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13 results on '"Jerry W. Huntley"'

1. Comparative Phylogeography of Southern African Bird Species Suggests an Ephemeral Speciation Model

Author

Gary Voelker, Guinevere O. U. Wogan, Jerry W. Huntley, and Rauri C. K. Bowie

Subjects
Africa, climate change, comparative phylogeography, ecological niche modeling, ephemeral speciation, refugia, Biology (General), QH301-705.5
Abstract

Southern Africa is remarkably rich in avian species diversity; however, the evolutionary and biogeographic mechanisms responsible for that diversity are, in general, poorly understood, and this is particularly true with respect to the many species that are endemic or near-endemic to the region. Here, we used mtDNA to assess genetic structure in three southern African bird species to determine whether each was genetically panmictic, or whether there was standing genetic variation upon which abiotic factors (e.g., climate, biome boundaries, geographic features) could have acted to drive lineage diversification. Haplotype diversity was partitioned into two (two species) or three (one species) distinct haplotype clusters that did not reflect biogeographic or biome partitioning; instead, haplotype clusters overlapped in central South Africa. Population and demographic analyses, along with ecological niche modeling and Bayesian Skyline Plots, indicated that each of the three species were likely isolated in refugia during Pleistocene climatic perturbations, with subsequent expansions from refugia resulting in present-day overlapping distributions. Collectively, our analyses suggest that an ephemeral speciation model is operating in southern Africa, driven by the dynamic climatic oscillations that characterize the region. At least some of the regional endemic bird species (e.g., White-eyes, Zosterops spp.) may be the result of sufficiently long periods in refugia as opposed to the distinct but ephemeral clusters recovered within our three focal species.

Published
2021
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3. Shifting ecosystem connectivity during the Pleistocene drove diversification and gene‐flow in a species complex of Neotropical birds (Tityridae: Pachyramphus)

Author

Gregory Thom, Lukas J. Musher, Mary E. Blair, Peter J. Galante, and Jerry W. Huntley

Subjects
0106 biological sciences, 0303 health sciences, Species complex, Ecology, biology, Pleistocene, Introgression, Diversification (marketing strategy), biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Gene flow, Pachyramphus, 03 medical and health sciences, Geography, Tityridae, Ecosystem, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology
Published
2020

6. Molecular systematics and biogeographic history of the African climbing-mouse complex (Dendromus)

Author

Josef Bryja, Violaine Nicolas, Radim Šumbera, Christiane Denys, Gary Voelker, Leonid A. Lavrenchenko, Terrence C. Demos, Thomas P. Gnoske, Jerry W. Huntley, J. C. Kerbis Peterhans, Institut de Systématique, Evolution, Biodiversité (ISYEB ), Muséum national d'Histoire naturelle (MNHN)-École pratique des hautes études (EPHE), and Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Université des Antilles (UA)

Subjects
0106 biological sciences, 0301 basic medicine, Systematics, Range (biology), Biogeography, [SDV]Life Sciences [q-bio], Dendromus, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Monophyly, Mice, South Africa, Genus, Genetics, Animals, Endemism, Molecular Biology, Ecology, Evolution, Behavior and Systematics, ComputingMilieux_MISCELLANEOUS, Ecosystem, Phylogeny, biology, 15. Life on land, biology.organism_classification, Muridae, Africa, Western, Phylogeography, 030104 developmental biology, Evolutionary biology, Molecular phylogenetics
Abstract

Climbing mice in the genus Dendromus (sensu lato) are widely distributed in Africa, south of the Saharan Desert. The 17 currently recognized species in the genus range from widespread taxa to single-mountain endemics, and there is considerable variation across species with respect to habitats occupied. These habitats range from arid grasslands and savannahs to sub-alpine and alpine vegetation. Using the most comprehensive geographic and genetic survey to date and after reviewing many type specimens, we assess the systematics and biogeography of Dendromus. Given the structure of our molecular phylogenetic hypotheses, in which we recover six major clades, we propose the recognition of three genera within the Dendromus group (sensu lato): in addition to Dendromus (26 lineages), we suggest the retention of Megadendromus (monotypic) and the resurrection of the genus Poemys (six lineages). From our model-based molecular phylogenetic results and morphological comparisons, we suggest that six formerly synonymized taxa should be resurrected, and we highlight 14 previously undescribed lineages. We also constructed time-calibrations on our phylogeny, and performed ancestral area reconstructions using BioGeoBEARS. Based on fossil evidence, Dendromus appears to have had a widespread African distribution dating back to the Late Miocene (8–10 Ma), and our basal ancestral area reconstruction (Ethiopians Highlands + Eastern African Mountains + Zambezian region) supports this. Divergence of the six major clades we recover (Poemys, Megadendromus and four within Dendromus) occurred prior to or at the Miocene-Pliocene boundary 5.3 Ma. Biogeographically, Megadendromus is restricted to the Ethiopian Highlands. The ancestral area for Poemys is reconstructed as the Zambezian region, with species distributions ranging from South Africa to Western Africa. The ancestral area for Dendromus is reconstructed as the Ethiopian Highlands, with the ancestral areas of the four major clades being reconstructed as Ethiopian Highlands, Albertine Rift, South Africa or Western Africa. None of the four Dendromus clades are reciprocally monophyletic with respect to distributional area.

Published
2020

7. Three new species of Stiphrornis (Aves: Muscicapidae) from the Afro-tropics, with a molecular phylogenetic assessment of the genus

Author

Dick S.J. Groenenberg, Heather L. Prestridge, Alyssa D. Martin, Jerry W. Huntley, Michael Tobler, Elza Duijm, Mark R. Hutchinson, Gary Voelker, C.S. Roselaar, and Aline M. Nieman

Subjects
0106 biological sciences, 0301 basic medicine, Systematics, Species complex, biology, Phylogenetic tree, Ecology, Lineage (evolution), Morphology (biology), Plant Science, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, 030104 developmental biology, Plumage, Genus, parasitic diseases, Forest robin, Ecology, Evolution, Behavior and Systematics
Abstract

We describe three new species of forest robin in the genus Stiphrornis; two from West Africa and one from the Congo Basin. Each species represents a distinct phylogenetic lineage based on genetic analysis. In addition to genetic differentiation, each new species is diagnosable from other Stiphrornis lineages by morphology, and by plumage. One of the new species appears to be restricted to the Central and Brong-Ahafo Regions of Ghana, and another is restricted to Benin and the Central Region of Ghana. In Ghana, these two new species presumably come into contact with Stiphrornis erythrothorax (Western Region of Ghana and westward), and there is evidence that one of the new species has a distinguishably different song from erythrothorax. The distribution of the third new species is primarily on the south bank of the Congo River, near the city of Kisangani. Recognition of these species provides additional evidence that Afrotropical forests are harbouring substantial cryptic diversity, and that our knowledge o...

Published
2016

8. Resolving taxonomic uncertainty and historical biogeographic patterns in Muscicapa flycatchers and their allies

Author

Joshua V. Peñalba, Rauri C. K. Bowie, Jerry W. Huntley, and Gary Voelker

Subjects
0106 biological sciences, 0301 basic medicine, Systematics, Asia, Lineage (evolution), 010603 evolutionary biology, 01 natural sciences, Evolution, Molecular, Songbirds, 03 medical and health sciences, Phylogenetics, Genetics, Animals, Clade, Molecular clock, Molecular Biology, Ecosystem, Phylogeny, Ecology, Evolution, Behavior and Systematics, Muscicapa, Phylogenetic tree, biology, Ecology, Uncertainty, Bayes Theorem, 15. Life on land, biology.organism_classification, Europe, 030104 developmental biology, Taxon, Africa
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.

Published
2016

9. The systematics and biogeography of the Bearded Greenbuls (Aves: Criniger) reveals the impact of Plio-Pleistocene forest fragmentation on Afro-tropical avian diversity

Author

Marco Pavia, Gary Voelker, Giovanni Boano, Johanna A. Harvey, and Jerry W. Huntley

Subjects
0106 biological sciences, 0301 basic medicine, Systematics, Ecology, Biogeography, Plio-Pleistocene, Forest fragmentation, Biology, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, 030104 developmental biology, Avian diversity, Animal Science and Zoology, Criniger, Ecology, Evolution, Behavior and Systematics
Published
2018

10. 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

Joshua V. Peñalba, Rauri C. K. Bowie, Gary Voelker, and Jerry W. Huntley

Subjects
Paraphyly, Genetic Speciation, Oceans and Seas, Lineage (evolution), Biology, Evolution, Molecular, Songbirds, Monophyly, Indian Ocean Islands, parasitic diseases, Genetics, Animals, Clade, Molecular clock, Molecular Biology, Asia, Southeastern, Phylogeny, Ecology, Evolution, Behavior and Systematics, Ecology, Sequence Analysis, DNA, Founder Effect, Phylogeography, Taxon, Africa, Biological dispersal
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.

Published
2014

11. Food Habits of Ocelots and Potential for Competition With Bobcats In Southern Texas

Author

Linda L. Laack, Jerry W. Huntley, Louis C. Bender, Susan D. Booth-Binczik, Johanna A. Harvey, Cody W. Thompson, Robert D. Bradley, and Jody L. Mays

Subjects
Leopardus, education.field_of_study, Ecology, media_common.quotation_subject, Foraging, Population, Endangered species, Biology, biology.organism_classification, Mexican spiny pocket mouse, Competition (biology), Predation, Habitat, education, Ecology, Evolution, Behavior and Systematics, media_common
Abstract

Recovery efforts for the endangered ocelot (Leopardus pardalis) would be aided by knowledge of its feeding ecology in the affected region. We analyzed scat of ocelots and bobcats (Lynx rufus) from southern Texas. As has been found for most other populations of ocelots, rodents were the primary prey, but the principal species of rodent, the Mexican spiny pocket mouse (Liomys irroratus), is smaller than the principal prey reported for other populations of ocelots. Lagomorphs were more common prey than has been reported in other studies of ocelots, and birds more common prey than in all but one previous study. The diet of bobcats appeared similar overall to the diet of ocelots, but lagomorphs occurred in a significantly higher proportion of scats from bobcats. The data suggest that bobcats also preyed more heavily on the largest rodents and less on the medium-sized rodents than ocelots did. There was no clear division by type of habitat; both felids preyed approximately equally on species that are found primarily in grassland and those that are found in thornscrub. Near the United States-Mexico border, where the ranges of these felids overlap, there is the potential for substantial competition for resources between the two species. An important component of efforts to restore the population of ocelots in this region, therefore, will be a thorough investigation of this possibility. Studies of the dietary differences when both or only one of the felid species is present in an area, use of foraging habitat by both species, and the relationship between densities of prey and felids would allow the likelihood of negative impacts of competition to be fully evaluated.

Published
2013

12. River barriers and cryptic biodiversity in an evolutionary museum

Author

E. Mulotwa, Jessica E. Light, Gary Voelker, Charles Kahindo, Ben D. Marks, Jerry W. Huntley, U. A'genonga, L. E. Duffie, F. Bapeamoni, and S. A. Rosenbaum

Subjects
0106 biological sciences, Pleistocene, Range (biology), Lineage (evolution), Biodiversity, Structural basin, Louse, 010603 evolutionary biology, 01 natural sciences, Gene flow, 03 medical and health sciences, biology.animal, river barriers, QH540-549.5, Ecology, Evolution, Behavior and Systematics, Original Research, 030304 developmental biology, Nature and Landscape Conservation, Congo River, cryptic diversity, 0303 health sciences, Ecology, biology, Understory, 15. Life on land, lice, birds, Afrotropics
Abstract

The Riverine Barriers Hypothesis (RBH) posits that tropical rivers can be effective barriers to gene flow, based on observations that range boundaries often coincide with river barriers. Over the last 160 years, the RBH has received attention from various perspectives, with a particular focus on vertebrates in the Amazon Basin. To our knowledge, no molecular assessment of the RBH has been conducted on birds in the Afrotropics, despite its rich avifauna and many Afrotropical bird species being widely distributed across numerous watersheds and basins. Here, we provide the first genetic evidence that an Afrotropical river has served as a barrier for birds and for their lice, based on four understory bird species collected from sites north and south of the Congo River. Our results indicate near‐contemporaneous, Pleistocene lineage diversification across the Congo River in these species. Our results further indicate differing levels of genetic variation in bird lice; the extent of this variation appears linked to the life‐history of both the host and the louse. Extensive cryptic diversity likely is being harbored in Afrotropical forests, in both understory birds and their lice. Therefore, these forests may not be “museums” of old lineages. Rather, substantial evolutionary diversification may have occurred in Afrotropical forests throughout the Pleistocene, supporting the Pleistocene Forest Refuge Hypothesis. Strong genetic variation in birds and their lice within a small part of the Congo Basin forest indicates that we may have grossly underestimated diversity in the Afrotropics, making these forests home of substantial biodiversity in need of conservation.

Published
2013

13. Cryptic diversity in Afro-tropical lowland forests: The systematics and biogeography of the avian genus Bleda

Author

Gary Voelker and Jerry W. Huntley

Subjects
0106 biological sciences, 0301 basic medicine, Systematics, Biogeography, Allopatric speciation, Biology, Forests, 010603 evolutionary biology, 01 natural sciences, DNA, Mitochondrial, 03 medical and health sciences, Monophyly, Genus, Genetics, Animals, Passeriformes, Molecular clock, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Phylogeny, Phylogenetic tree, Ecology, Genetic Variation, Bayes Theorem, Sequence Analysis, DNA, Biological Evolution, Phylogeography, Africa, Western, 030104 developmental biology, Haplotypes
Abstract

Recent investigations of distributional patterns of Afro-tropical lowland forest species have demonstrated to some degree our overall lack of understanding involving historical diversification patterns. Traditionally, researchers have relied upon two hypotheses, each of which views the lowland forest of Africa in differing roles. The Pleistocene Forest Refuge Hypothesis (PFRH) posits that biogeographic patterns of avian lowland species are explained via allopatric speciation during forest fragmentation cycles in the Pleistocene epoch (c. 1.8Ma-11,700Ka). The Montane Speciation Hypothesis (MSH) countered by suggesting that lowland forests are "evolutionary museums" where species, which originally evolved in montane forest refuge centers, remained without further diversification. Furthermore, investigations have largely regarded widespread, avian species which lack phenotypic variability as biogeographically "uninformative", with regards to historical biogeographic patterns. To test the tenets of these ideas, we investigated the systematics and biogeography of the genus Bleda, whose constituent species are restricted to lowland forest and are lacking in phenotypic variation. Using extracted DNA from 179 individuals, we amplified two mitochondrial genes and three nuclear loci and utilized Bayesian phylogenetic methods and molecular clock dating to develop a time-calibrated phylogeny of Bleda. We used LaGrange to develop an ancestral area reconstruction for the genus. Haplotype networks for three species were generated using Network. We recovered the four currently recognized species of Bleda, plus a monophyletic B. ugandae, a current sub-species which may warrant full species status. We found that the origins of the genus Bleda are estimated to be in the Upper Guinean forests of West Africa, dating to the Miocene (c. 7.5Ma), while the speciation events for the rest of the genus are dated to the Pliocene (c. 5-1.8Ma). Our analyses recovered discrete and highly differentiated geographic structuring of genetic diversity in West and Central Africa in three of five species, with many of the diversification events dating to the Pleistocene. The biogeographic patterns observed in Bleda can be explained through a combination of isolation via forest refuges during the Plio-Pleistocene and riverine barriers limiting secondary contact after forest expansion. We find evidence for the PFRH as a driver of intra-specific diversity, but conclude that it does not facilitate an explanation for speciation in the genus Bleda. The "evolutionary museum" concept furnished by the MSH is countered by our evidence of in situ diversification in the lowland forests of Africa. Additionally, our results provide strong evidence of the value of seemingly "uninformative" widespread avian taxa for revealing complex patterns of forest diversity. Overall, our study highlights that past researchers have both underestimated the amount of diversity found in lowland forests and failed to understand the complexity of historical forces shaping that diversity. Gaining a better understanding of lowland forest diversity and the historical factors which have shaped it will crucial in determining conservation tactics in the near future.

Published
2016

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