Your search keyword '"Espíndola, Anahí"' showing total 11 results

1. Combining allele frequency and tree-based approaches improves phylogeographic inference from natural history collections.

Author

Ruffley M, Smith ML, Espíndola A, Carstens BC, Sullivan J, and Tank DC

Subjects

Alnus, Models, Genetic, Population Dynamics, Selection, Genetic, Sequence Analysis, DNA, Species Specificity, Gene Frequency genetics, Phylogeny, Phylogeography

Abstract

Model selection approaches in phylogeography have allowed researchers to evaluate the support for competing demographic histories, which provides a mode of inference and a measure of uncertainty in understanding climatic and spatial influences on intraspecific diversity. Here, to rank all models in the comparison set and determine what proportion of the total support the top-ranked model garners, we conduct model selection using two analytical approaches-allele frequency-based, implemented in fastsimcoal2, and gene tree-based, implemented in phrapl. We then expand this model selection framework by including an assessment of absolute fit of the models to the data. For this, we utilize DNA isolated from existing natural history collections that span the distribution of red alder (Alnus rubra) in the Pacific Northwest of North America to generate genomic data for the evaluation of 13 demographic scenarios. The quality of DNA recovered from herbarium specimen leaf tissue was assessed for its utility and effectiveness in demographic model selection, specifically in the two approaches mentioned. We present strong support for the use of herbarium tissue in the generation of genomic DNA, albeit with the inclusion of additional quality control checks prior to library preparation and analyses with multiple approaches that incorporate various data. Analyses with allele frequency spectra and gene trees predominantly support A. rubra having experienced an ancient vicariance event with intermittent and frequent gene flow between the disjunct populations. Additionally, the data consistently fit the most frequently selected model, corroborating the model selection techniques. Finally, these results suggest that the A. rubra disjunct populations do not represent separate species., (© 2018 John Wiley & Sons Ltd.)

Published

2018

2. Ecological and historical drivers of diversification in the fly genus Chiastocheta Pokorny.

Author

Espíndola A, Buerki S, and Alvarez N

Subjects

Animals, Biodiversity, Climate, DNA, Mitochondrial genetics, Evolution, Molecular, Genetic Speciation, Genetic Variation, Geography, Mitochondria genetics, Plants, Sequence Analysis, DNA, Diptera classification, Diptera genetics, Phylogeny

Abstract

Coevolution is among the main forces shaping the biodiversity on Earth. In Eurasia, one of the best-known plant-insect interactions showing highly coevolved features involves the fly genus Chiastocheta and its host-plant Trollius. Although this system has been widely studied from an ecological point of view, the phylogenetic relationships and biogeographic history of the flies have remained little investigated. In this integrative study, we aim to test the monophyly of the five Chiastocheta eco-morphological groups, defined by Pellmyr in 1992, by inferring a mitochondrial phylogeny. We further apply a new approach to assess the effect of (i) different molecular substitution rates and (ii) phylogenetic uncertainty on the inference of the spatio-temporal evolution of the group. From a taxonomic point of view, we demonstrate that only two of Pellmyr's groups (rotundiventris and dentifera) are phylogenetically supported, the other species appearing para- or polyphyletic. We also identify the position of C. lophota, which was not included in previous surveys. From a spatio-temporal perspective, we show that the genus arose during the Pliocene in Europe. Our results also indicate that at least four large-scale dispersal events are required to explain the current distribution of Chiastocheta. Moreover, each dispersal to or from Asia is associated with a host-shift and seems to correspond to an increase in speciation rates. Finally, we highlight the correlation between diversification and climatic fluctuations, which indicate that the cycles of global cooling over the last million years had an influence on the radiation of the group., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2012

3. Comparative phylogeography in a specific and obligate pollination antagonism.

Author

Espíndola A and Alvarez N

Subjects

Animals, Insecta classification, Insecta genetics, Geography, Insecta physiology, Phylogeny, Pollen

Abstract

In specific and obligate interactions the nature and abundance of a given species can have important effects on the survival and population dynamics of associated organisms. In a phylogeographic framework, we therefore expect that the fates of organisms interacting specifically are also tightly interrelated. Here we investigate such a scenario by analyzing the genetic structures of species interacting in an obligate plant-insect pollination lure-and-trap antagonism, involving Arum maculatum (Araceae) and its specific psychodid (Diptera) visitors Psychoda phalaenoides and Psycha grisescens. Because the interaction is asymmetric (i.e., only the plant depends on the insect), we expect the genetic structure of the plant to be related with the historical pollinator availability, yielding incongruent phylogeographic patterns between the interacting organisms.Using insect mtDNA sequences and plant AFLP genome fingerprinting, we inferred the large-scale phylogeographies of each species and the distribution of genetic diversities throughout the sampled range, and evaluated the congruence in their respective genetic structures using hierarchical analyses of molecular variances (AMOVA). Because the composition of pollinator species varies in Europe, we also examined its association with the spatial genetic structure of the plant.Our findings indicate that while the plant presents a spatially well-defined genetic structure, this is not the case in the insects. Patterns of genetic diversities also show dissimilar distributions among the three interacting species. Phylogeographic histories of the plant and its pollinating insects are thus not congruent, a result that would indicate that plant and insect lineages do not share the same glacial and postglacial histories. However, the genetic structure of the plant can, at least partially, be explained by the type of pollinators available at a regional scale. Differences in life-history traits of available pollinators might therefore have influenced the genetic structure of the plant, the dependent organism, in this antagonistic interaction., (© 2011 Espíndola, Alvarez.)

Published

2011

4. Calceolariaceae809: A bait set for targeted sequencing of nuclear loci.

Author

Medina, Nicolas, Tank, David C., and Espíndola, Anahí

Subjects

LOCUS (Genetics), NUCLEOTIDE sequencing, POLLINATION, PHYLOGENY, GENOMES

Abstract

Premise: The genus Calceolaria (Calceolariaceae) is emblematic of the Andes, is hypothesized to have originated as a recent, rapid radiation, and has important taxonomic needs. Additionally, the genus is a model for the study of specialized pollination systems, as its flowers are nectarless and many offer floral oils as a pollination reward collected by specialist bees. Despite their evolutionary and ecological significance, obtaining a resolved phylogeny for the group has proved difficult. To address this challenge, we present a new bait set for targeted sequencing of nuclear loci in Calceolariaceae and close relatives. Methods: We developed a bioinformatic workflow to use incomplete, low‐coverage genomes of 10 Calceolaria species to identify single‐copy loci suitable for phylogenetic studies and design baits for targeted sequencing. Results: Our approach resulted in the identification of 809 single‐copy loci (733 noncoding and 76 coding regions) and the development of 39,937 baits, which we validated in silico (10 specimens) and in vitro (29 Calceolariaceae and six outgroups). In both cases, the data allowed us to recover robust phylogenetic estimates. Discussion: Our results demonstrate the appropriateness of the bait set for sequencing recent and historic specimens of Calceolariaceae and close relatives, and open new doors for further investigation of the evolutionary history of this hyperdiverse genus. [ABSTRACT FROM AUTHOR]

Published

2023

5. Combining conservative and variable markers to infer the evolutionary history of Prunus subgen. Amygdalus s.l. under domestication

Author

Delplancke, Malou, Yazbek, Mariana, Arrigo, Nils, Espíndola, Anahí, Joly, Helene, and Alvarez, Nadir

Published

2016

6. Comparative phylogeography of two Northern Rocky Mountain endemics: the widespread Anguispira kochi occidentalis and the narrow-range Anguispira nimapuna (Gastropoda: Discidae).

Author

Rankin, Andrew M, Anderson, Frank E, Clutts, Stephanie A, Espíndola, Anahí, Carstens, Bryan C, Lucid, Michael, and Sullivan, Jack

Subjects

PHYLOGEOGRAPHY, GENETIC variation, GASTROPODA, ENDANGERED species, MOUNTAIN ecology, CURRENT distribution

Abstract

The Northern Rocky Mountain ecosystem supports rich biological diversity with many endemic and rare species. Extant endemics display two biogeographic patterns: widespread species with fragmented populations, and narrow-range endemics. These distributions are shown by the congeneric snails Anguispira kochi occidentalis and Anguispira nimapuna. These two taxa are disjunct from the remaining species of the genus, which achieves its greatest diversity in eastern North America. Given the disjunct nature of A. k. occidentalis and A. nimapuna , we here present a mtDNA phylogeny of the genus that includes both eastern and western species to assess the phylogenetic position of A. k. occidentalis and A. nimapuna. We then reconstruct the demographic history of A. k. occidentalis and A. nimapuna by analysing current patterns of genetic variation and interpreting the results considering the historical biogeography of the region. Both A. k. occidentalis and A. nimapuna represent unique taxa that are genetically and geographically distinct from their congeners. The current distribution and genetic structure of A. k. occidentalis has been shaped by both historical isolation in refugia and more recent northward shifts, whereas A. nimapuna is represented by two populations with shallow divergence in an area of long-term habitat stability. [ABSTRACT FROM AUTHOR]

Published

2021

7. Complex interplay of ancient vicariance and recent patterns of geographical speciation in north-western North American temperate rainforests explains the phylogeny of jumping slugs (Hemphillia spp.).

Author

Rankin, Andrew M, Wilke, Thomas, Lucid, Michael, Leonard, William, Espíndola, Anahí, Smith, Megan L, Carstens, Bryan C, and Sullivan, Jack

Subjects

TEMPERATE rain forests, VICARIANCE, GENETIC speciation, PHYLOGENY, PLYOMETRICS

Abstract

The history of the currently disjunct temperate rainforests of the Pacific Northwest of North America has shaped the evolution and diversity of endemics. This study focuses on how geological and climatic perturbations have driven speciation in the area by isolating lineages. We investigated the phylogenetic relationships and historical biogeography of the endemic jumping slugs (genus Hemphillia) using a multi-locus phylogeny. We evaluated the spatial distribution and divergence times of major lineages, generated ancestral area probabilities and inferred the biogeographical history of the genus. Our study revealed eight genetic lineages that formed three clades: one clade consisting of two Coast/Cascade lineages, and two reciprocally monophyletic clades that each contain a Coast/Cascade and two Rocky Mountains taxa. The results of the biogeographical analysis suggest that the ancestral range of the genus occupied Coast/Cascade habitats and then spread across into Northern Rocky Mountain interior habitats with subsequent fragmentations isolating coastal and inland lineages. Finally, there have been more recent speciation events among three lineage pairs that have shaped shallow structures of all clades. We add to our knowledge of the biogeographical history of the region in that we discovered diversification and speciation events that have occurred in ways more complex than previously thought. [ABSTRACT FROM AUTHOR]

Published

2019

8. A probabilistic approach to niche-based community models for spatial forecasts of assemblage properties and their uncertainties.

Author

Pellissier, Loïc, Espíndola, Anahí, Pradervand, Jean‐Nicolas, Dubuis, Anne, Pottier, Julien, Ferrier, Simon, Guisan, Antoine, and Araújo, Miguel

Subjects

*ECOLOGICAL niche, *SPECIES distribution, *BUTTERFLIES, *SPECIES diversity, *PHYLOGENY

Abstract

Aim Conservation strategies need predictions that capture spatial community composition and structure. Currently, the methods used to generate these predictive maps generally focus on deterministic processes and omit stochasticity and other uncertainty in model outputs. Here we present a novel approach to model the means and variance of assemblage properties. Location The western Swiss Alps. Methods We propose a new approach to processing probabilistic predictions derived from stacked species distribution models (S- SDMs) in order to predict and assess the uncertainty in predictions of community properties. We compare the utility of our novel approach with that of a traditional threshold-based approach. We used data sampled in 2009 and 2010 from 192 sites in total for mountain butterfly communities spanning a large elevational gradient as a case study and evaluated the ability of our approach to model the species richness and phylogenetic diversity of communities within an ensemble forecasting framework. Results Our approach allowed mapping of the variability in species richness and phylogenetic diversity projections, in addition to the mean, for 78 butterfly species. S- SDMs reproduced the observed decrease in phylogenetic diversity and species richness with elevation, a consequence of environmental filtering. The prediction accuracy of community properties varied along environmental gradients: at low elevations, variability was higher for predictions of species richness while it was the opposite for phylogenetic diversity. Main conclusions The use of our probabilistic approach to process species distribution model outputs in order to reconstruct communities provides an improved picture of the range of possible assemblage realizations under similar environmental conditions given modelling uncertainty, and helps to inform managers of the usefulness of modelling results. [ABSTRACT FROM AUTHOR]

Published

2013

9. Phylogenetic alpha and beta diversities of butterfly communities correlate with climate in the western Swiss Alps.

Author

Pellissier, Loïc, Alvarez, Nadir, Espíndola, Anahí, Pottier, Julien, Dubuis, Anne, Pradervand, Jean‐Nicolas, and Guisan, Antoine

Subjects

PHYLOGENY, BIODIVERSITY, BUTTERFLIES, INSECT communities, ECOLOGICAL niche

Abstract

The observation of non-random phylogenetic distribution of traits in communities provides evidence for niche-based community assembly. Environment may influence the phylogenetic structure of communities because traits determining how species respond to prevailing conditions can be phylogenetically conserved. In this study, we investigate the variation of butterfly species richness and of phylogenetic α- and β-diversities along temperature and plant species richness gradients. Our study indicates that butterfly richness is independently positively correlated to temperature and plant species richness in the study area. However, the variation of phylogenetic α- and β-diversities is only correlated to temperature. The significant phylogenetic clustering at high elevation suggests that cold temperature filters butterfly lineages, leading to communities mostly composed of closely related species adapted to those climatic conditions. These results suggest that in colder and more severe conditions at high elevations deterministic processes and not purely stochastic events drive the assemblage of butterfly communities. [ABSTRACT FROM AUTHOR]

Published

2013

10. Phylogenetic relationships in the subfamily Psychodinae (Diptera, Psychodidae).

Author

Espíndola, Anahí, Buerki, Sven, Jacquier, Anouchka, Ježek, Jan, and Alvarez, Nadir

Subjects

*DIPTERA, *PHYLOGENY, *MORPHOLOGY, *MOLECULAR genetics, *MITOCHONDRIAL DNA, *MOTH flies

Abstract

Espíndola, A., Buerki, S., Jacquier, A., Ježek, J. & Alvarez, N. (2012). Phylogenetic relationships in the subfamily Psychodinae (Diptera, Psychodidae). - Zoologica Scripta, 41, 489-498. Thanks to recent advances in molecular systematics, our knowledge of phylogenetic relationships within the order Diptera has dramatically improved. However, relationships at lower taxonomic levels remain poorly investigated in several neglected groups, such as the highly diversified moth-fly subfamily Psychodinae (Lower Diptera), which occurs in numerous terrestrial ecosystems. In this study, we aimed to understand the phylogenetic relationships among 52 Palearctic taxa from all currently known Palearctic tribes and subtribes of this subfamily, based on mitochondrial DNA. Our results demonstrate that in light of the classical systematics of Psychodinae, none of the tribes sensu Ježek or sensu Vaillant is monophyletic, whereas at least five of the 12 sampled genera were not monophyletic. The results presented in this study provide a valuable backbone for future work aiming at identifying morphological synapomorphies to propose a new tribal classification. [ABSTRACT FROM AUTHOR]

Published

2012

11. New insights into the phylogenetics and biogeography of Arum (Araceae): unravelling its evolutionary history.

Author

ESPÍNDOLA, ANAHÍ, BUERKI, SVEN, BEDALOV, MARIJA, KÜPFER, PHILIPPE, and ALVAREZ, NADIR

Subjects

*PHYLOGENY, *ARACEAE, *SPATHIFLORAE, *PLANT fertilization, *PLANT self-incompatibility

Abstract

The heat- and odour-producing genus Arum (Araceae) has interested scientists for centuries. This long-term interest has allowed a deep knowledge of some complex processes, such as the physiology and dynamics of its characteristic lure-and-trap pollination system, to be built up. However, mainly because of its large distributional range and high degree of morphological variation, species' limits and relationships are still under discussion. Today, the genus comprises 28 species subdivided into two subgenera, two sections and six subsections. In this study, the phylogeny of the genus is inferred on the basis of four plastid regions, and the evolution of several morphological characters is investigated. Our phylogenetic hypothesis is not in agreement with the current infrageneric classification of the genus and challenges the monophyly of several species. This demonstrates the need for a new infrageneric classification based on characters reflecting the evolution of this enigmatic genus. To investigate the biogeography of Arum deeply, further spatiotemporal analyses were performed, addressing the importance of the Mediterranean basin in the diversification of Arum. Our results suggest that its centre of origin was the European–Aegean region, and that major diversification happened during the last 10 Myr. © 2010 The Linnean Society of London, Botanical Journal of the Linnean Society, 2010, 163, 14–32. [ABSTRACT FROM AUTHOR]

Published

2010