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Systematic Biology

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https://www.readbyqxmd.com/read/29471501/contemporary-ecological-interactions-improve-models-of-past-trait-evolution
#1
Matthew C Hutchinson, Marília P Gaiarsa, Daniel B Stouffer
Despite the fact that natural selection underlies both traits and interactions, evolutionary models often neglect that ecological interactions may, and in many cases do, influence the evolution of traits. Here, we explore the interdependence of ecological interactions and functional traits in the pollination associations of hawkmoths and flowering plants. Specifically, we develop an adaptation of the Ornstein-Uhlenbeck model of trait evolution that allows us to study the influence of plant corolla depth and observed hawkmoth-plant interactions on the evolution of hawkmoth proboscis length...
February 20, 2018: Systematic Biology
https://www.readbyqxmd.com/read/29471536/variation-across-mitochondrial-gene-trees-provides-evidence-for-systematic-error-how-much-gene-tree-variation-is-biological
#2
Emilie J Richards, Jeremy M Brown, Anthony J Barley, Rebecca A Chong, Robert C Thomson
The use of large genomic datasets in phylogenetics has highlighted extensive topological variation across genes. Much of this discordance is assumed to result from biological processes. However, variation among gene trees can also be a consequence of systematic error driven by poor model fit, and the relative importance of biological versus methodological factors in explaining gene tree variation is a major unresolved question. Using mitochondrial genomes to control for biological causes of gene tree variation, we estimate the extent of gene tree discordance driven by systematic error and employ posterior prediction to highlight the role of model fit in producing this discordance...
February 19, 2018: Systematic Biology
https://www.readbyqxmd.com/read/29462495/comparison-of-methods-for-molecular-species-delimitation-across-a-range-of-speciation-scenarios
#3
Arong Luo, Cheng Ling, Simon Y W Ho, Chaodong Zhu
Species are fundamental units in biological research and can be defined on the basis of various operational criteria. There has been growing use of molecular approaches for species delimitation. Among the most widely used methods, the generalized mixed Yule-coalescent (GMYC) and Poisson tree processes (PTP) were designed for the analysis of single-locus data but are often applied to concatenations of multilocus data. In contrast, the Bayesian multispecies coalescent approach in the software BPP explicitly models the evolution of multilocus data...
February 15, 2018: Systematic Biology
https://www.readbyqxmd.com/read/29462459/evidence-that-myotis-lucifugus-subspecies-are-five-non-sister-species-despite-gene-flow
#4
Ariadna E Morales, Bryan C Carstens
While genetic exchange between non-sister species was traditionally considered to be rare in mammals, analyses of molecular data in multiple systems suggest that it may be common. Interspecific gene flow, if present, is problematic for phylogenetic inference, particularly for analyses near the species level. Here, we explore how to detect and account for gene flow during phylogeny estimation using data from a clade of North American Myotis bats where previous results have led researchers to suspect that gene flow among lineages is present...
February 15, 2018: Systematic Biology
https://www.readbyqxmd.com/read/29462409/the-behavior-of-metropolis-coupled-markov-chains-when-sampling-rugged-phylogenetic-distributions
#5
Jeremy M Brown, Robert C Thomson
Bayesian phylogenetic inference involves sampling from posterior distributions of trees, which sometimes exhibit local optima, or peaks, separated by regions of low posterior density. Markov chain Monte Carlo (MCMC) algorithms are the most widely used numerical method for generating samples from these posterior distributions, but they are susceptible to entrapment on individual optima in rugged distributions when they are unable to easily cross through or jump across regions of low posterior density. Ruggedness of posterior distributions can result from a variety of factors, including unmodeled variation in evolutionary processes and unrecognized variation in the true topology across sites or genes...
February 15, 2018: Systematic Biology
https://www.readbyqxmd.com/read/29438538/testing-the-role-of-the-red-queen-and-court-jester-as-drivers-of-the-macroevolution-of-apollo-butterflies
#6
Fabien L Condamine, Jonathan Rolland, Sebastian Höhna, Felix A H Sperling, Isabel Sanmartín
In macroevolution, the Red Queen (RQ) model posits that biodiversity dynamics depend mainly on species-intrinsic biotic factors such as interactions among species or life-history traits, while the Court Jester (CJ) model states that extrinsic environmental abiotic factors have a stronger role. Until recently, a lack of relevant methodological approaches has prevented the unraveling of contributions from these two types of factors to the evolutionary history of a lineage. Here we take advantage of the rapid development of new macroevolution models that tie diversification rates to changes in paleoenvironmental (extrinsic) and/or biotic (intrinsic) factors...
February 9, 2018: Systematic Biology
https://www.readbyqxmd.com/read/29432602/modeling-the-growth-and-decline-of-pathogen-effective-population-size-provides-insight-into-epidemic-dynamics-and-drivers-of-antimicrobial-resistance
#7
Erik M Volz, Xavier Didelot
Non-parametric population genetic modeling provides a simple and flexible approach for studying demographic history and epidemic dynamics using pathogen sequence data. Existing Bayesian approaches are premised on stochastic processes with stationary increments which may provide an unrealistic prior for epidemic histories which feature extended period of exponential growth or decline. We show that non-parametric models defined in terms of the growth rate of the effective population size can provide a more realistic prior for epidemic history...
February 7, 2018: Systematic Biology
https://www.readbyqxmd.com/read/29385563/phenotypic-and-genetic-structure-support-gene-flow-generating-gene-tree-discordances-in-an-amazonian-floodplain-endemic-species
#8
Gregory Thom, Fabio R Amaral, Michael J Hickerson, Alexandre Aleixo, Lucas E Araujo-Silva, Camila C Ribas, Erik Choueri, Cristina Y Miyaki
Before populations become independent evolutionary lineages, the effects of micro evolutionary processes tend to generate complex scenarios of diversification that may affect phylogenetic reconstruction. Not accounting for gene flow in species tree estimates can directly impact topology, effective population sizes and branch lengths and the resulting estimation errors are still poorly understood in wild populations. In this study we used an integrative approach, including sequence capture of Ultra Conserved Elements (UCEs), mtDNA Sanger sequencing and morphological data to investigate species limits and phylogenetic relationships in face of gene flow in an Amazonian endemic species (Myrmoborus lugubris: Aves)...
January 29, 2018: Systematic Biology
https://www.readbyqxmd.com/read/29385558/accounting-for-calibration-uncertainty-bayesian-molecular-dating-as-a-doubly-intractable-problem
#9
Stéphane Guindon
This study introduces a new Bayesian technique for molecular dating that explicitly accommodates for uncertainty in the phylogenetic position of calibrated nodes derived from the analysis of fossil data. The proposed approach thus defines an adequate framework for incorporating expert knowledge and/or prior information about the way fossils were collected in the inference of node ages. Although it belongs to the class of "node-dating" methods, this method shares interesting properties with "tip-dating" techniques...
January 27, 2018: Systematic Biology
https://www.readbyqxmd.com/read/29385556/inference-of-adaptive-shifts-for-multivariate-correlated-traits
#10
Paul Bastide, Cécile Ané, Stéphane Robin, Mahendra Mariadassou
To study the evolution of several quantitative traits, the classical phylogenetic comparative framework consists of a multivariate random process running along the branches of a phylogenetic tree. The Ornstein-Uhlenbeck (OU) process is sometimes preferred to the simple Brownian Motion (BM) as it models stabilizing selection toward an optimum. The optimum for each trait is likely to be changing over the long periods of time spanned by large modern phylogenies. Our goal is to automatically detect the position of these shifts on a phylogenetic tree, while accounting for correlations between traits, which might exist because of structural or evolutionary constraints...
January 27, 2018: Systematic Biology
https://www.readbyqxmd.com/read/29385552/bayesian-divergence-time-estimation-with-genome-wide-snp-data-of-sea-catfishes-ariidae-supports-miocene-closure-of-the-panamanian-isthmus
#11
Madlen Stange, Marcelo R Sánchez-Villagra, Walter Salzburger, Michael Matschiner
The closure of the Isthmus of Panama has long been considered to be one of the best defined biogeographic calibration points for molecular divergence-time estimation. However, geological and biological evidence has recently cast doubt on the presumed timing of the initial isthmus closure around 3 Ma but has instead suggested the existence of temporary land bridges as early as the Middle or Late Miocene. The biological evidence supporting these earlier land bridges was based either on only few molecular markers or on concatenation of genome-wide sequence data, an approach that is known to result in potentially misleading branch lengths and divergence times, which could compromise the reliability of this evidence...
January 27, 2018: Systematic Biology
https://www.readbyqxmd.com/read/29342307/using-phylogenomic-data-to-explore-the-effects-of-relaxed-clocks-and-calibration-strategies-on-divergence-time-estimation-primates-as-a-test-case
#12
Mario Dos Reis, Gregg F Gunnell, José Barba-Montoya, Alex Wilkins, Ziheng Yang, Anne D Yoder
Primates have long been a test case for the development of phylogenetic methods for divergence time estimation. Despite a large number of studies, however, the timing of origination of crown Primates relative to the K-Pg boundary and the timing of diversification of the main crown groups remain controversial. Here we analysed a dataset of 372 taxa (367 Primates and 5 outgroups, 3.4 million aligned base pairs) that includes nine primate genomes. We systematically explore the effect of different interpretations of fossil calibrations and molecular clock models on primate divergence time estimates...
January 12, 2018: Systematic Biology
https://www.readbyqxmd.com/read/29325126/automated-integration-of-trees-and-traits-a-case-study-using-paired-fin-loss-across-teleost-fishes
#13
Laura M Jackson, Pasan C Fernando, Josh S Hanscom, James P Balhoff, Paula M Mabee
Data synthesis required for large-scale macroevolutionary studies is challenging with the current tools available for integration. Using a classic question regarding the frequency of paired fin loss in teleost fishes as a case study, we sought to create automated methods to facilitate the integration of broad-scale trait data with a sizable species-level phylogeny. Similar to the evolutionary pattern previously described for limbs, pelvic and pectoral fin reduction and loss are thought to have occurred independently multiple times in the evolution of fishes...
January 9, 2018: Systematic Biology
https://www.readbyqxmd.com/read/29319797/an-in-silico-comparison-of-protocols-for-dated-phylogenomics
#14
Rupert A Collins, Tomas Hrbek
In the age of genome-scale DNA sequencing, choice of molecular marker arguably remains an important decision in planning a phylogenetic study. Using published genomes from 23 primate species, we make a standardized comparison of four of the most frequently used protocols in phylogenomics, viz., targeted sequence-enrichment using ultraconserved element and exon-capture probes, and restriction-site-associated DNA sequencing (RADseq and ddRADseq). Here, we present a procedure to perform in silico extractions from genomes and create directly comparable data sets for each class of marker...
January 8, 2018: Systematic Biology
https://www.readbyqxmd.com/read/29309694/information-criteria-for-comparing-partition-schemes
#15
Tae-Kun Seo, Jeffrey L Thorne
When inferring phylogenies, one important decision is whether and how nucleotide substitution parameters should be shared across different subsets or partitions of the data. One sort of partitioning error occurs when heterogeneous subsets are mistakenly lumped together and treated as if they share parameter values. The opposite kind of error is mistakenly treating homogeneous subsets as if they result from distinct sets of parameters. Lumping and splitting errors are not equally bad. Lumping errors can yield parameter estimates that do not accurately reflect any of the subsets that were combined whereas splitting errors yield estimates that did not benefit from sharing information across partitions...
December 22, 2017: Systematic Biology
https://www.readbyqxmd.com/read/29272547/detecting-environment-dependent-diversi_cation-from-phylogenies-a-simulation-study-and-some-empirical-illustrations
#16
Eric Lewitus, Helene Morlon
Understanding the relative influence of various abiotic and biotic variables on diversification dynamics is a major goal of macroevolutionary studies. Recently, phylogenetic approaches have been developed that make it possible to estimate the role of various environmental variables on diversification using time-calibrated species trees, paleoenvironmental data, and maximum-likelihood techniques. These approaches have been effectively employed to estimate how speciation and extinction rates vary with key abiotic variables, such as temperature and sea level, and we can anticipate that they will be increasingly used in the future...
December 20, 2017: Systematic Biology
https://www.readbyqxmd.com/read/29272537/improved-maximum-parsimony-models-for-phylogenetic-networks
#17
Leo van Iersel, Mark Jones, Celine Scornavacca
Phylogenetic networks are well suited to represent evolutionary histories comprising reticulate evolution. Several methods aiming at reconstructing explicit phylogenetic networks have been developed in the last two decades. In this paper, we propose a new definition of maximum parsimony for phylogenetic networks that permits to model biological scenarios that cannot be modeled by the definitions currently present in the literature (namely, the\hardwired" and "softwired" parsimony). Building on this new definition, we provide several algorithmic results that lay the foundations for new parsimony-based methods for phylogenetic network reconstruction...
December 20, 2017: Systematic Biology
https://www.readbyqxmd.com/read/29244177/online-bayesian-phylogenetic-inference-theoretical-foundations-via-sequential-monte-carlo
#18
Vu Dinh, Aaron E Darling, Frederick A Matsen Iv
Phylogenetics, the inference of evolutionary trees from molecular sequence data such as DNA, is an enterprise that yields valuable evolutionary understanding of many biological systems. Bayesian phylogenetic algorithms, which approximate a posterior distribution on trees, have become a popular if computationally expensive means of doing phylogenetics. Modern data collection technologies are quickly adding new sequences to already substantial databases. With all current techniques for Bayesian phylogenetics, computation must start anew each time a sequence becomes available, making it costly to maintain an up-to-date estimate of a phylogenetic posterior...
December 13, 2017: Systematic Biology
https://www.readbyqxmd.com/read/29186593/complex-models-of-sequence-evolution-require-accurate-estimators-as-exemplified-with-the-invariable-site-plus-gamma-model
#19
Lam-Tung Nguyen, Arndt von Haeseler, Bui Quang Minh
The invariable site plus Γ model is widely used to model rate heterogeneity among alignment sites in maximum likelihood and Bayesian phylogenetic analyses. The proof that the invariable site plus continuous Γ model is identifiable (model parameters can be inferred correctly given enough data) has increased the creditability of its application to phylogeny reconstruction. However, most phylogenetic software implement the invariable site plus discrete Γ model, whose identifiability is likely but unproven. How well the parameters of the invariable site plus discrete Γ model are estimated is still disputed...
November 27, 2017: Systematic Biology
https://www.readbyqxmd.com/read/29186587/effective-online-bayesian-phylogenetics-via-sequential-monte-carlo-with-guided-proposals
#20
Mathieu Fourment, Brian C Claywell, Vu Dinh, Connor McCoy, Frederick A Matsen Iv, Aaron E Darling
Modern infectious disease outbreak surveillance produces continuous streams of sequence data which require phylogenetic analysis as data arrives. Current software packages for Bayesian phylogenetic inference are unable to quickly incorporate new sequences as they become available, making them less useful for dynamically unfolding evolutionary stories. This limitation can be addressed by applying a class of Bayesian statistical inference algorithms called sequential Monte Carlo (SMC) to conduct online inference, wherein new data can be continuously incorporated to update the estimate of the posterior probability distribution...
November 27, 2017: Systematic Biology
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