Your search keyword '"molecular dating"' showing total 33 results

1. Testing molecular date estimates using an ecological and vicariant case study in treefrogs: The Geological‐Ecological Molecular Calibration.

Author

Jowers, Michael J., Pajares, Jesús Muñoz, Weber, John, Arkle, Jeanette, Arenas‐Castro, Salvador, Ho, Simon Y. W., Rivas, Gilson A., Murphy, John C., Borzée, Amaël, Pyron, R. Alexander, Perez‐Losada, Marcos, De Freitas, Mayke, Downie, J. Roger, Moreno‐Rueda, Gregorio, Forcina, Giovanni, and Sánchez‐Ramírez, Santiago

Subjects

*PLIOCENE Epoch, *HYLIDAE, *MOLECULAR clock, *NUCLEOTIDE sequence, *ECOLOGICAL niche

Abstract

Aim: To date a vicariant event through the mutualistic relationship of a hylid frog and its bromeliad host found across two isolated mountain ranges as part of an island–continental split and to use this information to calibrate a molecular dating analysis of hylids. Location: South America. Time Period: Pliocene. Major Taxa Studied: Treefrogs, Arboranae. Methods: Pliocene tectonic movements sank a portion of a mountain range that connected present‐day Trinidad (island) and northern Venezuela, eventually isolating populations of the golden tree frog Phytotriades auratus and its host bromeliad Glomeropitcairnia erectiflora on both sides of a saltwater barrier. We estimated the submersion rate timing of the vicariant event, then employed ecological niche modelling to establish the distribution of the frog and its host to the Pliocene. We generated nucleotide sequence data for the hylid on each side of the marine barrier and proposed a biogeographic calibration for the split between populations. Using Bayesian phylogenetic analysis, we evaluated the impact of incorporating this biogeographic calibration on estimates of treefrog divergence times. Results: A relatively continuous, high‐elevation mountain range existed before the Pliocene and the opening of the Gulf of Paria (4.45 ± 0.85 Ma). Phytotriades auratus and G. erectiflora would have been distributed across the Paria and Northern Range mountains as a single population since the Pliocene. Divergence times among treefrogs (Arboranae) were older than those inferred using fossil calibrations alone, with mean age estimates for subfamilies and genera being ~2 and ~1.2 million years older, respectively. Main Conclusions: Our study presents a biogeographic calibration based on a vicariant model that connects the evolution of the populations of a hylid through geology and ecological data. The implementation of this date as a molecular clock calibration reduces the uncertainty in date estimates for the shallower nodes in the phylogeny of Arboranae. [ABSTRACT FROM AUTHOR]

Published

2024

2. Tracing the geographic origins of two forms of Opuntia ficus-indica cultivated in Argentina using haplotype diversity patterns, and cytogenetic and morphological analyses.

Author

Montenegro, Gonzalo, Acosta, M. Cristina, Caeiro, Luciana, Varone, Laura, and Las Peñas, María Laura

Abstract

Opuntia ficus-indica, commonly known as prickly-pear, tuna, or nopal, is a cactus species of economic significance. It is widely cultivated for its fruits and cladodes, used as both fodder and human food. The species would have been domesticated in pre-Hispanic Mexico. In Argentina, two forms are present: the horticultural (spineless, f. ficus-indica) and the wild (spiny, f. amyclaea) forms. The presence/absence of spines would be a genetically controlled trait; thus, the species would have been introduced more than once in our country. A molecular and cytogenetic study was conducted to characterize the genetic variability, infer the source of introduction in Argentina, and explore the relationship between morphotypes. Most spine samples had the Q16-H1 haplotype, except for samples from Mexico, Santiago del Estero, and Catamarca. Samples from Salta, Santiago del Estero, and Catamarca showed morphological differences from O. ficus-indica. The cytological analysis revealed that most populations are octoploid, except for one diploid population from Mexico. Although the number of individuals from Mexico was low, haplotype diversity and number of diploid individuals was higher in that country than in Argentina. The occurrence of a single haplotype of the species associated with both spineless and spiny forms in Argentina reveals a single introduction event and its subsequent dispersion mainly through asexual reproduction. The haplotype diversity found in Argentina is probably due to hybrids between O. ficus-indica and Opuntia species native to this country. [ABSTRACT FROM AUTHOR]

Published

2024

3. Comparative phylogenomic study of East Asian endemic genus, Corchoropsis Siebold & Zucc. (Malvaceae s.l.), based on complete plastome sequences.

Author

Jung, Joonhyung, Deng, Tao, Kim, Yu Gyeom, Kim, Changkyun, Sun, Hang, and Kim, Joo-Hwan

Subjects

*MICROSATELLITE repeats, *ENDEMIC plants, *ENDEMIC species, *MALVACEAE, *OLIGOCENE Epoch

Abstract

Background: Endemic plants are key to understanding the evolutionary history and enhancing biodiversity within their unique regions, while also offering significant economic potential. The East Asian endemic genus Corchoropsis Siebold & Zucc., classified within the subfamily Dombeyoideae of Malvaceae s.l., comprises three species. Results: This study characterizes the complete plastid genomes (plastomes) of C. crenata var. crenata Siebold & Zucc. and C. crenata var. hupehensis Pamp., which range from 160,093 to 160,724 bp. These genomes contain 78 plastid protein-coding genes, 30 tRNA, and four rRNA, except for one pseudogene, infA. A total of 316 molecular diagnostic characters (MDCs) specific to Corchoropsis were identified. In addition, 91 to 92 simple sequence repeats (SSRs) in C. crenata var. crenata and 75 in C. crenata var. hupehensis were found. Moreover, 49 long repeats were identified in both the Chinese C. crenata var. crenata and C. crenata var. hupehensis, while 52 were found in the South Korean C. crenata var. crenata. Our phylogenetic analyses, based on 78 plastid protein-coding genes, reveal nine subfamilies within the Malvaceae s.l. with high support values and confirm Corchoropsis as a member of Dombeyoideae. Molecular dating suggests that Corchoropsis originated in the Oligocene, and diverged during the Miocene, influenced by the climate shift at the Eocene–Oligocene boundary. Conclusions: The research explores the evolutionary relationships between nine subfamilies within the Malvaceae s.l. family, specifically identifying the position of the Corchoropsis in the Dombeyoideae. Utilizing plastome sequences and fossil data, the study establishes that Corchoropsis first appeared during the Eocene and experienced further evolutionary divergence during the Miocene, paralleling the evolutionary patterns observed in other East Asian endemic species. [ABSTRACT FROM AUTHOR]

Published

2024

4. A Sister Species for the Blue Crab, Callinectes sapidus ? A Tale Revealed by Mitochondrial DNA.

Author

Locci, Chiara, Azzena, Ilenia, Pascale, Noemi, Ciccozzi, Alessandra, Deplano, Ilaria, Giantsis, Ioannis A., Papadopoulos, Dimitrios K., Lattos, Athanasios, Orrù, Flavio, Puzzi, Cesare M., Scarpa, Fabio, Casu, Marco, and Sanna, Daria

Subjects

*BLUE crab, *GENETIC variation, *INTRODUCED species, *MITOCHONDRIAL DNA, *SPECIES distribution

Abstract

The Atlantic blue crab, Callinectes sapidus, is acknowledged as one of the worst invasive alien species in the Mediterranean, impacting biodiversity and human activities. Native to the western Atlantic, it has expanded to European coastal waters since the early 1900s. Despite its ecological and commercial importance, genetic research on this species is limited. Here we show a comprehensive investigation of the genetic variation and evolutionary history in Callinectes sapidus using 667 mitochondrial COI gene sequences. Our dataset encompasses 36 newly generated sequences from previously understudied Mediterranean sites and 631 from worldwide locations obtained from the GenBank public database. Our findings reveal two distinct, but closely related, genetic groups within the species' distribution range, suggesting the occurrence of a potential species complex. Furthermore, in the Mediterranean, low levels of genetic variability were observed except for substantial haplotypic differentiation in Turkish samples. This study depicts the global genetic diversity and evolutionary patterns of Callinectes sapidus, offering new insights into the taxonomic status of the species. [ABSTRACT FROM AUTHOR]

Published

2024

5. Modeling Substitution Rate Evolution across Lineages and Relaxing the Molecular Clock.

Author

Mello, Beatriz and Schrago, Carlos G

Subjects

*MOLECULAR clock, *BIG data, *HETEROGENEITY, *CALIBRATION, *COMPUTER software

Abstract

Relaxing the molecular clock using models of how substitution rates change across lineages has become essential for addressing evolutionary problems. The diversity of rate evolution models and their implementations are substantial, and studies have demonstrated their impact on divergence time estimates can be as significant as that of calibration information. In this review, we trace the development of rate evolution models from the proposal of the molecular clock concept to the development of sophisticated Bayesian and non-Bayesian methods that handle rate variation in phylogenies. We discuss the various approaches to modeling rate evolution, provide a comprehensive list of available software, and examine the challenges and advancements of the prevalent Bayesian framework, contrasting them to faster non-Bayesian methods. Lastly, we offer insights into potential advancements in the field in the era of big data. [ABSTRACT FROM AUTHOR]

Published

2024

6. Phylogenetics, character evolution, and historical biogeography of the Neotropical genus Besleria (Gesneriaceae).

Author

Ferreira, Gabriel E, Clark, John L, Clavijo, Laura, Zuluaga, Alejandro, Chautems, Alain, Hopkins, Michael J G, Araujo, Andrea O, and Perret, Mathieu

Subjects

*MOLECULAR phylogeny, *GESNERIACEAE, *CURRENT distribution, *NUCLEAR DNA, *BIOGEOGRAPHY, *CHLOROPLAST DNA

Abstract

Besleria , a genus of perennial herbs, shrubs, or small trees growing in the understorey of rainforests, is one of the largest genera of neotropical Gesneriaceae, with over 165 species. Despite the ecological importance and ubiquity of Besleria in rainforest ecosystems, taxonomic and evolutionary studies of Besleria are limited. Here, we generated a phylogenetic analysis of Besleria using four nuclear and chloroplast DNA regions (ITS, mat K, rps 16, and trn L- trn F) covering more than 50% of the recognized species, along with two secondary calibration points to infer divergence times. Our results support the monophyly of Besleria and allowed us to revise the infrageneric classification and biogeographical history of the genus. We identified five major clades that do not correspond to sections or subsections in previous classifications. These clades are well circumscribed geographically but remain difficult to characterize using previously hypothesized morphological characters. Biogeographical reconstructions indicate an origin in the northern Andes during the Middle Miocene (ca. 15 Mya). The current distribution patterns of this plant group have been significantly shaped by geological and climatic events, particularly Andean uplift and the formation of the Panama Isthmus. [ABSTRACT FROM AUTHOR]

Published

2024

7. Comparative phylogenomic study of East Asian endemic genus, Corchoropsis Siebold & Zucc. (Malvaceae s.l.), based on complete plastome sequences

Author

Joonhyung Jung, Tao Deng, Yu Gyeom Kim, Changkyun Kim, Hang Sun, and Joo-Hwan Kim

Subjects

Corchoropsis, Plastid genome (Plastome), Phylogenomic study, Molecular dating, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Endemic plants are key to understanding the evolutionary history and enhancing biodiversity within their unique regions, while also offering significant economic potential. The East Asian endemic genus Corchoropsis Siebold & Zucc., classified within the subfamily Dombeyoideae of Malvaceae s.l., comprises three species. Results This study characterizes the complete plastid genomes (plastomes) of C. crenata var. crenata Siebold & Zucc. and C. crenata var. hupehensis Pamp., which range from 160,093 to 160,724 bp. These genomes contain 78 plastid protein-coding genes, 30 tRNA, and four rRNA, except for one pseudogene, infA. A total of 316 molecular diagnostic characters (MDCs) specific to Corchoropsis were identified. In addition, 91 to 92 simple sequence repeats (SSRs) in C. crenata var. crenata and 75 in C. crenata var. hupehensis were found. Moreover, 49 long repeats were identified in both the Chinese C. crenata var. crenata and C. crenata var. hupehensis, while 52 were found in the South Korean C. crenata var. crenata. Our phylogenetic analyses, based on 78 plastid protein-coding genes, reveal nine subfamilies within the Malvaceae s.l. with high support values and confirm Corchoropsis as a member of Dombeyoideae. Molecular dating suggests that Corchoropsis originated in the Oligocene, and diverged during the Miocene, influenced by the climate shift at the Eocene–Oligocene boundary. Conclusions The research explores the evolutionary relationships between nine subfamilies within the Malvaceae s.l. family, specifically identifying the position of the Corchoropsis in the Dombeyoideae. Utilizing plastome sequences and fossil data, the study establishes that Corchoropsis first appeared during the Eocene and experienced further evolutionary divergence during the Miocene, paralleling the evolutionary patterns observed in other East Asian endemic species.

Published

2024

8. Sequential trait evolution did not drive deep-time diversification in sharks.

Author

Marion, Alexis F P, Condamine, Fabien L, and Guinot, Guillaume

Subjects

*COMPARATIVE biology, *ENVIRONMENTAL databases, *MARINE ecology, *CHONDRICHTHYES, *SHARKS

Abstract

Estimating how traits evolved and impacted diversification across the tree of life represents a critical topic in ecology and evolution. Although there has been considerable research in comparative biology, large parts of the tree of life remain underexplored. Sharks are an iconic clade of marine vertebrates, and key components of marine ecosystems since the early Mesozoic. However, few studies have addressed how traits evolved or whether they impacted their extant diversity patterns. Our study aimed to fill this gap by reconstructing the largest time-calibrated species-level phylogeny of sharks and compiling an exhaustive database for ecological (diet, habitat) and biological (reproduction, maximum body length) traits. Using state-of-the-art models of evolution and diversification, we outlined the major character shifts and modes of trait evolution across shark species. We found support for sequential models of trait evolution and estimated a small to medium-sized lecithotrophic and coastal-dwelling most recent common ancestor for extant sharks. However, our exhaustive hidden traits analyses do not support trait-dependent diversification for any examined traits, challenging previous works. This suggests that the role of traits in shaping sharks' diversification dynamics might have been previously overestimated and should motivate future macroevolutionary studies to investigate other drivers of diversification in this clade. [ABSTRACT FROM AUTHOR]

Published

2024

9. Phylogeny, biogeography and ecological diversification of New Caledonian palms (Arecaceae).

Author

Pérez-Calle, Victor, Bellot, Sidonie, Kuhnhäuser, Benedikt G, Pillon, Yohan, Forest, Félix, Leitch, Ilia J, and Baker, William J

Subjects

*PALMS, *BIOGEOGRAPHY, *PHYLOGENY, *BOTANY, *EOCENE Epoch, *MIOCENE Epoch

Abstract

Background and Aims The geographical origin and evolutionary mechanisms underpinning the rich and distinctive New Caledonian flora remain poorly understood. This is attributable to the complex geological past of the island and to the scarcity of well-resolved species-level phylogenies. Here, we infer phylogenetic relationships and divergence times of New Caledonian palms, which comprise 40 species. We use this framework to elucidate the biogeography of New Caledonian palm lineages and to explore how extant species might have formed. Methods A phylogenetic tree including 37 New Caledonian palm species and 77 relatives from tribe Areceae was inferred from 151 nuclear genes obtained by targeted sequencing. Fossil-calibrated divergence times were estimated and ancestral ranges inferred. Ancestral and extant ecological preferences in terms of elevation, precipitation and substrate were compared between New Caledonian sister species to explore their possible roles as drivers of speciation. Key Results New Caledonian palms form four well-supported clades, inside which relationships are well resolved. Our results support the current classification but suggest that Veillonia and Campecarpus should be resurrected and fail to clarify whether Rhopalostylidinae is sister to or nested in Basseliniinae. New Caledonian palm lineages are derived from New Guinean and Australian ancestors, which reached the island through at least three independent dispersal events between the Eocene and Miocene. Palms then dispersed out of New Caledonia at least five times, mainly towards Pacific islands. Geographical and ecological transitions associated with speciation events differed across time and genera. Substrate transitions were more frequently associated with older events than with younger ones. Conclusions Neighbouring areas and a mosaic of local habitats shaped the palm flora of New Caledonia, and the island played a significant role in generating palm diversity across the Pacific region. This new spatio-temporal framework will enable population-level ecological and genetic studies to unpick the mechanisms underpinning New Caledonian palm endemism. [ABSTRACT FROM AUTHOR]

Published

2024

10. Bidirectional biotic interchange between Taiwan Island and Mainland China via land bridges—A case study of Obeidia Walker (Geometridae, Lepidoptera).

Author

Cheng, Rui, Jiang, Nan, Luo, A'rong, Orr, Michael, Zhou, Qingsong, Shi, Xiaoyu, Han, Hongxiang, and Zhu, Chaodong

Subjects

*GEOMETRIDAE, *LEPIDOPTERA, *MOLECULAR phylogeny, *BIOTIC communities, *INSECTS, *MOTHS

Abstract

Biotic exchanges between Taiwan and Mainland China have shaped the biodiversity and ecosystems of both regions. Exchanges from Mainland China to Taiwan have received more attention, mainly studied in terrestrial vertebrates, while the reverse direction and invertebrates have largely been overlooked. Here, we explore the dispersal events between these two regions based on the moths of three species groups of Obeidia, including Taiwan taxa and its relatives from mainland. We conducted mixed methods and analysis, including reconstructing a phylogenetic tree, estimating associated divergence times and inferring ancestral areas and source regions, to explore the phylogeographical structure and genetic pattern of three groups based on eight genes. Our results revealed a structure of three clades and every clade included at least one Taiwanese taxa and its closest relatives of mainland of China, and also served Taiwan as an important source region of two mainland taxa. Our study revealed various origin pattern and dispersal models on the basis of three species groups of Obeidia. Bi‐directional biotic exchange via a land bridge were found: four Taiwanese taxa originated from mainland, and two of them migrated back to mainland. Both eastern Himalayas and south China are important origin areas for Taiwan biota, and the dominant source region may need multiple insect cases to confirm. Our study also provided evidences for disjunct distribution from the perspective of insecta molecular phylogeny. [ABSTRACT FROM AUTHOR]

Published

2024

11. The Rediscovery of a Relict Unlocks the First Global Phylogeny of Whip Spiders (Amblypygi).

Author

Miranda, Gustavo S de, Kulkarni, Siddharth S, Tagliatela, Jéssica, Baker, Caitlin M, Giupponi, Alessandro P L, Labarque, Facundo M, Gavish-Regev, Efrat, Rix, Michael G, Carvalho, Leonardo S, Fusari, Lívia Maria, Harvey, Mark S, Wood, Hannah M, and Sharma, Prashant P

Subjects

*MOLECULAR phylogeny, *BIOLOGICAL extinction, *TIME perception, *FOSSILS, *STATUS (Law)

Abstract

Asymmetrical rates of cladogenesis and extinction abound in the tree of life, resulting in numerous minute clades that are dwarfed by larger sister groups. Such taxa are commonly regarded as phylogenetic relicts or "living fossils" when they exhibit an ancient first appearance in the fossil record and prolonged external morphological stasis, particularly in comparison to their more diversified sister groups. Due to their special status, various phylogenetic relicts tend to be well-studied and prioritized for conservation. A notable exception to this trend is found within Amblypygi ("whip spiders"), a visually striking order of functionally hexapodous arachnids that are notable for their antenniform first walking leg pair (the eponymous "whips"). Paleoamblypygi, the putative sister group to the remaining Amblypygi, is known from Late Carboniferous and Eocene deposits but is survived by a single living species, Paracharon caecus Hansen (1921) , that was last collected in 1899. Due to the absence of genomic sequence-grade tissue for this vital taxon, there is no global molecular phylogeny for Amblypygi to date, nor a fossil-calibrated estimation of divergences within the group. Here, we report a previously unknown species of Paleoamblypygi from a cave site in Colombia. Capitalizing upon this discovery, we generated the first molecular phylogeny of Amblypygi, integrating ultraconserved element sequencing with legacy Sanger datasets and including described extant genera. To quantify the impact of sampling Paleoamblypygi on divergence time estimation, we performed in silico experiments with pruning of Paracharon. We demonstrate that the omission of relicts has a significant impact on the accuracy of node dating approaches that outweighs the impact of excluding ingroup fossils, which bears upon the ancestral range reconstruction for the group. Our results underscore the imperative for biodiversity discovery efforts in elucidating the phylogenetic relationships of "dark taxa," and especially phylogenetic relicts in tropical and subtropical habitats. The lack of reciprocal monophyly for Charontidae and Charinidae leads us to subsume them into one family, Charontidae, new synonymy. [ABSTRACT FROM AUTHOR]

Published

2024

12. Dating in the Dark: Elevated Substitution Rates in Cave Cockroaches (Blattodea: Nocticolidae) Have Negative Impacts on Molecular Date Estimates.

Author

Kovacs, Toby G L, Walker, James, Hellemans, Simon, Bourguignon, Thomas, Tatarnic, Nikolai J, McRae, Jane M, Ho, Simon Y W, and Lo, Nathan

Subjects

*NUCLEOTIDE sequencing, *MOLECULAR clock, *COCKROACHES, *BAYESIAN analysis, *MITOCHONDRIA

Abstract

Rates of nucleotide substitution vary substantially across the Tree of Life, with potentially confounding effects on phylogenetic and evolutionary analyses. A large acceleration in mitochondrial substitution rate occurs in the cockroach family Nocticolidae, which predominantly inhabit subterranean environments. To evaluate the impacts of this among-lineage rate heterogeneity on estimates of phylogenetic relationships and evolutionary timescales, we analyzed nuclear ultraconserved elements (UCEs) and mitochondrial genomes from nocticolids and other cockroaches. Substitution rates were substantially elevated in nocticolid lineages compared with other cockroaches, especially in mitochondrial protein-coding genes. This disparity in evolutionary rates is likely to have led to different evolutionary relationships being supported by phylogenetic analyses of mitochondrial genomes and UCE loci. Furthermore, Bayesian dating analyses using relaxed-clock models inferred much deeper divergence times compared with a flexible local clock. Our phylogenetic analysis of UCEs, which is the first genome-scale study to include all 13 major cockroach families, unites Corydiidae and Nocticolidae and places Anaplectidae as the sister lineage to the rest of Blattoidea. We uncover an extraordinary level of genetic divergence in Nocticolidae, including two highly distinct clades that separated ~115 million years ago despite both containing representatives of the genus Nocticola. The results of our study highlight the potential impacts of high among-lineage rate variation on estimates of phylogenetic relationships and evolutionary timescales. [ABSTRACT FROM AUTHOR]

Published

2024

13. Phylogenomic reconstruction illuminates the evolutionary history of freshwater to marine transition in the subfamily Haloveliinae (Hemiptera: Heteroptera: Veliidae).

Author

Ye, Zhen, Jin, Zezhong, Polhemus, Dan A., Wang, Siqi, Fu, Siying, Yang, Huanhuan, Qiao, Mu, and Bu, Wenjun

Subjects

*FRESHWATER habitats, *MARINE habitats, *HEMIPTERA, *ECOLOGICAL niche, *FRESH water, *CONTINENTAL margins, *INSECT diversity

Abstract

Water crickets of the subfamily Haloveliinae are semi‐aquatic bugs occurring in freshwater and marine habitats throughout the Indo‐Australian region, presently including six genera with more than 80 extant species. Whether lineage diversification in Haloveliinae is associated with the utilization of new ecological niches caused by transition events between freshwater and marine habitats remains poorly understood. We investigate the evolutionary history of Haloveliinae using large‐scale phylogenomic datasets and a set of novel redefined morphological characters based on 24 ingroup taxa representing all recognized genera. Our phylogenetic results based on the novel datasets definitively indicate that the freshwater genus Strongylovelia Esaki as currently defined is paraphyletic and supports the establishment of a new genus: Metavelia gen. nov., including three congeneric species: Metavelia patiooni comb. nov. (type species), Metavelia priori comb. nov. and Metavelia albicolli comb. nov. Reconstruction of ancestral habitats suggests a freshwater origin for the Haloveliinae. Divergence time estimations reveal that the origin of the monophyletic marine clade occurred at around 83 Ma (95% highest posterior density: 71–98 Ma) in the Late Cretaceous, involving a single transition event from freshwater to marine habitats. This time coincides with the period of high global sea levels in the Late Cretaceous. During this period, the marine incursions caused by the massive sea level rise flooded the continental margins, especially in Southeast Asia, where ancestral Haloveliinae were probably distributed. The appearance of new marine habitats after the marine incursions (e.g., intertidal, mangroves and estuarine) probably led to a subsequent establishment and diversification of the marine lineages. [ABSTRACT FROM AUTHOR]

Published

2024

14. The Neotropical endemic liverwort subfamily Micropterygioideae had circum‐Antarctic links to the rest of the Lepidoziaceae during the early Cretaceous.

Author

Rayos, Antonio L., Renner, Matthew A. M., and Ho, Simon Y. W.

Subjects

*LIVERWORTS, *CONTINENTAL drift, *GENETIC markers, *BAYESIAN analysis, *PHYLOGENY, *CONTINENTS

Abstract

Lepidoziaceae are the third‐largest family of liverworts, with about 860 species distributed on all continents. The evolutionary history of this family has not been satisfactorily resolved, with taxa such as Micropterygioideae yet to be included in phylogenetic analyses. We inferred a dated phylogeny of Lepidoziaceae using a data set consisting of 13 genetic markers, sampled from 147 species. Based on our phylogenetic estimate, we used statistical dispersal‐vicariance analysis to reconstruct the biogeographic history of the family. We inferred a crown age of 197 Ma (95% credible interval 157–240 Ma) for the family in the Australian region, with most major lineages also originating in the same region. Micropterygioideae are placed as the sister group to Lembidioideae, with these two lineages diverging from each other about 132 Ma in the South American–Australian region. With South America and Australia being connected through Antarctica at the time, our results suggest a circum‐Antarctic link between Micropterygioideae and the rest of the family. Crown Micropterygioideae were inferred to have arisen 45 Ma in South America before the continent separated from Antarctica. Extinction from southern temperate regions might explain the present‐day restriction of Micropterygioideae to the Neotropics. Our study reveals the influence of past geological events, such as continental drift, on the evolution and distribution of a widespread and diverse family of liverworts. [ABSTRACT FROM AUTHOR]

Published

2024

15. Molecular phylogeny and comparative morphology reveal the species validity and systematic position of Lepidodesma (Bivalvia: Unionidae).

Author

Wu, Ruiwen, Liu, Lili, Zhang, Liping, Jin, Dandong, Wu, Xiaoping, Liu, Xiongjun, Xie, Zhicai, and Li, Zhengfei

Subjects

*COMPARATIVE anatomy, *MOLECULAR phylogeny, *BIOLOGICAL classification, *UNIONIDAE, *BIVALVES, *CILIATA, *CHLOROPLAST DNA

Abstract

Increasingly sophisticated molecular techniques and research tools have greatly advanced the understanding of species diversity and phylogenetic relationships in freshwater mussels. However, malacologists have been puzzled by the taxonomic position and species validity of certain species, particularly those described solely based on conchological characteristics. The genus Lepidodesma is one such group. Here, we integrate shell morphology, soft-body anatomy, and molecular phylogeny to delimit the species validity of Lepidodesma aligera (Heude in Conchyliologie Fluviatile de la Provoince de Nanking 3:17–24, 1877) and Lepidodesma languilati (Heude in Journal De Conchyliologie 22:112–118, 1874). Comparative morphology reveals that L. aligera can be distinguished from L. languilati by its higher post-dorsal wing covered with scattered nodules, as well as differences in the incurrent aperture, excurrent aperture, and gill. Additionally, the average genetic distance based on DNA barcodes (COI) between both species is 4.0%. Integrative taxonomy supports the distinct species of L. aligera, rather than synonymy for L. languilati. Mitochondrial phylogenomic analyses confirm four monophyletic groups (Ambleminae + (Gonideinae + (Unioninae + Parreysiinae))) within the family Unionidae. L. aligera and L. languilati have a well-supported sister-group relationship and form a basal clade splitting from the rest of Unioninae. Therefore, the genus Lepidodesma should be classified as Lepidodesmini in Unioninae. The molecular clock with fossil calibration indicates that Lepidodesma originated in the Early Cretaceous (~121.30 Mya, 95% HPD = 90.37–156.54 Mya) and diverged in the Middle Neogene (~12.94 Mya, 95% HPD = 6.72–22.13 Mya). This study firstly provides anatomical features and molecular data for L. aligera and demonstrates the species validity and the systematic position of Lepidodesma taxa, which enrich our understanding of this rare group and facilitate its management and conservation. [ABSTRACT FROM AUTHOR]

Published

2024

16. Deciphering the complete chloroplast genome sequence of Meconopsis torquata Prain: Insights into genome structure, comparative analysis and phylogenetic relationship

Author

Sheikh Sunzid Ahmed and M. Oliur Rahman

Subjects

Plastome assembly, Nucleotide diversity, Meconopsis torquata, Phylogenetics, Molecular dating, Bioinformatics, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

In the present study, we have characterized the complete chloroplast (Cp) genome of Meconopsis torquata Prain (family Papaveraceae), revealing the plastome size of 153,290 bp, and a GC content of 38.72 %. The cp genome features the typical circular quadripartite structure found in flowering plants, including a pair of inverted repeat regions (25,816 bp), isolated by a small single-copy region (17,740 bp) and a large single-copy (83,918 bp). Genome annotation revealed 132 genes: 87 protein-coding genes, 37 tRNAs and eight rRNAs. This comparative study demonstrated that the genome structure, gene number and GC ratio are consistent with several other cp genomes of Meconopsis and Papaver genera. A total of 120 SSRs were detected in the plastome, the majority (111) of which were mononucleotide repeats. Among the longer repeats, palindromic sequences were most common, followed by forward, reverse, and complement repeats. The whole genome alignment revealed the conserved nature of the inverted repeat region over single-copy zones. Nucleotide diversity unveiled hypervariable sites (ycf1, rps16, accD, atpB and psbD) in both the small and large single-copy regions, which could be useful for designing molecular markers for taxonomic identification. Phylogenetic analysis revealed a close alliance of M. torquata with other Meconopsis species, such as M. pinnatifolia and M. paniculata, with strong bootstrap support. Molecular dating suggests that M. torquata originated during the Tortonian age of the Miocene epoch of the Cenozoic era. These findings provide valuable insights for biological research, especially in understanding the genetic and evolutionary divergence within the Papaveraceae family.

Published

2024

17. A Sister Species for the Blue Crab, Callinectes sapidus? A Tale Revealed by Mitochondrial DNA

Author

Chiara Locci, Ilenia Azzena, Noemi Pascale, Alessandra Ciccozzi, Ilaria Deplano, Ioannis A. Giantsis, Dimitrios K. Papadopoulos, Athanasios Lattos, Flavio Orrù, Cesare M. Puzzi, Fabio Scarpa, Marco Casu, and Daria Sanna

Subjects

alien species, MtDNA, Mediterranean invasion, molecular dating, cryptic speciation, sibling species, Science

Abstract

The Atlantic blue crab, Callinectes sapidus, is acknowledged as one of the worst invasive alien species in the Mediterranean, impacting biodiversity and human activities. Native to the western Atlantic, it has expanded to European coastal waters since the early 1900s. Despite its ecological and commercial importance, genetic research on this species is limited. Here we show a comprehensive investigation of the genetic variation and evolutionary history in Callinectes sapidus using 667 mitochondrial COI gene sequences. Our dataset encompasses 36 newly generated sequences from previously understudied Mediterranean sites and 631 from worldwide locations obtained from the GenBank public database. Our findings reveal two distinct, but closely related, genetic groups within the species’ distribution range, suggesting the occurrence of a potential species complex. Furthermore, in the Mediterranean, low levels of genetic variability were observed except for substantial haplotypic differentiation in Turkish samples. This study depicts the global genetic diversity and evolutionary patterns of Callinectes sapidus, offering new insights into the taxonomic status of the species.

Published

2024

18. Grapevine Pinot gris virus in Germany: From where did the virus come, and when?

Author

Ben Mansour, Karima, Gibbs, Adrian J., Meßmer, Noemi, Fuchs, René, Wetzel, Thierry, and Winterhagen, Patrick

Subjects

*PINOT gris, *BERRIES, *VITIS vinifera, *GRAPES, *VITICULTURE, *CULTIVARS, *GENETIC variation, HAN dynasty, China, 202 B.C.-220 A.D.

Abstract

Grapevine Pinot gris virus (GPGV) isolates were obtained from German vineyards to investigate their diversity. Phylogenetic and dating analyses of these and GPGV genes and genomes available in GenBank showed that the virus probably diverged from grapevine berry inner necrosis virus (GINV) in wild and cultivated Vitis species, notably Vitis coignetiae, growing in North‐east Asia around 3500 years ago. GPGV probably infected the Eurasian grape (Vitis vinifera subsp. vinifera) when those cultivars were first taken to China during the Han Dynasty (226 BCE–220 CE). GPGV then spread to Europe around 1800 CE, probably via the dissemination of infected plants, and from there, eventually spread worldwide. German isolates were only found in all parts of the post‐1800 CE phylogeny. The German isolates were genetically more diverse, for both MP and CP genes, than those of other European populations, suggesting that the initial stages of the GPGV invasion of Europe were in Germany, not Italy. We discuss the likely North‐east Asian origin of both GPGV and GINV, and the possible coincidences of phylogenetic date estimates with changes to European and world viticulture practices. [ABSTRACT FROM AUTHOR]

Published

2024

19. The replication-competent HIV reservoir is a genetically restricted, younger subset of the overall pool of HIV proviruses persisting during therapy, which is highly genetically stable over time.

Author

Shahid, Aniqa, MacLennan, Signe, Jones, Bradley R., Sudderuddin, Hanwei, Zhong Dang, Cobarrubias, Kyle, Duncan, Maggie C., Kinloch, Natalie N., Dapp, Michael J., Archin, Nancie M., Fischl, Margaret A., Ofotokun, Igho, Adimora, Adaora, Gange, Stephen, Aouizerat, Bradley, Kuniholm, Mark H., Kassaye, Seble, Mullins, James I., Goldstein, Harris, and Joy, Jeffrey B.

Subjects

*HIV, *HIV seroconversion, *AGE distribution, *ANTIRETROVIRAL agents

Abstract

Within-host HIV populations continually diversify during untreated infection, and this diversity persists within infected cell reservoirs during antiretroviral therapy (ART). Achieving a better understanding of on-ART proviral evolutionary dynamics, and a better appreciation of how the overall persisting pool of (largely genetically defective) proviruses differs from the much smaller replication-competent HIV reservoir, is critical to HIV cure efforts. We reconstructed within-host HIV evolutionary histories in blood from seven participants of the Women’s Interagency HIV Study who experienced HIV seroconversion, and used these data to characterize the diversity, lineage origins, and ages of proviral env-gp120 sequences sampled longitudinally up to 12 years on ART. We also studied HIV sequences emerging from the reservoir in two participants. We observed that proviral clonality generally increased over time on ART, with clones frequently persisting long term. While on-ART proviral integration dates generally spanned the duration of untreated infection, HIV emerging in plasma was exclusively younger (i.e., dated to the years immediately pre-ART). The genetic and age distributions of distinct proviral sequences remained stable during ART in all but one participant, in whom there was evidence that younger proviruses had been preferentially eliminated after 12 years on ART. Analysis of the gag region in three participants corroborated our env-gp120-based observations, indicating that our observations are not influenced by the HIV region studied. Our results underscore the remarkable genetic stability of the distinct proviral sequences that persist in blood during ART. Our results also suggest that the replication-competent HIV reservoir is a genetically restricted, younger subset of this overall proviral pool. IMPORTANCE Characterizing the genetically diverse HIV sequences that persist in the reservoir despite antiretroviral therapy (ART) is critical to cure efforts. Our observations confirm that proviruses persisting in blood on ART, which are largely genetically defective, broadly reflect the extent of within-host HIV evolution pre-ART. Moreover, on-ART clonal expansion is not appreciably accompanied by the loss of distinct proviral lineages. In fact, on-ART proviral genetic composition remained stable in all but one participant, in whom, after 12 years on ART, proviruses dating to around near ART initiation had been preferentially eliminated. We also identified recombinant proviruses between parental sequence fragments of different ages. Though rare, such sequences suggest that reservoir cells can be superinfected with HIV from another infection era. Overall, our finding that the replication-competent reservoir in blood is a genetically restricted, younger subset of all persisting proviruses suggests that HIV cure strategies will need to eliminate a reservoir that differs in key respects from the overall proviral pool. [ABSTRACT FROM AUTHOR]

Published

2024

20. The Global Evolutionary History of Orf Virus in Sheep and Goats Revealed by Whole Genomes Data.

Author

Coradduzza, Elisabetta, Scarpa, Fabio, Rocchigiani, Angela Maria, Cacciotto, Carla, Lostia, Giada, Fiori, Mariangela Stefania, Rodriguez Valera, Yoel, De Pascali, Alessandra Mistral, Brandolini, Martina, Azzena, Ilenia, Locci, Chiara, Casu, Marco, Bechere, Roberto, Pintus, Davide, Ligios, Ciriaco, Scagliarini, Alessandra, Sanna, Daria, and Puggioni, Giantonella

Subjects

*GOATS, *WORLD history, *SHEEP breeds, *SHEEP, *GOAT breeds, *SHEEP breeding, *ZOONOSES, *ANIMAL species

Abstract

Orf virus (ORFV) belongs to the genus Parapoxvirus (Poxviridae family). It is the causative agent of contagious ecthyma (CE) that is an economically detrimental disease affecting small ruminants globally. Contagious ecthyma outbreaks are usually reported in intensive breeding of sheep and goats but they have also been reported in wildlife species. Notably, ORFV can infect humans, leading to a zoonotic disease. This study aims to elucidate the global evolutionary history of ORFV genomes in sheep and goats, including the first genomes from Central America in the analyses. In comparison to the last study on ORFV whole genomes, the database now includes 11 more sheep and goat genomes, representing an increase of 42%. The analysis of such a broader database made it possible to obtain a fine molecular dating of the coalescent time for ORFV S and G genomes, further highlighting the genetic structuring between sheep and goat genomes and corroborating their emergence in the latter half of 20th century. [ABSTRACT FROM AUTHOR]

Published

2024

21. Reconstructing the Evolutionary History of Pinna nobilis : New Genetic Signals from the Past of a Species on the Brink of Extinction.

Author

Sanna, Daria, Azzena, Ilenia, Locci, Chiara, Ankon, Pavel, Kružić, Petar, Manfrin, Chiara, Pallavicini, Alberto, Ciriaco, Saul, Segarich, Marco, Batistini, Edoardo, Scarpa, Fabio, and Casu, Marco

Subjects

*SHELLFISH, *BIOLOGICAL extinction, *EAR, *GENETIC variation, *ENDANGERED species, *CYTOCHROME oxidase

Abstract

Simple Summary: Pinna nobilis, a species of marine shellfish living in the Mediterranean Sea, is at a high risk of extinction due to a not-entirely-known disease that started affecting its populations in 2016. In this paper, we reported the main traits of its evolutionary history to understand how this species evolved over time and space from the moment its ancestor entered the Mediterranean. To achieve this goal, we analysed a total of 469 sequences from all over the Mediterranean Sea. Our research showed that P. nobilis evolved from its ancestor about 2.5 million years ago, following a rapid and catastrophic entry of waters from the Atlantic Ocean that pushed the P. nobilis ancestor into the Mediterranean around 5.3 million years ago. Our results also suggest that the central part of the western Mediterranean was the first marine area where this species settled and, later on, it spread to the Adriatic and the eastern part of the basin. This information is of twofold importance, as it helps us to understand how this species adapted to the Mediterranean over time and may be the basis of present and future restocking plans which want to take into consideration the reconstruction of pre-existing genetic variability. Pinna nobilis, commonly known as the noble pen shell, is a marine bivalve endemic to the Mediterranean Sea. Unfortunately, due to a multifactorial disease that began affecting its populations in 2016, the species is currently facing the threat of extinction. To gain insights into the evolutionary history of P. nobilis before the mass mortality event (MME), and to obtain a comprehensive understanding of how evolutionary processes led to the adaptation of the species into the Mediterranean Sea, phylogenetic and phylogeographic analyses were carried out. The dataset analysed includes 469 sequences of COI gene fragment both from GenBank and the present study (100). The analysis performed evidenced that P. nobilis diverged about 2.5 mya, after the entrance of its ancestor into the Mediterranean Sea following the Zanclean flood (5.33 mya). Moreover, our results suggest that the starting point of colonisation was the central part of the western Mediterranean basin, with the eastern basin being populated subsequently. From a conservational viewpoint, these results provide important hints for present and future restocking plans, helping to reconstruct the pre-existing genetic variability in sites where the species became extinct. [ABSTRACT FROM AUTHOR]

Published

2024

22. The complete mitochondrial genome of Erinaceus concolor (Mammalia: Eulipotyphla) from Türkiye with phylogenetic implications.

Author

Şeker, Perinçek Seçkinozan

Subjects

MITOCHONDRIAL DNA, TRANSFER RNA, GERMPLASM conservation, MAMMALS, CYTOCHROME b, MOLECULAR evolution, GENOMES

Abstract

As a reference mitogenome, the complete mitochondrial genome of the white-breasted hedgehog, Erinaceus concolor , was firstly presented in this study by employing Long-Range PCR and Next-Generation Sequencing. The total lengths of the mitogenomes were 17.451 bp and 17.455 bp. A total of 37 genes, namely two ribosomal RNAs (rRNAs), 22 transfer RNAs (tRNAs), 13 protein-coding genes (PCGs), and a non-coding D-loop were encoded in the mitogenome, compatible with the previously reported mitogenomes belonging to representatives of the family Erinaceidae (Mammalia: Eulipotyphla). Maximum Likelihood and Bayesian Inference phylogenetic analyses of Eulipotyphla and Erinaceidae based on the complete mitogenomes revealed a conventional relationship for the relevant organism's groups. Divergence time analyses based on complete mitogenome data revealed that evolutionary divergence events within Erinaceidae began about 58.87 Myr ago corresponding to the early Eocene, and the basal split of Erinaceus dates back to approximately 11.01 Myr ago in the late Miocene. Single cytochrome b -based analyses can be considered weaker, as they produce phylogenies that are relatively inconsistent with the natural classification of Eulipotyphla and put the onset of evolutionary divergence events earlier. The genetic information obtained as a result of this study can be used as a genetic resource for conservation biology studies; it will also undoubtedly contribute to the understanding of molecular evolution of E. concolor and closely related taxa. [ABSTRACT FROM AUTHOR]

Published

2024

23. The Neotropical endemic liverwort subfamily Micropterygioideae had circum‐Antarctic links to the rest of the Lepidoziaceae during the early Cretaceous

Author

Antonio L. Rayos Jr., Matthew A. M. Renner, and Simon Y. W. Ho

Subjects

biogeography, Lepidoziaceae, liverworts, Micropterygioideae, Micropterygium, molecular dating, Ecology, QH540-549.5

Abstract

Abstract Lepidoziaceae are the third‐largest family of liverworts, with about 860 species distributed on all continents. The evolutionary history of this family has not been satisfactorily resolved, with taxa such as Micropterygioideae yet to be included in phylogenetic analyses. We inferred a dated phylogeny of Lepidoziaceae using a data set consisting of 13 genetic markers, sampled from 147 species. Based on our phylogenetic estimate, we used statistical dispersal‐vicariance analysis to reconstruct the biogeographic history of the family. We inferred a crown age of 197 Ma (95% credible interval 157–240 Ma) for the family in the Australian region, with most major lineages also originating in the same region. Micropterygioideae are placed as the sister group to Lembidioideae, with these two lineages diverging from each other about 132 Ma in the South American–Australian region. With South America and Australia being connected through Antarctica at the time, our results suggest a circum‐Antarctic link between Micropterygioideae and the rest of the family. Crown Micropterygioideae were inferred to have arisen 45 Ma in South America before the continent separated from Antarctica. Extinction from southern temperate regions might explain the present‐day restriction of Micropterygioideae to the Neotropics. Our study reveals the influence of past geological events, such as continental drift, on the evolution and distribution of a widespread and diverse family of liverworts.

Published

2024

24. The Global Evolutionary History of Orf Virus in Sheep and Goats Revealed by Whole Genomes Data

Author

Elisabetta Coradduzza, Fabio Scarpa, Angela Maria Rocchigiani, Carla Cacciotto, Giada Lostia, Mariangela Stefania Fiori, Yoel Rodriguez Valera, Alessandra Mistral De Pascali, Martina Brandolini, Ilenia Azzena, Chiara Locci, Marco Casu, Roberto Bechere, Davide Pintus, Ciriaco Ligios, Alessandra Scagliarini, Daria Sanna, and Giantonella Puggioni

Subjects

ORFV, phylodynamics, whole genome sequencing, S genomes, G genomes, molecular dating, Microbiology, QR1-502

Abstract

Orf virus (ORFV) belongs to the genus Parapoxvirus (Poxviridae family). It is the causative agent of contagious ecthyma (CE) that is an economically detrimental disease affecting small ruminants globally. Contagious ecthyma outbreaks are usually reported in intensive breeding of sheep and goats but they have also been reported in wildlife species. Notably, ORFV can infect humans, leading to a zoonotic disease. This study aims to elucidate the global evolutionary history of ORFV genomes in sheep and goats, including the first genomes from Central America in the analyses. In comparison to the last study on ORFV whole genomes, the database now includes 11 more sheep and goat genomes, representing an increase of 42%. The analysis of such a broader database made it possible to obtain a fine molecular dating of the coalescent time for ORFV S and G genomes, further highlighting the genetic structuring between sheep and goat genomes and corroborating their emergence in the latter half of 20th century.

Published

2024

25. Phylogenetic relationships and historical biogeography of silkmoths (Lepidoptera: Bombycidae) suggest an origin in Southern Gondwana.

Author

Lin, Rung-Juen, Lin, Yu-Chi, Braby, Michael F., Zwick, Andreas, and Hsu, Yu-Feng

Subjects

*CURRENT distribution, *PALEOCENE Epoch, *BASE pairs, *VICARIANCE, *EOCENE Epoch

Abstract

[Display omitted] • Biogeographic hypothesis testing and ancestral area reconstruction supports an origin of Bombycidae in Southern Gondwana during the Paleocene (c. 64 Mya). • Bombycidae differentiated into two subfamilies by vicariance between South America (Epiinae) and Australia (Bombycinae) during the Eocene (c. 56 Mya). • Although most species of Bombycinae are distributed in South-East Asia, they did not originate in the Oriental Region. Rather, the ancestor dispersed out of Australia to South-East Asia during the Eocene (c. 53 Mya) or possibly later. • A second dispersal event occurred from Asia to Africa during the Miocene (c. 16 Mya), most likely facilitated by the Gomphotherium land bridge. • Our study provides an explanation for the group's disjunct distribution in the Southern Hemsiphere and Asia, which, interestingly, does not involve dispersal across Beringia. Silkmoths (Bombycidae) have a disjunct distribution predominantly in the Southern Hemisphere and Asia. Here we reconstruct the phylogenetic history of the family to test competing hypotheses on their origin and assess how vicariance and long-distance dispersal shaped their current distribution. We sequenced up to 5,074 base pairs from six loci (COI, EF1-α, wgl, CAD, GAPDH, and RpS5) to infer the historical biogeography of Bombycidae. The multilocus dataset covering 20 genera (80 %) of the family, including 17 genera (94 %) of Bombycinae and 3 genera (43 %) of Epiinae, was used to estimate phylogenetic patterns, divergence times and biogeographic reconstruction. Dating estimates extrapolated from secondary calibration sources indicate the Bombycidae stem-group originated approximately 64 Mya. The subfamilies Epiinae (South America) and Bombycinae (Australia, Asia, East Palaearctic, and Africa) were reciprocally monophyletic, diverging at c. 56 Mya (95 % credibility interval: 66–46 Mya). The 'basal' lineage of Bombycinae — Gastridiota + Elachyophtalma — split from the rest of Bombycinae c. 53 Mya (95 % credibility interval: 63–43 Mya). Gastridiota is a monobasic genus with a relictual distribution in subtropical forests of eastern Australia. The Oriental and African genera comprised a monophyletic group: the Oriental region was inferred to have been colonized from a long-distance dispersal event from Australia to South-East Asia c. 53 Mya or possibly later (c. 36–26 Mya); Africa was subsequently colonized by dispersal from Asia c. 16 Mya (95 % credibility interval: 21–12 Mya). Based on the strongly supported phylogenetic relationships and estimates of divergence times, we conclude that Bombycidae had its origin in the fragment of Southern Gondwana consisting of Australia, Antarctica and South America during the Paleocene. The disjunction between South America (Epiinae) and Australia (Bombycinae) is best explained by vicariance in the Eocene, whereas the disjunct distribution in Asia and Africa is best explained by more recent dispersal events. [ABSTRACT FROM AUTHOR]

Published

2024

26. Phylogeography of the Euro-Siberian steppe plant Astragalus austriacus: Late Pleistocene climate fluctuations fuelled formation and expansion of two main lineages from a Pontic-Pannonian area of origin.

Author

Maylandt, Clemens, Seidl, Anna, Kirschner, Philipp, Pfanzelt, Simon, Király, Gergely, Neuffer, Barbara, Blattner, Frank R., Hurka, Herbert, Friesen, Nikolai, Poluyanov, Alexander V., Kosachev, Petr A., Schmiderer, Corinna, Bernhardt, Karl-Georg, and Tremetsberger, Karin

Subjects

*ASTRAGALUS (Plants), *CLIMATE change, *GLACIATION, *STEPPES, *BIOTIC communities, *PHYLOGEOGRAPHY

Abstract

The Euro-Siberian steppes have experienced large-scale range fluctuations due to the climatic changes of the Pleistocene that may have also fuelled reshuffling of past steppe vegetation. These species-rich steppe grasslands were much more widespread during glacials and contracted during interglacials, a dynamic which should also be reflected by the evolutionary history of their biota. Astragalus austriacus is a widespread steppe species with European-western Siberian distribution and an ideal model to study the florogenesis of the Euro-Siberian steppes. Here, we inferred the phylogeography of A. austriacus based on genotyping-by-sequencing (GBS) data from populations sampled from the western edge of the Pannonian region across the Pontic region to the western Siberian region. Additionally, we applied molecular dating using single gene sequence data (ycf 1, mat K and ITS). We outline an evolutionary scenario in which intraspecific diversification occurred in the eastern part of Europe during the later Pleistocene (0.48–0.24 Ma). From there, the species expanded both eastwards and westwards, likely during a cold period, which is reflected by two main lineages within A. austriacus that today occur in the Pannonian sensu lato and in the Pontic/south-western Siberian regions, respectively. Demographic modelling supported such a scenario and showed that population sizes were larger during the last cold stage and contracted postglacially. Within the Pannonian sensu lato region, strong substructure was detected, likely as a result of repeated disintegration of the continuous cold-stage steppes in Europe. Finally, our results are in line with evolutionary scenarios suggested for other steppe species such as Adonis vernalis. • Astragalus austriacus is a member of the highly diverse and derived Hypoglottis clade. • A. austriacus lineages of the main distribution area evolved in the later Pleistocene in the Pontic-Pannonian region. • A Pannonian and a Pontic/Siberian lineage of A. austriacus evolved independently. • Populations of A. austriacus declined after the end of the last glacial period. [ABSTRACT FROM AUTHOR]

Published

2024

27. Contrasting the role of historic factors in phylogeograpic patterns in the native Johnny darter ( Etheostoma nigrum ) and invasive round goby ( Neogobius melanostomus ) in lower michigan.

Author

Wicks AJ, Bowman M, and Dowling TE

Abstract

Round goby ( Neogobius melanostomus ) is an invasive fish present in all five Great Lakes and is becoming increasingly common in their tributaries. Johnny darter ( Etheostoma nigrum ) is a native species that often coexists with N. melanostomus . In this work, historic factors are addressed as a source of genomic variation in study populations of these species. To do this, patterns of variation in the mitochondrial gene NADH dehydrogenase subunit 2 (ND2) were characterized for both species throughout Lower Michigan. Populations of N. melanostomus and E. nigrum were sampled from 17 localities representing both eastern and western basins of Lower Michigan to test the hypothesis that populations differ between the eastern and western basins of the Great Lakes. Neogobius melanostomus populations were largely homogenous with no significant differences detected among populations or between the eastern and western basins. Additionally, N. melanostomus exhibited no evidence of overarching historical genetic structure, consistent with the recent invasion and rapid expansion of this species. Etheostoma nigrum exhibited significant differentiation among local populations; however, similarity among mtDNA haplotypes indicated that differences among populations are recent, suggesting that local forces are a more important factor in shaping patterns of variation than historical factors. Contrary to predictions, there were no significant differences detected between the eastern and western basins of the Great Lakes; however, construction of a neighbor-joining tree with F ST estimates revealed clustering of populations by basin with some anomalies. These anomalies may be the result of recent stream capture events facilitating gene flow between the two basins., Competing Interests: The authors declare no competing interest., (© 2024 The Author(s). Ecology and Evolution published by John Wiley & Sons Ltd.)

Published

2024

28. Expectation-Maximization enables Phylogenetic Dating under a Categorical Rate Model.

Author

Mai U, Charvel E, and Mirarab S

Subjects

Models, Genetic, Computer Simulation, Likelihood Functions, Phylogeny, Classification methods

Abstract

Dating phylogenetic trees to obtain branch lengths in time units is essential for many downstream applications but has remained challenging. Dating requires inferring substitution rates that can change across the tree. While we can assume to have information about a small subset of nodes from the fossil record or sampling times (for fast-evolving organisms), inferring the ages of the other nodes essentially requires extrapolation and interpolation. Assuming a distribution of branch rates, we can formulate dating as a constrained maximum likelihood (ML) estimation problem. While ML dating methods exist, their accuracy degrades in the face of model misspecification, where the assumed parametric statistical distribution of branch rates vastly differs from the true distribution. Notably, most existing methods assume rigid, often unimodal, branch rate distributions. A second challenge is that the likelihood function involves an integral over the continuous domain of the rates, often leading to difficult non-convex optimization problems. To tackle both challenges, we propose a new method called Molecular Dating using Categorical-models (MD-Cat). MD-Cat uses a categorical model of rates inspired by non-parametric statistics and can approximate a large family of models by discretizing the rate distribution into k categories. Under this model, we can use the Expectation-Maximization algorithm to co-estimate rate categories and branch lengths in time units. Our model has fewer assumptions about the true distribution of branch rates than parametric models such as Gamma or LogNormal distribution. Our results on two simulated and real datasets of Angiosperms and HIV and a wide selection of rate distributions show that MD-Cat is often more accurate than the alternatives, especially on datasets with exponential or multimodal rate distributions., (© The Author(s) 2024. Published by Oxford University Press, on behalf of the Society of Systematic Biologists. All rights reserved. For commercial re-use, please contact reprints@oup.com for reprints and translation rights for reprints. All other permissions can be obtained through our RightsLink service via the Permissions link on the article page on our site–for further information please contact journals.permissions@oup.com.)

Published

2024

29. The Rediscovery of a Relict Unlocks the First Global Phylogeny of Whip Spiders (Amblypygi).

Author

de Miranda GS, Kulkarni SS, Tagliatela J, Baker CM, Giupponi APL, Labarque FM, Gavish-Regev E, Rix MG, Carvalho LS, Fusari LM, Harvey MS, Wood HM, and Sharma PP

Subjects

Animals, Spiders classification, Spiders genetics, Phylogeny, Fossils

Abstract

Asymmetrical rates of cladogenesis and extinction abound in the tree of life, resulting in numerous minute clades that are dwarfed by larger sister groups. Such taxa are commonly regarded as phylogenetic relicts or "living fossils" when they exhibit an ancient first appearance in the fossil record and prolonged external morphological stasis, particularly in comparison to their more diversified sister groups. Due to their special status, various phylogenetic relicts tend to be well-studied and prioritized for conservation. A notable exception to this trend is found within Amblypygi ("whip spiders"), a visually striking order of functionally hexapodous arachnids that are notable for their antenniform first walking leg pair (the eponymous "whips"). Paleoamblypygi, the putative sister group to the remaining Amblypygi, is known from Late Carboniferous and Eocene deposits but is survived by a single living species, Paracharon caecusHansen (1921), that was last collected in 1899. Due to the absence of genomic sequence-grade tissue for this vital taxon, there is no global molecular phylogeny for Amblypygi to date, nor a fossil-calibrated estimation of divergences within the group. Here, we report a previously unknown species of Paleoamblypygi from a cave site in Colombia. Capitalizing upon this discovery, we generated the first molecular phylogeny of Amblypygi, integrating ultraconserved element sequencing with legacy Sanger datasets and including described extant genera. To quantify the impact of sampling Paleoamblypygi on divergence time estimation, we performed in silico experiments with pruning of Paracharon. We demonstrate that the omission of relicts has a significant impact on the accuracy of node dating approaches that outweighs the impact of excluding ingroup fossils, which bears upon the ancestral range reconstruction for the group. Our results underscore the imperative for biodiversity discovery efforts in elucidating the phylogenetic relationships of "dark taxa," and especially phylogenetic relicts in tropical and subtropical habitats. The lack of reciprocal monophyly for Charontidae and Charinidae leads us to subsume them into one family, Charontidae, new synonymy., (© The Author(s) 2024. Published by Oxford University Press, on behalf of the Society of Systematic Biologists. All rights reserved. For commercial re-use, please contact reprints@oup.com for reprints and translation rights for reprints. All other permissions can be obtained through our RightsLink service via the Permissions link on the article page on our site—for further information please contact journals.permissions@oup.com.)

Published

2024

30. Out of and in East Asia: Phylogeny, biogeography and diversification of Thalictroideae (Ranunculaceae) in the Northern Hemisphere.

Author

Ling YY, Peng HW, Lian L, Erst AS, Xiang KL, and Wang W

Abstract

Background and Aims: Understanding the biogeographical patterns and processes underlying the distribution of diversity within the Northern Hemisphere has fascinated botanists and biogeographers for over a century. However, as a well-known centre of species diversity in the Northern Hemisphere, whether East Asia acted as a source and/or a sink of plant diversity of the Northern Hemisphere remains unclear. Here, we used Thalictroideae, a subfamily widely distributed in the Northern Hemisphere with the majority of species in East Asia, to investigate the role of East Asia in shaping the biogeographical patterns of the Northern Hemisphere and to test whether East Asia acted as a museum or a cradle for herbaceous taxa., Methods: Based on six plastid and one nuclear DNA regions, we generated the most comprehensive phylogeny for Thalictroideae including 217 taxa (ca. 66% species) from all ten of the currently recognized genera. Within this phylogenetic framework, we then estimated divergence times, ancestral ranges, and diversification rates., Key Results: The monophyletic Thalictroideae contains three major clades. All genera with more than one species are strongly supported as monophyletic except for Isopyrum, which is nested in Enemion. The most recent common ancestor of Thalictroideae occurred in East Asia in the late Eocene (ca. 36 Ma). From the Miocene onwards, at least 46 dispersal events were inferred to be responsible for the current distribution of this subfamily. East Asian Thalictroideae lineages experienced a rapid accumulation at ca. 10 Ma., Conclusions: The biogeographical patterns of Thalictroideae support the "out of and in East Asia" hypothesis, i.e., East Asia is both a source and a sink of biodiversity of the Northern Hemisphere. The global cooling after the middle Miocene Climatic Optimum, combined with the exposed land bridges due to sea-level decline, might have jointly caused the bidirectional plant exchanges between East Asia and other Northern Hemisphere regions. East Asia serves as evolutionary museums and cradles for the diversity of Thalictroideae and likely for other herbaceous lineages., (© The Author(s) 2024. Published by Oxford University Press on behalf of the Annals of Botany Company. All rights reserved. For commercial re-use, please contact reprints@oup.com for reprints and translation rights for reprints. All other permissions can be obtained through our RightsLink service via the Permissions link on the article page on our site—for further information please contact journals.permissions@oup.com.)

Published

2024

31. Deciphering the complete chloroplast genome sequence of Meconopsis torquata Prain: Insights into genome structure, comparative analysis and phylogenetic relationship.

Author

Ahmed SS and Rahman MO

Abstract

In the present study, we have characterized the complete chloroplast (Cp) genome of Meconopsis torquata Prain (family Papaveraceae), revealing the plastome size of 153,290 bp, and a GC content of 38.72 %. The cp genome features the typical circular quadripartite structure found in flowering plants, including a pair of inverted repeat regions (25,816 bp), isolated by a small single-copy region (17,740 bp) and a large single-copy (83,918 bp). Genome annotation revealed 132 genes: 87 protein-coding genes, 37 tRNAs and eight rRNAs. This comparative study demonstrated that the genome structure, gene number and GC ratio are consistent with several other cp genomes of Meconopsis and Papaver genera. A total of 120 SSRs were detected in the plastome, the majority (111) of which were mononucleotide repeats. Among the longer repeats, palindromic sequences were most common, followed by forward, reverse, and complement repeats. The whole genome alignment revealed the conserved nature of the inverted repeat region over single-copy zones. Nucleotide diversity unveiled hypervariable sites ( ycf1 , rps16 , accD , atpB and psbD ) in both the small and large single-copy regions, which could be useful for designing molecular markers for taxonomic identification. Phylogenetic analysis revealed a close alliance of M. torquata with other Meconopsis species, such as M. pinnatifolia and M. paniculata , with strong bootstrap support. Molecular dating suggests that M. torquata originated during the Tortonian age of the Miocene epoch of the Cenozoic era. These findings provide valuable insights for biological research, especially in understanding the genetic and evolutionary divergence within the Papaveraceae family., Competing Interests: The authors hereby declare that there is no any conflicting interest concerning financial or personal issues that might have influenced the work presented in this paper., (© 2024 The Authors.)

Published

2024

32. Molecular phylogeny and divergence time of Harpalyce (Leguminosae, Papilionoideae), a lineage with amphitropical diversification in seasonally dry forests and savannas.

Author

São-Mateus, Wallace M.B., Fernandes, Moabe Ferreira, Queiroz, Luciano Paganucci de, Meireles, José Eduardo, Jardim, Jomar Gomes, Delgado-Salinas, Alfonso, Dorado, Óscar, Lima, Haroldo Cavalcante de, Rodríguez, Rosa Rankin, González Gutiérrez, Pedro Alejandro, Lewis, Gwilym P., Wojciechowski, Martin F., and Cardoso, Domingos

Subjects

*TROPICAL dry forests, *MOLECULAR phylogeny, *SAVANNAS, *FOREST ecology, *MIOCENE Epoch, *LEGUMES

Abstract

[Display omitted] • A fossil-calibrated densely-sampled molecular phylogeny strongly supported the monophyly of Harpalyce and its placement in the tribe Brongniartieae. • Stochastic character mapping revealed peltate glandular trichomes and a bilabiate calyx as synapomorphies of Harpalyce. • Harpalyce originated in South America during the Miocene at around 20 Ma. • Harpalyce underwent synchronous diversification in South America and Mexico/Mesoamerica since 10 Ma. • Migration of Harpalyce from South to North America was accompanied by a biome shift from savanna to seasonally dry forest ecology. Our knowledge of the systematics of the papilionoid legume tribe Brongniartieae has greatly benefitted from recent advances in molecular phylogenetics. The tribe was initially described to include species marked by a strongly bilabiate calyx and an embryo with a straight radicle, but recent research has placed taxa from the distantly related core Sophoreae and Millettieae within it. Despite these advances, the most species-rich genera within the Brongniartieae are still not well studied, and their morphological and biogeographical evolution remains poorly understood. Comprising 35 species, Harpalyce is one of these poorly studied genera. In this study, we present a comprehensive, multi-locus molecular phylogeny of the Brongniartieae, with an increased sampling of Harpalyce , to investigate morphological and biogeographical evolution within the group. Our results confirm the monophyly of Harpalyce and indicate that peltate glandular trichomes and a strongly bilabiate calyx with a carinal lip and three fused lobes are synapomorphies for the genus, which is internally divided into three distinct ecologically and geographically divergent lineages, corresponding to the previously recognized sections. Our biogeographical reconstructions demonstrate that Brongniartieae originated in South America during the Eocene, with subsequent pulses of diversification in South America, Mesoamerica, and Australia. Harpalyce also originated in South America during the Miocene at around 20 Ma, with almost synchronous later diversification in South America and Mexico/Mesoamerica beginning 10 Ma, but mostly during the Pliocene. Migration of Harpalyce from South to North America was accompanied by a biome and ecological shift from savanna to seasonally dry forest. [ABSTRACT FROM AUTHOR]

Published

2024

33. Under the hood: Phylogenomics of hooded tick spiders (Arachnida, Ricinulei) uncovers discordance between morphology and molecules.

Author

Sato, Shoyo, Derkarabetian, Shahan, Valdez-Mondragón, Alejandro, Pérez-González, Abel, Benavides, Ligia R., Daniels, Savel R., and Giribet, Gonzalo

Subjects

*BIOLOGICAL classification, *ARACHNIDA, *SPIDERS, *MORPHOLOGY, *TICKS, *BIOGEOGRAPHY, *MOLECULES

Abstract

[Display omitted] • Most comprehensive phylogenomic analysis of Ricinulei using UCEs. • First molecular analysis to recover support for an Andean clade of Cryptocellus. • Provides insight into the complex biogeography of low-vagility Caribbean arthropods. • Highlights the need for integrative taxonomy to revise the systematics of the group. Ricinulei or hooded tick-spiders are a cryptic and ancient group of arachnids. The order consists of around 100 highly endemic extant species restricted to the Afrotropics and the Neotropics along with 22 fossil species. Their antiquity and low vagility make them an excellent group with which to interrogate biogeographic questions. To date, only four molecular analyses have been conducted on the group and they failed to resolve the relationships of the main lineages and even recovering the non-monophyly of the three genera. These studies were limited to a few Sanger loci or phylogenomic analyses with at most seven ingroup samples. To increase phylogenetic resolution in this little-understood and poorly studied group, we present the most comprehensive phylogenomic study of Ricinulei to date leveraging the Arachnida ultra-conserved element probe set. With a data set of 473 loci across 96 ingroup samples, analyses resolved a monophyletic Neotropical clade consisting of four main lineages. Two of them correspond to the current genera Cryptocellus and Pseudocellus while topology testing revealed one lineage to likely be a phylogenetic reconstruction artefact. The fourth lineage, restricted to Northwestern, Andean South America, is consistent with the Cryptocellus magnus group, likely corresponding to the historical genus Heteroricinoides. Since we did not sample the type species for this old genus, we do not formally re-erect Heteroricinoides but our data suggest the need for a thorough morphological re-examination of Neotropical Ricinulei. [ABSTRACT FROM AUTHOR]

Published

2024