14 results on '"Peñalba, Joshua V."'
Search Results
2. Modelling dispersal in a large parrot: a comparison of landscape resistance models with population genetics and vocal dialect patterns
- Author
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Keighley, Miles V., Langmore, Naomi E., Peñalba, Joshua V., and Heinsohn, Robert
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- 2020
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3. Characterizing divergence through three adjacent Australian avian transition zones
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Peñalba, Joshua V., Mason, Ian J., Schodde, Richard, Moritz, Craig, and Joseph, Leo
- Published
- 2017
4. Social selection parapatry in Afrotropical sunbirds
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McEntee, Jay P., Peñalba, Joshua V., Werema, Chacha, Mulungu, Elia, Mbilinyi, Maneno, Moyer, David, Hansen, Louis, Fjeldså, Jon, and Bowie, Rauri C. K.
- Published
- 2016
5. Sustained plumage divergence despite weak genomic differentiation and broad sympatry in sister species of Australian woodswallows (Artamus spp.).
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Peñalba, Joshua V., Peters, Jeffrey L., and Joseph, Leo
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SYMPATRIC speciation , *MITOCHONDRIAL DNA , *POPULATION differentiation , *GENE flow , *SPECIES , *FEATHERS , *HYBRID zones - Abstract
Plumage divergence can function as a strong premating barrier when species come into secondary contact. When it fails to do so, the results are often genome homogenization and phenotypic hybrids at the zone of contact. This is not the case in the largely sympatric masked woodswallow and white‐browed woodswallow species (Passeriformes: Artamidae: Artamus spp) complex in Australia where phenotypic integrity is sustained despite no discernible mitochondrial structure in earlier work. This lack of structure may suggest recent divergence, ongoing gene flow or both, and phenotypic hybrids are reported albeit rarely. Here, we further assessed the population structure and differentiation across the species' nuclear genomes using ddRAD‐seq. As found in the mitochondrial genome, no structure or divergence within or between the two species was detected in the nuclear genome. This coarse sampling of the genome nonetheless revealed peaks of differentiation around the genes SOX5 and AXIN1. Both are involved in the Wnt/β‐catenin signalling pathway, which regulates feather development. Reconstruction of demographic history and estimation of parameters supports a scenario of secondary contact. Our study informs how divergent plumage morphs may arise and be sustained despite whole‐genome homogenization and reveals new candidate genes potentially involved in plumage divergence. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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6. Punctuated evolution in the learned songs of African sunbirds.
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McEnte, Jay P., Zhelezov, Gleb, Werema, Chacha, Najar, Nadje, Peñalba, Joshua V., Mulungu, Elia, Mbilinyi, Maneno, Karimi, Sylvester, Chumakova, Lyubov, Burleigh, J. Gordon, and Bowie, Rauri C. K.
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BIRDSONGS ,SONGS ,SONGBIRDS ,PHENOTYPIC plasticity - Abstract
Learned traits are thought to be subject to different evolutionary dynamics than other phenotypes, but their evolutionary tempo and mode has received little attention. Learned bird song has been thought to be subject to rapid and constant evolution. However, we know little about the evolutionary modes of learned song divergence over long timescales. Here, we provide evidence that aspects of the territorial songs of Eastern Afromontane sky island sunbirds Cinnyris evolve in a punctuated fashion, with periods of stasis of the order of hundreds of thousands of years or more, broken up by evolutionary pulses. Stasis in learned songs is inconsistent with learned traits being subject to constant or frequent change, as would be expected if selection does not constrain song phenotypes over evolutionary timescales. Learned song may instead follow a process resembling peak shifts on adaptive landscapes. While much research has focused on the potential for rapid evolution in bird song, our results suggest that selection can tightly constrain the evolution of learned songs over long timescales. More broadly, these results demonstrate that some aspects of highly variable, plastic traits can exhibit punctuated evolution, with stasis over long time periods. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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7. hiphop: Improved paternity assignment among close relatives using a simple exclusion method for biallelic markers.
- Author
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Cockburn, Andrew, Peñalba, Joshua V., Jaccoud, Damian, Kilian, Andrzej, Brouwer, Lyanne, Double, Michael C., Margraf, Nicolas, Osmond, Helen L., Kruuk, Loeske E. B., and Pol, Martijn
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HIP-hop culture , *PATERNITY , *ADULTS , *BIRD breeding , *GENETIC markers - Abstract
Assignment of parentage with molecular markers is most difficult when the true parents have close relatives in the adult population. Here, we present an efficient solution to that problem by extending simple exclusion approaches to parentage analysis with single nucleotide polymorphic markers (SNPs). We augmented the previously published homozygote opposite test (hot), which counts mismatches due to the offspring and candidate parent having different homozygous genotypes, with an additional test. In this case, parents homozygous for the same SNP are incompatible with heterozygous offspring (i.e., "Homozygous Identical Parents, Heterozygous Offspring are Precluded": hiphop). We tested this approach in a cooperatively breeding bird, the superb fairy‐wren, Malurus cyaneus, where rates of extra‐pair paternity are exceptionally high, and where paternity assignment is challenging because breeding males typically have first‐order adult relatives in their neighbourhood. Combining the tests and conditioning on the maternal genotype with a set of 1376 autosomal SNPs always allowed us to distinguish a single most likely sire from his relatives, and also to identify cases where the true sire must have been unsampled. In contrast, if just the hot test was used, we failed to identify a single most‐likely sire in 2.5% of cases. Resampling enabled us to create guidelines for the number of SNPs required when first‐order relatives coexist in the mating pool. Our method, implemented in the R package hiphop, therefore provides unambiguous parentage assignments even in systems with complex social organisation. We also identified a suite of Z‐ and W‐linked SNPs that always identified sex correctly. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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8. Genome of an iconic Australian bird: High‐quality assembly and linkage map of the superb fairy‐wren (Malurus cyaneus).
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Peñalba, Joshua V., Deng, Yuan, Fang, Qi, Joseph, Leo, Moritz, Craig, and Cockburn, Andrew
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COMPARATIVE genomics , *GENOMES , *SHOTGUN sequencing , *GREAT tit , *ZEBRA finch , *GENETIC recombination - Abstract
The superb fairy‐wren, Malurus cyaneus, is one of the most iconic Australian passerine species. This species belongs to an endemic Australasian clade, Meliphagides, which diversified early in the evolution of the oscine passerines. Today, the oscine passerines comprise almost half of all avian species diversity. Despite the rapid increase of available bird genome assemblies, this part of the avian tree has not yet been represented by a high‐quality reference. To rectify that, we present the first high‐quality genome assembly of a Meliphagides representative: the superb fairy‐wren. We combined Illumina shotgun and mate‐pair sequences, PacBio long‐reads, and a genetic linkage map from an intensively sampled pedigree of a wild population to generate this genome assembly. Of the final assembled 1.07‐Gb genome, 975 Mb (90.4%) was anchored onto 25 pseudochromosomes resulting in a final superscaffold N50 of 68.11 Mb. This high‐quality bird genome assembly is one of only a handful which is also accompanied by a genetic map and recombination landscape. In comparison to other pedigree‐based bird genetic maps, we find that the fairy‐wren genetic map more closely resembles those of Taeniopygia guttata and Parus major maps, unlike the Ficedula albicollis map which more closely resembles that of Gallus gallus. Lastly, we also provide a predictive gene and repeat annotation of the genome assembly. This new high‐quality, annotated genome assembly will be an invaluable resource not only regarding the superb fairy‐wren species and relatives but also broadly across the avian tree by providing a novel reference point for comparative genomic analyses. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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9. Current geography masks dynamic history of gene flow during speciation in northern Australian birds.
- Author
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Peñalba, Joshua V., Joseph, Leo, and Moritz, Craig
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HONEYEATERS , *GENETIC speciation , *VICARIANCE , *BIOGEOGRAPHY , *POPULATION differentiation - Abstract
Genome divergence is greatly influenced by gene flow during early stages of speciation. As populations differentiate, geographic barriers can constrain gene flow and so affect the dynamics of divergence and speciation. Current geography, specifically disjunction and continuity of ranges, is often used to predict the historical gene flow during the divergence process. We test this prediction in eight meliphagoid bird species complexes codistributed in four regions. These regions are separated by known biogeographical barriers across northern Australia and Papua New Guinea. We find that bird populations currently separated by terrestrial habitat barriers within Australia and marine barriers between Australia and Papua New Guinea have a range of divergence levels and probability of gene flow not associated with current range connectivity. Instead, geographic distance and historical range connectivity better predict divergence and probability of gene flow. In this dynamic environmental context, we also find support for a nonlinear decrease of the probability of gene flow during the divergence process. The probability of gene flow initially decreases gradually after a certain level of divergence is reached. Its decrease then accelerates until the probability is close to zero. This implies that although geographic connectivity may have more of an effect early in speciation, other factors associated with higher divergence may play a more important role in influencing gene flow midway through and later in speciation. Current geographic connectivity may then mislead inferences regarding potential for gene flow during speciation under a complex and dynamic history of geographic and reproductive isolation. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
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10. Genomic population structure aligns with vocal dialects in Palm Cockatoos (Probosciger aterrimus); evidence for refugial late-Quaternary distribution?
- Author
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Keighley, Miles V., Heinsohn, Robert, Langmore, Naomi E., Murphy, Stephen A., and Peñalba, Joshua V.
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PALM cockatoos ,COCKATOOS - Abstract
Species persistence and maintenance of genetic diversity are strongly affected by dispersal and historical distribution, especially when species depend on habitat that is non-uniform or fluctuates dramatically with changing climate. Australo-Papuan rainforest has fluctuated dramatically since the last glacial maximum (around 20 kya). To understand how prehistoric climate fluctuation affected population connectivity and genetic diversity in a rainforest edge species, we screened 27 Palm Cockatoo samples from Cape York Peninsula (Australia) and southern Papua New Guinea (PNG) in 1132 single nucleotide polymorphisms in 342 nuclear loci and the mitochondrial ND2 gene. We also modelled the birds' distribution at present, mid-Holocene (~6 kya) and the last glacial maximum (~21 kya). Population differentiation in nuclear genomic data among Australian populations aligns with distribution contraction to mountainous refugia at the mid-Holocene (~6 kya). Lack of nuclear divergence between PNG and Australia may reflect late-Holocene recolonisation, but different ND2 haplotypes suggest early stages of divergence. Although admixed individuals suggest some gene flow, recent movement restriction to/from Australian refugia is suggested by a unique ND2 haplotype, genomic divergence and a vocal dialect boundary shown previously. Our results show how prehistoric climate fluctuation affects present-day and future species conservation in dynamic rainforest edge ecosystems. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
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11. Sequence capture using PCR-generated probes: a cost-effective method of targeted high-throughput sequencing for nonmodel organisms.
- Author
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Peñalba, Joshua V., Smith, Lydia L., Tonione, Maria A., Sass, Chodon, Hykin, Sarah M., Skipwith, Phillip L., McGuire, Jimmy A., Bowie, Rauri C. K., and Moritz, Craig
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POLYMERASE chain reaction methodology , *COST effectiveness , *PHYLOGENY , *LOCUS (Genetics) , *PHYLOGEOGRAPHY - 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. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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12. 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.
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Voelker, Gary, Peñalba, Joshua V., Huntley, Jerry W., and Bowie, Rauri C.K.
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SONGBIRDS , *BIODIVERSITY , *ERYTHROPYGIA , *GENETIC speciation , *DISPERSAL (Ecology) , *COLONIZATION (Ecology) , *MOLECULAR phylogeny - Abstract
Highlights: [•] We present a molecular phylogeny of Erythropygia and allies. [•] We use this phylogeny to assess the biogeographic history of the group. [•] Ancestral area reconstructions reveal multiple over-water dispersals. [•] Intra-African patterns suggest a south to north colonization pattern. [Copyright &y& Elsevier]
- Published
- 2014
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13. Resolving taxonomic uncertainty and historical biogeographic patterns in Muscicapa flycatchers and their allies.
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Voelker, Gary, Huntley, Jerry W., Peñalba, Joshua V., and Bowie, Rauri C.K.
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MUSCICAPA , *HABITATS , *BIOGEOGRAPHY , *BIOLOGICAL classification , *TROPICAL forests - Abstract
Muscicapa flycatchers and their allies ( Bradornis , Dioptornis , Empidornis , Fraseria , Myioparus , Namibornis , and Sigelus ) are widely distributed in Africa, Europe and Asia. This broad distribution and the wide variety of habitats occupied by the group, ranging from arid to tropical forests, presents an interesting opportunity to explore the evolution of biogeographic patterns and habitat associations. Sequence data (up to 3310 base pairs from two mitochondrial and two nuclear genes) were generated for 36 of 42 species which comprise the assemblage. Complementary data from an additional species was retrieved from GenBank, as was an additional gene which was available for 21 of our included taxa. 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 LaGrange and BioGeoBEARS. Our results indicate that Bradornis , Fraseria , and Muscicapa are each non-monophyletic, with the latter being shown to comprise five separate clades each more closely related to other genera. Two new genera ( Chapinia and Ripleyia ) are erected to account for these results. Muscicapa and allies originated c. 7.4 Ma, most likely in Africa given that their sister lineage is almost entirely from there, and rapidly achieved a Eurasian distribution by c. 7.1 Ma. A second divergence at c. 6.1 Ma resulted in two clades. The first is a largely Eurasian clade that subsequently recolonized Africa, perhaps as the result of the loss of migration. The second is an African clade, and ancestral reconstructions suggest a Congolian (e.g. tropical forest) origin for this clade, with several subsequent diversifications into more arid habitats. This is a unique result, as most tropical forest lineages are confined to that habitat. As with other studies of African bird lineages, Afrotropical forest dynamics appear to have played a significant role in driving diversification in Muscicapa and allies, and our results include just the second recorded case of southern to northern African colonization patterns. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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14. Molecular phylogenetics suggests a New Guinean origin and frequent episodes of founder-event speciation in the nectarivorous lories and lorikeets (Aves: Psittaciformes).
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Schweizer, Manuel, Wright, Timothy F., Peñalba, Joshua V., Schirtzinger, Erin E., and Joseph, Leo
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MOLECULAR phylogeny , *GENETIC speciation , *NECTARIVORES , *PARROTS , *BIOGEOGRAPHY - Abstract
The lories and lorikeets (Aves: Loriinae: Loriini) are a readily recognizable, discrete group of nectarivorous parrots confined to the Indo-Pacific region between Wallace’s Line and the Pitcairn Island group in the central-east Pacific Ocean. We present the first phylogenetic analysis of all currently recognized genera in the group using two mitochondrial and five nuclear loci. Our analyses suggest a New Guinean origin for the group at about 10 million years ago (95% HPD 4.8–14.8) but this origin must be interpreted within the context of that island’s complicated, recent geological history. That is, the origin and early diversification of the group may have taken place as New Guinea’s Central Cordillera arose and the final constituent terranes that form present-day New Guinea were accreted. The latter activity may have promoted dispersal as a key element in the group’s history. We have detected several instances of dispersal out of New Guinea that we argue constitute instances of founder-event speciation. Some phenotypically cohesive genera are affirmed as monophyletic but other genera are clearly in need of taxonomic dismantlement and reclassification. We recognize Parvipsitta Mathews, 1916 for two species usually placed in Glossopsitta and we advocate transfer of Chalcopsitta cardinalis into Pseudeos Peters, 1935. Other non-monophyletic genera such as Charmosyna , Psitteuteles and, probably, Trichoglossus , require improved taxon sampling and further phylogenetic analysis before their systematics can be resolved. Cursory examination of trait mapping across the group suggests that many traits are ancestral and of little use in determining genus-level systematics. [ABSTRACT FROM AUTHOR]
- Published
- 2015
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