Your search keyword '"BioGeoBEARS"' showing total 10 results

1. Molecular phylogeny, classification, biogeography and diversification patterns of a diverse group of moths (Geometridae: Boarmiini)

Author

Leidys Murillo-Ramos, Hongxiang Han, Nan Jiang, Nicolas Chazot, Toomas Tammaru, Erki Õunap, John T. Clarke, Niklas Wahlberg, Pasi Sihvonen, Robert B. Davis, Finnish Museum of Natural History, Zoology, and Biosciences

Subjects

0106 biological sciences, 0301 basic medicine, Systematics, Biston, Biogeography, Lineage (evolution), Moths, SYSTEMATICS, Biology, 010603 evolutionary biology, 01 natural sciences, Evolution, Molecular, 03 medical and health sciences, Monophyly, PALEOGEOGRAPHY, DISPERSAL, female flightlessness, HISTORICAL BIOGEOGRAPHY, BUTTERFLIES, Genetics, Animals, BAMM, Molecular Biology, Phylogeny, Ecology, Evolution, Behavior and Systematics, boarmiines, BioGeoBEARS, Likelihood Functions, Evolutionary Biology, Phylogenetic tree, ORIGIN, Cleora, LEPIDOPTERA, EVOLUTION, Europe, LIFE, Phylogeography, 030104 developmental biology, Taxon, Evolutionary biology, polyphagyPolyphagy, TRADE-OFF, 1181 Ecology, evolutionary biology, Molecular phylogenetics, 1182 Biochemistry, cell and molecular biology, Biological dispersal, Female

Abstract

Understanding how and why some groups have become more species-rich than others, and how past biogeography may have shaped their current distribution, are questions that evolutionary biologists have long attempted to answer. We investigated diversification patterns and historical biogeography of a hyperdiverse lineage of Lepidoptera, the geometrid moths, by studying its most species-rich tribe Boarmiini, which comprises ca. 200 genera and ca. known 3000 species. We inferred the evolutionary relationships of Boarmiini based on a dataset of 346 taxa, with up to eight genetic markers under a maximum likelihood approach. The monophyly of Boarmiiniis strongly supported. However, the phylogenetic position of many taxa does not agree with current taxonomy, although the monophyly of most major genera within the tribe is supported after minor adjustments. Three genera are synonymized, one new combination is proposed, and four species are placed in incertae sedis within Boarmiini. Our results support the idea of a rapid initial diversification of Boarmiini, which also implies that no major taxonomic subdivisions of the group can currently be proposed. A time-calibrated tree and biogeographical analyses suggest that boarmiines appeared in Laurasia ca. 52 Mya, followed by dispersal events throughout the Australasian, African and Neotropical regions. Most of the transcontinental dispersal events occurred in the Eocene, a period of intense geological activity and rapid climate change. Diversification analyses showed a relatively constant diversification rate for all Boarmiini, except in one clade containing the species-rich genus Cleora. The present work represents a substantial contribution towards understanding the evolutionary origin of Boarmiini moths. Our results, inevitably biased by taxon sampling, highlight the difficulties with working on species-rich groups that have not received much attention outside of Europe. Specifically, poor knowledge of the natural history of geometrids (particularly in tropical clades) limits our ability to identify key innovations underlying the diversification of boarmiines.

Published

2021

2. Multilocus phylogeny and statistical biogeography clarify the evolutionary history of major lineages of turtles

Author

Carlos G. Schrago, Filipe R. R. Moreira, Juliana Sterli, and Anieli G. Pereira

Subjects

0106 biological sciences, 0301 basic medicine, Cryptodira, Time Factors, BIOGEOBEARS, Otras Ciencias Biológicas, Lineage (evolution), Biogeography, PHYLOGENOMICS, STATISTICAL BIOGEOGRAPHY, 010603 evolutionary biology, 01 natural sciences, Ciencias Biológicas, 03 medical and health sciences, Phylogenetics, HISTORICAL BIOGEOGRAPHY, Genetics, Pleurodira, Animals, Clade, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Phylogeny, JURASSIC, biology, Phylogenetic tree, Ecology, Fossils, Biodiversity, biology.organism_classification, Turtles, Phylogeography, 030104 developmental biology, Laurasia, Calibration, TESTUDINES, CIENCIAS NATURALES Y EXACTAS

Abstract

Despite their complex evolutionary history and the rich fossil record, the higher level phylogeny and historical biogeography of living turtles have not been investigated in a comprehensive and statistical framework. To tackle these issues, we assembled a large molecular dataset, maximizing both taxonomic and gene sampling. As different models provide alternative biogeographical scenarios, we have explicitly tested such hypotheses in order to reconstruct a robust biogeographical history of Testudines. We scanned publicly available databases for nucleotide sequences and composed a dataset comprising 13 loci for 294 living species of Testudines, which accounts for all living genera and 85% of their extant species diversity. Phylogenetic relationships and species divergence times were estimated using a thorough evaluation of fossil information as calibration priors. We then carried out the analysis of historical biogeography of Testudines in a fully statistical framework. Our study recovered the first large-scale phylogeny of turtles with well-supported relationships following the topology proposed by phylogenomic works. Our dating result consistently indicated that the origin of the main clades, Pleurodira and Cryptodira, occurred in the early Jurassic. The phylogenetic and historical biogeographical inferences permitted us to clarify how geological events affected the evolutionary dynamics of crown turtles. For instance, our analyses support the hypothesis that the breakup of Pangaea would have driven the divergence between the cryptodiran and pleurodiran lineages. The reticulated pattern in the ancestral distribution of the cryptodiran lineage suggests a complex biogeographic history for the clade, which was supposedly related to the complex paleogeographic history of Laurasia. On the other hand, the biogeographical history of Pleurodira indicated a tight correlation with the paleogeography of the Gondwanan landmasses. Fil: Pereira, Anieli G.. Universidade Federal do Rio de Janeiro; Brasil Fil: Sterli, Juliana. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina. Museo Paleontológico Egidio Feruglio; Argentina Fil: Moreira, Filipe R.R.. Universidade Federal do Rio de Janeiro; Brasil Fil: Schrago, Carlos G.. Universidade Federal do Rio de Janeiro; Brasil

Published

2016

3. Multilocus phylogeny of Bornean Bent-Toed geckos (Gekkonidae: Cyrtodactylus) reveals hidden diversity, taxonomic disarray, and novel biogeographic patterns.

Author

Davis HR, Chan KO, Das I, Brennan IG, Karin BR, Jackman TR, Brown RM, Iskandar DT, Nashriq I, Grismer LL, and Bauer AM

Subjects

Animals, Bayes Theorem, Borneo, Calibration, Cell Nucleus genetics, DNA Barcoding, Taxonomic, Islands, Models, Genetic, Philippines, Species Specificity, Time Factors, Biodiversity, Genetic Loci, Lizards classification, Lizards genetics, Phylogeny, Phylogeography

Abstract

The gekkonid genus Cyrtodactylus is a highly diverse group of lizards (280 + species), which covers an expansive geographic range. Although this genus has been the focus of many taxonomic and molecular systematic studies, species on the Southeast Asian island of Borneo have remained understudied, leading to an unclear evolutionary history with cascading effects on taxonomy and biogeographic inferences. We assembled the most comprehensive multilocus Bornean dataset (one mitochondrial and three nuclear loci) that included 129 novel sequences and representatives from each known Cyrtodactylus species on the island to validate taxonomic status, assess species diversity, and elucidate biogeographic patterns. Our results uncovered a high proportion of cryptic diversity and revealed numerous taxonomic complications, especially within the C. consobrinus, C. malayanus, and C. pubisulcus groups. Comparisons of pairwise genetic distances and a preliminary species delimitation analysis using the Automatic Barcode Gap Discovery (ABGD) method demonstrated that some wide-ranging species on Borneo likely comprise multiple distinct and deeply divergent lineages, each with more restricted distributional ranges. We also tested the prevailing biogeographic hypothesis of a single invasion from Borneo into the Philippines. Our analyses revealed that Philippine taxa were not monophyletic, but were likely derived from multiple separate invasions into the geopolitical areas comprising the Philippines. Although our investigation of Bornean Cyrtodactylus is the most comprehensive to-date, it highlights the need for expanded taxonomic sampling and suggests that our knowledge of the evolutionary history, systematics, and biogeography of Bornean Cyrtodactylus is far from complete., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020

4. Phylogeny, biogeography and systematics of the hyper-diverse blister beetle genus Hycleus (Coleoptera: Meloidae).

Author

Riccieri A, Mancini E, Salvi D, and Bologna MA

Subjects

Africa, Animals, Arabia, Asia, Western, Europe, Phylogeny, Phylogeography, Sequence Analysis, DNA, Coleoptera classification, Coleoptera genetics, Genetic Variation

Abstract

Hycleus is a hyper-diverse genus of blister beetles including ~500 species widely distributed in the Old World, currently divided into three "sections" and into 45 "phenetic" species groups according to morphological characters. Recently the monophyly of Hycleus was questioned pointing out its paraphyly with respect to the genera Ceroctis and Paractenodia. In this study, we built a time-calibrated phylogenetic tree based on DNA sequence data from mitochondrial and nuclear genes obtained from 125 species, to understand the phylogenetic relationships among the species of this genus, to infer the biogeographic processes behind their diversification, and to assess their taxonomy and classification. Our results identified four main lineages one of which included the species belonging to Ceroctis and Paractenodia; therefore, both taxa are now referred to Hycleus as new synonyms. The three described sections of Hycleus resulted polyphyletic and are rejected, whereas several species groups represented well supported clades. Hycleus likely originated in Africa during the Early Miocene (~20 Mya), and subsequently spread in Europe and western Asia. Later, in the Late Miocene (~6 Mya) a Saharo-Sindian group branched off from the Palaearctic lineage, whereas the Oriental Region was colonized following a dispersal event through the Arabian Peninsula from the Afrotropical Region (~5 Mya)., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2020

5. Putting keyhole limpets on the map: phylogeny and biogeography of the globally distributed marine family Fissurellidae (Vetigastropoda, Mollusca).

Author

Cunha TJ, Lemer S, Bouchet P, Kano Y, and Giribet G

Subjects

Animals, Biodiversity, Fossils, Models, Biological, Aquatic Organisms classification, Internationality, Mollusca classification, Phylogeny, Phylogeography

Abstract

Fissurellidae are marine gastropods with a worldwide distribution and a rich fossil record. We integrate molecular, geographical and fossil data to reconstruct the fissurellid phylogeny, estimate divergence times and investigate historical routes of oceanic dispersal. With five molecular markers for 143 terminals representing 27 genera, we resolve deep nodes and find that many genera (e.g., Emarginula, Diodora, Fissurella) are not monophyletic and need systematic revision. Several genera classified as Emarginulinae are recovered in Zeidorinae. Future work should prioritize emarginuline genera to improve understanding of ancestral traits and the early evolution of fissurellids. Tree calibration with the fossilized birth-death model indicates that crown fissurellids originated around 175 Ma, and generally resulted in younger ages for the earliest nodes than the node dating approach. Model-based biogeographic reconstruction, supported by fossils, infers an Indo-West Pacific origin, with a westward colonization of new oceans via the Tethys Seaway upon the breakup of Pangea. Western Atlantic clades then served as source for dispersal towards other parts of the globe. As the sister group to all other fissurellids, Rimula is ranked in its own subfamily, Rimulinae stat. nov. New synonyms: Hemitominae syn. nov. of Zeidorinae stat. nov.; Cranopsissyn. nov. of Puncturella; Variegemarginulasyn. nov. of Montfortula., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2019

6. Reclassification of Lamprotula rochechouartii as Margaritifera rochechouartiicomb. nov. (Bivalvia: Margaritiferidae) revealed by time-calibrated multi-locus phylogenetic analyses and mitochondrial phylogenomics of Unionoida.

Author

Huang XC, Wu RW, An CT, Xie GL, Su JH, Ouyang S, Zhou CH, and Wu XP

Subjects

Animals, Bayes Theorem, DNA, Mitochondrial chemistry, DNA, Mitochondrial isolation & purification, DNA, Mitochondrial metabolism, Electron Transport Complex IV chemistry, Electron Transport Complex IV classification, Electron Transport Complex IV genetics, Fossils, Haplotypes, Phylogeography, RNA, Ribosomal, 16S chemistry, RNA, Ribosomal, 16S classification, RNA, Ribosomal, 16S genetics, Bivalvia classification, Bivalvia genetics, Genome, Mitochondrial genetics, Phylogeny

Abstract

The family Margaritiferidae encompasses 12 valid species, which are distributed widely but disjunctively in the Northern Hemisphere. A lack of a well resolved and temporally calibrated phylogenetic framework of Margaritiferidae has made it difficult to discuss the evolutionary pattern and process. Phylogenetic relationships between five major clades, which were revealed in earlier studies, remain elusive and unresolved. Lamprotula rochechouartii has long been classified within the family Unionidae based on shell morphology, but our preliminary molecular study on this species made us hypothesize that it has an affinity with margaritiferids. Hence, five loci (COI, 16S, 18S, 28S and histone H3) were used to investigate the phylogenetic position of L. rochechouartii and intra-familial relationships within Margaritiferidae using various partitioning strategies. Moreover, two mitochondrial genomes were newly obtained to further resolve and validate the five-clade relationships within Margaritiferidae in a broad view of Unionoida evolution. Both five-gene and mitogenome datasets strongly advocated treating Lamprotula rochechouartii as Margaritifera rochechouartiicomb. nov. Maximum likelihood and Bayesian inference analyses using partitioned five-gene dataset resulted in various topologies, but five well-supported clades were obtained. The most probable cladistic relationships generated by five-gene dataset analyses were identical to subsequent whole mitogenome analyses except the position of M. monodonta. M. rochechouartii and M. laosensis had a well-supported sister relationship and formed a basal clade splitting from the rest of the family. Based on six reliable fossils, crown age of the extant Margaritiferidae was estimated during the Late Cretaceous at 88.3 Ma (95% HPD = 66.2-117.4). But we hypothesized a much earlier origin of this family due to the Permian stem age (mean = 257 Ma, 95% HPD = 230.0-296.0) and a high extinction rate in the whole order. Biogeographic scenarios supported a Laurasian origin of extant Margaritiferidae during the Late Cretaceous, and suggested that Asian margaritiferids may have had two origins, having either Asia (M. rochechouartii, M. laosensis) or North America (M. dahurica, M. laevis, and M. middendorffi) as ancestral. The newly added Margaritiferidae species M. rochechouartii expands our recognized distribution range of modern margaritiferids. Our results indicate that whole mitogenome sequences can be used to reconstruct robust phylogenetic relationships for freshwater mussels, especially with the help of adding M-type mitogenomes., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2018

7. Multilocus phylogeny and statistical biogeography clarify the evolutionary history of major lineages of turtles.

Author

Pereira AG, Sterli J, Moreira FRR, and Schrago CG

Subjects

Animals, Biodiversity, Calibration, Fossils, Time Factors, Phylogeny, Phylogeography, Turtles classification

Abstract

Despite their complex evolutionary history and the rich fossil record, the higher level phylogeny and historical biogeography of living turtles have not been investigated in a comprehensive and statistical framework. To tackle these issues, we assembled a large molecular dataset, maximizing both taxonomic and gene sampling. As different models provide alternative biogeographical scenarios, we have explicitly tested such hypotheses in order to reconstruct a robust biogeographical history of Testudines. We scanned publicly available databases for nucleotide sequences and composed a dataset comprising 13 loci for 294 living species of Testudines, which accounts for all living genera and 85% of their extant species diversity. Phylogenetic relationships and species divergence times were estimated using a thorough evaluation of fossil information as calibration priors. We then carried out the analysis of historical biogeography of Testudines in a fully statistical framework. Our study recovered the first large-scale phylogeny of turtles with well-supported relationships following the topology proposed by phylogenomic works. Our dating result consistently indicated that the origin of the main clades, Pleurodira and Cryptodira, occurred in the early Jurassic. The phylogenetic and historical biogeographical inferences permitted us to clarify how geological events affected the evolutionary dynamics of crown turtles. For instance, our analyses support the hypothesis that the breakup of Pangaea would have driven the divergence between the cryptodiran and pleurodiran lineages. The reticulated pattern in the ancestral distribution of the cryptodiran lineage suggests a complex biogeographic history for the clade, which was supposedly related to the complex paleogeographic history of Laurasia. On the other hand, the biogeographical history of Pleurodira indicated a tight correlation with the paleogeography of the Gondwanan landmasses., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2017

8. Biogeography and diversification of Brassicales: A 103million year tale.

Author

Cardinal-McTeague WM, Sytsma KJ, and Hall JC

Subjects

Africa, Americas, Arabidopsis classification, Arabidopsis genetics, Asia, Australia, Bayes Theorem, Biodiversity, Brassicaceae genetics, DNA, Mitochondrial isolation & purification, DNA, Mitochondrial metabolism, DNA, Plant isolation & purification, DNA, Plant metabolism, Europe, Mitochondria genetics, Phylogeny, Phylogeography, Plastids genetics, Brassicaceae classification, Fossils

Abstract

Brassicales is a diverse order perhaps most famous because it houses Brassicaceae and, its premier member, Arabidopsis thaliana. This widely distributed and species-rich lineage has been overlooked as a promising system to investigate patterns of disjunct distributions and diversification rates. We analyzed plastid and mitochondrial sequence data from five gene regions (>8000bp) across 151 taxa to: (1) produce a chronogram for major lineages in Brassicales, including Brassicaceae and Arabidopsis, based on greater taxon sampling across the order and previously overlooked fossil evidence, (2) examine biogeographical ancestral range estimations and disjunct distributions in BioGeoBEARS, and (3) determine where shifts in species diversification occur using BAMM. The evolution and radiation of the Brassicales began 103Mya and was linked to a series of inter-continental vicariant, long-distance dispersal, and land bridge migration events. North America appears to be a significant area for early stem lineages in the order. Shifts to Australia then African are evident at nodes near the core Brassicales, which diverged 68.5Mya (HPD=75.6-62.0). This estimated age combined with fossil evidence, indicates that some New World clades embedded amongst Old World relatives (e.g., New World capparoids) are the result of different long distance dispersal events, whereas others may be best explained by land bridge migration (e.g., Forchhammeria). Based on these analyses, the Brassicaceae crown group diverged in Europe/Northern Africa in the Eocene, circa 43.4Mya (HPD=46.6-40.3) and Arabidopsis separated from close congeners circa 10.4Mya. These ages fall between divergent dates that were previously published, suggesting we are slowly converging on a robust age estimate for the family. Three significant shifts in species diversification are observed in the order: (1) 58Mya at the crown of Capparaceae, Cleomaceae and Brassicaceae, (2) 38Mya at the crown of Resedaceae+Stixis clade, and (3) 21Mya at the crown of the tribes Brassiceae and Sisymbrieae within Brassicaceae., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published

2016

9. From the mountains to the coast and back again: Ancient biogeography in a radiation of short-range endemic harvestmen from California.

Author

Emata KN and Hedin M

Subjects

Algorithms, Animals, California, Female, Male, Phylogeography, Sympatry, Altitude, Arachnida classification, Arachnida genetics, Phylogeny

Abstract

The harvestmen genus Calicina is represented by 25 short-range endemic species occurring in the western Sierra Nevada, Transverse and Coast Ranges of California. Our principal aim was to reconstruct the temporal and spatial biogeographic history of this arachnid lineage. We inferred a time-calibrated species tree for 21 of 25 described Calicina species using multiple genes and multilocus coalescent-based methods. This species tree was used as a framework for algorithmic biogeographic and divergence time analyses, and a phylogenetic canonical correlation analysis (CCA) was used to examine the relationship between morphological evolution and environmental variables. Species tree and biogeographic analyses indicate that high-elevation Sierran taxa are early-diverging in Calicina, with subsequent biogeographic "criss-crossing" of lineages from the Sierra Nevada to the Coast Ranges, back to the Sierra Nevada, then back to Coast Ranges. In both the Sierra Nevada and Coast Ranges, distantly-related parapatric lineages essentially never occur in sympatry. CCA reveals that in both the Coast Ranges and the Sierra Nevada, distant phylogenetic relatives evolve convergent morphologies. Our evidence shows that Calicina is clearly dispersal-limited, with an ancient biogeographic history that provides unique insight into the complex geologic evolution of California since the mid-Paleogene., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published

2016

10. Divergence times, historical biogeography, and shifts in speciation rates of Myrtales.

Author

Berger BA, Kriebel R, Spalink D, and Sytsma KJ

Subjects

Africa, Base Sequence, Fossils, Lythraceae classification, Lythraceae genetics, Magnoliopsida genetics, Melastomataceae classification, Melastomataceae genetics, Myrtaceae classification, Myrtaceae genetics, Onagraceae classification, Onagraceae genetics, Phylogeny, Phylogeography, South America, Evolution, Molecular, Genetic Speciation, Magnoliopsida classification

Abstract

We examine the eudicot order Myrtales, a clade with strong Gondwanan representation for most of its families. Although previous phylogenetic studies greatly improved our understanding of intergeneric and interspecific relationships within the order, our understanding of inter-familial relationships still remains unresolved; hence, we also lack a robust time-calibrated chronogram to address hypotheses (e.g., biogeography and diversification rates) that have implicit time assumptions. Six loci (rbcL, ndhF, matK, matR, 18S, and 26S) were amplified and sequenced for 102 taxa across Myrtales for phylogenetic reconstruction and ten fossil priors were utilized to produce a chronogram in BEAST. Combretaceae is identified as the sister clade to all remaining families with moderate support, and within the latter clade, two strongly supported groups are seen: (1) Onagraceae+Lythraceae, and (2) Melastomataceae+the Crypteroniaceae, Alzateaceae, Penaeaceae clade along with Myrtaceae+Vochysiaceae. Divergence time estimates suggest Myrtales diverged from Geraniales ∼124Mya during the Aptian of the Early Cretaceous. The crown date for Myrtales is estimated at ∼116Mya (Albian-Aptian). BioGeoBEARS showed significant improvement in the likelihood score when the "jump dispersal" parameter was added. South America and/or Africa are implicated as important ancestral areas in all deeper nodes. BAMM analyses indicate that the best configuration included three significant shifts in diversification rates within Myrtales: near the crown of Melastomataceae (∼67-64Mya), along the stem of subfamily Myrtoideae (Myrtaceae; ∼75Mya), and along the stem of tribe Combreteae (Combretaceae; ∼50-45Mya). Issues with conducting diversification analyses more generally are examined in the context of scale, taxon sampling, and larger sets of phylogenetic trees., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2016