Your search keyword '"Strigiformes classification"' showing total 35 results

1. A Review of the Systematics of Neotropical Owls (Strigiformes)

Author

Enríquez, Paula L., Eisermann, Knut, Mikkola, Heimo, Motta-Junior, José Carlos, and Enriquez, Paula L., editor

Published

2017

2. Cross-Amplification in Strigiformes: A New STR Panel for Forensic Purposes.

Author

Giangregorio P, Naldi L, Mengoni C, Greco C, Padula A, Zaccaroni M, Fani R, Argenti G, and Mucci N

Subjects

Animals, Animals, Wild classification, Animals, Wild genetics, Biodiversity, Conservation of Natural Resources, Species Specificity, Strigiformes genetics, Forensic Genetics methods, Microsatellite Repeats, Strigiformes classification

Abstract

Strigiformes are affected by a substantial decline mainly caused by habitat loss and destruction, poaching, and trapping. Moreover, the increasing trend in bird trade and the growing interest in wild-caught rather than captive-bred birds are expected to encourage illegal trade. The biomolecular investigation represents a valuable tool to track illegal trade and to explore the genetic variability to preserving biodiversity. Microsatellite loci (STRs) are the most used markers to study genetic variability. Despite the availability of species-specific microsatellite loci in Strigiformes, a unique panel permitting the description of the genetic variability across species has not been identified yet. We tested 32 highly polymorphic microsatellite markers to evaluate the reliability of a unique microsatellite panel in different species of Strigiformes and its use for conservation and forensic purposes. We included in the study 84 individuals belonging to 28 parental groups and 11 species of Strigiformes. After screening polymorphic microsatellite loci, the description of genetic variability, and the kinship assessment, we characterized a final panel of 12 microsatellite loci able to identify individuals in 9 Strigiformes species. This STR panel might support the authorities in the forensic investigation for suspected smugglers and false parental claims; moreover, it can be useful to evaluate relatedness among individuals in captive-bred populations and to implement research projects finalized to the description of the genetic variability in wild populations.

Published

2021

3. Genomic Variation and Recent Population Histories of Spotted (Strix occidentalis) and Barred (Strix varia) Owls.

Author

Fujito NT, Hanna ZR, Levy-Sakin M, Bowie RCK, Kwok PY, Dumbacher JP, and Wall JD

Subjects

Animals, Chimera, Feathers, Female, Genetics, Population, Genome, Male, Phenotype, Population Dynamics, United States, Genetic Variation, Strigiformes classification, Strigiformes genetics

Abstract

Spotted owls (SOs, Strix occidentalis) are a flagship species inhabiting old-growth forests in western North America. In recent decades, their populations have declined due to ongoing reductions in suitable habitat caused by logging, wildfires, and competition with the congeneric barred owl (BO, Strix varia). The northern spotted owl (S. o. caurina) has been listed as "threatened" under the Endangered Species Act since 1990. Here, we use an updated SO genome assembly along with 51 high-coverage whole-genome sequences to examine population structure, hybridization, and recent changes in population size in SO and BO. We found that potential hybrids identified from intermediate plumage morphology were a mixture of pure BO, F1 hybrids, and F1 × BO backcrosses. Also, although SO underwent a population bottleneck around the time of the Pleistocene-Holocene transition, their population sizes rebounded and show no evidence of any historical (i.e., 100-10,000 years ago) population decline. This suggests that the current decrease in SO abundance is due to events in the past century. Finally, we estimate that western and eastern BOs have been genetically separated for thousands of years, instead of the previously assumed recent (i.e., <150 years) divergence. Although this result is surprising, it is unclear where the ancestors of western BO lived after the separation. In particular, although BO may have colonized western North America much earlier than the first recorded observations, it is also possible that the estimated divergence time reflects unsampled BO population structure within central or eastern North America., (© The Author(s) 2021. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution.)

Published

2021

4. Multi-character taxonomic review, systematics, and biogeography of the Black-capped/Tawny-bellied Screech Owl (emMegascops/em ematricapilla/em-emM. watsonii/em) complex (Aves: Strigidae).

Author

Dantas SM, Weckstein JD, Bates J, Oliveira JN, Catanach TA, and Aleixo A

Subjects

Animals, Bayes Theorem, DNA, Mitochondrial, Genetic Variation, Passeriformes genetics, Phylogeny, Phylogeography, Strigiformes classification, Strigiformes physiology

Abstract

Megascops is the most species-rich owl genus in the New World, with 21 species currently recognized. Phylogenetic relationships within this genus are notoriously difficult to establish due to the considerable plumage similarity among species and polymorphism within species. Previous studies have suggested that the widespread lowland Amazonian M. watsonii might include more than one species, and that the Atlantic Forest endemic M. atricapilla is closely related to the M. watsonii complex, but these relationships are as yet poorly understood. A recently published phylogeny of Megascops demonstrated that M. watsonii is paraphyletic with respect to M. atricapilla and that genetic divergences among some populations of M. watsonii are equal to or surpass the degree of differentiation between some M. watsonii and M. atricapilla. To shed light on the taxonomic status of these species and populations within them, we conducted a multi-character study based on molecular, morphological, and vocal characters. We sequenced three mitochondrial (cytb, CO1 and ND2) and three nuclear genes (BF5, CHD and MUSK) for 49 specimens, covering most of the geographic ranges of M. watsonii and M. atricapilla, and used these sequences to estimate phylogenies under alternative Bayesian, Maximum Likelihood, and multilocus coalescent species tree approaches. We studied 252 specimens and vocal parameters from 83 recordings belonging to 65 individuals, distributed throughout the ranges of M. watsonii and M. atricapilla. We used Discriminant Function Analysis (DFA) to analyze both morphometric and vocal data, and a pairwise diagnostic test to evaluate the significance of vocal differences between distinct genetic lineages. Phylogenetic analyses consistently recovered six statistically well-supported clades whose relationships are not entirely in agreement with currently recognized species limits in M. watsonii and M. atricapilla. Morphometric analyses did not detect significant differences among clades. High plumage variation among individuals within clades was usually associated with the presence of two or more color morphs. By contrast, vocal analyses detected significant differentiation among some clades but considerable overlap among others, with some lineages (particularly the most widespread one) exhibiting significant regional variation. The combined results allow for a redefinition of species limits in both M. watsonii and M. atricapilla, with the recognition of four additional species, two of which we describe here as new. We estimated most cladogenesis in the Megascops atricapilla-M. watsonii complex as having taken place during the Plio-Pleistocene, with the development of the modern Amazonian and São Francisco drainages and the expansion and retraction of forest biomes during interglacial and glacial periods as likely events accounting for this relatively recent burst of diversification.

Published

2021

5. Mitogenome of the little owl Athene noctua and phylogenetic analysis of Strigidae.

Author

Sun CH, Liu HY, Min X, and Lu CH

Subjects

Animals, Base Composition, Computational Biology methods, Genes, Mitochondrial, Molecular Sequence Annotation, RNA, Transfer chemistry, RNA, Transfer genetics, Genome, Mitochondrial, Genomics methods, Phylogeny, Strigiformes classification, Strigiformes genetics

Abstract

New advances in molecular approaches for DNA analysis have enhanced our understanding of the phylogenetic relationship of birds. The Little Owl (Athene noctua) is of great significance for the integrated management of forest diseases and control of regional pests. Here, we sequenced and annotated the 17,772 bp complete mitogenome of A. noctua. The mitogenome encoded 37 typical mitochondrial genes: 13 protein-coding genes, two ribosomal RNA genes, 22 transfer RNA, and one non-coding control region (D-loop). The organization and location of genes in the A. noctua mitogenome were consistent with those reported for other Strigidae birds. Phylogenetic relationships based on Bayesian inference and Maximum likelihood methods showed that A. noctua has close relationships with Athene brama and Glaucidium cuculoides, confirming that A. noctua belongs to the Strigidae family. The phylogenetic relationships among seven genera of the Strigidae family used in this study were: Ninox and the other six genera were far apart, Otus and the clade ((Bubo + Strix) + Asio) were clustered into one branch, and Athene and Glaucidium were clustered into one branch. This phylogenetic classification is consistent with prior taxonomic studies on the Strigidae family. Our results provide new mitogenomic data to support further phylogenetic and taxonomic studies of Strigidae., Competing Interests: Declaration of competing interest The authors declare that they have no competing interests., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2020

6. Molecular evolution of the proopiomelanocortin system in Barn owl species.

Author

Löw K, Ducrest AL, San-Jose LM, Simon C, Uva V, Seidah NG, Pasquato A, Kunz S, and Roulin A

Subjects

Amino Acid Motifs, Animals, Animals, Outbred Strains, Binding Sites, Evolution, Molecular, Feedback, Physiological, Genotyping Techniques veterinary, Phylogeny, Pro-Opiomelanocortin chemistry, Protein Stability, Signal Transduction, Strigiformes genetics, Strigiformes metabolism, Tissue Distribution, Loss of Function Mutation, Microsatellite Repeats, Pro-Opiomelanocortin genetics, Pro-Opiomelanocortin metabolism, Strigiformes classification

Abstract

Examination of genetic polymorphisms in outbred wild-living species provides insights into the evolution of complex systems. In higher vertebrates, the proopiomelanocortin (POMC) precursor gives rise to α-, β-, and γ-melanocyte-stimulating hormones (MSH), which are involved in numerous physiological aspects. Genetic defects in POMC are linked to metabolic disorders in humans and animals. In the present study, we undertook an evolutionary genetic approach complemented with biochemistry to investigate the functional consequences of genetic polymorphisms in the POMC system of free-living outbred barn owl species (family Tytonidae) at the molecular level. Our phylogenetic studies revealed a striking correlation between a loss-of-function H9P mutation in the β-MSH receptor-binding motif and an extension of a poly-serine stretch in γ3-MSH to ≥7 residues that arose in the barn owl group 6-8 MYA ago. We found that extension of the poly-serine stretches in the γ-MSH locus affects POMC precursor processing, increasing γ3-MSH production at the expense of γ2-MSH and resulting in an overall reduction of γ-MSH signaling, which may be part of a negative feedback mechanism. Extension of the γ3-MSH poly-serine stretches ≥7 further markedly increases peptide hormone stability in plasma, which is conserved in humans, and is likely relevant to its endocrine function. In sum, our phylogenetic analysis of POMC in wild living owls uncovered a H9P β-MSH mutation subsequent to serine extension in γ3-MSH to 7 residues, which was then followed by further serine extension. The linked MSH mutations highlight the genetic plasticity enabled by the modular design of the POMC gene., Competing Interests: The authors have declared that no competing interests exist.

Published

2020

7. Evolutionary progression of mitochondrial gene rearrangements and phylogenetic relationships in Strigidae (Strigiformes).

Author

Kang H, Li B, Ma X, and Xu Y

Subjects

Animals, Evolution, Molecular, Gene Order, Genome, Mitochondrial, Phylogeny, Strigiformes classification, Genes, Mitochondrial, Strigiformes genetics

Abstract

The bird mitogenome is generally considered to have a conservative genome size, consistent gene content, and similar gene order. As more mitogenomes are sequenced, mitochondrial (mt) gene rearrangements have been frequently identified among diverse birds. Within two genera (Bubo and Strix) of typical owls (Strigidae, Strigiformes), the rearrangement of the mt gene has been a subject of debate. In the current study, we first sequenced the whole mitogenomes of S. uralensis and B. scandiaca and resequenced the entire mitogenome of B. bubo. By combining our data with previously sequenced mitogenomes in Strigidae, we examined the mt gene rearrangements in the family and attempted to reconstruct the evolutionary progression of these rearrangements. The mitogenomes were then used to review the phylogenies of Strigidae. Most mitogenomes exhibited the ancestral gene order (A) in Strigidae. The ancestral gene order in the previously published mitogenome of B. bubo was found to be incorrect. We determined the mt gene order (the duplicate tRNA Thr -CR, B) and discovered two additional mt gene orders (the duplicate tRNA Glu-L -CR and CR, C and D) in the Bubo and Strix genera. Gene order B was likely derived from A by a tandem duplication of the region spanning from tRNA Thr to CR. The other two modified gene orders, C and D, were likely derived from B by further degenerations or deletions of one copy of specific duplicated genes. We also preliminarily reconstructed the evolutionary progression of mt gene rearrangements and discussed maintenance of the duplicated CR in the genera. Additionally, the phylogenetic trees based on the mitogenomes supported the division of Strigidae into three subfamilies: Ninoxinae + (Surniinae + Striginae). Within the Striginae clade, the four genera formed a phylogenetic relationship: Otus + (Asio + (Bubo + Strix)). This suggests that Otus firstly diverges in their evolutionary history, and Bubo and Strix show a close relationship. B. bubo, B. blakistoni and B. scandiaca form a clade should be considered members of the same genus. The well-supported topology obtained in our Bayesian inference (BI) and maximum likelihood (ML) analyses of Strigid mitogenomes suggests that these genomes are informative for constructing phylogenetic relationships., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

8. Comprehensive molecular phylogeny of barn owls and relatives (Family: Tytonidae), and their six major Pleistocene radiations.

Author

Uva V, Päckert M, Cibois A, Fumagalli L, and Roulin A

Subjects

Animals, Australasia, Bayes Theorem, Geography, Likelihood Functions, Strigiformes genetics, Time Factors, Fossils, Phylogeny, Strigiformes classification

Abstract

The owl family Tytonidae comprises two genera: Phodilus, limited to the forests of central Africa and South-East Asia, and the ubiquitous Tyto. The genus Tyto is majorly represented by the cosmopolitan Common Barn Owl group, with more than 30 subspecies worldwide. Discrete differences in body size and plumage colouration have led to the classification of this family into many species and subspecies, but the taxonomic status and phylogenetic relationships between taxa remain unclear, and in some groups controversial. Although several previous studies attempted to resolve this problem, they have been limited in their taxonomic and geographical coverage, or have relied on restricted molecular evidence and low sample sizes. Based on the most comprehensive sampling to date (16 out of 17 Tyto species, and one out of three Phodilus species), a multi-locus approach using seven mitochondrial and two nuclear markers, and taking advantage of field data and museum collections available worldwide, our main questions in this study were: (1) what are the phylogenetic relationships and classification status of the whole family; (2) when and where did the most important speciation events occur? We confirm that the Common Barn Owl, Tyto alba is divided into three main evolutionary units: the American Barn Owl, T. furcata; the Western Barn Owl, T. alba; and the Eastern Barn Owl, T. javanica, and suggest a Late Miocene (ca. 6 mya) Australasian and African origin of the group. Our results are supported by fossil age information, given that the most recent common ancestor between the Tytonidae genera Phodilus and Tyto was probably from the Oligocene (ca. 28 mya) of Australasia. We finally reveal six major Pleistocene radiations of Tyto, all resulting in wide-range distributions., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2018

9. The critically endangered forest owlet Heteroglaux blewitti is nested within the currently recognized Athene clade: A century-old debate addressed.

Author

Koparde P, Mehta P, Reddy S, Ramakrishnan U, Mukherjee S, and Robin VV

Subjects

Animals, Bayes Theorem, Conservation of Natural Resources, Fossils, Phylogeny, Endangered Species, Strigiformes classification

Abstract

Range-restricted species generally have specific niche requirements and may often have unique evolutionary histories. Unfortunately, many of these species severely lack basic research, resulting in poor conservation strategies. The phylogenetic relationship of the Critically Endangered Forest Owlet Heteroglaux blewitti has been the subject of a century-old debate. The current classifications based on non-phylogenetic comparisons of morphology place the small owls of Asia into three genera, namely, Athene, Glaucidium, and Heteroglaux. Based on morphological and anatomical data, H. blewitti has been alternatively hypothesized to belong within Athene, Glaucidium, or its own monotypic genus Heteroglaux. To test these competing hypotheses, we sequenced six loci (~4300 bp data) and performed phylogenetic analyses of owlets. Mitochondrial and nuclear trees were not congruent in their placement of H. blewitti. However, both mitochondrial and nuclear combined datasets showed strong statistical support with high maximum likelihood bootstrap (>/ = 90) and Bayesian posterior probability values (>/ = 0.98) for H. blewitti being nested in the currently recognized Athene group, but not sister to Indian A. brama. The divergence of H. blewitti from its sister taxa was between 4.3 and 5.7 Ma coinciding with a period of drastic climatic changes in the Indian subcontinent. This study presented the first genetic analysis of H. blewitti, a Critically Endangered species, and addressed the long debate on the relationships of the Athene-Heteroglaux-Glaucidium complex. We recommend further studies with more data and complete taxon sampling to understand the biogeography of Indian Athene species.

Published

2018

10. Independent pseudogenization of CYP2J19 in penguins, owls and kiwis implicates gene in red carotenoid synthesis.

Author

Emerling CA

Subjects

Animals, Base Sequence, Birds genetics, Cytochrome P-450 Enzyme System classification, Databases, Genetic, Evolution, Molecular, Phylogeny, Retina metabolism, Spheniscidae metabolism, Strigiformes metabolism, Birds classification, Carotenoids biosynthesis, Cytochrome P-450 Enzyme System genetics, Spheniscidae classification, Strigiformes classification

Abstract

Carotenoids have important roles in bird behavior, including pigmentation for sexual signaling and improving color vision via retinal oil droplets. Yellow carotenoids are diet-derived, but red carotenoids (ketocarotenoids) are typically synthesized from yellow precursors via a carotenoid ketolase. Recent research on passerines has provided evidence that a cytochrome p450 enzyme, CYP2J19, is responsible for this reaction, though it is unclear if this function is phylogenetically restricted. Here I provide evidence that CYP2J19 is the carotenoid ketolase common to Aves using the genomes of 65 birds and the retinal transcriptomes of 15 avian taxa. CYP2J19 is functionally intact and robustly transcribed in all taxa except for several species adapted to foraging in dim light conditions. Two penguins, an owl and a kiwi show evidence of genetic lesions and relaxed selection in their genomic copy of CYP2J19, and six owls show evidence of marked reduction in CYP2J19 retinal transcription compared to nine diurnal avian taxa. Furthermore, one of the owls appears to transcribe a CYP2J19 pseudogene. Notably, none of these taxa are known to use red carotenoids for sexual signaling and several species of owls and penguins represent the only birds known to completely lack red retinal oil droplets. The remaining avian taxa belong to groups known to possess red oil droplets, are known or expected to deposit red carotenoids in skin and/or plumage, and/or frequently forage in bright light. The loss and reduced expression of CYP2J19 is likely an adaptation to maximize retinal sensitivity, given that oil droplets reduce the amount of light available to the retina., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2018

11. Northern Spotted Owl (Strix occidentalis caurina) Genome: Divergence with the Barred Owl (Strix varia) and Characterization of Light-Associated Genes.

Author

Hanna ZR, Henderson JB, Wall JD, Emerling CA, Fuchs J, Runckel C, Mindell DP, Bowie RCK, DeRisi JL, and Dumbacher JP

Subjects

Animals, Birds genetics, Genome, Mitochondrial, Light, Molecular Sequence Annotation, Vision, Ocular, Genome, Strigiformes classification, Strigiformes genetics

Abstract

We report here the assembly of a northern spotted owl (Strix occidentalis caurina) genome. We generated Illumina paired-end sequence data at 90× coverage using nine libraries with insert lengths ranging from ∼250 to 9,600 nt and read lengths from 100 to 375 nt. The genome assembly is comprised of 8,108 scaffolds totaling 1.26 × 109 nt in length with an N50 length of 3.98 × 106 nt. We calculated the genome-wide fixation index (FST) of S. o. caurina with the closely related barred owl (Strix varia) as 0.819. We examined 19 genes that encode proteins with light-dependent functions in our genome assembly as well as in that of the barn owl (Tyto alba). We present genomic evidence for loss of three of these in S. o. caurina and four in T. alba. We suggest that most light-associated gene functions have been maintained in owls and their loss has not proceeded to the same extent as in other dim-light-adapted vertebrates., (© The Author 2017. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution.)

Published

2017

12. DNA barcoding of Iberian Peninsula and North Africa Tawny Owls Strix aluco suggests the Strait of Gibraltar as an important barrier for phylogeography.

Author

Doña J, Ruiz-Ruano FJ, and Jovani R

Subjects

Africa, Northern, Animals, Bayes Theorem, DNA chemistry, DNA isolation & purification, DNA metabolism, Genetic Variation, Gibraltar, Mitochondria genetics, Phylogeny, Phylogeography, Sequence Analysis, DNA, Strigiformes classification, DNA Barcoding, Taxonomic, Strigiformes genetics

Abstract

Eight subspecies have been proposed within the Tawny Owl (Strix aluco) species. However, recent molecular data have challenged this view, encouraging further work in this species complex. Here we reevaluated the taxonomic status between the North-Western African Tawny Owl, S. a. mauritanica, and its closest Iberian Tawny Owl population (from the S. a. sylvatica to S. a. aluco clade) separated by the Strait of Gibraltar. The Tawny Owl is a non-migratory and territorial species, and juvenile dispersal is restricted to a few kilometers around the natal site. This limited dispersal and the barrier imposed by the Strait of Gibraltar predicted a strong differentiation between the two populations. We tested this using DNA barcoding, Bayesian phylogenetic and species delimitation analysis. We found that an 81.1% of variation is due to the intergroups variation. In addition, the inter-intraspecific distances distribution revealed a barcoding gap among the two subspecies. Also, posterior probabilities and the P AB value allowed to reject the hypothesis that observed degree of distinctiveness is due to random coalescence processes. These findings clearly support the Strait of Gibraltar as an isolating barrier for this species. The subspecific status is confirmed and species status is even suggested for S. a. mauritanica.

Published

2016

13. The complete mitochondrial genome of Glaucidium brodiei (Strigiformes: Strigidae).

Author

Sun X, Zhou W, Sun Z, Qian L, Zhang Y, Pan T, and Zhang B

Subjects

Animals, Base Composition, Genes, Mitochondrial, Genome Size, Open Reading Frames, Phylogeny, Sequence Analysis, DNA, Whole Genome Sequencing, Genome, Mitochondrial, Strigiformes classification, Strigiformes genetics

Abstract

In this paper, the complete mitochondrial genome of Glaucidium brodiei is sequenced and reported for the first time. The mitochondrial genome is a circular molecule of 17,318 bp in length, consisting of 13 protein-coding genes (PCGs), 22 transfer RNA genes, 2 ribosomal RNA genes and a control region. Overall base composition of the complete mitochondrial DNA is A (29.9%), G (14.1%), C (32.1%) and T (23.9%), the percentage of A and T (53.8%) is slightly higher than G and C (46.2%). All the genes in G. brodiei are distributed on the H-strand, except for the ND6 subunit gene and nine tRNA genes, which are encoded on the L-strand.

Published

2016

14. Complete sequence and gene organization of the mitochondrial genome of Asio flammeus (Strigiformes, strigidae).

Author

Zhang Y, Song T, Pan T, Sun X, Sun Z, Qian L, and Zhang B

Subjects

Animals, DNA, Mitochondrial genetics, Phylogeny, RNA, Ribosomal genetics, RNA, Transfer genetics, Sequence Analysis, DNA, Strigiformes classification, Genome, Mitochondrial genetics, Strigiformes genetics

Abstract

The complete sequence of the mitochondrial genome was determined for Asio flammeus, which is distributed widely in geography. The length of the complete mitochondrial genome was 18,966 bp, containing 2 rRNA genes, 22 tRNA genes, 13 protein-coding genes (PCGs), and 1 non-coding region (D-loop). All the genes were distributed on the H-strand, except for the ND6 subunit gene and eight tRNA genes which were encoded on the L-strand. The D-loop of A. flammeus contained many tandem repeats of varying lengths and repeat numbers. The molecular-based phylogeny showed that our species acted as the sister group to A. capensis and the supported Asio was the monophyletic group.

Published

2016

15. Complete mitochondrial genome of the Tyto longimembris (Strigiformes: Tytonidae).

Author

Xu P, Li Y, Miao L, Xie G, and Huang Y

Subjects

Animals, Base Composition, Genes, Mitochondrial, Genome Size, Open Reading Frames, Phylogeny, Sequence Analysis, DNA, Tandem Repeat Sequences, Whole Genome Sequencing, Genome, Mitochondrial, Strigiformes classification, Strigiformes genetics

Abstract

The complete mitochondrial genome of Tyto longimembris has been determined in this study. It is 18,466 bp in length and consists of 13 protein-coding genes, 22 transfer RNA (tRNA) genes, 2 ribosomal RNA (rRNA) genes and a non-coding control region (D-loop). The overall base composition of the heavy strand of the T. longimembris mitochondrial genome is A: 30.1%, T: 23.5%, C: 31.8% and G: 14.6%. The structure of control region should be characterized by a region containing tandem repeats as two definitely separated clusters of tandem repeats were found. This study provided an important data set for phylogenetic and taxonomic analyses of Tyto species.

Published

2016

16. Molecular systematics of the new world screech-owls (Megascops: Aves, Strigidae): biogeographic and taxonomic implications.

Author

Dantas SM, Weckstein JD, Bates JM, Krabbe NK, Cadena CD, Robbins MB, Valderrama E, and Aleixo A

Subjects

Animals, Bayes Theorem, Canada, Central America, Ecosystem, Likelihood Functions, South America, Strigiformes genetics, DNA, Mitochondrial genetics, Genetic Variation, Phylogeny, Strigiformes classification

Abstract

Megascops screech-owls are endemic to the New World and range from southern Canada to the southern cone of South America. The 22 currently recognized Megascops species occupy a wide range of habitats and elevations, from desert to humid montane forest, and from sea level to the Andean tree line. Species and subspecies diagnoses of Megascops are notoriously difficult due to subtle plumage differences among taxa with frequent plumage polymorphism. Using three mitochondrial and three nuclear genes we estimated a phylogeny for all but one Megascops species. Phylogenies were estimated with Maximum Likelihood and Bayesian Inference, and a Bayesian chronogram was reconstructed to assess the spatio-temporal context of Megascops diversification. Megascops was paraphyletic in the recovered tree topologies if the Puerto Rican endemic M. nudipes is included in the genus. However, the remaining taxa are monophyletic and form three major clades: (1) M. choliba, M. koepckeae, M. albogularis, M. clarkii, and M. trichopsis; (2) M. petersoni, M. marshalli, M. hoyi, M. ingens, and M. colombianus; and (3) M. asio, M. kennicottii, M. cooperi, M. barbarus, M. sanctaecatarinae, M. roboratus, M. watsonii, M. atricapilla, M. guatemalae, and M. vermiculatus. Megascops watsonii is paraphyletic with some individuals more closely related to M. atricapilla than to other members in that polytypic species. Also, allopatric populations of some other Megascops species were highly divergent, with levels of genetic differentiation greater than between some recognized species-pairs. Diversification within the genus is hypothesized to have taken place during the last 8 million years, with a likely origin in Central America. The genus later expanded over much of the Americas and then diversified via multiple dispersal events from the Andes into the Neotropical lowlands., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2016

17. Reprising the taxonomy of Cyprus Scops Owl Otus (scops) cyprius, a neglected island endemic.

Author

Flint P, Whaley D, Kirwan GM, Charalambides M, Schweizer M, and Wink M

Subjects

Animal Distribution, Animals, Cyprus, Ecosystem, Female, Islands, Male, Molecular Sequence Data, Phylogeny, Strigiformes genetics, Strigiformes physiology, Vocalization, Animal, Strigiformes classification

Abstract

The endemic Cyprus Scops Owl Otus (scops) cyprius has been treated as a subspecies of the widespread Eurasian Scops Owl O. scops since at least the 1940s. However, its song is distinct from that of all other subspecies of O. scops in being double-noted, rather than single-noted. Its plumage also differs, most obviously in being consistently darker than other subspecies and in lacking a rufous morph. However, it shows no biometric differences from O. s. cycladum and southern populations of O. s. scops. It is also unusual among scops (s. l.) populations in being at least partially resident, although two specimens showing characters of this taxon were collected in Israel in early spring, and the numbers of birds that are resident on Cyprus appear to vary, with few recent winter records. It differs from O. s. scops by one synapomorphic nucleotide exchange in the analysed mitochondrial marker, indicating a recent separation. Given that large numbers of O. s. scops and O. s. cycladum pass through Cyprus on spring migration, and that the latter breeds in adjacent countries, it seems probable that cycladum would colonize the island, but for the presence of cyprius. That it does not do so, and that cyprius retains its distinctive song and plumage, suggests that isolating mechanisms exist. We recommend that cyprius be considered specifically distinct, as are other distinctively voiced insular Otus populations.

Published

2015

18. A new look at the holotype and type locality of Setopagis maculosa (Todd, 1920) Aves: Caprimulgidae), with remarks on its systematic relationships.

Author

Costa TV, Ingels J, Cavarzere V, and Silveira LF

Subjects

Animal Structures anatomy & histology, Animal Structures growth & development, Animals, Body Size, Ecosystem, Female, Male, Organ Size, Strigiformes anatomy & histology, Strigiformes growth & development, Strigiformes classification

Abstract

Setopagis maculosa (Todd, 1920) (Aves: Caprimulgidae) was described based on a single male specimen collected by Samuel Milton Klages in French Guiana, northeastern South America. Since then, no new specimens have been collected nor have any reliable records been made, and the validity of the species has been questioned. A detailed analysis of the holotype reveals that it has unique and distinctive morphological traits that support the validity and taxonomic status of the species, which is provisionally placed in Setopagis. We present new information on the type locality at the time of its collection, which may shed some light on the habitat preferences of the species, and we provide details on its plumage that have been largely overlooked and that will be important for future field identification.

Published

2015

19. Multiple lines of evidence confirm that Hume's Owl Strix butleri (A. O. Hume, 1878) is two species, with description of an unnamed species (Aves: Non-Passeriformes: Strigidae).

Author

Kirwan GM, Schweizer M, and Copete JL

Subjects

Animal Distribution, Animal Structures anatomy & histology, Animal Structures growth & development, Animals, Body Size, DNA, Mitochondrial genetics, Female, Genetic Variation, Male, Molecular Sequence Data, Organ Size, Phylogeny, Strigiformes anatomy & histology, Strigiformes genetics, Strigiformes growth & development, Strigiformes classification

Abstract

Genetic and morphological analyses revealed that the type specimen of Hume's Owl Strix butleri, the geographical provenance of which is open to doubt, differs significantly from all other specimens previously ascribed to this species. Despite the absence of vocal data definitively linked to the same population as the type specimen, we consider that two species-level taxa are involved, principally because the degree of molecular differentiation is close to that seen in other taxa of Strix traditionally recognised as species. Partially complicating this otherwise straightforward issue is the recent description of "Omani Owl S. omanensis" from northern Oman based solely on photographs and sound-recordings. We consider that there is clear evidence of at least some morphological congruence between the butleri type and the phenotype described as "omanensis". As a result, we review the relative likelihood of three potential hypotheses: that "omanensis" is a synonym of butleri; that "omanensis" is a subspecies of butleri; or that "omanensis" and butleri both represent species taxa. Until such time as specimen material of "omanensis" becomes available for genetic and comparative morphological analyses, we recommend that this name be considered as a synonym of butleri, especially bearing in mind the possibility (not previously considered in detail) that the type of butleri could have originated in Arabia, specifically from Oman. We describe other populations heretofore ascribed to S. butleri as a new species.

Published

2015

20. The roles of competition and habitat in the dynamics of populations and species distributions.

Author

Yackulic CB, Reid J, Nichols JD, Hines JE, Davis R, and Forsman E

Subjects

Animals, Demography, Extinction, Biological, Models, Biological, Species Specificity, Strigiformes physiology, Conservation of Natural Resources, Ecosystem, Strigiformes classification

Abstract

The role of competition in structuring biotic communities at fine spatial scales is well known from detailed process-based studies. Our understanding of competition's importance at broader scales is less resolved and mainly based on static species distribution maps. Here, we bridge this gap by examining the joint occupancy dynamics of an invading species (Barred Owl, Strix varia) and a resident species (Northern Spotted Owl, Strix occidentalis caurina) in a 1000-km study area over a 22-year period. Past studies of these competitors have focused on the dynamics of one species at a time, hindering efforts to parse out the roles of habitat and competition and to forecast the future of the resident species. In addition, while these studies accounted for the imperfect detection of the focal species, no multi-season analysis of these species has accounted for the imperfect detection of the secondary species, potentially biasing inference. We analyzed survey data using models that combine the general multistate-multi-season occupancy modeling framework with autologistic modeling, allowing us to account for important aspects of our study system. We found that local extinction probability increases for each species when the other is present; however, the effect of the invader on the resident is greater. Although the species prefer different habitats, these habitats are highly correlated at the patch scale, and the impacts of invader on the resident are greatest in patches that would otherwise be optimal. As a consequence, competition leads to a weaker relationship between habitat and Northern Spotted Owl occupancy. Colonization and extinction rates of the invader are closely related to neighborhood occupancy, and over the first half of the study the availability of colonists limited the rate of population growth. Competition is likely to exclude the resident species, both through its immediate effects on local extinction and by indirectly lowering colonization rates as Northern Spotted Owl occupancy declines. Our analysis suggests that dispersal limitation affects both the invasion dynamics and the scale at which the effects of competition are observed. We also provide predictions regarding the potential costs and benefits of managing Barred Owl populations at different target levels.

Published

2014

21. Limited phylogenetic distribution of a long tandem-repeat cluster in the mitochondrial control region in Bubo (Aves, Strigidae) and cluster variation in Blakiston's fish owl (Bubo blakistoni).

Author

Omote K, Nishida C, Dick MH, and Masuda R

Subjects

Animals, Base Sequence, DNA Primers genetics, Electrophoresis, Agar Gel, Japan, Likelihood Functions, Locus Control Region genetics, Molecular Sequence Data, Sequence Analysis, DNA, Species Specificity, Strigiformes classification, Animal Distribution, DNA, Mitochondrial genetics, Models, Genetic, Phylogeny, Strigiformes genetics, Tandem Repeat Sequences genetics

Abstract

To investigate the phylogenetic position of Blakiston's fish owl (Bubo blakistoni), we sequenced the mitochondrial (mt) DNA control region and cytochrome b (cyt b) for nine Bubo species. Maximum-likelihood analyses of combined control region and cyt b sequences, and cyt b sequences alone, showed that species formerly placed in genus Ketupa comprise a monophyletic group. Unexpectedly, we discovered a long cluster of 20-25 tandem repeat units 77 or 78bp long in the third control region domain in four of the nine Bubo species for which the control region was sequenced (B. blakistoni, B. flavipes, and B. ketupu in the Ketupa clade; B. lacteus), leading to overall control region lengths of 3.0-3.8kpb estimated from agarose gel electrophoresis. The control region in B. lacteus is the longest (3.8kbp) reported to date in vertebrates. Sequencing of eight repeat units at each end of the cluster in 20 B. blakistoni individuals detected several types of repeat units 77 or 78bp long, and six patterns in the order of unit types. The occurrence of a repeat cluster in all three species examined in the Ketupa clade suggests their common ancestor also had a cluster, whereas a maximum parsimony tree showed repeat-unit types grouping by species, rather than by paralog groups, suggesting independent origins of the clusters. We reconcile these results with a turnover model, in which the range in cluster-length variation and unit types at the 5' end are hypothetically functionally constrained by the protein-binding function of the control region, but otherwise there is a continual turnover of units in evolutionary time, with new unit types arising through mutations, proliferating by duplication of single and double repeat blocks, and being lost through deletion. Estimated free energies for reconstructed secondary structures of single and especially pairs of repeat units were higher than for homologous single-unit blocks in species lacking a repeat cluster, supporting slipped-strand mispairing as the mechanism of cluster turnover., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2013

22. A new species of masked-owl (Aves: Strigiformes: Tytonidae) from Seram, Indonesia.

Author

Jønsson KA, Poulsen MK, Haryoko T, Reeve AH, and Fabre PH

Subjects

Animal Distribution physiology, Animals, Ecosystem, Indonesia, Phylogeny, Species Specificity, Strigiformes genetics, Strigiformes physiology, Strigiformes anatomy & histology, Strigiformes classification

Abstract

We describe a new species of masked-owl from the lower montane forest of Seram, one of the largest islands in the Moluccas of eastern Indonesia, for which we propose the name Tyto almae (Seram Masked-Owl), sp. nov. Molecular (mitochondrial cyt-b) differences show that Tyto sororcula of Buru and Tanimbar is closely related to T novaehollandiae of Australia and New Guinea (-1% uncorrected pairwise distance), and that Tyto almae of Seram differs by -3% (uncorrected pairwise distance) from both of them. These differences are further corroborated by morphology and colouration. Although a photograph from Seram published in 1987 had already established the presence of a Tyto owl on the island, ours represents the first specimen of this species. The bird was mist-netted in wet, mossy lower montane forest at an elevation of 1,350 m. No further observations of the owl were made during four weeks of fieldwork in Seram.

Published

2013

23. A new species of extinct scops owl (Aves: Strigiformes: Strigidae: Otus) from São Miguel Island (Azores Archipelago, North Atlantic Ocean).

Author

Rando JC, Alcover JA, Olson SL, and Pieper H

Subjects

Animal Distribution, Animals, Azores, Species Specificity, Strigiformes physiology, Extinction, Biological, Strigiformes anatomy & histology, Strigiformes classification

Abstract

The extinct São Miguel Scops Owl Otusfrutuosoi n. sp. is described from fossil bones found in Gruta de Água de Pau, a volcanic tube in São Miguel Island (Azores Archipelago, North Atlantic Ocean). It is the first extinct bird described from the Azores and, after the Madeiran Scops Owl (O. mauli Rando, Pieper, Alcover & Olson 2012a), the second extinct species of Strigiformes known in Macaronesia. The forelimb elements of the new taxon are shorter, the hindlimb elements are longer, and the pelvis is shorter and broader than in the Eurasian Scops Owl (O. scops Linnaeus). The new species differs from O. mauli in the smaller size of many of its bones, especially the ulna and tibiotarsus. Its measurements (estimated weight, wing area, and wing loading, and the ratio of humerus + ulna + carpometacarpus length/femur length) indicate weak powers of flight and ground-dwelling habits. The latest occurrence of the new species, as evidenced by a radiocarbon date of 1970 ± 40 BP from bone collagen, indicates a Late Holocene extinction event subsequent to 49 cal BC, and was probably linked to human arrival and subsequent habitat alterations.

Published

2013

24. A new owl species of the genus Otus (aves: strigidae) from Lombok, Indonesia.

Author

Sangster G, King BF, Verbelen P, and Trainor CR

Subjects

Animals, Indonesia, Strigiformes genetics, Genetic Speciation, Strigiformes classification

Abstract

The avifauna of Indonesia is one of the richest in the world but the taxonomic status of many species remains poorly documented. The sole species of scops owl known from Lombok has long been assigned to the widespread Moluccan Scops Owl Otus magicus on the basis of superficial similarities in morphology. Field work in 2003 has shown that the territorial song of the scops owls inhabiting the foothills of Gunung Rinjani differs dramatically from that of O. magicus and is more similar to those of Rufescent Scops Owl O. rufescens and Singapore Scops Owl O. cnephaeus. Detailed comparisons of sound recordings and museum specimens with those of other scops owls in Wallacea and the Indo-Malayan region have confirmed the distinctiveness of the Lombok population. We describe Otus jolandae as a new species, the Rinjani Scops Owl. It is locally common at elevations from 25-1350 m. and occurs within Gunung Rinjani National Park. The new species is known from seven specimens collected by Alfred Everett in 1896. Otus jolandae represents the first endemic bird species from Lombok.

Published

2013

25. Ocular consequences of blunt trauma in two species of nocturnal raptors (Athene noctua and Otus scops).

Author

Seruca C, Molina-López R, Peña T, and Leiva M

Subjects

Animals, Electroretinography veterinary, Eye Injuries pathology, Retrospective Studies, Species Specificity, Strigiformes classification, Wounds, Nonpenetrating pathology, Bird Diseases pathology, Eye Injuries veterinary, Strigiformes injuries, Wounds, Nonpenetrating veterinary

Abstract

Objective:   To determine the type, prevalence, and prognosis of ocular and periocular lesions in free-living little owls (LO) and scops owls (SO), injured by blunt trauma., Procedures:   Medical records from LO and SO with ocular or periocular lesions secondary to blunt trauma were reviewed. A complete ophthalmic examination was performed in all birds. Short protocol electroretinography (ERG) and ocular ultrasound were performed as dictated by the case., Results:   During the study period, a total of 158 LO and 99 SO with blunt trauma were admitted. Among these, 43 LO (27.8%) and 27 SO (27.3%) had ocular or periocular lesions. Bilateral injuries (72.1% LO and 81.5% SO) were more common than unilateral. Common findings in both species were: corneal erosions/superficial ulcers, anterior and posterior uveitis, cataracts, hyphema, posterior synechia, vitreal hemorrhage, and retinal detachment. Electroretinography was performed in 32 LO and eight SO, which had posterior segment lesions or opacity of the transparent media. Normal to nonrecordable b-wave amplitudes were observed. Follow-up was available in 13 LO and 11 SO. Among these, nine LO (14 eyes) and 10 SO (17 eyes) had resolution of the clinical signs following medical treatment., Conclusions:   Ocular lesions are common in LO and SO injured by blunt trauma. Electroretinography is a valuable diagnostic tool to assess the severity of retinal dysfunction secondary to blunt trauma and to determine the response to medical treatment. A complete ophthalmic examination is a determining factor in the early management of trauma in these species., (© 2011 American College of Veterinary Ophthalmologists.)

Published

2012

26. The impact of climate and cyclic food abundance on the timing of breeding and brood size in four boreal owl species.

Author

Lehikoinen A, Ranta E, Pietiäinen H, Byholm P, Saurola P, Valkama J, Huitu O, Henttonen H, and Korpimäki E

Subjects

Animals, Animals, Newborn, Breeding, Climate, Global Warming, Reproduction, Strigiformes classification, Time Factors, Food Chain, Strigiformes physiology

Abstract

The ongoing climate change has improved our understanding of how climate affects the reproduction of animals. However, the interaction between food availability and climate on breeding has rarely been examined. While it has been shown that breeding of boreal birds of prey is first and foremost determined by prey abundance, little information exists on how climatic conditions influence this relationship. We studied the joint effects of main prey abundance and ambient weather on timing of breeding and reproductive success of two smaller (pygmy owl Glaucidium passerinum and Tengmalm's owl Aegolius funereus) and two larger (tawny owl Strix aluco and Ural owl Strix uralensis) avian predator species using long-term nation-wide datasets during 1973-2004. We found no temporal trend either in vole abundance or in hatching date and brood size of any studied owl species. In the larger species, increasing late winter or early spring temperature advanced breeding at least as much as did high autumn abundance of prey (voles). Furthermore, increasing snow depth delayed breeding of the largest species (Ural owl), presumably by reducing the availability of voles. Brood size was strongly determined by spring vole abundance in all four owl species. These results show that climate directly affects the breeding performance of vole-eating boreal avian predators much more than previously thought. According to earlier studies, small-sized species should advance their breeding more than larger species in response to increasing temperature. However, we found an opposite pattern, with larger species being more sensitive to temperature. We argue that this pattern is caused by a difference in the breeding tactics of larger mostly capital breeding and smaller mostly income breeding owl species.

Published

2011

27. Range-wide genetic differentiation among North American great gray owls (Strix nebulosa) reveals a distinct lineage restricted to the Sierra Nevada, California.

Author

Hull JM, Keane JJ, Savage WK, Godwin SA, Shafer JA, Jepsen EP, Gerhardt R, Stermer C, and Ernest HB

Subjects

Animals, Bayes Theorem, California, Canada, Cluster Analysis, Conservation of Natural Resources, DNA, Mitochondrial genetics, Geography, Haplotypes, Microsatellite Repeats, Models, Genetic, Northwestern United States, Sequence Analysis, DNA, Strigiformes classification, Evolution, Molecular, Genetic Variation, Genetics, Population, Phylogeny, Strigiformes genetics

Abstract

Investigations of regional genetic differentiation are essential for describing phylogeographic patterns and informing management efforts for species of conservation concern. In this context, we investigated genetic diversity and evolutionary relationships among great gray owl (Strix nebulosa) populations in western North America, which includes an allopatric range in the southern Sierra Nevada in California. Based on a total dataset consisting of 30 nuclear microsatellite DNA loci and 1938-base pairs of mitochondrial DNA, we found that Pacific Northwest sampling groups were recovered by frequency and Bayesian analyses of microsatellite data and each population sampled, except for western Canada, showed evidence of recent population bottlenecks and low effective sizes. Bayesian and maximum likelihood phylogenetic analyses of sequence data indicated that the allopatric Sierra Nevada population is also a distinct lineage with respect to the larger species range in North America; we suggest a subspecies designation for this lineage should be considered (Strix nebulosa yosemitensis). Our study underscores the importance of phylogeographic studies for identifying lineages of conservation concern, as well as the important role of Pleistocene glaciation events in driving genetic differentiation of avian fauna., (Published by Elsevier Inc.)

Published

2010

28. Nestling coloration is adjusted to parent visual performance in altricial birds irrespective of assumptions on vision system for Laniidae and owls, a reply to Renoult et al.

Author

Avilés JM and Soler JJ

Subjects

Animals, Color, Passeriformes anatomy & histology, Passeriformes classification, Phylogeny, Strigiformes anatomy & histology, Strigiformes classification, Color Perception, Color Vision, Passeriformes physiology, Strigiformes physiology

Abstract

We have recently published support to the hypothesis that visual systems of parents could affect nestling detectability and, consequently, influences the evolution of nestling colour designs in altricial birds. We provided comparative evidence of an adjustment of nestling colour designs to the visual system of parents that we have found in a comparative study on 22 altricial bird species. In this issue, however, Renoult et al. (J. Evol. Biol., 2009) question some of the assumptions and statistical approaches in our study. Their argumentation relied on two major points: (1) an incorrect assignment of vision system to four out of 22 sampled species in our study; and (2) the use of an incorrect approach for phylogenetic correction of the predicted associations. Here, we discuss in detail re-assignation of vision systems in that study and propose alternative interpretation for current knowledge on spectrophotometric data of avian pigments. We reanalysed the data by using phylogenetic generalized least squares analyses that account for the alluded limitations of phylogenetically independent contrasts and, in accordance with the hypothesis, confirmed a significant influence of parental visual system on gape coloration. Our results proved to be robust to the assumptions on visual system evolution for Laniidae and nocturnal owls that Renoult et al. (J. Evol. Biol., 2009) study suggested may have flawed our early findings. Thus, the hypothesis that selection has resulted in increased detectability of nestling by adjusting gape coloration to parental visual systems is currently supported by our comparative data.

Published

2010

29. Heavy-metal concentrations in three owl species from Korea.

Author

Kim J, Lee H, and Koo TH

Subjects

Animals, Female, Korea, Male, Environmental Pollutants analysis, Liver metabolism, Metals, Heavy analysis, Strigiformes classification, Strigiformes metabolism

Abstract

This study presents concentrations of heavy metals (iron, zinc, manganese, copper, lead, and cadmium) in livers of three owl species from Korea. Essential trace elements (iron, zinc, manganese, and copper) did not differ among the owl species. We suggest that the essential elements are within the normal range and are maintained by normal homeostatic mechanisms. Lead and cadmium concentrations in Eurasian Eagle Owls (Bubo bubo) were significantly lower than in Brown Hawk Owls (Nixos scutulata) and Collared Scops Owls (Otus lempiji). Lead and cadmium concentrations in Korean owl species were at background levels; lead concentrations in two Collared Scops Owls were above background concentrations. Lead and cadmium concentrations were similar to concentrations previously reported in owls from other parts of the world. We suggest that lead and cadmium concentrations in Korean owls are below toxic concentrations.

Published

2008

30. Contrasting patterns of mitochondrial and microsatellite genetic structure among Western European populations of tawny owls (Strix aluco).

Author

Brito PH

Subjects

Altitude, Animals, Biodiversity, Ecosystem, Europe, Geography, Italy, Phylogeny, Spain, Strigiformes classification, DNA, Mitochondrial genetics, Genetic Variation, Microsatellite Repeats, Strigiformes genetics

Abstract

A recent study of mitochondrial phylogeography of tawny owls (Strix aluco) in western Europe suggested that this species survived the Pleistocene glaciations in three allopatric refugia located in Iberia, Italy, and the Balkans, and the latter was likely the predominant source of postglacial colonization of northern Europe. New data from seven microsatellite loci from 184 individual owls distributed among 14 populations were used to assess the genetic congruence between nuclear and mitochondrial DNA (mtDNA) markers. Microsatellites corroborated the major phylogeographical conclusions reached on the basis of the mtDNA sequences, but also showed important differences leading to novel inferences. Microsatellites corroborated the three major refugia and supported the Balkan origin of northern populations. When corrected for differences in effective population size, microsatellites and mtDNA yielded generally congruent overall estimates of population structure (N*ST=0.12 vs. RST=0.16); however, there was substantial heterogeneity in the RST among the seven nuclear loci that was not correlated with heterozygosity. Populations representing the Balkans postglacial expansion interact with populations from the other two refugia forming two clines near the Alps and the Pyrenees. In both cases, the apparent position of the contact zones differed substantially between markers due to the genetic composition of populations sampled in northern Italy and Madrid. Microsatellite data did not corroborate the lower genetic diversity of northern, recently populated regions as was found with mtDNA; this discrepancy was taken as evidence for a recent bottleneck recovery. Finally, this study suggests that congruence among genetic markers should be more likely in cases of range expansion into new areas than when populations interact across contact zones.

Published

2007

31. Comparative analysis of complete mitochondrial DNA control region of four species of Strigiformes.

Author

Xiao B, Ma F, Sun Y, and Li QW

Subjects

Animals, Base Composition, Base Sequence, Conserved Sequence, DNA, Mitochondrial chemistry, Evolution, Molecular, Molecular Sequence Data, Strigiformes classification, Tandem Repeat Sequences, DNA, Mitochondrial genetics, Locus Control Region genetics, Strigiformes genetics

Abstract

The sequence of the whole mitochondrial (mt) DNA control region (CR) of four species of Strigiformes was obtained. Length of the CR was 3,290 bp, 2,848 bp, 2,444 bp, and 1,771 bp for Asio flammeus, Asio otus, Athene noctua, and Strix aluco, respectively. Interestingly, the length of the control region was maximum in Asio flammeus among all the avian mtDNA control regions sequenced thus far. In addition, the base composition and organization of mtDNA CR of Asio flammeus were identical to those reported for other birds. On the basis of the differential frequencies of base substitutions, the CR may be divided two variable domains, I and III, and a central conserved domain, II. The 3' end of the CR contained many tandem repeats of varying lengths and repeat numbers. In Asio flammeus, the repeated sequences consisted of a 126 bp sequence that was repeated seven times and a 78 bp sequence that was repeated 14 times. In Asio otus, there were also two repeated sequences, namely a 127 bp sequence that was repeated eight times and a 78 bp sequence that was repeated six times. The control region of Athene noctua contained three sets of repeats: a 89 bp sequence that was repeated three times, a 77 bp sequence that was repeated four times, and a 71 bp sequence that was repeated six times. Strix aluco, however, had only one repeated sequence, a 78 bp sequence that was repeated five times. The results of this study seem to indicate that these tandem repeats may have resulted from slipped-strand mispairing during mtDNA replication. Moreover, there are many conserved motifs within the repeated units. These sequences could form stable stem-loop secondary structures, which suggests that these repeated sequences play an important role in regulating transcription and replication of the mitochondrial genome.

Published

2006

32. Experimental West Nile virus infection in Eastern Screech Owls (Megascops asio).

Author

Nemeth NM, Hahn DC, Gould DH, and Bowen RA

Subjects

Animals, Bird Diseases pathology, Bird Diseases transmission, Feathers virology, Myocardium pathology, Strigiformes classification, Viremia, West Nile Fever pathology, West Nile Fever transmission, West Nile Fever virology, Bird Diseases virology, Strigiformes virology, West Nile Fever veterinary

Abstract

Eastern Screech Owls (EASOs) were experimentally infected with the pathogenic New York 1999 strain of West Nile virus (WNV) by subcutaneous injection or per os. Two of nine subcutaneously inoculated birds died or were euthanatized on 8 or 9 days postinfection (DPI) after <24 hr of lethargy and recumbency. All subcutaneously inoculated birds developed levels of viremia that are likely infectious to mosquitoes, with peak viremia levels ranging from 10(5.0) to 10(9.6) plaque-forming units/ml. Despite the viremia, the remaining seven birds did not display signs of illness. All birds alive beyond 5 DPI seroconverted, although the morbid birds demonstrated significantly lower antibody titers than the clinically normal birds. Cagemates of infected birds did not become infected. One of five orally exposed EASOs became viremic and seroconverted, whereas WNV infection in the remaining four birds was not evident. All infected birds shed virus via the oral and cloacal route. Early during infection, WNV targeted skin, spleen, esophagus, and skeletal muscle. The two morbid owls had myocardial and skeletal muscle necrosis and mild encephalitis and nephritis, whereas some of the clinically healthy birds that were sacrificed on 14 DPI had myocardial arteritis and renal phlebitis. WNV is a significant pathogen of EASOs, causing pathologic lesions with varying clinical outcomes.

Published

2006

33. A new family of satellite DNA sequences as a major component of centromeric heterochromatin in owls (Strigiformes).

Author

Yamada K, Nishida-Umehara C, and Matsuda Y

Subjects

Animals, Base Sequence, Biological Evolution, Blotting, Southern, Chromosomes genetics, Conserved Sequence, Genetic Variation, In Situ Hybridization, Fluorescence, Molecular Sequence Data, Phylogeny, Sequence Homology, Nucleic Acid, Strigiformes classification, Centromere genetics, DNA, Satellite genetics, Heterochromatin genetics, Repetitive Sequences, Nucleic Acid genetics, Strigiformes genetics

Abstract

We isolated a new family of satellite DNA sequences from HaeIII- and EcoRI-digested genomic DNA of the Blakiston's fish owl ( Ketupa blakistoni). The repetitive sequences were organized in tandem arrays of the 174 bp element, and localized to the centromeric regions of all macrochromosomes, including the Z and W chromosomes, and microchromosomes. This hybridization pattern was consistent with the distribution of C-band-positive centromeric heterochromatin, and the satellite DNA sequences occupied 10% of the total genome as a major component of centromeric heterochromatin. The sequences were homogenized between macro- and microchromosomes in this species, and therefore intraspecific divergence of the nucleotide sequences was low. The 174 bp element cross-hybridized to the genomic DNA of six other Strigidae species, but not to that of the Tytonidae, suggesting that the satellite DNA sequences are conserved in the same family but fairly divergent between the different families in the Strigiformes. Secondly, the centromeric satellite DNAs were cloned from eight Strigidae species, and the nucleotide sequences of 41 monomer fragments were compared within and between species. Molecular phylogenetic relationships of the nucleotide sequences were highly correlated with both the taxonomy based on morphological traits and the phylogenetic tree constructed by DNA-DNA hybridization. These results suggest that the satellite DNA sequence has evolved by concerted evolution in the Strigidae and that it is a good taxonomic and phylogenetic marker to examine genetic diversity between Strigiformes species.

Published

2004

34. Unravelling a biogeographical knot: origin of the 'leapfrog' distribution pattern of Australo-Papuan sooty owls (Strigiformes) and logrunners (Passeriformes).

Author

Norman JA, Christidis L, Joseph L, Slikas B, and Alpers D

Subjects

Adenosine Triphosphatases genetics, Animals, Australia, Base Sequence, Biological Evolution, Cytochrome b Group genetics, DNA, Mitochondrial chemistry, Demography, Geography, Molecular Sequence Data, Papua New Guinea, Phylogeny, Population Dynamics, Sequence Analysis, Songbirds classification, Strigiformes classification, DNA, Mitochondrial genetics, Ecosystem, Songbirds genetics, Strigiformes genetics

Abstract

Molecular analysis of two Australo-Papuan rainforest birds exhibiting correlated 'leapfrog' patterns were used to elucidate the evolutionary origin of this unusual pattern of geographical differentiation. In both sooty owls (Tyto) and logrunners (Orthonyx), phenotypically similar populations occupy widely disjunct areas (central-eastern Australia and upland New Guinea) with a third, highly distinctive population, occurring between them in northeastern Queensland. Two mechanisms have been proposed to explain the origin of leapfrog patterns in avian distributions: recent shared ancestry of terminal populations and unequal rates or phenotypic change among populations. As the former should generate correlated patterns of phenotypic and genetic differentiation, we tested for a sister relationship between populations from New Guinea and central-eastern Australia using nuclear and mitochondrial DNA sequences. The resulting phylogenies not only refute recent ancestry as an explanation for the leapfrog pattern, but provide evidence of vastly different spatio-temporal histories for sooty owls and logrunners within the Australo-Papuan rainforests. This incongruence indicates that the evolutionary processes responsible for generating leapfrog patterns in these co-distributed taxa are complex, possibly involving a combination of selection and drift in sooty owls and convergence or retention of ancestral characteristics in logrunners.

Published

2002

35. Caryosporosis in snowy owls (Nyctea scandiaca).

Author

Murn C and Chitty J

Subjects

Animals, Coccidiosis parasitology, Bird Diseases parasitology, Coccidiosis veterinary, Eimeriidae classification, Eimeriidae isolation & purification, Strigiformes classification

Published

2001