopnarine P, Rüber L, Ryan MJ, Sheldon F, Shinohara G, Short A, Simison WB, Smith-Vaniz WF, Springer VG, Stiassny M, Tello JG, Thompson CW, Trnski T, Tucker P, Valqui T, Vecchione M, Verheyen E, Wainwright PC, Wheeler TA, White WT, Will K, Williams JT, Williams G, Wilson EO, Winker K, Winterbottom R, and Witt CC

Subjects

Animals, Biology methods, Classification methods, Endangered Species, Extinction, Biological

Published

2014

16. Diversification in an Afro-Asian songbird clade (Erythropygia-Copsychus) reveals founder-event speciation via trans-oceanic dispersals and a southern to northern colonization pattern in Africa.

Author

Voelker G, Peñalba JV, Huntley JW, and Bowie RC

Subjects

Africa, Animals, Asia, Southeastern, Indian Ocean Islands, Phylogeography, Sequence Analysis, DNA, Evolution, Molecular, Founder Effect, Genetic Speciation, Oceans and Seas, Phylogeny, Songbirds classification, Songbirds genetics

Abstract

Erythropygia scrub-robins and their allies are distributed throughout Africa, Europe, Southeast Asia, India, Madagascar and the Seychelles. This broad distribution, as well as the distribution of Erythropygia taxa across Africa, presents an interesting opportunity to explore the mechanisms by which this biogeographic distribution was achieved. Multilocus sequence data (3310 base pairs from two mitochondrial and two nuclear genes) were generated for all species of Erythropygia and Cercotrichas scrub-robins, as well as from genera previously shown to render Erythropygia paraphyletic. Using model-based phylogenetic methods and molecular clock dating, we constructed a time-calibrated molecular phylogenetic hypothesis for the lineage. Ancestral area reconstructions were performed on the phylogeny using probabilistic approaches implemented in LaGrange and BioGeoBEARS. Our results confirm that Erythropygia is not monophyletic, and that one of the two Erythropygia clades is more closely related to a clade of Asian and Indian Ocean islands distributed species. Overall, the Erythropygia and allies clade originated in Africa in the late Miocene c. 6.9 Ma. Subsequently, a number of overwater dispersals occurred to include an initial colonization of Southeast Asia, and an ensuing progression of colonizations from Southeast Asia to the Seychelles, from there to Madagascar, and from these Indian Ocean islands back to Southeast Asia. Within the two clades of Erythropygia, ancestral area reconstructions within Africa indicate a Southern Africa origin, with subsequent lineage divergence in each clade indicating northward colonization. Overall, this clade of non-migratory songbirds shows a remarkable number of trans-oceanic colonization events, that were possibly facilitated by wind-driven dispersal; repeated Africa to Asia colonizations, two of which occur in this clade, are exceptionally rare in birds. Also rare is our finding that colonization patterns in Africa indicate a southern to northern progression., (Copyright © 2014 Elsevier Inc. All rights reserved.)

Published

2014

17. The ecological and geographic context of morphological and genetic divergence in an understorey-dwelling bird.

Author

Ribeiro ÂM, Lloyd P, Dean WR, Brown M, and Bowie RC

Subjects

Animals, Birds, Phenotype, South Africa, Ecology, Ecosystem, Genetic Variation

Abstract

Advances in understanding the process of species formation require an integrated perspective that includes the evaluation of spatial, ecological and genetic components. One approach is to focus on multiple stages of divergence within the same species. Species that comprise phenotypically different populations segregated in apparently distinct habitats, in which range is presently continuous but was putatively geographically isolated provide an interesting system to study the mechanisms of population divergence. Here, we attempt to elucidate the role of ecology and geography in explaining observed morphological and genetic variation in an understorey-dwelling bird endemic to southeastern Africa, where two subspecies are recognized according to phenotype and habitat affinity. We carried out a range-wide analysis of climatic requirements, morphological and genetic variation across southeast Africa to test the hypothesis that the extent of gene flow among populations of the brown scrub-robin are influenced by their distinct climatic niches. We recovered two distinct trends depending on whether our analyses were hierarchically structured at the subspecies or at the within subspecies level. Between subspecies we found pronounced morphological differentiation associated with strong reproductive isolation (no gene flow) between populations occupying divergent climatic niches characterized by changes in the temperature of the warmest and wettest month. In contrast, within subspecies, we recovered continuous morphological variation with extensive gene flow among populations inhabiting the temperate and sub-tropical forests of southern Africa, despite divergence along the climate axis that is mainly determined by minimum temperature and precipitation of the coldest months. Our results highlight the role of niche divergence as a diversifying force that can promote reproductive isolation in vertebrates.

Published

2014

18. A complete multilocus species phylogeny of the tits and chickadees (Aves: Paridae).

Author

Johansson US, Ekman J, Bowie RC, Halvarsson P, Ohlson JI, Price TD, and Ericson PG

Subjects

Animals, Bayes Theorem, Cell Nucleus genetics, Genes, Mitochondrial, Introns genetics, Likelihood Functions, Passeriformes genetics, Sequence Analysis, DNA, Biological Evolution, Passeriformes classification, Phylogeny

Abstract

The avian family Paridae (tits and chickadees) contains c. 55 species distributed in the Palearctic, Nearctic, Afrotropics and Indomalaya. The group includes some of the most well-known and extensively studied avian species, and the evolutionary history, in particular the post-glacial colonization of the northern latitudes, has been comparably well-studied for several species. Yet a comprehensive phylogeny of the whole clade is lacking. Here, we present the first complete species phylogeny for the group based on sequence data from two nuclear introns and one mitochondrial gene for 67 taxa of parids. Our results strongly support the inclusion of the Fire-capped Tit (Cephalopyrus flammiceps), currently placed in the Remizidae, as the most basal member of the Paridae. The Yellow-browed Tit (Sylviparus modestus) and the Sultan Tit (Melanochlora sultanea) constitute the next two sequential branches whereas the remaining tits fall into two large clades, one of which contains the seed hoarding and nest excavating species. The indicated clades within these two groups are largely congruent with recent classifications, but with several unforeseen relationships, such as non-monophyly of the Sombre Tit (Poecile lugubris) and the Marsh Tit (Poecile palustris), as well as non-monophyly of both the African gray and the African black tits. Further, our results support a close relationship between the White-fronted Tit (Parus semilarvatus) and the varied Tit (Poecile varius) as well as a close relationship between the White-naped Tit (Parus nuchalis) and the Yellow-cheeked and Black-lored tits (Parus spilonotus and P. xanthogenys). Finally, Hume's Ground-tit (Pseudopodoces humilis) is found to be closely related to the Green-backed Tit (Parus monticolus) and the Great Tit (Parus major). We propose a new classification that is in accordance with this phylogeny., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published

2013

19. Gene trees, species trees and Earth history combine to shed light on the evolution of migration in a model avian system.

Author

Voelker G, Bowie RC, and Klicka J

Subjects

Algorithms, Animals, Cell Nucleus genetics, Genes, Mitochondrial, INDEL Mutation, Models, Genetic, Molecular Sequence Data, Sequence Analysis, DNA, Songbirds classification, Animal Migration, Biological Evolution, Phylogeny, Songbirds genetics

Abstract

The evolution of migration in birds has fascinated biologists for centuries. In this study, we performed phylogenetic-based analyses of Catharus thrushes, a model genus in the study of avian migration, and their close relatives. For these analyses, we used both mitochondrial and nuclear genes, and the resulting phylogenies were used to trace migratory traits and biogeographic patterns. Our results provide the first robust assessment of relationships within Catharus and relatives and indicate that both mitochondrial and autosomal genes contribute to overall support of the phylogeny. Measures of phylogenetic informativeness indicated that mitochondrial genes provided more signal within Catharus than did nuclear genes, whereas nuclear loci provided more signal for relationships between Catharus and close relatives than did mitochondrial genes. Insertion and deletion events also contributed important support across the phylogeny. Across all taxa included in the study, and for Catharus, possession of long-distance migration is reconstructed as the ancestral condition, and a North American (north of Mexico) ancestral area is inferred. Within Catharus, sedentary behaviour evolved after the first speciation event in the genus and is geographically and temporally correlated with Central American distributions and the final closure of the Central American Seaway. Migratory behaviour subsequently evolved twice in Catharus and is geographically and temporally correlated with a recolonization of North America in the late Pleistocene. By temporally linking speciation events with changes in migratory condition and events in Earth history, we are able to show support for several competing hypotheses relating to the geographic origin of migration., (© 2013 John Wiley & Sons Ltd.)

Published

2013

20. Parsimony and model-based analyses of indels in avian nuclear genes reveal congruent and incongruent phylogenetic signals.

Author

Yuri T, Kimball RT, Harshman J, Bowie RC, Braun MJ, Chojnowski JL, Han KL, Hackett SJ, Huddleston CJ, Moore WS, Reddy S, Sheldon FH, Steadman DW, Witt CC, and Braun EL

Abstract

Insertion/deletion (indel) mutations, which are represented by gaps in multiple sequence alignments, have been used to examine phylogenetic hypotheses for some time. However, most analyses combine gap data with the nucleotide sequences in which they are embedded, probably because most phylogenetic datasets include few gap characters. Here, we report analyses of 12,030 gap characters from an alignment of avian nuclear genes using maximum parsimony (MP) and a simple maximum likelihood (ML) framework. Both trees were similar, and they exhibited almost all of the strongly supported relationships in the nucleotide tree, although neither gap tree supported many relationships that have proven difficult to recover in previous studies. Moreover, independent lines of evidence typically corroborated the nucleotide topology instead of the gap topology when they disagreed, although the number of conflicting nodes with high bootstrap support was limited. Filtering to remove short indels did not substantially reduce homoplasy or reduce conflict. Combined analyses of nucleotides and gaps resulted in the nucleotide topology, but with increased support, suggesting that gap data may prove most useful when analyzed in combination with nucleotide substitutions.

Published

2013

21. Ecological speciation along an elevational gradient in a tropical passerine bird?

Author

Caro LM, Caycedo-Rosales PC, Bowie RC, Slabbekoorn H, and Cadena CD

Subjects

Animals, Genetic Variation, Passeriformes anatomy & histology, Passeriformes genetics, Phylogeny, Reproductive Isolation, Species Specificity, Tropical Climate, Vocalization, Animal physiology, Biological Evolution, Ecology, Genetic Speciation, Passeriformes classification, Passeriformes physiology

Abstract

Local adaptation of populations along elevational gradients is well known, but conclusive evidence that such divergence has resulted in the origin of distinct species in parapatry remains lacking. We integrated morphological, vocal, genetic and behavioural data to test predictions pertaining to the hypothesis of parapatric ecological speciation associated with elevation in populations of a tropical montane songbird, the Grey-breasted Wood-wren (Henicorhina leucophrys: Troglodytidae), from the Sierra Nevada de Santa Marta, Colombia. We confirmed that two distinct populations exist along the elevational gradient. Phylogenetic analyses tentatively indicate that the two populations are not sister taxa, suggesting they did not differentiate from a single ancestor along the gradient, but rather resulted from separate colonization events. The populations showed marked divergence in morphometrics, vocalizations and genetic variation in mitochondrial and nuclear loci, and little to no evidence of hybridization. Individuals of both populations responded more strongly to their own local songs than to songs from another elevation. Although the two forms do not appear to have differentiated locally in parapatry, morphological and vocal divergence along the elevational gradient is consistent with adaptation, suggesting a possible link between adaptive evolution in morphology and songs and the origin of reproductive isolation via a behavioural barrier to gene flow. The adaptive value of phenotypic differences between populations requires additional study., (© 2013 The Authors. Journal of Evolutionary Biology © 2013 European Society For Evolutionary Biology.)

Published

2013

22. Ptilopachinae: a new subfamily of the Odontophoridae (Aves: Galliformes).

Author

Bowie RC, Cohen C, and Crowe TM

Subjects

Animals, Avian Proteins genetics, Galliformes genetics, Galliformes classification

Published

2013

23. Historical demographic dynamics underlying local adaptation in the presence of gene flow.

Author

Ribeiro AM, Lopes RJ, and Bowie RC

Abstract

The range of a species is the result of the relative contribution of spatial tracking of environmental requirements and adaptation to ecological conditions outside the ancestral niche. The appearance of novel habitats caused by climatic oscillation can promote range expansion and accompanying demographic growth. The demographic dynamics of populations leave a signal in \ patterns. We modeled three competing scenarios pertaining to the circumstance of a range expansion by the Karoo Scrub-Robin into newly available habitat resulting from the increasing aridification of southern Africa. Genetic variation was contrasted with the theoretical expectations of a spatial range expansion, and compared with data of a putative adaptive trait. We infer that this bird likely colonized the arid zone, as a consequence of adaptive evolution in a small peripheral population, followed by an expansion with recurrent exchange of migrants with the ancestral populations.

Published

2012

24. A multi-locus phylogeny reveals a complex pattern of diversification related to climate and habitat heterogeneity in southern African white-eyes.

Author

Oatley G, Voelker G, Crowe TM, and Bowie RC

Subjects

Africa, Southern, Animals, Bayes Theorem, Biological Evolution, Cell Nucleus genetics, DNA, Mitochondrial genetics, Likelihood Functions, Passeriformes genetics, Sequence Analysis, DNA, Sympatry, Climate, Ecosystem, Passeriformes classification, Phylogeny

Abstract

The recent, rapid radiation of Zosteropidae, coupled with their high levels of colonizing ability and phenotypic diversity, makes species delimitation within this family problematic. Given these problems, challenges to establish the mechanisms driving diversity and speciation within this group have arisen. Four morphologically distinct southern African Zosterops taxa, with a contentious taxonomic past, provide such a challenge. Here, supplemented with morphological and environmental analytical techniques, a combination of mitochondrial and nuclear markers were analyzed using Bayesian and Likelihood methods to determine their speciation patterns and to establish the phylogenetic relationships of these four morphologically diverse southern African Zosterops taxa. Nearly all individuals were phenotypically diagnosable, even those individuals collected in areas of contact between taxa. Localities where two or more taxa co-occur appear to possess intermediate environmental characteristics. Initial Bayesian and Likelihood mitochondrial DNA analyses and Bayesian structure analyses of the combined nuclear markers indicated levels of hybridization in areas of sympatry. A combined mtDNA and nuclear DNA analysis and a species tree analysis (with hybrids excluded) placed Z. pallidus as sister to the other southern African taxa, with Z. senegalensis the putative sister taxon to a clade comprising Z. capensis and Z. virens. The grouping of taxon-specific sampling localities and the apparent intermediate nature of birds from areas of sympatry points toward an influence of habitat type and the associated climatic conditions in driving Zosterops diversification in southern Africa., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2012

25. Molecular phylogeny of African bush-shrikes and allies: tracing the biogeographic history of an explosive radiation of corvoid birds.

Author

Fuchs J, Irestedt M, Fjeldså J, Couloux A, Pasquet E, and Bowie RC

Subjects

Animals, Base Sequence, Bayes Theorem, DNA Primers genetics, Models, Genetic, Molecular Sequence Data, Phylogeography, Sequence Alignment, Sequence Analysis, DNA, Genetic Speciation, Passeriformes classification, Passeriformes genetics, Phylogeny

Abstract

The Malaconotidea (e.g., butcherbirds, bush-shrikes, batises, vangas) represent an Old World assemblage of corvoid passerines that encompass many different foraging techniques (e.g., typical flycatchers, flycatcher-shrikes, canopy creepers, undergrowth skulkers). At present, relationships among the primary Malaconotidea clades are poorly resolved, a result that could either be attributed to a rapid accumulation of lineages over a short period of time (hard polytomy) or to an insufficient amount of data having been brought to bear on the problem (soft polytomy). Our objective was to resolve the phylogenetic relationships and biogeographic history of the Malaconotidea using DNA sequences gathered from 10 loci with different evolutionary properties. Given the range of substitution rates of molecular markers we sequenced (mitochondrial, sex-linked, autosomal), we also sought to explore the effect of altering the branch-length prior in Bayesian tree estimation analyses. We found that changing the branch-length priors had no major effect on topology, but clearly improved mixing of the chains for some loci. Our phylogenetic analyses clarified the relationships of several genera (e.g., Pityriasis, Machaerirhynchus) and provide for the first time strong support for a sister-group relationship between core platysteirids and core vangids. Our biogeographic reconstruction somewhat unexpectedly suggests that the large African radiation of malaconotids originated after a single over-water dispersal from Australasia around 45-33.7 mya, shedding new light on the origins of the Afrotropical avifauna., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2012

26. Microgeographic socio-genetic structure of an African cooperative breeding passerine revealed: integrating behavioural and genetic data.

Author

Ribeiro AM, Lloyd P, Feldheim KA, and Bowie RC

Subjects

Animals, Biological Evolution, Female, Genetic Variation, Male, Microsatellite Repeats, Passeriformes, Population genetics, Animal Migration, Sexual Behavior, Animal, Social Behavior

Abstract

Dispersal can be motivated by multiple factors including sociality. Dispersal behaviour affects population genetic structure that in turn reinforces social organization. We combined observational information with individual-based genetic data in the Karoo scrub-robin, a facultative cooperatively breeding bird, to understand how social bonds within familial groups affect mating patterns, cause sex asymmetry in dispersal behaviour and ultimately influence the evolution of dispersal. Our results revealed that males and females do not have symmetrical roles in structuring the population. Males are extremely philopatric and tend to delay dispersal until they gain a breeding position within a radius of two territories around the natal site. By contrast, females dispersed over larger distances, as soon as they reach independence. This resulted in male neighbourhoods characterized by high genetic relatedness. The long-distance dispersal strategy of females ensured that Karoo scrub-robins do not pair with relatives thereby compensating for male philopatry caused by cooperation. The observed female-biased strategy seems to be the most prominent mechanism to reduce the risk of inbreeding that characterizes social breeding system. This study demonstrates that tying together ecological data, such as breeding status, determining social relationships with genetic data, such as kinship, provides valuable insights into the proximate causes of dispersal, which are central to any evolutionary interpretation., (© 2011 Blackwell Publishing Ltd.)

Published

2012

27. Latitude, elevational climatic zonation and speciation in New World vertebrates.

Author

Cadena CD, Kozak KH, Gómez JP, Parra JL, McCain CM, Bowie RC, Carnaval AC, Moritz C, Rahbek C, Roberts TE, Sanders NJ, Schneider CJ, VanDerWal J, Zamudio KR, and Graham CH

Subjects

Animals, Biodiversity, Biological Evolution, Geography, Latin America, North America, Phylogeny, Vertebrates genetics, Altitude, Climate, Genetic Speciation, Vertebrates classification

Abstract

Many biodiversity hotspots are located in montane regions, especially in the tropics. A possible explanation for this pattern is that the narrow thermal tolerances of tropical species and greater climatic stratification of tropical mountains create more opportunities for climate-associated parapatric or allopatric speciation in the tropics relative to the temperate zone. However, it is unclear whether a general relationship exists among latitude, climatic zonation and the ecology of speciation. Recent taxon-specific studies obtained different results regarding the role of climate in speciation in tropical versus temperate areas. Here, we quantify overlap in the climatic distributions of 93 pairs of sister species of mammals, birds, amphibians and reptiles restricted to either the New World tropics or to the Northern temperate zone. We show that elevational ranges of tropical- and temperate-zone species do not differ from one another, yet the temperature range experienced by species in the temperate zone is greater than for those in the tropics. Moreover, tropical sister species tend to exhibit greater similarity in their climatic distributions than temperate sister species. This pattern suggests that evolutionary conservatism in the thermal niches of tropical taxa, coupled with the greater thermal zonation of tropical mountains, may result in increased opportunities for allopatric isolation, speciation and the accumulation of species in tropical montane regions. Our study exemplifies the power of combining phylogenetic and spatial datasets of global climatic variation to explore evolutionary (rather than purely ecological) explanations for the high biodiversity of tropical montane regions.

Published

2012

28. Host and habitat specialization of avian malaria in Africa.

Author

Loiseau C, Harrigan RJ, Robert A, Bowie RC, Thomassen HA, Smith TB, and Sehgal RN

Subjects

Animals, Birds classification, Cameroon, Genetic Speciation, Phylogeny, Plasmodium classification, South Africa, Species Specificity, Birds genetics, Ecosystem, Host Specificity genetics, Malaria, Avian epidemiology, Malaria, Avian parasitology, Plasmodium genetics

Abstract

Studies of both vertebrates and invertebrates have suggested that specialists, as compared to generalists, are likely to suffer more serious declines in response to environmental change. Less is known about the effects of environmental conditions on specialist versus generalist parasites. Here, we study the evolutionary strategies of malaria parasites (Plasmodium spp.) among different bird host communities. We determined the parasite diversity and prevalence of avian malaria in three bird communities in the lowland forests in Cameroon, highland forests in East Africa and fynbos in South Africa. We calculated the host specificity index of parasites to examine the range of hosts parasitized as a function of the habitat and investigated the phylogenetic relationships of parasites. First, using phylogenetic and ancestral reconstruction analyses, we found an evolutionary tendency for generalist malaria parasites to become specialists. The transition rate at which generalists become specialists was nearly four times as great as the rate at which specialists become generalists. We also found more specialist parasites and greater parasite diversity in African lowland rainforests as compared to the more climatically variable habitats of the fynbos and the highland forests. Thus, with environmental changes, we anticipate a change in the distribution of both specialist and generalist parasites with potential impacts on bird communities., (© 2011 Blackwell Publishing Ltd.)

Published

2012

29. A tight balance between natural selection and gene flow in a southern African arid-zone endemic bird.

Author

Ribeiro ÅM, Lloyd P, and Bowie RC

Subjects

Acclimatization genetics, Animals, Basal Metabolism, Body Size, Genome, Mitochondrial, Genotype, Geography, Microsatellite Repeats, Oxidative Phosphorylation, Passeriformes anatomy & histology, Passeriformes physiology, Phenotype, Water metabolism, Gene Flow, Passeriformes genetics, Selection, Genetic

Abstract

Gene flow is traditionally thought to be antagonistic to population differentiation and local adaptation. However, recent studies have demonstrated that local adaptation can proceed provided that selection is greater than the homogenizing effects of gene flow. We extend these initial studies by combining ecology (climate), phenotype (body size), physiological genetics (oxidative phosphorylation genes), and neutral loci (nuclear microsatellites and introns) to test whether selection can counter-balance gene flow and hence promote local adaptation in a bird whose distribution spans an aridity gradient. Our results show that the Karoo scrub-robin's climatic niche is spatially structured, providing the potential for local adaptation to develop. We found remarkably discordant patterns of divergence among mtDNA, morphology, and neutral loci. For the mitochondrial genes, two amino acid replacements, strong population structure and reduced gene flow were associated with the environmental gradient separating western coastal sites from the interior of southern Africa. In contrast, morphology and the neutral loci exhibited variation independent of environmental variables, and revealed extensive levels of gene flow across the aridity gradient, 50 times larger than the estimates for mitochondrial genes. Together, our results suggest that selective pressures on physiology, mediated by the mitochondrial genome, may well be a common mechanism for facilitating local adaptation to new climatic conditions., (© 2011 The Author(s). Evolution© 2011 The Society for the Study of Evolution.)

Published

2011

30. Phylogeographic patterns and cryptic speciation across oceanographic barriers in South African intertidal fishes.

Author

von der Heyden S, Bowie RC, Prochazka K, Bloomer P, Crane NL, and Bernardi G

Subjects

Animals, Base Sequence, Cluster Analysis, DNA, Mitochondrial genetics, Gene Flow genetics, Genetics, Population, Likelihood Functions, Locus Control Region genetics, Models, Genetic, Molecular Sequence Data, Multienzyme Complexes genetics, NADH, NADPH Oxidoreductases genetics, Oceans and Seas, Phylogeography, RNA, Ribosomal genetics, RNA, Ribosomal, 16S genetics, Rhodopsin genetics, Sequence Analysis, DNA, South Africa, Species Specificity, Demography, Genetic Speciation, Genetic Variation, Perciformes genetics, Phylogeny

Abstract

Biogeographic boundaries are the meeting zone of broadly distributed faunas, or the actual cause of a faunal break. In the latter case, closely related sister species should be found across such a boundary. To achieve such a situation, preliminary stages are expected, where phylogeographic breaks followed by genetic cryptic speciation would be observed. Biogeographic boundaries, in the Cape Point/Cape Agulhas region of southern Africa, offer an ideal system to test such predictions. Here, we studied two intertidal clinid fish species that are endemic to southern Africa, Clinus superciliosus (n = 127) and Muraenoclinus dorsalis (n = 114). Using mitochondrial control region, 16S rRNA, 12S rRNA and NADH2 genes and the nuclear rhodopsin and the first intron of the S7 ribosomal protein gene, we show both phylogeographic breaks and likely cryptic speciation in each species. Pairwise Φ(st) results suggest population genetic structuring for both species, with higher levels for M. dorsalis (Φ(st) = 0.34-0.93) than for C. superciliosus (Φ(st) = 0.1-0.74). Further, we recover two and three distinct lineages within M. dorsalis and C. superciliosus, respectively. Phylogenetic topologies, concordance between nuclear and mitochondrial markers and levels of sequence divergence, which are consistent with closely related sister species pairs, suggest the presence of cryptic species. Our results therefore meet the expectation for reduced gene flow at a biogeographic barrier, which translates into significant genetic breaks and cryptic sister species., (© 2011 The Authors. Journal of Evolutionary Biology © 2011 European Society For Evolutionary Biology.)

Published

2011

31. Homoplastic microinversions and the avian tree of life.

Author

Braun EL, Kimball RT, Han KL, Iuhasz-Velez NR, Bonilla AJ, Chojnowski JL, Smith JV, Bowie RC, Braun MJ, Hackett SJ, Harshman J, Huddleston CJ, Marks BD, Miglia KJ, Moore WS, Reddy S, Sheldon FH, Witt CC, and Yuri T

Subjects

Animals, Base Sequence, Evolution, Molecular, Genetic Loci, Genome, Molecular Sequence Data, Phylogeny, Sequence Analysis, DNA, Birds genetics, Chromosome Inversion

Abstract

Background: Microinversions are cytologically undetectable inversions of DNA sequences that accumulate slowly in genomes. Like many other rare genomic changes (RGCs), microinversions are thought to be virtually homoplasy-free evolutionary characters, suggesting that they may be very useful for difficult phylogenetic problems such as the avian tree of life. However, few detailed surveys of these genomic rearrangements have been conducted, making it difficult to assess this hypothesis or understand the impact of microinversions upon genome evolution., Results: We surveyed non-coding sequence data from a recent avian phylogenetic study and found substantially more microinversions than expected based upon prior information about vertebrate inversion rates, although this is likely due to underestimation of these rates in previous studies. Most microinversions were lineage-specific or united well-accepted groups. However, some homoplastic microinversions were evident among the informative characters. Hemiplasy, which reflects differences between gene trees and the species tree, did not explain the observed homoplasy. Two specific loci were microinversion hotspots, with high numbers of inversions that included both the homoplastic as well as some overlapping microinversions. Neither stem-loop structures nor detectable sequence motifs were associated with microinversions in the hotspots., Conclusions: Microinversions can provide valuable phylogenetic information, although power analysis indicates that large amounts of sequence data will be necessary to identify enough inversions (and similar RGCs) to resolve short branches in the tree of life. Moreover, microinversions are not perfect characters and should be interpreted with caution, just as with any other character type. Independent of their use for phylogenetic analyses, microinversions are important because they have the potential to complicate alignment of non-coding sequences. Despite their low rate of accumulation, they have clearly contributed to genome evolution, suggesting that active identification of microinversions will prove useful in future phylogenomic studies.

Published

2011

32. Diversification across an altitudinal gradient in the Tiny Greenbul (Phyllastrephus debilis) from the Eastern Arc Mountains of Africa.

Author

Fuchs J, Fjeldså J, and Bowie RC

Subjects

Africa, Eastern, Animals, Bayes Theorem, Feathers, Female, Genetic Speciation, Male, Passeriformes physiology, Phylogeography, Pigmentation, Selection, Genetic, Altitude, Biodiversity, Passeriformes anatomy & histology, Passeriformes genetics

Abstract

Background: The Eastern Arc Mountains of Africa have become one of the focal systems with which to explore the patterns and mechanisms of diversification among montane species and populations. One unresolved question is the extent to which populations inhabiting montane forest interact with those of adjacent lowland forest abutting the coast of eastern Africa. The Tiny Greenbul (Phyllastephus debilis) represents the only described bird species within the Eastern Arc/coastal forest mosaic, which is polytypic across an altitudinal gradient: the subspecies albigula (green head) is distributed in the montane Usambara and Nguru Mountains whereas the subspecies rabai (grey head) is found in Tanzanian lowland and foothill forest. Using a combination of morphological and genetic data, we aim to establish if the pattern of morphological differentiation in the Tiny Greenbul (Phyllastrephus debilis) is the result of disruptive selection along an altitudinal gradient or a consequence of secondary contact following population expansion of two differentiated lineages., Results: We found significant biometric differences between the lowland (rabai) and montane (albigula) populations in Tanzania. The differences in shape are coupled with discrete differences in the coloration of the underparts. Using multi-locus data gathered from 124 individuals, we show that lowland and montane birds form two distinct genetic lineages. The divergence between the two forms occurred between 2.4 and 3.1 Myrs ago.Our coalescent analyses suggest that limited gene flow, mostly from the subspecies rabai to albigula, is taking place at three mid-altitude localities, where lowland and montane rainforest directly abut. The extent of this introgression appears to be limited and is likely a consequence of the recent expansion of rabai further inland., Conclusion: The clear altitudinal segregation in morphology found within the Tiny Greenbul is the result of secondary contact of two highly differentiated lineages rather than disruptive selection in plumage pattern across an altitudinal gradient. Based on our results, we recommend albigula be elevated to species rank.

Published

2011

33. Systematics and biogeography of Indo-Pacific ground-doves.

Author

Jønsson KA, Irestedt M, Bowie RC, Christidis L, and Fjeldså J

Subjects

Animals, Asia, Southeastern, Base Sequence, Bayes Theorem, DNA Primers genetics, DNA, Mitochondrial genetics, Likelihood Functions, Models, Genetic, Molecular Sequence Data, Oceania, Sequence Alignment, Sequence Analysis, DNA, Species Specificity, Columbidae classification, Columbidae genetics, Demography, Geography, Phylogeny

Abstract

Ground-doves represent an insular bird radiation distributed across the Indo-Pacific. The radiation comprises sixteen extant species, two species believed to be extinct and six species known to be extinct. In the present study, we present a molecular phylogeny for all sixteen extant species, based on two mitochondrial markers. We demonstrate that the Gallicolumba as currently circumscribed is not monophyletic and recommend reinstalling the name Alopecoenas for a monophyletic radiation comprising ten extant species, distributed in New Guinea, the Lesser Sundas and Oceania. Gallicolumba remains the name for six species confined to New Guinea the Philippines and Sulawesi. Although our phylogenetic analyses fail to support a single origin for the remaining Gallicolumba species, we suspect that the addition of nuclear sequence data may alter this result. Because a number of ground-dove taxa have gone extinct, it is difficult to assess biogeographical patterns. However, the Alopecoenas clade has clearly colonized many remote oceanic islands rather recently, with several significant water crossings. The Gallicolumba radiation(s), on the other hand, is significantly older and it is possible that diversification within that group may in part have been shaped by plate tectonics and corresponding re-arrangements of land masses within the Philippine and Sulawesi region., (Copyright © 2011. Published by Elsevier Inc.)

Published

2011

34. The utility of contemporary and historical estimates of dispersal in determining response to habitat fragmentation in a tropical forest-dependent bird community.

Author

Bowie RC

Subjects

Africa, Animals, Birds genetics, Environment, Microsatellite Repeats, Population Dynamics, Birds physiology, Ecosystem, Trees

Abstract

It is often assumed that species which exhibit a greater propensity for dispersal are less susceptible to the impacts of habitat fragmentation; however, a growing body of literature suggests that such generalizations should be carefully evaluated as not all species appear to be equally sensitive to fragmentation. In this issue of Molecular Ecology, Callens et al. (2011) take an innovative approach to compare contemporary estimates of dispersal from an extensive mark-recapture and patch occupancy data set with historical estimates derived from multilocus population genetic models for seven sympatric forest-dependent species in the Taita Hills, Africa. As has been observed for forest-dependent species from the Amazon, populations of sedentary species were more strongly differentiated and clustered when compared to those of more dispersive taxa. The most intriguing result recovered though, was that the five species with similar historical estimates of gene flow (dispersal) differed substantially in their contemporary dispersal rates, suggesting that for some species the propensity for dispersal has decreased over time. As a consequence, the authors suggest that post-fragmentation estimates of dispersal on their own may not be the best predictors of how habitat fragmentation could affect forest-dependent animal communities.This work significantly advances our understanding of the dynamics of habitat fragmentation and makes a strong case for the need to integrate data on historical processes with contemporary data., (© 2011 Blackwell Publishing Ltd.)

Published

2011

35. Are transposable element insertions homoplasy free?: an examination using the avian tree of life.

Author

Han KL, Braun EL, Kimball RT, Reddy S, Bowie RC, Braun MJ, Chojnowski JL, Hackett SJ, Harshman J, Huddleston CJ, Marks BD, Miglia KJ, Moore WS, Sheldon FH, Steadman DW, Witt CC, and Yuri T

Subjects

Algorithms, Animals, Evolution, Molecular, Exons, HMGN2 Protein, Introns, Molecular Sequence Data, Sequence Alignment, Sequence Analysis, DNA, Untranslated Regions, Birds classification, Birds genetics, DNA Transposable Elements, Genomics, Phylogeny

Published

2011

36. A new Indo-Malayan member of the Stenostiridae (Aves: Passeriformes) revealed by multilocus sequence data: biogeographical implications for a morphologically diverse clade of flycatchers.

Author

Fuchs J, Pasquet E, Couloux A, Fjeldså J, and Bowie RC

Subjects

Animals, Cell Nucleus genetics, DNA, Mitochondrial genetics, Geography, Sequence Analysis, DNA, Songbirds classification, Evolution, Molecular, Phylogeny, Songbirds genetics

Abstract

Recent molecular studies on passerine birds have highlighted numerous discrepancies between traditional classification and the phylogenetic relationships recovered from sequence data. Among the traditional families that were shown to be highly polyphyletic are the Muscicapidae Old World flycatcher. This family formerly included all Old World passerines that forage on small insects by performing short sallies from a perch. Genera previously allocated to the Muscicapidae are now thought to belong to at least seven unrelated lineages. While the peculiarity of most of these lineages has been previously recognized by Linnean classification, usually at the rank of families, one, the so-called Stenostiridae, a clade comprising three Afrotropical and Indo-Malayan genera, has only recently been discovered. Here, we address in greater detail the phylogenetic relationships and biogeographic history of the Stenostiridae using a combination of mitochondrial and nuclear data. Our analyses revealed that one species, Rhipidura hypoxantha, previously attributed to the Rhipiduridae (fantails), is in fact a member of the Stenostiridae radiation and sister to the South African endemic genus Stenostira (Fairy Flycatcher). Our dating analyses, performed in a relative-time framework, suggest that the splits between Stenostira/R. hypoxantha and Culicicapa/Elminia occurred synchronously. Given that the Stenostiridae assemblage has been consistently recovered by independent studies, we clarify its taxonomic validity under the rules of the International Code of Zoological Nomenclature.

Published

2009

37. Macrogeographical variation in the song of a widely distributed African warbler.

Author

Benedict L and Bowie RC

Subjects

Acoustics, Adaptation, Physiological, Africa, Animals, Geography, Male, Sex Factors, Sexual Behavior, Animal, Species Specificity, Songbirds physiology, Vocalization, Animal

Abstract

The songs of oscine passerine birds vary on many spatial scales, reflecting the actions of diverse evolutionary pressures. Here we examine the songs of Cisticola erythrops, which effectively signal species identity across a geographical area spanning 6500 km in sub-Saharan Africa. Selection for species identification should promote stability in song traits, while sexual selection and geographical segregation should promote diversity. Cisticola erythrops share syllable types across the entire range of species and structure songs similarly, but individuals sing highly variable songs through improvisational recombination of syllables. Patterns of syllable use change gradually across the range of the species and do not show distinct breaks at subspecies boundaries. The acoustic properties of the most common syllable type also change gradually with distance. The results illustrate how songs can be simultaneously species-specific and highly variable at an individual level. At a larger level, patterns of variation indicate that cultural drift has generated song diversity through an isolation by distance mechanism.

Published

2009

38. Microsatellites in the Karoo scrub-robin, Cercotrichas coryphaeus (Passeriformes: Muscicapinae): isolation and characterization of 13 autosomal and two sex-linked loci.

Author

Ribeiro A, Lloyd P, Feldheim KA, and Bowie RC

Abstract

Fifteen polymorphic microsatellites were developed for the Karoo scrub-robin, Cercotrichas coryphaeus. Here we describe and characterize microsatellite variation of 13 autosomal loci and two Z-linked loci in 42 individuals from two distinct South African populations. The number of alleles per locus varied from three to 13 and values of observed heterozygosity ranged from 0.318 to 0.900. These loci will be used to test hypotheses relating to fine-scale social structure and mating strategies in this cooperatively breeding species., (© 2009 The Authors. Journal compilation © 2009 Blackwell Publishing Ltd.)

Published

2009

39. A well-tested set of primers to amplify regions spread across the avian genome.

Author

Kimball RT, Braun EL, Barker FK, Bowie RC, Braun MJ, Chojnowski JL, Hackett SJ, Han KL, Harshman J, Heimer-Torres V, Holznagel W, Huddleston CJ, Marks BD, Miglia KJ, Moore WS, Reddy S, Sheldon FH, Smith JV, Witt CC, and Yuri T

Subjects

Animals, Genetic Markers, Genomics, Nucleic Acid Amplification Techniques, Birds genetics, DNA Primers genetics, Genome

Published

2009

40. The phylogenetic affinities of Crossley's babbler (Mystacornis crossleyi): adding a new niche to the vanga radiation of Madagascar.

Author

Johansson US, Bowie RC, Hackett SJ, and Schulenberg TS

Subjects

Animals, Fibrinogen genetics, Genes, Mitochondrial, Introns, Madagascar, Myoglobin genetics, Songbirds classification, Phylogeny, Songbirds genetics

Abstract

Crossley's babbler (Mystacornis crossleyi) is a passerine endemic to Madagascar. Traditionally, it has been classified as a babbler (Timaliidae), although affinities with warblers and vangas have been suggested. We investigated the phylogenetic affinities of Crossley's babbler using sequence data from two nuclear introns (myoglobin intron 2 and beta-fibrinogen intron 5) and one mitochondrial gene (ND2). We present for the first time (to our knowledge) a molecular phylogeny that confidently places this enigmatic species within the vangas (Vangidae). The inclusion of Crossley's babbler within the vangas adds another foraging niche--gleaning small invertebrates from the ground-to this already large adaptive radiation of songbirds.

Published

2008

41. Evidence for panmixia despite barriers to gene flow in the southern African endemic, Caffrogobius caffer (Teleostei: Gobiidae).

Author

Neethling M, Matthee CA, Bowie RC, and von der Heyden S

Subjects

Africa, Southern, Animal Migration, Animals, Genetic Variation, Haplotypes, Gene Flow, Perciformes classification, Perciformes genetics

Abstract

Background: Oceanography and life-history characteristics are known to influence the genetic structure of marine species, however the relative role that these factors play in shaping phylogeographic patterns remains unresolved. The population genetic structure of the endemic, rocky shore dwelling Caffrogobius caffer was investigated across a known major oceanographic barrier, Cape Agulhas, which has previously been shown to strongly influence genetic structuring of South African rocky shore and intertidal marine organisms. Given the variable and dynamic oceanographical features of the region, we further sought to test how the pattern of gene flow between C. caffer populations is affected by the dominant Agulhas and Benguela current systems of the southern oceans., Results: The variable 5' region of the mtDNA control region was amplified for 242 individuals from ten localities spanning the distributional range of C. caffer. Fifty-five haplotypes were recovered and in stark contrast to previous phylogeographic studies of South African marine species, C. caffer showed no significant population genetic structuring along 1300 km of coastline. The parsimony haplotype network, AMOVA and SAMOVA analyses revealed panmixia. Coalescent analyses reveal that gene flow in C. caffer is strongly asymmetrical and predominantly affected by the Agulhas Current. Notably, there was no gene flow between the east coast and all other populations, although all other analyses detect no significant population structure, suggesting a recent divergence. The mismatch distribution suggests that C. caffer underwent a population expansion at least 14,500 years ago., Conclusion: We propose several possible life-history adaptations that could have enabled C. caffer to maintain gene flow across its distributional range, including a long pelagic larval stage. We have shown that life-history characteristics can be an important contributing factor to the phylogeography of marine species and that the effects of oceanography do not necessarily suppress its influence on effective dispersal.

Published

2008

42. Significant population structure and asymmetric gene flow patterns amidst expanding populations of Clinus cottoides (Perciformes, Clinidae): application of molecular data to marine conservation planning in South Africa.

Author

von der Heyden S, Prochazka K, and Bowie RC

Subjects

Alleles, Animals, DNA, Mitochondrial genetics, Genetic Variation, Geography, Haplotypes, Indian Ocean, Models, Genetic, Phylogeny, Ribosomal Proteins genetics, Sequence Alignment, Sequence Analysis, DNA, South Africa, Water Movements, Conservation of Natural Resources, Gene Flow, Genetics, Population, Perciformes genetics

Abstract

Clinus cottoides is a fish endemic to the coast of South Africa, predominantly inhabiting rock pools. All South African clinids are viviparous, but probably breed throughout the year; as such, their dispersal may be limited, unlike species with pelagic larval stages. We analysed 343 fish from 14 localities on the west, south and east coasts using two mitochondrial genes and the second intron of the S7 ribosomal gene. Mitochondrial DNA analyses recovered significant genetic differentiation between fish populations from the east coast and other sampling locations, with a second break found between Gansbaai and Cape Agulhas on the south coast. Nuclear DNA recovered shallower, but significant, levels of population structure. Coalescent analyses suggested remarkably asymmetrical gene flow between sampling locations, suggesting that the cold Atlantic Benguela Current and Indian Ocean Agulhas counter-current play important roles in facilitating dispersal. There was no gene flow between the east coast and the other sites, suggesting that these populations are effectively isolated. Divergence times between them were estimated to at least 68 000 years. Neutrality tests and mismatch distributions suggest recent population expansions, with the exception of peripheral western and eastern populations (possibly a consequence of environmental extremes at the edge of the species distribution). Analyses of the current South African marine protected areas network show that it is not connected and that De Hoop, one of South Africa's largest marine reserves, appears to be an important source population of recruits to both the south and southwest coasts.

Published

2008

43. Phylogenomic evidence for multiple losses of flight in ratite birds.

Author

Harshman J, Braun EL, Braun MJ, Huddleston CJ, Bowie RC, Chojnowski JL, Hackett SJ, Han KL, Kimball RT, Marks BD, Miglia KJ, Moore WS, Reddy S, Sheldon FH, Steadman DW, Steppan SJ, Witt CC, and Yuri T

Subjects

Animals, Base Sequence, Cell Nucleus genetics, DNA genetics, Molecular Sequence Data, Sequence Alignment, Biological Evolution, Flight, Animal physiology, Genome genetics, Palaeognathae genetics, Palaeognathae physiology, Phylogeny

Abstract

Ratites (ostriches, emus, rheas, cassowaries, and kiwis) are large, flightless birds that have long fascinated biologists. Their current distribution on isolated southern land masses is believed to reflect the breakup of the paleocontinent of Gondwana. The prevailing view is that ratites are monophyletic, with the flighted tinamous as their sister group, suggesting a single loss of flight in the common ancestry of ratites. However, phylogenetic analyses of 20 unlinked nuclear genes reveal a genome-wide signal that unequivocally places tinamous within ratites, making ratites polyphyletic and suggesting multiple losses of flight. Phenomena that can mislead phylogenetic analyses, including long branch attraction, base compositional bias, discordance between gene trees and species trees, and sequence alignment errors, have been eliminated as explanations for this result. The most plausible hypothesis requires at least three losses of flight and explains the many morphological and behavioral similarities among ratites by parallel or convergent evolution. Finally, this phylogeny demands fundamental reconsideration of proposals that relate ratite evolution to continental drift.

Published

2008

44. Phylogenetic relationships within Passerida (Aves: Passeriformes): a review and a new molecular phylogeny based on three nuclear intron markers.

Author

Johansson US, Fjeldså J, and Bowie RC

Subjects

Animals, Bayes Theorem, DNA, Mitochondrial genetics, Evolution, Molecular, Fibrinogen genetics, Models, Genetic, Myoglobin genetics, Ornithine Decarboxylase genetics, Phylogeny, Cell Nucleus metabolism, Introns, Passeriformes genetics

Abstract

The avian clade Passerida was first identified based on DNA-DNA hybridization data [C.G. Sibley, J.E. Ahlquist, Phylogeny and Classification of Birds, 1990, Yale University Press, New Haven, CT]. Monophyly of the Passerida, with the exception of a few taxa, has later been corroborated in several studies; however, the basal phylogenetic relationships have remained poorly understood. In this paper, we review the current knowledge of the phylogenetic relationships within Passerida and present a new phylogeny based on three nuclear introns (myoglobin intron 2, ornithine decarboxylase introns 6 and 7, as well as beta-fibrinogen intron 5). Our findings corroborate recent molecular hypotheses, but also identify several hitherto unrecognized relationships.

Published

2008

45. Tracing the colonization history of the Indian Ocean scops-owls (Strigiformes: Otus) with further insight into the spatio-temporal origin of the Malagasy avifauna.

Author

Fuchs J, Pons JM, Goodman SM, Bretagnolle V, Melo M, Bowie RC, Currie D, Safford R, Virani MZ, Thomsett S, Hija A, Cruaud C, and Pasquet E

Subjects

Animals, DNA, Intergenic genetics, DNA, Mitochondrial genetics, Geography, Indian Ocean, Madagascar, Molecular Sequence Data, Population Dynamics, Sequence Analysis, DNA, Strigiformes genetics, Time Factors, Phylogeny, Strigiformes physiology

Abstract

Background: The island of Madagascar and surrounding volcanic and coralline islands are considered to form a biodiversity hotspot with large numbers of unique taxa. The origin of this endemic fauna can be explained by two different factors: vicariance or over-water-dispersal. Deciphering which factor explains the current distributional pattern of a given taxonomic group requires robust phylogenies as well as estimates of divergence times. The lineage of Indian Ocean scops-owls (Otus: Strigidae) includes six or seven species that are endemic to Madagascar and portions of the Comoros and Seychelles archipelagos; little is known about the species limits, biogeographic affinities and relationships to each other. In the present study, using DNA sequence data gathered from six loci, we examine the biogeographic history of the Indian Ocean scops-owls. We also compare the pattern and timing of colonization of the Indian Ocean islands by scops-owls with divergence times already proposed for other bird taxa., Results: Our analyses revealed that Indian Ocean islands scops-owls do not form a monophyletic assemblage: the Seychelles Otus insularis is genetically closer to the South-East Asian endemic O. sunia than to species from the Comoros and Madagascar. The Pemba Scops-owls O. pembaensis, often considered closely related to, if not conspecific with O. rutilus of Madagascar, is instead closely related to the African mainland O. senegalensis. Relationships among the Indian Ocean taxa from the Comoros and Madagascar are unresolved, despite the analysis of over 4000 bp, suggesting a diversification burst after the initial colonization event. We also highlight one case of putative back-colonization to the Asian mainland from an island ancestor (O. sunia). Our divergence date estimates, using a Bayesian relaxed clock method, suggest that all these events occurred during the last 3.6 myr; albeit colonization of the Indian Ocean islands were not synchronous, O. pembaensis diverged from O. senegalensis about 1.7 mya while species from Madagascar and the Comoro diverged from their continental sister-group about 3.6 mya. We highlight that our estimates coincide with estimates of diversification from other bird lineages., Conclusion: Our analyses revealed the occurrence of multiple synchronous colonization events of the Indian Ocean islands by scops-owls, at a time when faunistic exchanges involving Madagascar was common as a result of lowered sea-level that would have allowed the formation of stepping-stone islands. Patterns of diversification that emerged from the scops-owls data are: 1) a star-like pattern concerning the order of colonization of the Indian Ocean islands and 2) the high genetic distinctiveness among all Indian Ocean taxa, reinforcing their recognition as distinct species.

Published

2008

46. Phylogeny, biogeography and taxonomy of the African wattle-eyes (Aves: Passeriformes: Platysteiridae).

Author

Njabo KY, Bowie RC, and Sorenson MD

Subjects

Africa, Animals, DNA, Mitochondrial genetics, Fibrinogen genetics, Genetic Variation, Introns, Myoglobin genetics, NADH Dehydrogenase genetics, Phylogeny, Passeriformes classification, Passeriformes genetics

Abstract

The African wattle-eyes (genera Platysteira and Dyaphorophyia) comprise 10 species endemic to Africa. We analyzed both mitochondrial and nuclear DNA sequence data to test the monophyly of this group and its two genera, provide a preliminary assessment of species limits, and gain insight into the phylogeographic history of the wattle-eye radiation. Analyses based on mitochondrial ND2 sequences failed to recover wattle-eye monophyly, but the alternatives were not well-supported. In contrast, analyses of two nuclear introns (myoglobin intron-2 and beta-fibrinogen intron-5) recovered wattle-eye monophyly, as did combined analyses of mitochondrial and nuclear data. These analyses, however, did not support reciprocal monophyly of the two wattle-eye genera typically recognized, suggesting instead that Platysteira is nested within a paraphyletic Dyaphorophyia. The diversification of most wattle-eye species and many subspecies occurred through the divergence of allopatric populations well before the Pleistocene. Species and subspecies with disjunct distributions are typically characterized by deep genetic divergences, suggesting that many of these populations are evolutionary independent and could be recognized as additional phylogenetic species. In D. castanea and D. chalybea, for example, divergent haplotypes from geographically disjunct populations were paraphyletic with respect to those of D. tonsa and D. jamesoni, respectively. Similarly, Platysteira laticincta is highly divergent from its sister taxon P. peltata ( approximately 9.5% ND2 sequence divergence), consistent with species level recognition of this endangered species. In contrast, more broadly distributed taxa inhabiting a greater diversity of habitats (e.g., P. peltata and P. cyannea) show evidence of gene flow and connectivity among regions, suggesting that previously isolated populations expanded and fused into one another. Our study provides a framework for additional analyses of intraspecific phylogeography and species limits in these colorful birds.

Published

2008

47. A phylogenomic study of birds reveals their evolutionary history.

Author

Hackett SJ, Kimball RT, Reddy S, Bowie RC, Braun EL, Braun MJ, Chojnowski JL, Cox WA, Han KL, Harshman J, Huddleston CJ, Marks BD, Miglia KJ, Moore WS, Sheldon FH, Steadman DW, Witt CC, and Yuri T

Subjects

Algorithms, Animals, Biological Evolution, Ecosystem, Flight, Animal, Molecular Sequence Data, Sequence Alignment, Sequence Analysis, DNA, Birds classification, Birds genetics, Genome, Genomics, Phylogeny

Abstract

Deep avian evolutionary relationships have been difficult to resolve as a result of a putative explosive radiation. Our study examined approximately 32 kilobases of aligned nuclear DNA sequences from 19 independent loci for 169 species, representing all major extant groups, and recovered a robust phylogeny from a genome-wide signal supported by multiple analytical methods. We documented well-supported, previously unrecognized interordinal relationships (such as a sister relationship between passerines and parrots) and corroborated previously contentious groupings (such as flamingos and grebes). Our conclusions challenge current classifications and alter our understanding of trait evolution; for example, some diurnal birds evolved from nocturnal ancestors. Our results provide a valuable resource for phylogenetic and comparative studies in birds.

Published

2008

48. Isolation and characterization of 10 tetranucleotide microsatellite loci from the yellow-streaked greenbul (Phyllastrephus flavostriatus) and cross-species amplification in four closely related taxa.

Author

Lokugalappatti LG, Feldheim KA, Sellas AB, and Bowie RC

Abstract

We describe the isolation of 10 tetranucleotide microsatellite loci from the yellow-streaked greenbul using an enrichment protocol. All loci were highly variable with the number of alleles ranging from 8 to 13, and observed heterozygosity ranging from 0.652 to 0.870. All loci were in Hardy-Weinberg equilibrium; however, loci Pfl12 and Pfl54 showed significant linkage disequilibrium. All 10 loci successfully amplified and were polymorphic in at least one of four related Phyllastrephus species. These loci should prove to be widely applicable to studies of phylogeography, hybridization and paternity in African greenbuls., (© 2007 The Authors.)

Published

2008

49. Explosive avian radiations and multi-directional dispersal across Wallacea: evidence from the Campephagidae and other Crown Corvida (Aves).

Author

Jønsson KA, Irestedt M, Fuchs J, Ericson PG, Christidis L, Bowie RC, Norman JA, Pasquet E, and Fjeldså J

Subjects

Animals, Base Sequence, DNA Primers, Birds classification, Phylogeny

Abstract

The systematic relationships among avian families within Crown Corvida have been poorly studied so far and as such been of limited use for biogeographic interpretations. The group has its origin in Australia and is thought to have colonized Africa and the New World via Asia beginning some 35 Mya when terranes of Australian origin approached Asian landmasses. Recent detailed tectonic mapping of the origin of land masses in the region around Wallace's line have revealed a particularly complex movement of terranes over the last 20-30 Myr. Thus the biogeographic dispersal pattern of Crown Corvida is a particularly exciting case for linking vicariance and dispersal events with Earth history. Here we examine phylogenetic affinities among 72 taxa covering a broad range of genera in the basal radiations within Crown Corvida with an emphasis on Campephagidae and Pachycephalidae. Bayesian analyses of nuclear DNA sequence data identified the family Campephagidae as monophyletic but the large genus Coracina is not. Within the family Pachycephalidae the genera Pachycephala and Colluricincla are paraphyletic with respect to each other. The resulting phylogeny suggests that patterns of dispersal across Wallace's line are complex and began at least 25 Mya. We find evidence of explosive radiations and multi-directional dispersal within the last 10 Myr, and three independent long distance ocean dispersal events between Wallacea and Africa at 10-15 Mya. Furthermore, the study reveals that in the Campephagidae a complex series of dispersal events rather than vicariance is the most likely explanation for the current biogeographic pattern in the region.

Published

2008

50. PERMANENT GENETIC RESOURCES: Isolation and characterization of 10 tetranucleotide microsatellite loci in an enigmatic East African bird, the spot-throat (Modulatrix stictigula).

Author

Sellas AB, Feldheim KA, and Bowie RC

Abstract

We describe the isolation of 10 tetranucleotide microsatellites from the spot-throat using an enrichment protocol. All loci were highly variable with the number of alleles ranging from six to 20 and observed heterozygosity ranging from 0.410 to 0.940. Although all loci were in Hardy-Weinberg equilibrium, locus Mst95 showed significant homozygote excess in both surveyed populations, possibly a consequence of the presence of null alleles at this locus. These loci will be used to determine the extent to which spot-throat populations are isolated in order to help set conservation priorities for this ancient African lineage., (© 2007 The Authors.)

Published

2008