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2. The genomic basis of the plant island syndrome in Darwin’s giant daisies

Author

Cerca, José, Petersen, Bent, Lazaro-Guevara, José Miguel, Rivera-Colón, Angel, Birkeland, Siri, Vizueta, Joel, Li, Siyu, Li, Qionghou, Loureiro, João, Kosawang, Chatchai, Díaz, Patricia Jaramillo, Rivas-Torres, Gonzalo, Fernández-Mazuecos, Mario, Vargas, Pablo, McCauley, Ross A, Petersen, Gitte, Santos-Bay, Luisa, Wales, Nathan, Catchen, Julian M, Machado, Daniel, Nowak, Michael D, Suh, Alexander, Sinha, Neelima R, Nielsen, Lene R, Seberg, Ole, Gilbert, M Thomas P, Leebens-Mack, James H, Rieseberg, Loren H, and Martin, Michael D

Subjects
Biological Sciences, Ecology, Evolutionary Biology, Genetics, Human Genome, Biotechnology, Biological Evolution, DNA Transposable Elements, Genomics, Synteny
Abstract

The repeated, rapid and often pronounced patterns of evolutionary divergence observed in insular plants, or the 'plant island syndrome', include changes in leaf phenotypes, growth, as well as the acquisition of a perennial lifestyle. Here, we sequence and describe the genome of the critically endangered, Galápagos-endemic species Scalesia atractyloides Arnot., obtaining a chromosome-resolved, 3.2-Gbp assembly containing 43,093 candidate gene models. Using a combination of fossil transposable elements, k-mer spectra analyses and orthologue assignment, we identify the two ancestral genomes, and date their divergence and the polyploidization event, concluding that the ancestor of all extant Scalesia species was an allotetraploid. There are a comparable number of genes and transposable elements across the two subgenomes, and while their synteny has been mostly conserved, we find multiple inversions that may have facilitated adaptation. We identify clear signatures of selection across genes associated with vascular development, growth, adaptation to salinity and flowering time, thus finding compelling evidence for a genomic basis of the island syndrome in one of Darwin's giant daisies.

Published
2022

3. Evolutionary genomics of oceanic island radiations

Author

Cerca, José, Cotoras, Darko D., Bieker, Vanessa C., De-Kayne, Rishi, Vargas, Pablo, Fernández-Mazuecos, Mario, López-Delgado, Julia, White, Oliver, Stervander, Martin, Geneva, Anthony J., Guevara Andino, Juan Ernesto, Meier, Joana Isabel, Roeble, Lizzie, Brée, Baptiste, Patiño, Jairo, Guayasamin, Juan M., Torres, María de Lourdes, Valdebenito, Hugo, Castañeda, María del Rosario, Chaves, Jaime A., Díaz, Patricia Jaramillo, Valente, Luis, Knope, Matthew L., Price, Jonathan P., Rieseberg, Loren H., Baldwin, Bruce G., Emerson, Brent C., Rivas-Torres, Gonzalo, Gillespie, Rosemary, and Martin, Michael D.

Published
2023
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4. Unveiling the diversification and dispersal of the Lewinskya firma complex (Orthotrichaceae, Bryophyta) across Africa and India.

Author

Lara, Francisco, Díaz San Román, Raúl, Fernández-Mazuecos, Mario, Calleja, Juan Antonio, Flagmeier, Maren, Mazimpaka, Vicente, Garilleti, Ricardo, and Draper, Isabel

Subjects
POPULATION differentiation, GENETIC distance, BIOGEOGRAPHY, SPECIES distribution, AFRICANS
Abstract

Intercontinental disjunctions are one of the most attractive and interesting biogeographical patterns. Bryophytes often exhibit such distributions, which is partly explained by their great ability to disperse over long distances. However, such intercontinental ranges are sometimes a distorted reality caused by the existence of unnoticed species. This study investigates whether the disjunction between East Africa and southern India of the moss Lewinskya firma reflects the genuine distribution of a single species or implies pseudo-cryptic species (whose morphological differentiation is subtle and have therefore been masked). An integrative taxonomic approach combining morphological and molecular methods (genotyping by sequencing, GBS) was used, based on a representation of samples specifically collected from all the major mountainous regions where this moss occurs. Two species, L. firma s. str. and L. afroindica sp. nov. are involved, whose ranges completely overlap in East Africa, although genetic distance and morphological differences in leaf apex shape, vaginula hairs shape and papillosity, spore ornamentation and peristome constitution and ornamentation allow distinguishing both. In addition, the range of L. afroindica extends into both southern Africa and southern India. The phylogenetic reconstruction obtained shows a certain degree of differentiation of the Indian populations, although they are yet morphologically indistinguishable from African populations. The results thus highlight both the existence of overlooked species and the complexity of bryophyte biogeography. [ABSTRACT FROM AUTHOR]

Published
2024
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5. Maximize Resolution or Minimize Error? Using Genotyping-By-Sequencing to Investigate the Recent Diversification of Helianthemum (Cistaceae)

Author

Martín-Hernanz, Sara, Aparicio, Abelardo, Fernández-Mazuecos, Mario, Rubio, Encarnación, Reyes-Betancort, J. Alfredo, Santos-Guerra, Arnoldo, Olangua-Corral, María, Albaladejo, Rafael G., Martín-Hernanz, Sara, Aparicio, Abelardo, Fernández-Mazuecos, Mario, Rubio, Encarnación, Reyes-Betancort, J. Alfredo, Santos-Guerra, Arnoldo, Olangua-Corral, María, and Albaladejo, Rafael G.

Abstract

A robust phylogenetic framework, in terms of extensive geographical and taxonomic sampling, well-resolved species relationships and high certainty of tree topologies and branch length estimations, is critical in the study of macroevolutionary patterns. Whereas Sanger sequencingbased methods usually recover insufficient phylogenetic signal, especially in recently diversified lineages, reduced-representation sequencing methods tend to provide well-supported phylogenetic relationships, but usually entail remarkable bioinformatic challenges due to the inherent trade-off between the number of SNPs and the magnitude of associated error rates. The genus Helianthemum (Cistaceae) is a species-rich and taxonomically complex Palearctic group of plants that diversified mainly since the Upper Miocene. It is a challenging case study since previous attempts using Sanger sequencing were unable to resolve the intrageneric phylogenetic relationships. Aiming to obtain a robust phylogenetic reconstruction based on genotyping-by-sequencing (GBS), we established a rigorous methodological workflow in which we i) explored how variable settings during dataset assembly have an impact on error rates and on the degree of resolution under concatenation and coalescent approaches, ii) assessed the effect of two extreme parameter configurations (minimizing error rates vs. maximizing phylogenetic resolution) on tree topology and branch lengths, and iii) evaluated the effects of these two configurations on estimates of divergence times and diversification rates. Our analyses produced highly supported topologically congruent phylogenetic trees for both configurations. However, minimizing error rates did produce more reliable branch lengths, critically affecting the accuracy of downstream analyses (i.e. divergence times and diversification rates). In addition to recommending a revision of intrageneric systematics, our results enabled us to identify three highly diversified lineages in Helianthemum in, Depto. de Biodiversidad, Ecología y Evolución, Fac. de Ciencias Biológicas, TRUE, pub

Published
2024

6. Phylogenetic and phylogeographic evidence for the colonization success of the diplochorous Astydamia latifolia across the Canary Islands.

Author

Coello, Alberto J., Vargas, Pablo, Alameda‐Martín, Aitor, Cano, Emilio, Arjona, Yurena, and Fernández‐Mazuecos, Mario

Subjects
COLONIZATION (Ecology), HAPLOTYPES, ARCHIPELAGOES, AFRICANS, UMBELLIFERAE
Abstract

Astydamia latifolia is the only species of the genus Astydamia, which forms an early‐diverging lineage of Apiaceae, subfamily Apioideae. This species is subendemic to the Canary Islands and one of the most representative species of the coastal environments of this archipelago. Astydamia displays diplochory, that is, diaspores with two long‐distance dispersal (LDD) syndromes. In particular, A. latifolia has both anemochorous and thalassochorous fruit traits (corky and winged mericarps). Although we expect this species to have a high dispersal capacity, there is no genetic study addressing it. The divergence time of this species from its sister taxon is also unknown. In this study, we aimed (i) to unveil the phylogenetic relationships and divergence times of A. latifolia; (ii) to reconstruct its phylogeographic structure across the Canary Islands; and (iii) to estimate the number of inter‐island colonization events. To these ends, we first sequenced the internal transcribed spacer (ITS) region for A. latifolia, reconstructed the phylogenetic relationships of Astydamia and Apiaceae relatives and estimated divergence times. Then, two plastid DNA regions (psaI‐aacD and psbK‐trnS) were sequenced for 158 individuals (from 36 Canarian population and one NW African population) to reconstruct a haplotype network. The recently developed method Phylogeographic Analysis of Island Colonization Events (PAICE) was used to estimate the number of inter‐island colonization events. Results show that A. latifolia is a phylogenetically isolated lineage that diverged from the most closely related genus (Molopospermum) in the Eocene–Miocene. It displays a low plastid DNA diversity (only four haplotypes detected), which is accompanied by a high degree of haplotype sharing between islands and highly linear rarefaction curves of colonization obtained in PAICE. These findings suggest a high colonization ability for this species, most likely related to the availability of two LDD syndromes. [ABSTRACT FROM AUTHOR]

Published
2024
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12. El Biomaratón de Flora Española: un evento de participación ciudadana para reconectar a la ciudadanía con la diversidad vegetal

Author

Mairal, Mario, Márquez-Corro, José Ignacio, Santos, Guillermo, Fernández-Mazuecos, Mario, Martín-Bravo, Santiago, Garnatje, Teresa, DeSoto, Lucía, Nualart, Neus, Aguado, Ángela, Martín-Hernanz, Sara, Alfaro-Saíz, Estrella, Capó, Miquel, Cursach, Joana, Borràs, Joshua, Medina, Rafael, Molino, Sonia, Ramos-Gutiérrez, Ignacio, Jiménez-Mejías, Pedro, Mairal, Mario, Márquez-Corro, José Ignacio, Santos, Guillermo, Fernández-Mazuecos, Mario, Martín-Bravo, Santiago, Garnatje, Teresa, DeSoto, Lucía, Nualart, Neus, Aguado, Ángela, Martín-Hernanz, Sara, Alfaro-Saíz, Estrella, Capó, Miquel, Cursach, Joana, Borràs, Joshua, Medina, Rafael, Molino, Sonia, Ramos-Gutiérrez, Ignacio, and Jiménez-Mejías, Pedro

Published
2023

13. Time-calibrated phylogenies reveal mediterranean and pre-mediterranean origin of the thermophilous vegetation of the Canary Islands

Author

Ministerio de Economía y Competitividad (España), Martín-Hernanz, Sara, Nogales, Manuel, Valente, Luis, Fernández-Mazuecos, Mario, Pomeda-Gutiérrez, Fernando, Cano Díaz, Emilio, Marrero, Patricia, Olesen, Jens M., Heleno, Ruben, Vargas, Pablo, Ministerio de Economía y Competitividad (España), Martín-Hernanz, Sara, Nogales, Manuel, Valente, Luis, Fernández-Mazuecos, Mario, Pomeda-Gutiérrez, Fernando, Cano Díaz, Emilio, Marrero, Patricia, Olesen, Jens M., Heleno, Ruben, and Vargas, Pablo

Abstract

Background and Aims The Canary Islands have strong floristic affinities with the Mediterranean Basin. One of the most characteristic and diverse vegetation belts of the archipelago is the thermophilous woodland (between 200 and 900 m.a.s.l.). This thermophilous plant community consists of many non-endemic species shared with the Mediterranean Floristic Region together with Canarian endemic species. Consequently, phytogeographic studies have historically proposed the hypothesis of an origin of the Canarian thermophilous species following the establishment of the summer-dry mediterranean climate in the Mediterranean Basin around 2.8 million years ago. Methods Time-calibrated phylogenies for 39 plant groups including Canarian thermophilous species were primarily analysed to infer colonization times. In particular, we used 26 previously published phylogenies together with 13 new time-calibrated phylogenies (including newly generated plastid and nuclear DNA sequence data) to assess whether the time interval between stem and crown ages of Canarian thermophilous lineages postdates 2.8 Ma. For lineages postdating this time threshold, we additionally conducted ancestral area reconstructions to infer the potential source area for colonization. Key Results A total of 43 Canarian thermophilous lineages were identified from 39 plant groups. Both mediterranean (16) and pre-mediterranean (9) plant lineages were found. However, we failed to determine the temporal origin for 18 lineages because a stem–crown time interval overlaps with the 2.8-Ma threshold. The spatial origin of thermophilous lineages was also heterogeneous, including ancestral areas from the Mediterranean Basin (nine) and other regions (six). Conclusions Our findings reveal an unexpectedly heterogeneous origin of the Canarian thermophilous species in terms of colonization times and mainland source areas. A substantial proportion of the lineages arrived in the Canaries before the summer-dry climate was established in

Published
2023

14. Evolutionary genomics of oceanic island radiations

Author

Alexander von Humboldt Foundation, Research Council of Norway, Cerca, José, Cotoras, Darko D., Bieker, Vanessa C., De-Kayne, Rishi, Vargas, Pablo, Fernández-Mazuecos, Mario, López-Delgado, Julia, White, Oliver, Stervander, Martin, Geneva, Anthony J., Guevara Andino, Juan Ernesto, Meier, Joana Isabel, Roeble, Lizzie, Brée, Baptiste, Patiño, Jairo, Guayasamin, Juan M., Torres, María de Lourdes, Valdebenito, Hugo, Castañeda María del Rosario, Chaves, Jaime A., Jaramillo Díaz, Patricia, Valente, Luis, Knope, Matthew L., Price, Jonathan P., Rieseberg, Loren H., Baldwin, Bruce G., Emerson, Brent C., Rivas-Torres, Gonzalo, Gillespie, Rosemary, Martin, Michael D., Alexander von Humboldt Foundation, Research Council of Norway, Cerca, José, Cotoras, Darko D., Bieker, Vanessa C., De-Kayne, Rishi, Vargas, Pablo, Fernández-Mazuecos, Mario, López-Delgado, Julia, White, Oliver, Stervander, Martin, Geneva, Anthony J., Guevara Andino, Juan Ernesto, Meier, Joana Isabel, Roeble, Lizzie, Brée, Baptiste, Patiño, Jairo, Guayasamin, Juan M., Torres, María de Lourdes, Valdebenito, Hugo, Castañeda María del Rosario, Chaves, Jaime A., Jaramillo Díaz, Patricia, Valente, Luis, Knope, Matthew L., Price, Jonathan P., Rieseberg, Loren H., Baldwin, Bruce G., Emerson, Brent C., Rivas-Torres, Gonzalo, Gillespie, Rosemary, and Martin, Michael D.

Abstract

A recurring feature of oceanic archipelagos is the presence of adaptive radiations that generate endemic, species-rich clades that can offer outstanding insight into the links between ecology and evolution. Recent developments in evolutionary genomics have contributed towards solving long-standing questions at this interface. Using a comprehensive literature search, we identify studies spanning 19 oceanic archipelagos and 110 putative adaptive radiations, but find that most of these radiations have not yet been investigated from an evolutionary genomics perspective. Our review reveals different gaps in knowledge related to the lack of implementation of genomic approaches, as well as undersampled taxonomic and geographic areas. Filling those gaps with the required data will help to deepen our understanding of adaptation, speciation, and other evolutionary processes.

Published
2023

15. The Pyrenees as a cradle of plant diversity: phylogeny, phylogeography and niche modeling of Saxifraga longifolia

Author

Universidad de Sevilla. Departamento de Biología Vegetal y Ecología, Ministerio de Economia, Industria y Competitividad (MINECO). España, Comunidad Autónoma de Madrid, Pomeda Gutiérrez, Fernando, García, María Begoña, Leo, María, Fernández Mazuecos, Mario, Alaoui, Mostafa Lamrani, Terrab Benjelloun, Anass, Vargas, Pablo, Universidad de Sevilla. Departamento de Biología Vegetal y Ecología, Ministerio de Economia, Industria y Competitividad (MINECO). España, Comunidad Autónoma de Madrid, Pomeda Gutiérrez, Fernando, García, María Begoña, Leo, María, Fernández Mazuecos, Mario, Alaoui, Mostafa Lamrani, Terrab Benjelloun, Anass, and Vargas, Pablo

Abstract

The current distribution of most species results from ecological niche, past distribution, and migrations during glacial–interglacial periods and in situ evolution. Here, we disentangle the colonization history of Saxifraga longifolia Lapeyr., a limestone plant abundant in the Pyrenees and rare in other Iberian mountains and the African Atlas. Our working hypothesis is that the current distribution results from the shrinkage of a more extensive distribution in previous cold periods. We sampled 160 individuals of 32 populations across the whole distribution range and sequenced four DNA regions (rpl32-trnL, rps16-trnQ, trnS-trnG, and ITS). Ecological conditions were modeled to identify factors promoting high genetic diversity and long-term persistence areas for S. longifolia. In addition, we inferred phylogenetic relationships, phylogeographic divergence, genetic diversity, and migration routes. Seven plastid haplotypes were found, of which six occur in the Pyrenees and one in the High Atlas (Morocco). Discrete phylogeographic analysis (DPA) estimated migration routes predominantly from the Pyrenees to the other areas. Colonization events to those areas appear to have taken place recently given that the rest of the Iberian mountains do not harbor exclusive haplotypes. Iberian–Northern African distribution was inferred to be the result of long-distance dispersal because the split between Iberian and High Atlas haplotypes is estimated to have taken place in the last 4 million years ago when the Strait of Gibraltar was already open. Migrations from the Pyrenees to the south may have been favored by a corridor of predominant limestone rocks along Eastern Iberia, followed by successful overcoming the Strait of Gibraltar to reach northern Africa.

Published
2023

29. The genomic basis of the plant island syndrome in Darwin’s giant daisies

Author

Cerca, J., Petersen, B., Lazaro-Guevara, J.M., Rivera-Colón, A., Birkeland, S., Vizueta, J., Li, S., Li, Q., Loureiro, J., Kosawang, C., Díaz, P.J., Rivas-Torres, G., Fernández-Mazuecos, Mario, Vargas, Pablo, McCauley, R.A., Petersen, G., Santos-Bay, L., Wales, N., Catchen, J.M., Machado, D., Nowak, M.D., Suh, A., Sinha, N.R., Nielsen, L.R., Seberg, O., Gilbert, M.T.P., Leebens-Mack, J.H., Rieseberg, L.H., Martin, M, Cerca, J., Petersen, B., Lazaro-Guevara, J.M., Rivera-Colón, A., Birkeland, S., Vizueta, J., Li, S., Li, Q., Loureiro, J., Kosawang, C., Díaz, P.J., Rivas-Torres, G., Fernández-Mazuecos, Mario, Vargas, Pablo, McCauley, R.A., Petersen, G., Santos-Bay, L., Wales, N., Catchen, J.M., Machado, D., Nowak, M.D., Suh, A., Sinha, N.R., Nielsen, L.R., Seberg, O., Gilbert, M.T.P., Leebens-Mack, J.H., Rieseberg, L.H., and Martin, M

Abstract

The repeated, rapid and often pronounced patterns of evolutionary divergence observed in insular plants, or the ‘plant island syndrome’, include changes in leaf phenotypes, growth, as well as the acquisition of a perennial lifestyle. Here, we sequence and describe the genome of the critically endangered, Galápagos-endemic species Scalesia atractyloides Arnot., obtaining a chromosome-resolved, 3.2-Gbp assembly containing 43,093 candidate gene models. Using a combination of fossil transposable elements, k-mer spectra analyses and orthologue assignment, we identify the two ancestral genomes, and date their divergence and the polyploidization event, concluding that the ancestor of all extant Scalesia species was an allotetraploid. There are a comparable number of genes and transposable elements across the two subgenomes, and while their synteny has been mostly conserved, we find multiple inversions that may have facilitated adaptation. We identify clear signatures of selection across genes associated with vascular development, growth, adaptation to salinity and flowering time, thus finding compelling evidence for a genomic basis of the island syndrome in one of Darwin’s giant daisies.

Published
2022

30. A snapshot of progenitor–derivative speciation in Iberodes (Boraginaceae)

Author

Otero, Ana, Vargas, Pablo, Fernández-Mazuecos, Mario, Jiménez-Mejías, Pedro, Valcárcel, V., Villa-Machío, Irene, Hipp, A.L., Otero, Ana, Vargas, Pablo, Fernández-Mazuecos, Mario, Jiménez-Mejías, Pedro, Valcárcel, V., Villa-Machío, Irene, and Hipp, A.L.

Abstract

Traditional classification of speciation modes has focused on physical barriers to gene flow. Allopatric speciation with complete reproductive isolation is viewed as the most common mechanism of speciation. Parapatry and sympatry, by contrast, entail speciation in the face of ongoing gene flow, making them more difficult to detect. The genus Iberodes (Boraginaceae, NW Europe) comprises five species with contrasting morphological traits, habitats and species distributions. Based on the predominance of narrow and geographically distant endemic species, we hypothesized that geographical barriers were responsible for most speciation events in Iberodes. We undertook an integrative study including: (i) phylogenomics through restriction-site-associated DNA sequencing (RAD-seq), (ii) genetic structure analyses, (iii) demographic modelling, (iv) morphometrics, and (v) climatic niche modelling and niche overlap analysis. The results revealed a history of recurrent progenitor–derivative speciation manifested by a paraphyletic pattern of nested species differentiation. Budding speciation mediated by ecological differentiation is suggested for the coastal lineage, deriving from the inland widespread Iberodes linifolia during the Late Pliocene. Meanwhile, geographical isolation followed by niche shifts are suggested for the more recent differentiation of the coastland taxa. Our work provides a model for distinguishing speciation via ecological differentiation of peripheral, narrowly endemic I. kuzinskyanae and I. littoralis from a widespread extant ancestor, I. linifolia. Ultimately, our results illustrate a case of Pliocene speciation in the probable absence of geographical barriers and get away from the traditional cladistic perspective of speciation as producing two species from an extinct ancestor, thus reminding us that phylogenetic trees tell only part of the story.

Published
2022

31. A western representative of an eastern clade: Phylogeographic history of the gypsum-associated plant Nepeta hispanica

Author

Ramos-Gutiérrez, I., Moreno-Saiz, J.C, Fernández-Mazuecos, Mario, Ramos-Gutiérrez, I., Moreno-Saiz, J.C, and Fernández-Mazuecos, Mario

Abstract

The preference of certain plant species for gypsum soils with a patchy distribution leads to disjunct population structures that are thought to generate island-like dynamics potentially influencing biogeographic patterns at multiple evolutionary scales. Here, we study the evolutionary and biogeographic history of Nepeta hispanica, a western Mediterranean plant associated with gypsum soils and displaying a patchy distribution with populations very distant from each other. Three approaches were used: (a) interspecific phylogenetic analyses based on nuclear DNA sequences of the ITS region to unveil the relationships and times of divergence between N. hispanica and its closest relatives; (b) phylogeographic analyses using plastid DNA regions trnS-trnG and psbJ-petA to evaluate the degree of genetic isolation between populations of N. hispanica, their relationships and their genetic diversity; and (c) ecological niche modelling to evaluate historical distributional changes. Results reveal that N. hispanica belongs to an eastern Mediterranean and Asian (Irano-Turanian) clade diversified in arid environments since the Miocene-Pliocene. This species represents the only lineage of this clade that colonised the western Mediterranean, probably through the northern Mediterranean coast (southern Europe). Present Iberian populations display a high plastid genetic diversity and, even if geographically distant from each other, they are highly connected according to the distribution of plastid haplotypes and lineages. This can be explained by a scenario involving a complex history of back-and-forth colonisation events, facilitated by a relative stability of suitable conditions for the species across the western Mediterranean throughout the Quaternary.

Published
2022

32. Climatic niche pre-adaptation facilitated island colonization followed by budding speciation in the Madeiran ivy (Hedera maderensis, Araliaceae)

Author

Ministerio de Economía, Industria y Competitividad (España), Ministerio de Ciencia e Innovación (España), Alonso, Alonso, Gallego-Narbón, Angélica, Coca-de-la-Iglesia, Marina, Monjas, David, Medina, Nagore G., Fernández Mazuecos, Mario, Valcárcel, Virginia, Ministerio de Economía, Industria y Competitividad (España), Ministerio de Ciencia e Innovación (España), Alonso, Alonso, Gallego-Narbón, Angélica, Coca-de-la-Iglesia, Marina, Monjas, David, Medina, Nagore G., Fernández Mazuecos, Mario, and Valcárcel, Virginia

Abstract

The path followed by species in the colonization of remote oceanic islands ultimately depends on their phylogenetic constraints and ecological responses. In this study, we aim to evaluate the relative role of geographical and ecological forces in the origin and evolution of the Madeiran ivy (Hedera maderensis), a single-species endemic belonging to the western polyploid clade of Hedera. To determine the phylogenetic placement of H. maderensis within the western polyploid clade, we analyzed 40 populations (92 individuals) using genotyping-by-sequencing and including Hedera helix as outgroup. Climatic niche differences among the study species were evaluated using a database with 867 records representing the entire species ranges. To test species responses to climate, 13 vegetative and reproductive functional traits were examined for 70 populations (335 individuals). Phylogenomic results revealed a nested pattern with H. maderensis embedded within the south-western Iberian H. iberica. Gradual niche differentiation from the coldest and most continental populations of H. iberica to the warm and stable coastal population sister to H. maderensis parallels the geographical pattern observed in the phylogeny. Similarity in functional traits is observed for H. maderensis and H. iberica. The two species show leaves with higher specific leaf area (SLA), lower leaf dry matter content (LDMC) and thickness and fruits with lower pulp fraction than the other western polyploid species H. hibernica. Acquisition of a Macaronesian climatic niche and the associated functional syndrome in mainland European ivies (leaves with high SLA, and low LDMC and thickness, and fruits with less pulp content) was a key step in the colonization of Madeira by the H. iberica/H. maderensis lineage, which points to climatic pre-adaptation as key in the success of island colonization (dispersal and establishment). Once in Madeira, budding speciation was driven by geographical isolation, while ecological proc

Published
2022

33. PAICE: A new R package to estimate the number of inter-island colonizations considering haplotype data and sample size

Author

Consejo Superior de Investigaciones Científicas (España), Ministerio de Economía, Industria y Competitividad (España), Ministerio de Educación, Cultura y Deporte (España), Fundação para a Ciência e a Tecnologia (Portugal), Coello, Alberto J., Fernández-Mazuecos, Mario, Heleno, R.H., Vargas, Pablo, Consejo Superior de Investigaciones Científicas (España), Ministerio de Economía, Industria y Competitividad (España), Ministerio de Educación, Cultura y Deporte (España), Fundação para a Ciência e a Tecnologia (Portugal), Coello, Alberto J., Fernández-Mazuecos, Mario, Heleno, R.H., and Vargas, Pablo

Abstract

Aim: Colonization is a central topic in ecology and one of the cornerstones of island biogeography. Although the evolutionary history of island species is widely studied, the quantification of colonization is particularly challenging because the same area may be colonized multiple times by the same species, whereas initially successful colonization events may eventually be followed by extinction. Nevertheless, an estimation of the actual number of within-archipelago colonization events can be achieved when using adequate sample size and genetic data, which are essential parameters in the inference of colonization success of any species. Location: Canary Islands, Azores and Galápagos Islands. Taxon: Buteo galapagoensis, Croton scouleri, Setophaga petechia aureola and Xylocopa darwini (Galápagos); Canarina canariensis, Cistus monspeliensis, Juniperus cedrus and Olea europaea subsp. guanchica (Canary Islands); and Juniperus brevifolia and Picconia azorica (Azores). Methods: The new R package PAICE uses haplotype (from organelle DNA) sharing and haplotype relationships, and controls for sampling effort to estimate the number of within-archipelago colonization events in island-like systems. PAICE applies a sampling-effort correction based on rarefaction curves of field sampling (number of individuals or populations) and genetic sampling (number of DNA variable positions). The number of colonization events for the 10 insular species were estimated with PAICE and results compared with previous methods. Results: PAICE estimates a number of inter-island colonization events up to an order of magnitude greater than previous methods. Furthermore, PAICE can quantify the colonization events of any study species, in multiple biogeographic contexts and considering sampling size, thus providing a standardized estimate of colonization success. Main conclusions: The new package PAICE provides an estimation of the number of inter-island colonization events (regardless of dispersal rout

Published
2022

34. Insect pollination in temperate sedges? A case study in Rhynchospora alba (Cyperaceae)

Author

Villa-Machío, Irene, Zamora, J.C., Sandoval-Sierra, J.V., Blanco-Pastor, José Luis, Fernández-Mazuecos, Mario, Jiménez-Mejías, Pedro, Villa-Machío, Irene, Zamora, J.C., Sandoval-Sierra, J.V., Blanco-Pastor, José Luis, Fernández-Mazuecos, Mario, and Jiménez-Mejías, Pedro

Abstract

Sedges (Cyperaceae) are commonly pollinated by wind, but some transitions from wind to insect pollination have been reported in tropical sedges. Despite being a temperate sedge, the pollination strategy of Rhynchospora alba may partly depend on insects, as suggested by its white-colored inflorescences. Here we quantify the contribution of insects to the reproductive fitness of R. alba as an exploration of the success of entomophily in temperate sedges. Honeybees and hoverflies seem to be the primary visitors of R. alba in the study site, and pollen of R. alba was recovered from the mouthparts and legs of the insects. Treatments excluding insects led to a lower reproductive fitness (regarding fruit weight and fruit viability) than those not excluding them. Therefore, insects seem to contribute significantly to the pollination of R. alba despite moderate morphological adaptation. We highlight the role of entomophily as an overlooked reproductive mechanism in cold-temperate sedges.

Published
2022

35. The Pyrenees as a cradle of plant diversity: phylogeny, phylogeography and niche modeling of Saxifraga longifolia

Author

Pomeda.Gutiérrez, Fernando, García González, María Begoña, Leo, María, Fernández-Mazuecos, Mario, Lamrani Alaoui, Mostafa, Terrab, Anass, Vargas, Pablo, Pomeda.Gutiérrez, Fernando, García González, María Begoña, Leo, María, Fernández-Mazuecos, Mario, Lamrani Alaoui, Mostafa, Terrab, Anass, and Vargas, Pablo

Abstract

The current distribution of most species results from ecological niche, past distribution, and migrations during glacial–interglacial periods and in situ evolution. Here, we disentangle the colonization history of Saxifraga longifolia Lapeyr., a limestone plant abundant in the Pyrenees and rare in other Iberian mountains and the African Atlas. Our working hypothesis is that the current distribution results from the shrinkage of a more extensive distribution in previous cold periods. We sampled 160 individuals of 32 populations across the whole distribution range and sequenced four DNA regions (rpl32‐trnL, rps16‐trnQ, trnS‐trnG, and ITS). Ecological conditions were modeled to identify factors promoting high genetic diversity and long‐term persistence areas for S. longifolia. In addition, we inferred phylogenetic relationships, phylogeographic divergence, genetic diversity, and migration routes. Seven plastid haplotypes were found, of which six occur in the Pyrenees and one in the High Atlas (Morocco). Discrete phylogeographic analysis (DPA) estimated migration routes predominantly from the Pyrenees to the other areas. Colonization events to those areas appear to have taken place recently given that the rest of the Iberian mountains do not harbor exclusive haplotypes. Iberian–Northern African distribution was inferred to be the result of long‐distance dispersal because the split between Iberian and High Atlas haplotypes is estimated to have taken place in the last 4 million years ago when the Strait of Gibraltar was already open. Migrations from the Pyrenees to the south may have been favored by a corridor of predominant limestone rocks along Eastern Iberia, followed by successful overcoming the Strait of Gibraltar to reach northern Africa.

Published
2022

36. The Pyrenees as a cradle of plant diversity: phylogeny, phylogeography and niche modeling of Saxifraga longifolia.

Author

Pomeda‐Gutiérrez, Fernando, García, María Begoña, Leo, María, Fernández‐Mazuecos, Mario, Alaoui, Mostafa Lamrani, Terrab, Anass, and Vargas, Pablo

Subjects
PLANT diversity, PHYLOGENY, PHYLOGEOGRAPHY, GENETIC variation, COLONIZATION (Ecology), CURRENT distribution
Abstract

The current distribution of most species results from ecological niche, past distribution, and migrations during glacial–interglacial periods and in situ evolution. Here, we disentangle the colonization history of Saxifraga longifolia Lapeyr., a limestone plant abundant in the Pyrenees and rare in other Iberian mountains and the African Atlas. Our working hypothesis is that the current distribution results from the shrinkage of a more extensive distribution in previous cold periods. We sampled 160 individuals of 32 populations across the whole distribution range and sequenced four DNA regions (rpl32‐trnL, rps16‐trnQ, trnS‐trnG, and ITS). Ecological conditions were modeled to identify factors promoting high genetic diversity and long‐term persistence areas for S. longifolia. In addition, we inferred phylogenetic relationships, phylogeographic divergence, genetic diversity, and migration routes. Seven plastid haplotypes were found, of which six occur in the Pyrenees and one in the High Atlas (Morocco). Discrete phylogeographic analysis (DPA) estimated migration routes predominantly from the Pyrenees to the other areas. Colonization events to those areas appear to have taken place recently given that the rest of the Iberian mountains do not harbor exclusive haplotypes. Iberian–Northern African distribution was inferred to be the result of long‐distance dispersal because the split between Iberian and High Atlas haplotypes is estimated to have taken place in the last 4 million years ago when the Strait of Gibraltar was already open. Migrations from the Pyrenees to the south may have been favored by a corridor of predominant limestone rocks along Eastern Iberia, followed by successful overcoming the Strait of Gibraltar to reach northern Africa. [ABSTRACT FROM AUTHOR]

Published
2023
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39. The genomic basis of the plant island syndrome in Darwin’s giant daisies

Author

Cerca, José, primary, Petersen, Bent, additional, Lazaro Guevara, José Miguel, additional, Rivera-Colón, Angel, additional, Birkeland, Siri, additional, Vizueta, Joel, additional, Li, Siyu, additional, Loureiro, João, additional, Kosawang, Chatchai, additional, Díaz, Patricia Jaramillo, additional, Rivas-Torres, Gonzalo, additional, Fernández-Mazuecos, Mario, additional, Vargas, Pablo, additional, McCauley, Ross, additional, Petersen, Gitte, additional, Santos-Bay, Luisa, additional, Wales, Nathan, additional, Catchen, Julian, additional, Machado, Daniel, additional, Nowak, Michael D., additional, Suh, Alexander, additional, Sinha, Neelima, additional, Nielsen, Lene R., additional, Seberg, Ole, additional, Gilbert, M. Thomas P., additional, Leebens-Mack, James H., additional, Rieseberg, Loren, additional, and Martin, Michael D., additional

Published
2022
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41. I Biomaratón de Flora Española: ciencia ciudadana para visibilizar la biodiversidad vegetal

Author

Márquez-Corro, José Ignacio, Jiménez-Mejías, Pedro, Fernández-Mazuecos, Mario, Ramos-Gutiérrez, Ignacio, Martín-Hernanz, Sara, Martín-Bravo, Santiago, Alfaro-Saíz, Estrella, Blanco-Salas, José, Borras, Joshua, Capó, Miquel, Carrera-Bonet, David, de la Fuente Brun, Pablo, Fernández, Ana, Garnatje, Teresa, Gorriz-Huarte, Luis, Molino, Sonia, Nualart, Neus, and Mairal, Mario

Subjects
Ceguera vegetal, Flora, iNaturalist, Ciencia ciudadana, Biomaratón
Abstract

[ES] Con objeto de fomentar el interés por la botánica, surgió la idea de organizar el I Biomaratón de Flora Española: un evento de ciencia ciudadana en el que personas de todo el país salieron a fotografiar el mayor número posible de plantas. Se realizó utilizando la plataforma de ciencia ciudadana iNaturalist, y se vertebró por medio de coordinadores en todas las comunidades autónomas y de alrededor de 100 instituciones, que dieron apoyo y divulgación al evento. Del 21 al 23 de mayo de 2021, más de 1.000 participantes registraron unas 25.000 observaciones de más de 2.500 especies, aproximadamente el 25% de las especies documentadas en España. Además, se organizaron actividades asociadas, como charlas, paseos botánicos, talleres de manejo de la plataforma, etc. Posteriormente se realizó un datablitz, centrado en la identificación de grupos de plantas poco conocidos, complicados y/o atractivos, y en compartir las experiencias de las actividades realizadas, fomentando así la interacción entre botánicos y ciudadanos. Este ha sido el mayor evento de ciencia ciudadana centrado en la botánica organizado en España. Queda demostrado que la acción conjunta de aficionados y profesionales puede ayudar a fomentar la pasión por la biodiversidad., [EN] With the intention of fostering the interest in botany in the society, the idea of organizing the 1st Bioblitz of Spanish Flora arose: a citizen science event in which people from all over the country went out to register as many species of plants as possible through photographs. The event was organized throughout the iNaturalist citizen science platform, and later supported by coordinators in all the Spanish Autonomous Communities and around 100 institutions that gave support and dissemination of the event. From May 21st to 23rd of 2021, more than 1,000 participants recorded about 25,000 observations of more than 2,500 species, approximately 25% of the species documented in Spain. In addition, numerous associated activities were organized, such as talks, botanical walks, workshops, etc. Subsequently, a datablitz was held, focused on the identification of little-known, complicated and/or attractive plant groups, and to share the experiences of the activities carried out, thus promoting interaction between botanists and citizens. To conclude, some of the experiences of the Bioblitz were presented. This is the largest botanical-focused citizen science event ever organized in Spain. It has been proven that the cooperative action of amateurs and professionals might help foster the passion for biodiversity., Motivación y objetivos Resultados del I Biomaratón Evento datablitz para comunicar a científicos y ciudadanos Ciencia ciudadana como motor de interés botánico II Biomaratón de Flora Española Agradecimientos

Published
2021

42. Evolution in the Model Genus Antirrhinum Based on Phylogenomics of Topotypic Material

Author

Otero, Ana, Fernández-Mazuecos, Mario, Vargas, Pablo, Otero, Ana, Fernández-Mazuecos, Mario, and Vargas, Pablo

Abstract

Researchers in phylogenetic systematics typically choose a few individual representatives of every species for sequencing based on convenience (neighboring populations, herbarium specimens, samples provided by experts, garden plants). However, few studies are based on original material, type material or topotypic material (living specimens from the locality where the type material was collected). The use of type or topotypic material in phylogenetic studies is paramount particularly when taxonomy is complex, such as that of Antirrhinum (Plantaginaceae). In this paper, we used topotypic materials of Antirrhinum at the species level (34 species proposed by previous authors), 87 specimens representing the species distributions and >50,000 informative nucleotide characters (from ∼4,000 loci) generated by the genotyping-by-sequencing (GBS) technique: (i) to test two explicit taxonomic hypotheses widely followed by local taxonomic treatments; (ii) to robustly estimate phylogenetic relationships; (iii) to investigate the evolution of key morphological characters and biogeographic centers of differentiation. Two GBS phylogenies based on two datasets (87 localities and 34 topotypic specimens) revealed that: (1) Sutton’s (1988) taxonomic account is the most congruent with phylogenetic results, whereas division of Antirrhinum into three major clades disagrees with Rothmaler’s (1956) infrageneric classification; (2) monophyly of populations currently included in the same species is primarily supported; (3) the historically recognized Antirrhinum majus group is not monophyletic; (4) sister-group relationships are robust for eight species pairs; (5) the evolutionary radiation of 26 species since the Pliocene is underpinned given a high rate of diversification (0.54 spp. Myr); (6) a geographic pattern of speciation is reconstructed, with northern Iberia as the center of early diversification followed by more recent speciation in southeastern Iberia; and (7) multiple acquisitions o

Published
2021

43. The contribution of the edaphic factor as a driver of recent plant diversification in a Mediterranean biodiversity hotspot

Author

Buira, Antoni, Fernández-Mazuecos, Mario, Aedo, Carlos, Molina-Venegas, Rafael, Buira, Antoni, Fernández-Mazuecos, Mario, Aedo, Carlos, and Molina-Venegas, Rafael

Abstract

The high diversification rates of plant lineages in the Mediterranean Basin hotspot have been linked to a complex interaction of climatic stressors, geographic isolation and soil type, but the question remains as to which of these factors has been the most significant environmental driver of recent speciation. Here, we draw on distributional data for the entire endemic flora of the Iberian Peninsula, together with DNA-based phylogenies and spatial phylogenetic methods, to explore the patterns of relative phylogenetic endemism at different spatial resolutions and phylogenetic scales (superclades) and assess how environmental factors contribute to explain these patterns. We found that recent diversification of angiosperms as a whole, and particularly of eudicots, has been boosted by environmental stressors including high values of soil pH and dry-seasonal climatic conditions, while diversification of monocots has not been associated with soil conditions but with high elevation and less seasonal climate. Synthesis. These results provide robust insights into the environmental factors driving recent plant diversification in the Mediterranean Basin, including a role of soil properties that had not been quantified before. The contrasting environmental drivers of diversification in eudicots and monocots highlight the importance of analysing spatial phylogenetic patterns at multiple phylogenetic scales to get a better understanding of the processes that shape biodiversity.

Published
2021

44. Phylogeographic sampling guided by species distribution modeling reveals the Quaternary history of the Mediterranean–Canarian Cistus monspeliensis (Cistaceae)

Author

Coello, Alberto J., Fernández-Mazuecos, Mario, García-Verdugo, Carlos, Vargas, Pablo, Coello, Alberto J., Fernández-Mazuecos, Mario, García-Verdugo, Carlos, and Vargas, Pablo

Abstract

Accurate inference in phylogeography requires appropriate sampling strategies. Complex questions demand a large sample size at both the population and genetic levels to obtain precise reconstructions. This is the case of the phylogeographic history of Cistus monspeliensis, a plant that displays low plastid (cpDNA) diversity in the Mediterranean Basin but high diversity in the Canary Islands. Here, we aimed to identify Mediterranean refugial areas and to accurately quantify inter-island colonization events in the Canaries. Using a previous study as starting point, we increased sample size in two ways: (i) additional sampling of plastid genetic markers (from 1041 to 1899 bp); and (ii) additional sampling of populations (from 47 to 69) in long-term persistence areas suggested by species distribution modeling (SDM). The synergy between SDM and extended population sampling helped find higher genetic diversity. Our deeper phylogeographic sampling of C. monspeliensis revealed the following: (i) potential refugia in long-term persistence areas with high cpDNA diversity in western Europe and the Canary Islands; and (ii) a significant increase (from 7 to 12) in the number of inferred inter-island colonization events across the archipelago. Our results stress the usefulness of SDM to identify the genetic signature associated with potential refugial areas. We herein propose a field sampling approach based on SDM that, in combination with a larger cpDNA sampling, can help answer a wide array of phylogeographic questions, such as the location of Quaternary refugia and number of colonizations across archipelagos.

Published
2021

45. Out of the Mediterranean Region: Worldwide biogeography of snapdragons and relatives (tribe Antirrhineae, Plantaginaceae)

Author

Gorospe, Juan Manuel, Monjas, David, Fernández Mazuecos, Mario, Gorospe, Juan Manuel, Monjas, David, and Fernández Mazuecos, Mario

Abstract

Aim: The tribe Antirrhineae, including snapdragons, toadflaxes and relatives, is widely distributed across the Northern Hemisphere and the Neotropics. It displays an uneven distribution of diversity, with more than 50% of species and subspecies in the Mediterranean Region. Here we conducted the first detailed, worldwide biogeographic analysis of the Antirrhineae and tested two alternative hypotheses (time-for-speciation versus diversification rate differences) to explain the uneven distribution of diversity. Location: Worldwide, with a focus on the Mediterranean Region. Taxon: Tribe Antirrhineae (Plantaginaceae). Methods: A phylogenetic biogeographic approach was taken, accounting for area connections through time. Ancestral ranges, dispersal events, speciation and lineage accumulation within areas were estimated. Diversification rates for taxa present and absent in the Mediterranean Region were compared, accounting for the effect of a floral key innovation (nectar spur). Results: A proto-Mediterranean origin in the Late Eocene was estimated, and the Mediterranean Region stood out as the main centre for speciation and dispersal. Congruent patterns of long-distance dispersal from the Mediterranean Region to North America were recovered for at least two amphiatlantic clades. A significant floristic exchange between the Mediterranean and south-western Asia was detected. We found no evidence of different diversification rates between lineages inside and outside the Mediterranean Region. Main conclusions: The Mediterranean Region played a key role in the origin of the current distribution of the Antirrhineae. However, the higher species richness found in this region appears to be the result of a time-for-speciation effect rather than that of increased diversification rates. The establishment of current Mediterranean climates in the Northern Hemisphere appears to have contributed to the recent diversification of the group, in combination with colonization of adjacent regi

Published
2020

46. Resolving relationships in an exceedingly young Neotropical orchid lineage using Genotyping-by-sequencing data

Author

Pérez-Escobar, Oscar Alejandro, Bogarín, D., Schley, R., Bateman, R.M., Gerlach, G., Harpke, D., Brassac, J., Fernández Mazuecos, Mario, Dodsworth, S., Hagsater, E., Blanco, M.A., Gottschling, M., Blattner, F.R., Pérez-Escobar, Oscar Alejandro, Bogarín, D., Schley, R., Bateman, R.M., Gerlach, G., Harpke, D., Brassac, J., Fernández Mazuecos, Mario, Dodsworth, S., Hagsater, E., Blanco, M.A., Gottschling, M., and Blattner, F.R.

Abstract

Poor morphological and molecular differentiation in recently diversified lineages is a widespread phenomenon in plants. Phylogenetic relationships within such species complexes are often difficult to resolve because of the low variability in traditional molecular loci. Furthermore, biological phenomena responsible for topological incongruence such as Incomplete Lineage Sorting (ILS) and hybridisation complicate the resolution of phylogenetic relationships among closely related taxa. In this study, we employ a Genotyping-by-sequencing (GBS) approach to disentangle evolutionary relationships within a species complex belonging to the Neotropical orchid genus Cycnoches. This complex includes seven taxa distributed through Central America and the Colombian Chocó, and is nested within a clade estimated to have first diversified in the early Quaternary. Previous phylogenies inferred from few loci failed to provide support for internal relationships within the complex. Our Neighbour-net and coalescent-based analyses inferred from ca. 13,000 GBS loci obtained from 31 individuals belonging to six of the seven traditionally accepted Cycnoches taxa provided a robust phylogeny for this group. The genus Cycnoches includes three main clades that are further supported by morphological traits and geographic distributions. Similarly, a topology reconstructed through maximum likelihood (ML) inference of concatenated GBS loci produced results that are comparable with those reconstructed through coalescence and network-based methods. Our comparative phylogenetic informativeness analyses suggest that the low support evident in the ML phylogeny might be attributed to the abundance of uninformative GBS loci, which can account for up to 50% of the total number of loci recovered. The phylogenomic framework provided here, as well as morphological evidence and geographical patterns, suggest that the six entities previously thought to be different species or subspecies might actually represent

Published
2020

47. The Radiation of Darwin's Giant Daisies in the Galápagos Islands

Author

Fernández Mazuecos, Mario, Vargas, Pablo, McCauley, R.A., Monjas, David, Otero, Ana, Chaves, Jaime A., Guevara Andino, J.E., Rivas-Torres, G., Fernández Mazuecos, Mario, Vargas, Pablo, McCauley, R.A., Monjas, David, Otero, Ana, Chaves, Jaime A., Guevara Andino, J.E., and Rivas-Torres, G.

Abstract

Evolutionary radiations on oceanic islands have fascinated biologists since Darwin¿s exploration of the Galápagos archipelago [1, 2]. Island radiations can provide key insights for understanding rapid speciation, including evolutionary patterns and the processes behind them. However, lack of resolution of species relationships has historically hindered their investigation, particularly in the plant kingdom [3, 4, 5]. Here, we report a time-calibrated phylogenomic analysis based on genotyping-by-sequencing data [6] of the 15 species of Scalesia (Darwin¿s giant daisies), an iconic and understudied plant radiation endemic to the Galápagos Islands and considered the plant counterpart to Darwin¿s finches [1, 7, 8, 9]. Results support a Pliocene to early Pleistocene divergence between Scalesia and the closest South American relatives, and rapid diversification of extant Scalesia species from a common ancestor dated to the Middle Pleistocene. Major evolutionary patterns in Scalesia include the following: (1) lack of compliance with the ¿progression rule¿ hypothesis, in which earlier diverging lineages are expected to occupy older islands; (2) a predominance of within-island speciation over between-island speciation; and (3) repeated convergent evolution of potentially adaptive traits and habitat preferences on different islands during the course of diversification. Massive sequencing provided the essential framework for investigating evolutionary and ecological processes in the complex natural laboratory of the Galápagos, thereby advancing our understanding of island plant radiations.

Published
2020

48. Repeated jumps from Northwest Africa to the European continent: The case of peripheral populations of an annual plant

Author

Valtueña, F.J., Fernández Mazuecos, Mario, Rodríguez-Riaño, T., López, J., Ortega-Olivencia, A., Valtueña, F.J., Fernández Mazuecos, Mario, Rodríguez-Riaño, T., López, J., and Ortega-Olivencia, A.

Abstract

Peripheral populations (i.e., those occurring on the edge of a species’ distribution range) can have different origins and genetic characteristics, and they may be critical for the conservation of genetic diversity. We investigated European peripheral populations of Scrophularia arguta, a widespread, annual plant distributed from Arabia to Northwest Africa and Macaronesia. Only two small disjunct population groups of this species occur in Europe, specifically in West-Central and Southeast Iberia. To disclose the origin of these populations and determine their importance for the conservation of S. arguta genetic diversity, we analyzed DNA sequences from two nuclear and two plastid regions and amplified fragment length polymorphism markers in populations sampled mainly across the western distribution range of the species, and modeled the species distribution under present and late Quaternary conditions. The analyses revealed the presence of three distinct lineages of S. arguta in Europe, as a result of multiple colonization waves at different times in the Quaternary. Two of these lineages, occurring in Southeast Iberia, are the result of more or less recent dispersal from Northwest Africa. In contrast, West-Central Iberian populations are strongly differentiated from the remaining range of S. arguta and can be considered as peripheral relict populations. Our study is the first to demonstrate the occurrence of at least three colonizations of the European continent from Africa by a native plant species. The diverse histories and genetic makeup of the resulting populations confirm the importance of peripheral populations, and particularly of ancient relict populations, for the conservation of global genetic diversity in widespread species.

Published
2020

49. ‘Endangered living fossils’ (ELFs): Long-term survivors through periods of dramatic climate change

Author

Vargas, Pablo, Jiménez-Mejías, Pedro, Fernández Mazuecos, Mario, Vargas, Pablo, Jiménez-Mejías, Pedro, and Fernández Mazuecos, Mario

Abstract

Geography and climate have been the main drivers of evolution in recent geological epochs. While new lineages of species have been formed in the last millions of years (speciation) and others have vanished as a result of historical climate changes (extinction), some ancient lineages appear to have persisted to the present day without net diversification. In this paper, evolution of ancient lineages is addressed by combining phylogenetic and conservation approaches to test the concept of ‘endangered living fossil’ (ELF). Using endangered, monospecific genera as starting point, we propose three criteria to identify ELFs (in order): (1) scarcity and narrow distribution of populations, i.e. the species (and thus the genus) is categorised as either ‘endangered’ or ‘critically endangered’ using IUCN criteria; (2) evolutionary distinctiveness, i.e. phylogenetic singularity of a single-species lineage as a result of a null net diversification rate; (iii) ancient divergence, i.e. split from the closest extant relatives predating the dramatic climate changes of particular geological epochs (specifically changes since the Miocene-Pliocene boundary). The vascular flora of the Iberian Peninsula offers a suitable study system to reliably test the ELF concept. Indeed, time-calibrated phylogenies revealed that five of the six critically endangered, monospecific genera endemic to the Iberian Peninsula are ELFs. These five genera appear to have diverged from their closest relatives in the Oligocene (Gyrocaryum), Miocene (Avellara, Castrilanthemum, Gadoria) and around the Miocene-Pliocene boundary (Naufraga). This result entails long-term survival (with no net diversification) through at least three dramatic climate changes: the Messinian Salinity Crisis (late Miocene), the establishment of the mediterranean climate (Pliocene), and the glacial-interglacial cycles (Pleistocene). Using results from the literature, we found examples of ELFs for the mediterranean floras of California (Dod

Published
2020

50. An enigmatic carnivorous plant: ancient divergence of Drosophyllaceae but recent differentiation of Drosophyllum lusitanicum across the Strait of Gibraltar

Author

Martín-Rodríguez, I., Vargas, Pablo, Ojeda, F., Fernández Mazuecos, Mario, Martín-Rodríguez, I., Vargas, Pablo, Ojeda, F., and Fernández Mazuecos, Mario

Abstract

Drosophyllaceae is the only plant family endemic to the Mediterranean Floristic Region. It includes a single species, the carnivorous Drosophyllum lusitanicum, which is hypothesised to be a relict plant. Our aim here is to reconstruct the evolutionary history of Drosophyllum to evaluate whether the African-European disjunction across the Strait of Gibraltar is the result of vicariance or long-distance dispersal, and to assess the role of the Strait of Gibraltar area in the long-term persistence of this species. A time-calibrated phylogeny based on nuclear ITS sequences estimated a mid-Eocene to mid-Miocene age (19–44 Mya) for the common ancestor of Drosophyllaceae and its sister clade (Ancistrocladaceae-Dioncophyllaceae). In contrast, differentiation of ITS lineages of Drosophyllum occurred in the Pleistocene, after the opening of the Strait of Gibraltar (ca. 5 Mya). A haplotype network built using two plastid DNA regions revealed six haplotypes in Drosophyllum, five of which occur in the Strait of Gibraltar area. Four of the six haplotypes were present in both European and African populations. Therefore, although Drosophyllaceae diverged from the closest relatives in ancient times, the current distribution of Drosophyllum is relatively recent (Pleistocene). Given that the Strait of Gibraltar was already open in the Pliocene, the disjunct distribution of this species between Europe and Africa appears to be the result of multiple events of long-distance dispersal. Species distribution modelling (SDM) was used to reconstruct the potential distribution of Drosophyllum throughout the late Quaternary (last interglacial, Last Glacial Maximum, mid-Holocene and present), which revealed long-term persistence around the Strait of Gibraltar and in the south-western Iberian Peninsula. The Strait of Gibraltar area and the south-western Iberian Peninsula may have shared similar climatic conditions, and thus acted as refugia for Drosophyllum throughout the late Quaternary.

Published
2020

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