Your search keyword '"Per Alström"' showing total 152 results

1. Gene flow and an anomaly zone complicate phylogenomic inference in a rapidly radiated avian family (Prunellidae)

Author

Zhiyong Jiang, Wenqing Zang, Per G. P. Ericson, Gang Song, Shaoyuan Wu, Shaohong Feng, Sergei V. Drovetski, Gang Liu, Dezhi Zhang, Takema Saitoh, Per Alström, Scott V. Edwards, Fumin Lei, and Yanhua Qu

Subjects

Speciation, Phylogenomics, Topological incongruence, Interspecific introgression, Recombination rate, Z chromosome, Biology (General), QH301-705.5

Abstract

Abstract Background Resolving the phylogeny of rapidly radiating lineages presents a challenge when building the Tree of Life. An Old World avian family Prunellidae (Accentors) comprises twelve species that rapidly diversified at the Pliocene–Pleistocene boundary. Results Here we investigate the phylogenetic relationships of all species of Prunellidae using a chromosome-level de novo assembly of Prunella strophiata and 36 high-coverage resequenced genomes. We use homologous alignments of thousands of exonic and intronic loci to build the coalescent and concatenated phylogenies and recover four different species trees. Topology tests show a large degree of gene tree-species tree discordance but only 40–54% of intronic gene trees and 36–75% of exonic genic trees can be explained by incomplete lineage sorting and gene tree estimation errors. Estimated branch lengths for three successive internal branches in the inferred species trees suggest the existence of an empirical anomaly zone. The most common topology recovered for species in this anomaly zone was not similar to any coalescent or concatenated inference phylogenies, suggesting presence of anomalous gene trees. However, this interpretation is complicated by the presence of gene flow because extensive introgression was detected among these species. When exploring tree topology distributions, introgression, and regional variation in recombination rate, we find that many autosomal regions contain signatures of introgression and thus may mislead phylogenetic inference. Conversely, the phylogenetic signal is concentrated to regions with low-recombination rate, such as the Z chromosome, which are also more resistant to interspecific introgression. Conclusions Collectively, our results suggest that phylogenomic inference should consider the underlying genomic architecture to maximize the consistency of phylogenomic signal.

Published

2024

2. The formation of the Indo-Pacific montane avifauna

Author

Andrew Hart Reeve, Jonathan David Kennedy, José Martín Pujolar, Bent Petersen, Mozes P. K. Blom, Per Alström, Tri Haryoko, Per G. P. Ericson, Martin Irestedt, Johan A. A. Nylander, and Knud Andreas Jønsson

Subjects

Science

Abstract

Abstract The processes generating the earth’s montane biodiversity remain a matter of debate. Two contrasting hypotheses have been advanced to explain how montane populations form: via direct colonization from other mountains, or, alternatively, via upslope range shifts from adjacent lowland areas. We seek to reconcile these apparently conflicting hypotheses by asking whether a species’ ancestral geographic origin determines its mode of mountain colonization. Island-dwelling passerine birds at the faunal crossroads between Eurasia and Australo-Papua provide an ideal study system. We recover the phylogenetic relationships of the region’s montane species and reconstruct their ancestral geographic ranges, elevational ranges, and migratory behavior. We also perform genomic population studies of three super-dispersive montane species/clades with broad island distributions. Eurasian-origin species populated archipelagos via direct colonization between mountains. This mode of colonization appears related to ancestral adaptations to cold and seasonal climates, specifically short-distance migration. Australo-Papuan-origin mountain populations, by contrast, evolved from lowland ancestors, and highland distribution mostly precludes their further colonization of island mountains. Our study explains much of the distributional variation within a complex biological system, and provides a synthesis of two seemingly discordant hypotheses for montane community formation.

Published

2023

3. Recent Northward Expansion of a Passerine Bird Species, Brownish-Flanked Bush Warbler (Horornis fortipes)

Author

Qianyi Zhang, Per Alström, and Canwei Xia

Subjects

Horornis fortipes, Cettiidae, range expansion, avian distributions, residence status, climate change, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

Northward expansions of bird distributions have been commonly observed in the Northern Hemisphere, likely as a result of climate change. The causes and ecological impacts of such range shifts have received extensive attention, but studies on the process of range shifts are still relatively scarce. The Brownish-flanked Bush Warbler (Horornis fortipes) has expanded northward from 35° N to 40° N during the past decade. In this study, we collated 77 records of the species beyond its traditional distribution during the past ten years from citizen science data. Most of the new records were from northeast of its traditional distribution, including the North China Plain, Taihang Mountains, and Taishan Mountain, and a few records from the northern margin of the Qinling Mountains and Qinghai–Tibet Plateau. We concluded that the Brownish-flanked Bush Warbler has bred in this new area in at least six sites. The newly established populations are assumed to belong to the subspecies H. f. davidianus, which can be divided into eastern and western dialect groups based on differences in songs. Song recordings from 10 males from Beijing and its adjacent areas were collected. Bayesian analysis based on the acoustic traits indicated that these males were most likely from the western dialect area, with a posterior probability of 99.975%. Combining topographical data with the habitat preference of the species, we inferred that these individuals spread northeastward from the Qinling Mountains to Taihang Mountains, and further along the Yanshan Mountains. This study is a case study of the distribution expansion of a bird species, which reflects the dynamics of a species in the early stage of its northward expansion.

Published

2023

4. Systematics of the avian family Alaudidae using multilocus and genomic data

Author

Per Alström, Zeinolabedin Mohammadi, Erik D. Enbody, Martin Irestedt, Derek Engelbrecht, Pierre-André Crochet, Alban Guillaumet, Loïs Rancilhac, B. Irene Tieleman, Urban Olsson, Paul F. Donald, and Martin Stervander

Subjects

Phylogeny, Phylogenomics, Multispecies coalescent, Lark, Paraphyly, Taxonomy, Zoology, QL1-991

Abstract

The family Alaudidae, larks, comprises 93–100 species (depending on taxonomy) that are widely distributed across Africa and Eurasia, with single species extending their ranges to North and northernmost South America and Australia. A decade-old molecular phylogeny, comprising ∼80% of the species, revealed multiple cases of parallel evolution and large variation in rates of morphological evolution, which had misled taxonomists into creating many non-monophyletic genera. Here, we reconstruct the phylogeny of the larks, using a dataset covering one mitochondrial and 16 nuclear loci and comprising all except one of the currently recognised species as well as several recently proposed new species (in total 133 taxa; not all loci available for all species). We provide additional support using genome-wide markers to infer a genus-level phylogeny based on near-complete generic sampling (in total 51 samples of 44 taxa across 40 species). Our results confirm the previous findings of rampant morphological convergence and divergence, and reveal new cases of paraphyletic genera. We propose a new subfamily classification, and also that the genus Mirafra is divided into four genera to produce a more balanced generic classification of the Alaudidae. Our study supports recently proposed species splits as well as some recent lumps, while also questioning some of the latter. This comprehensive phylogeny will form an important basis for future studies, such as comparative studies of lark natural history, ecology, evolution and conservation.

Published

2023

5. Taxonomic status of grey-headed Yellow Wagtails breeding in western China

Author

Alexander Hellquist, Fredrik Friberg, Petter Haldén, Peter Schmidt, Ming Ma, Gou Jun, Urban Olsson, and Per Alström

Subjects

Bioacoustics, Mitochondrial DNA, Morphology, Motacilla flava, Systematics, Undescribed populations, Zoology, QL1-991

Abstract

Abstract Background Field studies from 2011 onwards have demonstrated the presence of a breeding population of Yellow Wagtails (Motacilla flava) in the Xinjiang Uygur Autonomous Region, China that is phenotypically distinct from known subspecies occurring in Asia. Here we describe the plumages and vocalisations of this population and discuss its taxonomic status. Methods The analysis of plumage is based on field studies and photos available online. Recordings of vocalisations are compared with recordings from other Yellow Wagtail populations, and differences are analysed based on sonograms. Mitochondrial DNA from one individual is compared to other Yellow Wagtail taxa. Results Unlike M. flava subspecies breeding in or near Xinjiang, males in the studied population show a blue-grey head without prominent white supercilium, being most similar to the widely disjunct M. f. cinereocapilla. They differ from the similarly widely allopatric M. f. thunbergi, which might occur as a migrant or vagrant in Xinjiang, by on average cleaner yellow breast and more extensive white on the throat, and from the widely disjunct M. f. plexa and M. f. macronyx, which might also occur on migration in that area, by softer contact calls and slower pace of song. Females are similar to female M. f. feldegg in plumage. The mitochondrial ND2 tree shows the single sample from Xinjiang to be nested in the clade of western Yellow Wagtail taxa. Conclusion We discuss whether the Xinjiang breeding population could represent an intergrade between subspecies breeding nearby, or whether it is better regarded as a separate as yet unrecognized subspecies. We argue that the localization of its apparent range in relation to other subspecies along with fairly consistent male and female plumages suggest that it is more likely to represent an undescribed taxon, but conclude that more research is needed to firmly establish its status.

Published

2021

6. Asymmetric introgression reveals the genetic architecture of a plumage trait

Author

Georgy A. Semenov, Ethan Linck, Erik D. Enbody, Rebecca B. Harris, David R. Khaydarov, Per Alström, Leif Andersson, and Scott A. Taylor

Subjects

Science

Abstract

Hybrid zones are windows into the evolutionary process. Semenov et al. find that the head plumage differences between white wagtail subspecies have a simple genetic basis involving two small genetic regions, in which partially dominant and epistatic interactions help to explain how this sexual signal has become decoupled from other plumage traits.

Published

2021

7. Elevational patterns of bird species richness on the eastern slope of Mt. Gongga, Sichuan Province, China

Author

Xingcheng He, Xiaoyi Wang, Shane DuBay, Andrew Hart Reeve, Per Alström, Jianghong Ran, Qiao Liu, and Yongjie Wu

Subjects

Mt. Gongga, Elevational gradient, Environmental factors, Species richness, Stable microclimate, Zoology, QL1-991

Abstract

Abstract Background In biological systems, biological diversity often displays a rapid turn-over across elevations. This defining feature has made mountains classic systems for studying the spatial variation in diversity. Because patterns of elevational diversity can vary among lineages and mountain systems it remains difficult to extrapolate findings from one montane region to another, or among lineages. In this study, we assessed patterns and drivers of avian diversity along an elevational gradient on the eastern slope of Mt. Gongga, the highest peak in the Hengduan Mountain Range in central China, and a mountain where comprehensive studies of avian diversity are still lacking. Methods We surveyed bird species in eight 400-m elevational bands from 1200 to 4400 m a.s.l. between 2012 and 2017. To test the relationship between bird species richness and environmental factors, we examined the relative importance of seven ecological variables on breeding season distribution patterns: land area (LA), mean daily temperature (MDT), seasonal temperature range (STR), the mid-domain effect (MDE), seasonal precipitation (SP), invertebrate biomass (IB) and enhanced vegetation index (EVI). Climate data were obtained from five local meteorological stations and three temperature/relative humidity smart sensors in 2016. Results A total of 219 bird species were recorded in the field, of which 204 were recorded during the breeding season (April–August). Species richness curves (calculated separately for total species, large-ranged species, and small-ranged species) were all hump-shaped. Large-ranged species contributed more to the total species richness pattern than small-ranged species. EVI and IB were positively correlated with total species richness and small-ranged species richness. LA and MDT were positively correlated with small-ranged species richness, while STR and SP were negatively correlated with small-ranged species richness. MDE was positively correlated with large-ranged species richness. When we considered the combination of candidate factors using multiple regression models and model-averaging, total species richness and large-ranged species richness were correlated with STR (negative) and MDE (positive), while small-ranged species richness was correlated with STR (negative) and IB (positive). Conclusions Although no single key factor or suite of factors could explain patterns of diversity, we found that MDE, IB and STR play important but varying roles in shaping the elevational richness patterns of different bird species categories. Model-averaging indicates that small-ranged species appear to be mostly influenced by IB, as opposed to large-ranged species, which exhibit patterns more consistent with the MDE model. Our data also indicate that the species richness varied between seasons, offering a promising direction for future work.

Published

2019

8. Taxonomy of the White-browed Shortwing (Brachypteryx montana) complex on mainland Asia and Taiwan: an integrative approach supports recognition of three instead of one species

Author

Per Alström, Pamela C. Rasmussen, Canwei Xia, Magnus Gelang, Yang Liu, Guoling Chen, Min Zhao, Yan Hao, Chao Zhao, Jian Zhao, Chengte Yao, James A. Eaton, Robert Hutchinson, Fumin Lei, and Urban Olsson

Subjects

Integrative taxonomy, Morphology, Song, Miocene, Pliocene, Zoology, QL1-991

Abstract

Abstract Background The White-browed Shortwing (Brachypteryx montana) is widespread from the central Himalayas to the southeast Chinese mainland and the island of Taiwan, the Philippines and Indonesia. Multiple subspecies are recognised, and several of these have recently been suggested to be treated as separate species based on differences in morphology and songs. Methods We here analyse plumage, morphometrics, songs, two mitochondrial and two nuclear markers, and geographical distributions of the two mainland Asian taxa B. m. cruralis and B. m. sinensis and the Taiwanese B. m. goodfellowi. Results We conclude that these differ congruently in morphology, songs and DNA. Male B. m. goodfellowi is the most divergent in plumage (sexually monomorphic, unlike the two others; male similar to female), and B. m. cruralis and B. m. sinensis differ in male plumage maturation. The song of B. m. cruralis is strongly divergent from the others, whereas the songs of B. m. sinensis and B. m. goodfellowi are more similar to each other. Brachypteryx m. sinensis and B. m. goodfellowi are sisters, with an estimated divergence time 4.1 million years ago (mya; 95% highest posterior distribution [HPD] 2.8–5.5 mya), and B. m. cruralis separated from these two 5.8 mya (95% HPD 4.1–7.5 mya). We also report notable range extensions of B. m. sinensis as well as sympatry between this taxon and B. m. cruralis in Sichuan Province, China. Brachypteryx m. montana from Java is found to be more closely related to Lesser Shortwing (B. leucophris) and Rusty-bellied Shortwing (B. hyperythra) than to the mainland Asian and Taiwanese taxa. Conclusion Our data support a recent proposal to treat the three mainland Asian and Taiwanese taxa as three species, separate from B. montana sensu stricto: B. cruralis (central Himalayas to south central China and south Vietnam), B. sinensis (north central to southeastern part of mainland China) and B. goodfellowi (Taiwan Island).

Published

2018

9. Species delimitation of the white‐tailed rubythroat Calliope pectoralis complex (Aves, Muscicapidae) using an integrative taxonomic approach

Author

Yang Liu, Guoling Chen, Qin Huang, Chenxi Jia, Geoff Carey, Paul Leader, Yun Li, Fasheng Zou, Xiaojun Yang, Urban Olsson, and Per Alström

Subjects

Biology (General), QH301-705.5, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Our knowledge of the systematics and taxonomy of Asian birds has improved much in the last two decades, and the number of recognised species has increased significantly as a result of in‐depth studies using an integrative taxonomic approach. The Sino‐Himalayan mountains harbor a high level of passerine diversity. Several allopatric or parapatric taxa that are currently treated as subspecies of polytypic species within that region are likely to deserve full species status, and thus their taxonomic status needs to be revisited. Based on analyses of multilocus data, vocalizations and morphology, we propose that the white‐tailed rubythroat Calliope pectoralis should be treated as two species, the Himalayan rubythroat C. pectoralis sensu stricto in the Tian Shan and Himalayan mountains, and the Chinese rubythroat C. tschebaiewi in the mountains of southwestern and north‐central China. According to our dating analyses based on mitochondrial loci, these two species diverged approximately 2.2 million yr ago. We further found that C. tschebaiewi was paraphyletic to C. pectoralis sensu stricto in nuclear data, which demonstrates a state of mitonuclear discordance that warrants further work. Our results suggest that geographic changes and glacial cycles in the Pleistocene may have caused allopatric divergence in the C. pectoralis complex. Our study stresses the importance of applying an integrative taxonomy approach to fully unravel the true avian diversity in the Sino‐Himalayan Mountains.

Published

2016

10. Dramatic niche shifts and morphological change in two insular bird species

Author

Per Alström, Knud A. Jønsson, Jon Fjeldså, Anders Ödeen, Per G. P. Ericson, and Martin Irestedt

Subjects

speciation, adaptive change, niche shifts, morphological divergence, Science

Abstract

Colonizations of islands are often associated with rapid morphological divergence. We present two previously unrecognized cases of dramatic morphological change and niche shifts in connection with colonization of tropical forest-covered islands. These evolutionary changes have concealed the fact that the passerine birds madanga, Madanga ruficollis, from Buru, Indonesia, and São Tomé shorttail, Amaurocichla bocagii, from São Tomé, Gulf of Guinea, are forest-adapted members of the family Motacillidae (pipits and wagtails). We show that Madanga has diverged mainly in plumage, which may be the result of selection for improved camouflage in its new arboreal niche, while selection pressures for other morphological changes have probably been weak owing to preadaptations for the novel niche. By contrast, we suggest that Amaurocichla's niche change has led to divergence in both structure and plumage.

Published

2015

11. Genome‐wide <scp>SNPs</scp> confirm plumage polymorphism and hybridisation within a Cyornis flycatcher species complex

Author

Elize Y. X. Ng, Siqi Li, Dezhi Zhang, Kritika M. Garg, Gang Song, Jonathan Martinez, Le Manh Hung, Vuong Tan Tu, Jérôme Fuchs, Lu Dong, Urban Olsson, Yuan Huang, Per Alström, Frank E. Rheindt, and Fumin Lei

Subjects

phylogenetics, Evolutionsbiologi, Evolutionary Biology, ddRADseq, introgression, Genetics, Cyornis, Animal Science and Zoology, species complex, Molecular Biology, Ecology, Evolution, Behavior and Systematics

Abstract

Morphology has been a leading taxonomic guiding light to systematists for the last couple of hundred years. However, the genetic and – more recently – genomic revolution have produced numerous demonstrations of erroneous classifications that were based on labile morphological traits. We used thousands of genome-wide markers to shed light on evolutionary dynamics in a confusing and taxonomically obscure group of Asian Cyornis flycatchers. Using genomic data, we corroborated recent findings based on three mitochrondrial and five nuclear genes that the two taxa hainanus and klossi which were previously treated as separate species (Cyornis hainanus and Cyornis rubeculoides klossi, respectively) are genomically homogeneous and form a single species, C. hainanus. We also uncovered a novel case of interbreeding between C. hainanus and a non-sister species, C. glaucicomans, illustrating these flycatchers' ability to hybridise in marginal situations even after substantial times of divergence. Our study illustrates how genome-wide loci can shed light on complicated taxonomic problems, resulting in a better integration of phenotypic and genotypic data.

Published

2022

12. Disjunct resident population of Melodious Lark Mirafra cheniana discovered in East Africa

Author

Brian W. Finch, R. Stratton Hatfield, Silvia Colombo, Adam S. Kennedy, Marije te Raa, Martin Irestedt, Dawid H. de Swardt, Joe Grosel, Derek Engelbrecht, Callan Cohen, Urban Olsson, Paul F. Donald, Peter Njoroge, Sylke Frahnert, Peter de Knijf, and Per Alström

Subjects

Faecal sample, Alaudidae, Wildlife Ecology and Conservation, Cryptic species, Song mimicry, Vocalisations, PE&RC, Zoology, Zoologi, Mirafra albicauda

Abstract

We describe the discovery of a previously unknown population of Melodious Lark Mirafra cheniana from northern Tanzania and southern Kenya, some 2000 km north of what was previously thought to be its northern limit in central Zimbabwe. The identification of this population as M. cheniana is based primarily on analyses of mitochondrial DNA and song. We also clarify relationships within this genus by sequencing material of White-tailed Lark Mirafra albicauda for the first time; although its relationships with other species in the group remain unclear, our analyses clearly show it to be different from M. cheniana in the newly discovered population. The discovery of a population of M. cheniana in East Africa conforms to a known pattern for closely related lark species to have disjunct distributions in southern and eastern Africa.

Published

2022

13. Introgression underlies phylogenetic uncertainty but not parallel plumage evolution in a recent songbird radiation

Author

Loïs Rancilhac, Erik D. Enbody, Rebecca Harris, Takema Saitoh, Martin Irestedt, Yang Liu, Fumin Lei, Leif Andersson, and Per Alström

Abstract

Instances of parallel phenotypic evolution offer great opportunities to understand the evolutionary processes underlying phenotypic changes. However, confirming parallel phenotypic evolution and studying its causes requires a robust phylogenetic framework. One such example is the “black-and-white wagtails”, a group of five species in the songbird genusMotacilla: one species, the White Wagtail (M. alba), shows wide intra-specific plumage variation, while the four others form two pairs of very similar-looking species (African Pied WagtailM. aguimp+ Mekong WagtailM. samveasnaeand Japanese WagtailM. grandis+ White-browed WagtailM. maderaspatensis, respectively). However, the two species in each of these pairs were not recovered as sisters in previous phylogenetic inferences. Their relationships varied depending on the markers used, suggesting that gene tree heterogeneity might have hampered accurate phylogenetic inference. Here, we use whole genome resequencing data to explore the phylogenetic relationships within this group, with a special emphasis on characterizing the extent of gene tree heterogeneity and its underlying causes. We first used multispecies coalescent methods to generate a “complete evidence” phylogenetic hypothesis based on genome-wide variants, while accounting for incomplete lineage sorting and introgression. We then investigated the variation in phylogenetic signal across the genome, to quantify the extent of discordance across genomic regions, and test its underlying causes. We found that wagtail genomes are mosaics of regions supporting variable genealogies, because of ILS and inter-specific introgression. The most common topology across the genome, supportingM. albaandM. aguimpas sister species, appears to be influenced by ancient introgression. Additionally, we inferred another ancient introgression event, betweenM. albaandM. grandis. By combining results from multiple analyses, we propose a phylogenetic network for the black-and-white wagtails that confirms that similar phenotypes evolved in non-sister lineages, supporting parallel plumage evolution. Furthermore, the inferred reticulations do not connect species with similar plumage coloration, suggesting that introgression does not underlie parallel plumage evolution in this group. Our results demonstrate the importance of investigation of genome-wide patterns of gene tree heterogeneity to help understanding the mechanisms underlying phenotypic evolution.

Published

2023

14. A near-complete and time-calibrated phylogeny of the Old World flycatchers, robins and chats (Aves, Muscicapidae)

Author

Min Zhao, J. Gordon Burleigh, Urban Olsson, Per Alström, and Rebecca T. Kimball

Subjects

Cell Nucleus, Muscicapids, Super-matrix, Biologisk systematik, Biological Systematics, DNA, Mitochondrial, Songbirds, Phylogenetics, Gadiformes, Systematics, Genetics, Multi-locus, Animals, Passeriformes, Divergence time, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Phylogeny

Abstract

The Old World flycatchers, robins and chats (Aves, Muscicapidae) are a diverse songbird family with over three hundred species. Despite continuous efforts over the past two decades, there is still no comprehensive and well-resolved species-level phylogeny for Muscicapidae. Here we present a supermatrix phylogeny that includes all 50 currently recognized genera and ca. 92% of all the species, built using data from up to 15 mitochondrial and 13 nuclear loci. In addition to assembling nucleotide sequences available in public databases, we also extracted sequences from the genome assemblies and raw sequencing reads from GenBank and included a few unpublished sequences. Our analyses resolved the phylogenetic position for several previously unsampled taxa, for example, the Grand Comoro Flycatcher Humblotia flavirostris, the Collared Palm Thrush Cichladusa arquata, and the Taiwan Whistling-Thrush Myophonus insularis, etc. We also provide taxonomic recommendations for genera that exhibit paraphyly or polyphyly. Our results suggest that Muscicapidae diverged from Turdidae (thrushes and allies) in the early Miocene, and the most recent common ancestors for the four subfamilies (Muscicapinae, Niltavinae, Cossyphinae and Saxicolinae) all arose around the middle Miocene.

Published

2023

15. Sharpe's Lark (Mirafra sharpii)

Author

Per Alström and Paul F. Donald

Published

2022

16. Horsfield's Bushlark (Mirafra javanica)

Author

Per Alström and Peter Ryan

Published

2022

17. Graceful Prinia (Prinia gracilis)

Author

Peter Ryan, Per Alström, and Pamela C. Rasmussen

Published

2022

18. Genomic and phenotypic changes associated with alterations of migratory behaviour in a songbird

Author

Dezhi Zhang, Huishang She, Frank E. Rheindt, Lei Wu, Huan Wang, Kai Zhang, Yalin Cheng, Gang Song, Chenxi Jia, Yanhua Qu, Urban Olsson, Per Alström, and Fumin Lei

Subjects

Genetics, Ecology, Evolution, Behavior and Systematics

Abstract

The seasonal migration of birds is a fascinating natural wonder. Avian migratory behaviour changes are common and are probably a polygenic process as avian migration is governed by multiple correlated components with a variable genetic basis. However, the genetic and phenotypic changes involving migration changes are poorly studied. Using one annotated near-chromosomal level de novo genome assembly, 50 resequenced genomes, hundreds of morphometric data and species distribution information, we investigated population structure and genomic and phenotypic differences associated with differences in migratory behaviour in a songbird species, Yellow-throated Bunting Emberiza elegans (Aves: Emberizidae). Population genomic analyses reveal extensive gene flow between the southern resident and the northern migratory populations of this species. The hand-wing index is significantly lower in the resident populations than in the migratory populations, indicating reduced flight efficiency of the resident populations. Here, we discuss the possibility that nonmigratory populations may have originated from migratory populations though migration loss. We further infer that the alterations of genes related to energy metabolism, nervous system and circadian rhythm may have played major roles in regulating migration change. Our study sheds light on phenotypic and polygenic changes involving migration change.

Published

2022

19. Pipits and Wagtails of Europe, Asia and North America

Author

Per Alström, Krister Mild, Per Alström, Bill Zetterstrom

Published

2010

20. Most Genomic Loci Misrepresent the Phylogeny of an Avian Radiation Because of Ancient Gene Flow

Author

Yalin Cheng, Dezhi Zhang, Frank E. Rheindt, Yanhua Qu, Per Alström, Chen-Xi Jia, Gang Song, Fumin Lei, and Huishang She

Subjects

Gene Flow, 0106 biological sciences, 0301 basic medicine, Lineage (evolution), introgression, Introgression, reticulation, Biology, Phylloscopus, 010603 evolutionary biology, 01 natural sciences, Genome, Gene flow, Songbirds, Evolutionsbiologi, 03 medical and health sciences, Phylogenetics, Genetics, Animals, Clade, Phylogeny, Ecology, Evolution, Behavior and Systematics, Evolutionary Biology, Phylogenetic tree, AcademicSubjects/SCI01130, Genomics, Phylogenetic network, recombination, 030104 developmental biology, Evolutionary biology, Bifurcation, Regular Articles

Abstract

Phylogenetic trees based on genome-wide sequence data may not always represent the true evolutionary history for a variety of reasons. One process that can lead to incorrect reconstruction of species phylogenies is gene flow, especially if interspecific gene flow has affected large parts of the genome. We investigated phylogenetic relationships within a clade comprising eight species of passerine birds (Phylloscopidae, Phylloscopus, leaf warblers) using one de novo genome assembly and 78 resequenced genomes. On the basis of hypothesis-exclusion trials based on D-statistics, phylogenetic network analysis, and demographic inference analysis, we identified ancient gene flow affecting large parts of the genome between one species and the ancestral lineage of a sister species pair. This ancient gene flow consistently caused erroneous reconstruction of the phylogeny when using large amounts of genome-wide sequence data. In contrast, the true relationships were captured when smaller parts of the genome were analyzed, showing that the “winner-takes-all democratic majority tree” is not necessarily the true species tree. Under this condition, smaller amounts of data may sometimes avoid the effects of gene flow due to stochastic sampling, as hidden reticulation histories are more likely to emerge from the use of larger data sets, especially whole-genome data sets. In addition, we also found that genomic regions affected by ancient gene flow generally exhibited higher genomic differentiation but a lower recombination rate and nucleotide diversity. Our study highlights the importance of considering reticulation in phylogenetic reconstructions in the genomic era.[Bifurcation; introgression; recombination; reticulation; Phylloscopus.]

Published

2021

21. The formation of the Indo-Pacific montane avifauna

Author

Andrew Hart Reeve, Jonathan David Kennedy, José Martín Pujolar, Bent Petersen, Mozes P. K. Blom, Per Alström, Tri Haryoko, Per G. P. Ericson, Martin Irestedt, Johan A. A. Nylander, and Knud Andreas Jønsson

Abstract

Mountain biotas have considerable conservation and research importance, but the formation of montane communities remains incompletely understood. Study of Indo-Pacific island faunas has inspired two main hypotheses for the generation of montane diversity. The first posits that montane populations arise via direct colonization from other mountain areas, while the second invokes recruitment from adjacent lowland populations. We sought to reconcile these apparently conflicting hypotheses by asking whether a species’ ancestral geographic origin determines its mode of mountain colonization. To this end, island-dwelling passerine birds at the faunal crossroads between Eurasia and Australo-Papua provide an ideal study system. We recovered the phylogenetic relationships of the region’s montane species, and used this information to reconstruct their ancestral geographic ranges, elevational ranges, and migratory behavior. We also performed genomic population studies of three super-dispersive montane species/clades with broad island distributions. Eurasian-origin species populated archipelagos via direct colonization between mountains. This mode of colonization appears related to ancestral adaptations to cold and seasonal Palearctic climates, specifically short-distance migration. Australo-Papuan-origin mountain populations, by contrast, evolved from lowland ancestors, and highland distribution mostly precludes their further colonization of island mountains. The patterns and processes revealed for this group are compatible with taxon cycles, a hypothesized process of lowland lineage expansion followed by montane relictualization. Collectively, our analyses explain much of the distributional variation within a complex biological system, and provide a synthesis of two seemingly discordant hypotheses for montane community formation.

Published

2022

22. Sand Lark (Alaudala raytal)

Author

Prasad Ganpule and Per Alström

Published

2022

23. Taxonomic revision of the Long-tailed Rosefinch Carpodacus sibiricus complex

Author

Per Alström, Geoff J. Carey, Simin Liu, Chentao Wei, Yang Liu, Yinan Fu, Chen-Xi Jia, and Paul J. Leader

Subjects

0106 biological sciences, Mitochondrial DNA, biology, Zoology, Subspecies, Disjunct, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, 010605 ornithology, Rosefinch, Taxon, Plumage, Taxonomy (biology), Clade

Abstract

The Long-tailed Rosefinch Carpodacus sibiricus breeds in two widely disjunct areas in East Asia. Five subspecies are usually recognized. The plumage differences between different subspecies groups within C. sibiricus are notable, suggesting it may actually comprise more than one species. However, proper taxonomic assessment has not been carried out, probably in part due to the scarcity and lack of museum specimens of some of these subspecies. In the current study, we re-evaluated the taxonomy of the C. sibiricus complex using molecular, acoustic and morphological data. Using mitochondrial DNA, the samples formed two clades, a northern clade (C. s. sibiricus, C. s. ussuriensis and C. s. sanguinolentus) and a southern clade (C. s. henrici and C. s. lepidus). We also revealed that C. s. ussuriensis and C. s. sanguinolentus are mostly indistinguishable based on mitochondrial markers. This north/south split pattern is congruent with the pattern of plumage differences among north and south taxa. However, no diagnosable differences were found in their songs. We propose synonymizing C. s. ussuriensis with C. s. sanguinolentus. At the species level, we suggest splitting the complex into two species, with Siberian Long-tailed Rosefinch C. sibiricus comprising C. s. sibiricus and C. s. sanguinolentus, and Chinese Long-tailed Rosefinch C. lepidus comprising C. l. henrici and C. l. lepidus.

Published

2020

24. Great journey of Great Tits(Parus majorgroup): Origin, diversification and historical demographics of a broadly distributed bird lineage

Author

Isao Nishiumi, Ruiying Zhang, Martin Irestedt, Bailey D. McKay, Fumin Lei, Fernando Machado-Stredel, Per Alström, Yalin Cheng, Herman L. Mays, Andrew Townsend Peterson, Ulf S. Johansson, Yanhua Qu, Per G. P. Ericson, Gang Song, and Jon Fjeldså

Subjects

Parus, Qinghai tibet plateau, Geography, Ecology, biology, Demographics, Lineage (evolution), Central asia, Historical demography, Diversification (marketing strategy), biology.organism_classification, Ecology, Evolution, Behavior and Systematics

Published

2020

25. The role of evolutionary time, diversification rates and dispersal in determining the global diversity of a large radiation of passerine birds

Author

Robert G. Moyle, Yanhua Qu, Jon Fjeldså, Per Alström, Fumin Lei, Shimiao Shao, Jonathan D. Kennedy, and Tianlong Cai

Subjects

SELECTION, PHYLOGENY, Biogeography, Sino-Himalayan Mountains, LATE MIOCENE, explosive radiation, diversification rate, biology.animal, HISTORICAL BIOGEOGRAPHY, FOUNDER-EVENT SPECIATION, BABBLERS, dispersal, biogeography, Ecology, Evolution, Behavior and Systematics, Extinction, Ecology, biology, time-for-speciation effect, SPECIES RICHNESS, oceanic islands, Species diversity, biology.organism_classification, Passerine, Zosterops, HIMALAYAN, MOUNTAINS, Geography, PATTERNS, Biological dispersal, Species richness, Global biodiversity

Abstract

Aim: Variation in species diversity among different geographical areas may result from differences in speciation and extinction rates, immigration and time for diversification. An area with high species diversity may be the result of a high net diversification rate, multiple immigration events from adjacent regions, and a long time available for the accumulation of species (known as the 'time-for-speciation effect'). Here, we examine the relative importance of the three aforementioned processes in shaping the geographical diversity patterns of a large radiation of passerine birds.Location: Global.Taxon: Babblers (Aves: Passeriformes).Methods: Using a comprehensive phylogeny of extant species (similar to 90% sampled) and distributions of the world's babblers, we reconstructed their biogeographical history and analysed the diversification dynamics. We examined how species richness correlates with the timing of regional colonization, the number of immigration events and the rate of speciation within all 13 geographical distribution regions.Results: We found that babblers likely originated in the Sino-Himalayan Mountains (SHM) in the early Miocene, suggesting a long time for diversification and species accumulation within the SHM. Regression analyses showed the regional diversity of babblers can be well explained by the timing of the first colonization within of these areas, while differences in rates of speciation or immigration have far weaker effects. Nonetheless, the rapid speciation of Zosterops during the Pleistocene has accounted for the increased diversification and accumulation of species in the oceanic islands.Main Conclusions: Our results suggest that the global diversity patterns of babblers have predominantly been shaped by the time-for-speciation effect. Our findings also support an origin centred in tropical and subtropical parts of the SHM, with a cradle of recent diversification in the oceanic islands of the Indo-Pacific and Indian Ocean regions, which provides new insights into the generation of global biodiversity hotspots.

Published

2020

26. A new genus for the White-tailed Flycatcher Cyornis concretus (Aves: Muscicapidae)

Author

George Sangster, Per Alström, Urban Olsson, and Jimmy Gaudin

Subjects

White (horse), biology, Zoology, biology.organism_classification, Songbirds, Genus, comic_books, Animals, Animal Science and Zoology, Passeriformes, Flycatcher, Ecology, Evolution, Behavior and Systematics, comic_books.character, Cyornis concretus

Published

2021

27. Cryptic species in a colorful genus: Integrative taxonomy of the bush robins (Aves, Muscicapidae, Tarsiger) suggests two overlooked species

Author

Chentao Wei, George Sangster, Urban Olsson, Pamela C. Rasmussen, Lars Svensson, Cheng-te Yao, Geoff J. Carey, Paul J. Leader, Ruiying Zhang, Guoling Chen, Gang Song, Fumin Lei, David S. Wilcove, Per Alström, and Yang Liu

Subjects

Biologisk systematik, Bayes Theorem, Biodiversity, Biological Systematics, Forests, Multilocus phylogeny, Zoologi, Songbirds, Sino-Himalayas, Genetics, Animals, Passerines, Morphometrics, Bioacoustics, Zoology, Molecular Biology, Phylogeny, Disjunct distribution, Ecology, Evolution, Behavior and Systematics

Abstract

Several cryptic avian species have been validated by recent integrative taxonomic efforts in the Sino-Himalayan mountains, indicating that avian diversity in this global biodiversity hotspot may be underestimated. In the present study, we investigated species limits in the genus Tarsiger, the bush robins, a group of montane forest specialists with high species richness in the Sino-Himalayan region. Based on comprehensive sampling of all 11 subspecies of the six currently recognized species, we applied an integrative taxonomic approach by combining multilocus, acoustic, plumage and morphometric analyses. Our results reveal that the isolated north-central Chinese populations of Tarsiger cyanurus, described as the subspecies albocoeruleus but usually considered invalid, is distinctive in genetics and vocalisation, but only marginally differentiated in morphology. We also found the Taiwan endemic T. indicus formosanus to be distinctive in genetics, song and morphology from T. i. indicus and T. i. yunnanensis of the Sino-Himalayan mountains. Moreover, Bayesian species delimitation using BPP suggests that both albocoeruleus and formosanus merit full species status. We propose their treatment as 'Qilian Bluetail' T. albocoeruleus and 'Taiwan Bush Robin' T. formosanus, respectively.

Published

2022

28. Mongolian Short-toed Lark (Calandrella dukhunensis)

Author

Per Alström and Gombobaatar Sundev

Published

2021

29. Mitochondrial phylogeography of the genus Eremophila confirms underestimated species diversity in the Palearctic

Author

Mansour Aliabadian, Paul F. Donald, Per Alström, Aleem Ahmed Khan, Urban Olsson, and Fatemeh Ghorbani

Subjects

0106 biological sciences, Early Pleistocene, Phylogenetic tree, Range (biology), Lineage (evolution), Allopatric speciation, Zoology, Biology, 010603 evolutionary biology, 01 natural sciences, 010605 ornithology, Phylogeography, Taxon, Clade

Abstract

Phylogeographic analyses of the genus Eremophila (Horned Lark E. alpestris and Temminck’s Lark E. bilopha) were carried out based on the mitochondrial cytochrome b and ND2 genes. Four primary lineages with para-/allopatric distributions were identified: (1) a Qinghai–Tibetan–Himalayan lineage; (2) a North African and Middle Eastern lineage; (3) a northwest African and southeast European/southwest Asian lineage; and (4) a Northern Palearctic and North American lineage. The relationships between these four lineages were poorly resolved. They were estimated to have diverged in the late Pliocene to early Pleistocene, although the dates are uncertain due to topological ambiguity and wide confidence intervals. The sublineages were estimated to have diverged around the Middle Pleistocene (c. 0.8–0.2 mya). A strong signal of population growth and range expansion was observed from the Middle Pleistocene, at least in the North Palearctic subclade (A2). Morphometric analysis of the Eurasian taxa revealed a high degree of overlap among taxa, although E. bilopha and E. a. longirostris stood out from the others. We support a recent suggestion to split E. alpestris into multiple species, although we propose four instead of six species, corresponding to the four primary lineages identified in this study: (1) Himalayan Horned Lark E. longirostris (by priority and on the premise that the genetically unsampled taxon longirostris belongs to this clade); (2) Temminck’s Lark E. bilopha; (3) Mountain Horned Lark E. penicillata; and (4) Common Horned Lark E. alpestris (sensu stricto). Our results illustrate the discrepancy between phylogenetic relationships and phenotype in larks.

Published

2019

30. Multiple species within the Striated Prinia Prinia crinigera– Brown Prinia P. polychroa complex revealed through an integrative taxonomic approach

Author

Per Alström, George Sangster, Shashank Dalvi, Martin Irestedt, Fumin Lei, Hung Le Manh, Philip D. Round, Cheng-Te Yao, Ruiying Zhang, Pamela C. Rasmussen, and Urban Olsson

Subjects

0106 biological sciences, Sympatry, Systematics, biology, Prinia, Zoology, Subspecies, biology.organism_classification, Southeast asian, 010603 evolutionary biology, 01 natural sciences, Brown prinia, 010605 ornithology, Sympatric speciation, Animal Science and Zoology, Taxonomy (biology), Ecology, Evolution, Behavior and Systematics

Abstract

We re‐evaluated the taxonomy of the Striated Prinia Prinia crinigera–Brown Prinia P. polychroa complex using molecular, morphological and vocal analyses. The extensive seasonal, sexual, age‐related, geographical and taxon‐specific variation in this complex has never before been adequately studied. As no previous genetic or vocal analyses have focused on this group, misinterpretation of taxonomic signals from limited conventional morphological study alone was likely. Using mitochondrial and nuclear DNA, we found that P. crinigera sensu lato (s.l.) comprises two non‐sister groups of taxa (Himalayan crinigera and Chinese striata groups) that differ substantially morphologically and vocally and that are broadly sympatric in Yunnan Province, China. Prinia polychroa cooki (Myanmar) and P. p. rocki (southern Vietnam) are each morphologically, vocally and genetically distinct. Thai, Cambodian and Laotian populations formerly ascribed to P. p. cooki are morphologically and vocally most similar to and most closely related to Javan P. p. polychroa, and require a new name, proposed here. Prinia p. bangsi of Yunnan is part of the crinigera group rather than of P. polychroa, and hence there is no evidence for sympatry between P. polychroa s.l. and P. crinigera s.l., nor of the occurrence of P. polychroa in mainland China or Taiwan. We recommend the recognition of five species in the complex, with the following suggestions for new English names: Himalayan Prinia P. crinigera sensu stricto (s.s.; with subspecies striatula, crinigera, yunnanensis and bangsi); Chinese Prinia P. striata (subspecies catharia, parumstriata and striata); Burmese Prinia P. cooki (monotypic); Annam Prinia P. rocki (monotypic) and Deignan's Prinia P. polychroa s.s. (subspecies Javan polychroa and the new Southeast Asian taxon). This study underlines the importance of using multiple datasets for the elucidation of diversity of cryptic bird species and their evolutionary history and biogeography.

Published

2019

31. 'Ghost Introgression' As a Cause of Deep Mitochondrial Divergence in a Bird Species Complex

Author

Yanhua Qu, Linfang Tang, Chenxi Jia, Ying Xiong, Per Alström, Yan Hao, Dezhi Zhang, Fumin Lei, Gang Song, Yalin Cheng, and Frank E. Rheindt

Subjects

education.field_of_study, Mitochondrial DNA, Species complex, Phylloscopidae, Population, Introgression, Biology, biology.organism_classification, Genome, Effective population size, Evolutionary biology, Genetics, Biological dispersal, education, Molecular Biology, Ecology, Evolution, Behavior and Systematics

Abstract

In the absence of nuclear-genomic differentiation between two populations, deep mitochondrial divergence (DMD) is a form of mito-nuclear discordance. Such instances of DMD are rare and might variably be explained by unusual cases of female-linked selection, by male-biased dispersal, by “speciation reversal” or by mitochondrial capture through genetic introgression. Here, we analyze DMD in an Asian Phylloscopus leaf warbler (Aves: Phylloscopidae) complex. Bioacoustic, morphological, and genomic data demonstrate close similarity between the taxa affinis and occisinensis, even though DMD previously led to their classification as two distinct species. Using population genomic and comparative genomic methods on 45 whole genomes, including historical reconstructions of effective population size, genomic peaks of differentiation and genomic linkage, we infer that the form affinis is likely the product of a westward expansion in which it replaced a now-extinct congener that was the donor of its mtDNA and small portions of its nuclear genome. This study provides strong evidence of “ghost introgression” as the cause of DMD, and we suggest that “ghost introgression” may be a widely overlooked phenomenon in nature.

Published

2019

32. Taxonomy of cryptic species in the Cyornis rubeculoides complex in the Indian subcontinent

Author

Ashutosh Kumar Singh, Per Alström, Trevor D. Price, Pratap Singh, Daniel M. Hooper, Ramani Suresh Kumar, Dinesh Bhatt, Sandeep Kumar Gupta, and Dhananjai Mohan

Subjects

0106 biological sciences, Species complex, biology, Zoology, Subspecies, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, 010605 ornithology, Geography, Taxon, Cyornis, Animal Science and Zoology, Taxonomy (biology), Type locality, Clade, Hainan blue flycatcher, Ecology, Evolution, Behavior and Systematics

Abstract

Taxa classified as subspecies may in fact be cryptic species. We assessed the taxonomic status of the Blue‐throated Flycatcher Cyornis rubeculoides complex in India, which consists of several forms with similar plumages and song. We used mitochondrial and nuclear DNA, plumage traits, and detailed song analysis to ascertain the taxonomic status of the different forms. The molecular data identified three primary clades: (1) in the west Himalayan foothills, (2) at higher elevations in the northeast hill states of Meghalaya, Nagaland and Mizoram, and (3) at lower elevations in the northeastern hills of Meghalaya and the east Himalayas of Arunachal Pradesh. The western clade represents nominate C. rubeculoides rubeculoides. The high‐elevation eastern clade was considered to be C. rubeculoides rogersi, because it included a sample from this subspecies from near the type locality in southwest Myanmar. These two sister clades had an estimated divergence time of 1.5 million years (my). The low‐elevation east clade has previously been assigned to C. rubeculoides, but we showed it is closely related to the Hainan Blue Flycatcher Cyornis hainanus, formerly thought to breed only further east, with an estimated divergence time of only ~0.8 my. This clade may represent a subspecies of C. hainanus or, given reports of widespread sympatry with C. hainanus in Thailand, a distinct species, Cyornis dialilaemus. However, more research is advocated, including molecular data, from the area of overlap. Songs were remarkably similar across all taxa. In playback experiments, C. r. rubeculoides in the west responded to all taxa. This is in agreement with recent work demonstrating that song differences and responses to songs are not always a good indicator of the progress of reproductive isolation.

Published

2019

33. Cryptic diversity in Cyornis (Aves: Muscicapidae) jungle-flycatchers flagged by simple bioacoustic approaches

Author

Per Alström, Frank E. Rheindt, Sebastianus Bas Van Balen, Dewi M. Prawiradilaga, James A. Eaton, Chyi Yin Gwee, Robert O Hutchinson, Manh Hung Le, and Kritika M. Garg

Subjects

0106 biological sciences, 0303 health sciences, biology, food and beverages, Multiple species, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, GeneralLiterature_MISCELLANEOUS, 03 medical and health sciences, Animal groups, Cyornis, Evolutionary biology, Jungle, Animal Science and Zoology, Taxonomy (biology), Ecology, Evolution, Behavior and Systematics, ComputingMethodologies_COMPUTERGRAPHICS, 030304 developmental biology

Abstract

Despite the ongoing taxonomic revolution incorporating multiple species delimitation methods, knowledge gaps persist in the taxonomy of comparatively well-studied animal groups such as birds. Morph ...

Published

2019

34. From the Himalayas to a continental Island: Integrative species delimitation in the Brownish-flanked Bush Warbler Horornis fortipes complex

Author

Cheng Te Yao, Shou Hsien Li, Per Alström, Yang Liu, Chentao Wei, Canwei Xia, Lu Dong, and Yanyun Zhang

Subjects

0106 biological sciences, 0301 basic medicine, Time Factors, Taiwan, 010603 evolutionary biology, 01 natural sciences, Divergence, Coalescent theory, Songbirds, 03 medical and health sciences, Horornis, Species Specificity, Bush-warbler, Genetics, Animals, Molecular Biology, Ecosystem, Phylogeny, Ecology, Evolution, Behavior and Systematics, Islands, Morphometrics, Geography, biology, Phylogenetic tree, Genetic Variation, Bayes Theorem, Incipient speciation, biology.organism_classification, 030104 developmental biology, Plumage, Evolutionary biology, Vocalization, Animal

Abstract

As species serve as basic units of study in many fields of biology, assessments of species limits are fundamental for such studies. Here, we used a multilocus dataset and different coalescent-based methods to analyze species delimitation and phylogenetic relationships in the Brownish-flanked Bush Warbler Horornis fortipes complex, which is widespread in the Sino-Himalayan region. We also examined the vocal and morphometric divergence within this complex. Our genetic results suggested that Horornis fortipes is composed of at least three independently evolving lineages, which diverged 1.1–1.8 million years ago. However, these lineages have hardly diverged in song or morphometrics and only very slightly in plumage. Our result indicate that there are three incipient species in Horonis fortipes complex diverged in central Himalayas and Hengduan Mountains, but not between the continent and Taiwan island.

Published

2019

35. Near-complete phylogeny and taxonomic revision of the world’s babblers (Aves: Passeriformes)

Author

Per Alström, Robert G. Moyle, Yanhua Qu, Jon Fjeldså, Jonathan D. Kennedy, Ruiying Zhang, Alice Cibois, Martin Irestedt, Fumin Lei, Per G. P. Ericson, Shimiao Shao, Magnus Gelang, and Tianlong Cai

Subjects

0106 biological sciences, 0301 basic medicine, Time Factors, Biodiversity, DNA, Mitochondrial, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Phylogenetics, biology.animal, Genetics, Animals, Passeriformes, Clade, Molecular Biology, Phylogeny, Ecology, Evolution, Behavior and Systematics, Likelihood Functions, Phylogenetic tree, biology, Linear sequence, Supertree, Passerine, 030104 developmental biology, Evolutionary biology, Taxonomy (biology)

Abstract

The babblers are a diverse group of passerine birds comprising 452 species. The group was long regarded as a “scrap basket” in taxonomic classification schemes. Although several studies have assessed the phylogenetic relationships for subsets of babblers during the past two decades, a comprehensive phylogeny of this group has been lacking. In this study, we used five mitochondrial and seven nuclear loci to generate a dated phylogeny for babblers. This phylogeny includes 402 species (ca. 89% of the overall clade) from 75 genera (97%) and all five currently recognized families, providing a robust basis for taxonomic revision. Our phylogeny supports seven major clades and reveals several non-monophyletic genera. Divergence time estimates indicate that the seven major clades diverged around the same time (18–20 million years ago, Ma) in the early Miocene. We use the phylogeny in a consistent way to propose a new taxonomy, with seven families and 64 genera of babblers, and a new linear sequence of names.

Published

2019

36. Morphology, vocalizations, and mitochondrial DNA suggest that the Graceful Prinia is two species

Author

Arya Shafaeipour, Urban Olsson, Jesper Magnusson, Chengyi Liu, Canwei Xia, Lijun Zhang, Per Alström, and Pamela C. Rasmussen

Subjects

vocalizations, 0106 biological sciences, Mitochondrial DNA, Prinia gracilis, Biologisk systematik, biology, Morphology (biology), Graceful prinia, mitochondrial DNA, Biological Systematics, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, 010605 ornithology, Evolutionary biology, morphology, Animal Science and Zoology, integrative taxonomy, Ecology, Evolution, Behavior and Systematics

Abstract

Prinias (Cisticolidae:Prinia) are resident warblers of open areas across Africa and Asia and include many polytypic species whose species limits have not been seriously reevaluated recently. Based on an integrative taxonomic analysis of morphology, song, and mitochondrial DNA (mtDNA), we suggest that 2 species should be recognized in the Graceful Prinia (Prinia gracilis) complex. In addition, our morphological analyses show the existence of a well-marked undescribed form in southeastern Somalia, which we name herein as a new subspecies. Prinia gracilisis a small, drab, long-tailed species with streaking above and plain pale underparts that has been suggested to fall into 2 groups: the southwestern nominate group (from Egypt to Oman) and the northeastern lepida group (from Turkey through India). However, the characters presented to justify this grouping are variable and show a mosaic pattern, and whether genetic and vocal differences exist is unknown. We found consistent between-group song differences, with the nominate group giving consistently longer inter-phrase intervals, whereas the members of the lepida group sing an essentially continuous reel. An mtDNA tree suggests a deep split between the nominate and lepida groups, with a coalescence time between these clades of similar to 2.2 million years ago. Vocal and mtDNA analyses provided evidence that the northeastern Arabian Peninsula taxon carpenteri belongs to the lepida group. We found that, of all the morphological characters proposed, only proportions and tail barring and spotting relatively consistently distinguish the 2 groups. However, these characters strongly suggest that the eastern Arabian Peninsula is populated by taxa of both the gracilis and lepida groups, in different areas, but we lack genetic and bioacoustic data to corroborate this. Although further study is needed in potential contact zones, we suggest that 2 species should be recognized in the P. gracilis complex, and we propose the retention of the English name Graceful Prinia for P. gracilis sensu stricto, while we suggest that P. lepida be known as Delicate Prinia. Shared first authorship: Per Alström and Pamela C Rasmussen

Published

2021

37. Mongolian Short-toed LarkCalandrella dukhunensis, an overlooked East Asian species

Author

Per Alström and Gombobaatar Sundev

Subjects

Geography, biology, Calandrella, Calandrella brachydactyla, Zoology, East Asia, Taxonomy (biology), Subspecies, biology.organism_classification, Zoologi, Taxonomy

Abstract

The eastern subspecies of Greater Short-toed Lark Calandrella brachydactyla dukhunensis has recently been considered a separate species, Calandrella dukhunensis, by several authors based on molecular data. We present supporting evidence for this treatment based on studies of morphology, vocalisations and song-flight, and also present new data on other aspects of its biology based on field studies. We show that its breeding distribution is considerably smaller than previously thought, and is restricted to the eastern half of Mongolia and, marginally, neighbouring parts of China and perhaps Russia.

Published

2021

38. Asymmetric introgression reveals the genetic architecture of a plumage trait

Author

Georgy A, Semenov, Ethan, Linck, Erik D, Enbody, Rebecca B, Harris, David R, Khaydarov, Per, Alström, Leif, Andersson, and Scott A, Taylor

Subjects

Male, Genome, Chimera, Pigmentation, Color, Epistasis, Genetic, Evolutionary biology, Uzbekistan, Feathers, Genetic Introgression, Article, Evolutionary genetics, Siberia, Quantitative Trait, Heritable, Animals, Female, Passeriformes

Abstract

Genome-wide variation in introgression rates across hybrid zones offers a powerful opportunity for studying population differentiation. One poorly understood pattern of introgression is the geographic displacement of a trait implicated in lineage divergence from genome-wide population boundaries. While difficult to interpret, this pattern can facilitate the dissection of trait genetic architecture because traits become uncoupled from their ancestral genomic background. We studied an example of trait displacement generated by the introgression of head plumage coloration from personata to alba subspecies of the white wagtail. A previous study of their hybrid zone in Siberia revealed that the geographic transition in this sexual signal that mediates assortative mating was offset from other traits and genetic markers. Here we show that head plumage is associated with two small genetic regions. Despite having a simple genetic architecture, head plumage inheritance is consistent with partial dominance and epistasis, which could contribute to its asymmetric introgression., Hybrid zones are windows into the evolutionary process. Semenov et al. find that the head plumage differences between white wagtail subspecies have a simple genetic basis involving two small genetic regions, in which partially dominant and epistatic interactions help to explain how this sexual signal has become decoupled from other plumage traits.

Published

2020

39. Rufous-tailed Lark (Ammomanes phoenicura)

Author

Kulbushansingh Suryawanshi and Per Alström

Published

2020

40. Multiple species delimitation approaches applied to the avian lark genus Alaudala

Author

Mansour Aliabadian, Paul F. Donald, Zeinolabedin Mohammadi, Gombobaatar Sundev, Fumin Lei, Arya Shafaeipour, Chentao Wei, Per Alström, Fatemeh Ghorbani, Bengt Oxelman, Arnoud B. van den Berg, Jip van Linschooten, Magnus S. Robb, and Urban Olsson

Subjects

0106 biological sciences, 0301 basic medicine, Morphology, Species complex, Biologisk systematik, Lineage (evolution), Climate, Rain, Morphology (biology), Biological Systematics, Biology, 010603 evolutionary biology, 01 natural sciences, Choice Behavior, Coalescent theory, Evolutionsbiologi, 03 medical and health sciences, Species Specificity, Genus, Genetic algorithm, Genetics, Animals, Passeriformes, Multispecies coalescent, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Ecosystem, Phylogeny, Evolutionary Biology, Geography, Temperature, food and beverages, Discriminant Analysis, Bayes Theorem, Humidity, Cytochromes b, Feathers, 030104 developmental biology, Habitat, Evolutionary biology, Plumage, Flight, Animal, Cryptic species, STACEY, Integrative taxonomy, Vocalization, Animal

Abstract

Species delimitation has advanced from a purely phenotypic exercise to a branch of science that integrates multiple sources of data to identify independently evolving lineages that can be treated as species. We here test species limits in the avian Lesser Short-toed Lark Alaudala rufesens-Sand Lark A. raytal complex, which has an intricate taxonomic history, ranging from a single to three recognised species, with different inclusiveness in different treatments. Our integrative taxonomic approach is based on a combination of DNA sequences, plumage, biometrics, songs, song-flights, geographical distributions, habitat, and bioclimatic data, and using various methods including a species delimitation program (STACEY) based on the multispecies coalescent model. We propose that four species should be recognised: Lesser Short-toed Lark A. rufescens (sensu stricto), Heine's Short-toed Lark A. heinei, Asian Short-toed Lark A. cheleensis and Sand Lark A. raytal. There is also some evidence suggesting lineage separation within A. cheleensis and A. raytal, but additional data are required to evaluate this. The species delimitation based on STACEY agrees well with the non-genetic data. Although computer-based species delimitation programs can be useful in identifying independently evolving lineages, we stress that whenever possible, species hypotheses proposed by these programs should be tested by independent, non-genetic data. Our results highlight the difficulty and subjectivity of delimiting lineages and species, especially at early stages in the speciation process.

Published

2020

41. Mongolian Lark (Melanocorypha mongolica)

Author

Per Alström

Published

2020

42. Pallas's Leaf Warbler (Phylloscopus proregulus)

Author

Per Alström, Peter Clement, and Guy M. Kirwan

Published

2020

43. Burmese Bushlark (Mirafra microptera)

Author

Per Alström

Published

2020

44. Indian Bushlark (Mirafra erythroptera)

Author

Per Alström

Published

2020

45. Bianchi's Warbler (Phylloscopus valentini)

Author

Per Alström

Published

2020

46. Alström's Warbler (Phylloscopus soror)

Author

Per Alström

Published

2020

47. Rufous-tailed Lark (Ammomanes phoenicura)

Author

Per Alström

Published

2020

48. Chinese Leaf Warbler (Phylloscopus yunnanensis)

Author

Per Alström

Published

2020

49. Australasian Bushlark (Mirafra javanica)

Author

Per Alström

Published

2020

50. Gansu Leaf Warbler (Phylloscopus kansuensis)

Author

Per Alström

Published

2020