Your search keyword '"CLINES"' showing total 2,048 results

1. Population structure and natural selection across a flower color polymorphism in the desert plant Encelia farinosa.

Author

Singhal, Sonal, DiVittorio, Christopher, Jones, Chandra, Ixta, Itzel, Widmann, Alexis, Giffard‐Mena, Ivone, Zapata, Felipe, and Roddy, Adam

Subjects

*POLYMORPHISM (Zoology), *NATURAL selection, *DESERT plants, *PHENOTYPES, *GENETICS

Abstract

Premise: Clines—or the geographic sorting of phenotypes across continual space—provide an opportunity to understand the interaction of dispersal, selection, and history in structuring polymorphisms. Methods: In this study, we combine field‐sampling, genetics, climatic analyses, and machine learning to understand a flower color polymorphism in the wide‐ranging desert annual Encelia farinosa. Results: We find evidence for replicated transitions in disk floret color from brown to yellow across spatial scales, with the most prominent cline stretching ~100 km from southwestern United States into México. Because population structure across the cline is minimal, selection is more likely than drift to have an important role in determining cline width. Conclusions: Given that the cline aligns with a climatic transition but there is no evidence for pollinator preference for flower color, we hypothesize that floret color likely varies as a function of climatic conditions. [ABSTRACT FROM AUTHOR]

Published

2024

2. Ongoing introgression of a secondary sexual plumage trait in a stable avian hybrid zone.

Author

Long, Kira M, Rivera-Colón, Angel G, Bennett, Kevin F P, Catchen, Julian M, Braun, Michael J, and Brawn, Jeffrey D

Subjects

*HYBRID zones, *NATURAL selection, *SEXUAL selection, *SINGLE nucleotide polymorphisms, *GENETIC variation

Abstract

Hybrid zones are dynamic systems where natural selection, sexual selection, and other evolutionary forces can act on reshuffled combinations of distinct genomes. The movement of hybrid zones, individual traits, or both are of particular interest for understanding the interplay between selective processes. In a hybrid zone involving two lek-breeding birds, secondary sexual plumage traits of Manacus vitellinus , including bright yellow collar and olive belly color, have introgressed ~50 km asymmetrically across the genomic center of the zone into populations more genetically similar to Manacus candei. Males with yellow collars are preferred by females and are more aggressive than parental M. candei , suggesting that sexual selection was responsible for the introgression of male traits. We assessed the spatial and temporal dynamics of this hybrid zone using historical (1989–1994) and contemporary (2017–2020) transect samples to survey both morphological and genetic variation. Genome-wide single nucleotide polymorphism data and several male phenotypic traits show that the genomic center of the zone has remained spatially stable, whereas the olive belly color of male M. vitellinus has continued to introgress over this time period. Our data suggest that sexual selection can continue to shape phenotypes dynamically, independent of a stable genomic transition between species. [ABSTRACT FROM AUTHOR]

Published

2024

3. Latitudinal and altitudinal clines in body size of a Japanese harvestman, Leiobunum japonicum (Arachnida: Opiliones: Sclerosomatidae).

Author

Nobuo Tsurusaki and Sachiko Okuda

Subjects

*MITES, *PRIONAILURUS bengalensis, *TICK-borne diseases, *COMMUNICABLE diseases, *PATHOGENIC microorganisms

Abstract

We measured a total of 489 adult specimens of Leiobunum japonicum using 41 populations from various parts of Japan for four characters and found that there are latitudinal clines in the length of legs (femur of the first legs: FIL) in both males and females, that conform to the converse Bergmann’s law. Measurements of a total of 318 adults from 7 sites that differ in elevation on the western and northern slopes of Mt. Daisen (Tottori Prefecture, Honshu) also revealed negative correlation of leg length (FIL) to altitude. Both the trends were not clear, especially in females, in characters that directly pertain to body itself (body length, cephalothorax length), probably due to the influence of feeding or maturation of eggs that considerably alter size of the abdomen. It was suggested that shorter period available for the growth and maturation in northern or higher populations are responsible for the latitudinal and altitudinal clines in the length of legs of the harvestmen having a univoltine life cycle with overwintering as eggs. [ABSTRACT FROM AUTHOR]

Published

2023

4. Replicated anthropogenic hybridisations reveal parallel patterns of admixture in marine mussels

Author

Simon, Alexis, Arbiol, Christine, Nielsen, Einar Eg, Couteau, Jérôme, Sussarellu, Rossana, Burgeot, Thierry, Bernard, Ismaël, Coolen, Joop WP, Lamy, Jean‐Baptiste, Robert, Stéphane, Skazina, Maria, Strelkov, Petr, Queiroga, Henrique, Cancio, Ibon, Welch, John J, Viard, Frédérique, and Bierne, Nicolas

Subjects

Biological Sciences, Ecology, Genetics, Human Genome, admixture, bentho-pelagic species, biological introductions, clines, ports, secondary contact, bentho‐pelagic species, Medicinal and Biomolecular Chemistry, Evolutionary Biology, Evolutionary biology

Abstract

Human-mediated transport creates secondary contacts between genetically differentiated lineages, bringing new opportunities for gene exchange. When similar introductions occur in different places, they provide informally replicated experiments for studying hybridisation. We here examined 4,279 Mytilus mussels, sampled in Europe and genotyped with 77 ancestry-informative markers. We identified a type of introduced mussels, called "dock mussels," associated with port habitats and displaying a particular genetic signal of admixture between M. edulis and the Mediterranean lineage of M. galloprovincialis. These mussels exhibit similarities in their ancestry compositions, regardless of the local native genetic backgrounds and the distance separating colonised ports. We observed fine-scale genetic shifts at the port entrance, at scales below natural dispersal distance. Such sharp clines do not fit with migration-selection tension zone models, and instead suggest habitat choice and early-stage adaptation to the port environment, possibly coupled with connectivity barriers. Variations in the spread and admixture patterns of dock mussels seem to be influenced by the local native genetic backgrounds encountered. We next examined departures from the average admixture rate at different loci, and compared human-mediated admixture events, to naturally admixed populations and experimental crosses. When the same M. galloprovincialis background was involved, positive correlations in the departures of loci across locations were found; but when different backgrounds were involved, no or negative correlations were observed. While some observed positive correlations might be best explained by a shared history and saltatory colonisation, others are likely produced by parallel selective events. Altogether, genome-wide effect of admixture seems repeatable and more dependent on genetic background than environmental context. Our results pave the way towards further genomic analyses of admixture, and monitoring of the spread of dock mussels both at large and at fine spacial scales.

Published

2020

5. Shell color polymorphism in marine gastropods

Author

Juan Gefaell, Juan Galindo, and Emilio Rolán‐Alvarez

Subjects

clines, crypsis, frequency‐dependent selection, genetic drift, natural selection, snails, Evolution, QH359-425

Abstract

Abstract Marine gastropods are characterized by an incredible variation in shell color. In this review, we aim to introduce researchers to previous studies of shell color polymorphism in this group of animals, trying to provide an overview of the topic and highlighting some potential avenues for future research. For this, we tackle the different aspects of shell color polymorphism in marine gastropods: its biochemical and genetic basis, its patterns of spatial and temporal distribution, as well as its potential evolutionary causes. In particular, we put special emphasis on the evolutionary studies that have been conducted so far to reveal the evolutionary mechanisms responsible for the maintenance of shell color polymorphism in this group of animals, as it constitutes the least addressed aspect in existing literature reviews. Several general conclusions can be drawn from our review: First, natural selection is commonly involved in the maintenance of gastropod color polymorphism; second, although the contribution of neutral forces (gene flow‐genetic drift equilibrium) to shell color polymorphism maintenance do not seem to be particularly important, it has rarely been studied systematically; third, a relationship between shell color polymorphism and mode of larval development (related to dispersal capability) may exist. As for future studies, we suggest that a combination of both classical laboratory crossing experiments and ‐Omics approaches may yield interesting results on the molecular basis of color polymorphism. We believe that understanding the various causes of shell color polymorphism in marine gastropods is of great importance not only to understand how biodiversity works, but also for protecting such biodiversity, as knowledge of its evolutionary causes may help implement conservation measures in those species or ecosystems that are threatened.

Published

2023

6. An Ancestral Balanced Inversion Polymorphism Confers Global Adaptation.

Author

Kapun, Martin, Mitchell, Esra Durmaz, Kawecki, Tadeusz J, Schmidt, Paul, and Flatt, Thomas

Subjects

CHROMOSOME inversions, SINGLE nucleotide polymorphisms, GLOBAL warming, DROSOPHILA melanogaster, NUCLEOTIDE sequencing, CHROMOSOMES

Abstract

Since the pioneering work of Dobzhansky in the 1930s and 1940s, many chromosomal inversions have been identified, but how they contribute to adaptation remains poorly understood. In Drosophila melanogaster , the widespread inversion polymorphism In(3R)Payne underpins latitudinal clines in fitness traits on multiple continents. Here, we use single-individual whole-genome sequencing, transcriptomics, and published sequencing data to study the population genomics of this inversion on four continents: in its ancestral African range and in derived populations in Europe, North America, and Australia. Our results confirm that this inversion originated in sub-Saharan Africa and subsequently became cosmopolitan; we observe marked monophyletic divergence of inverted and noninverted karyotypes, with some substructure among inverted chromosomes between continents. Despite divergent evolution of this inversion since its out-of-Africa migration, derived non-African populations exhibit similar patterns of long-range linkage disequilibrium between the inversion breakpoints and major peaks of divergence in its center, consistent with balancing selection and suggesting that the inversion harbors alleles that are maintained by selection on several continents. Using RNA-sequencing, we identify overlap between inversion-linked single-nucleotide polymorphisms and loci that are differentially expressed between inverted and noninverted chromosomes. Expression levels are higher for inverted chromosomes at low temperature, suggesting loss of buffering or compensatory plasticity and consistent with higher inversion frequency in warm climates. Our results suggest that this ancestrally tropical balanced polymorphism spread around the world and became latitudinally assorted along similar but independent climatic gradients, always being frequent in subtropical/tropical areas but rare or absent in temperate climates. [ABSTRACT FROM AUTHOR]

Published

2023

7. Editorial: Insects and changing environments: Emerging perspectives on abiotic stress tolerance mechanisms

Author

Leena Thorat, Jean-Paul Paluzzi, Hans-Joachim Pflüger, and Bimalendu B. Nath

Subjects

insects, climate change, microplastics, clines, adaptation, physiology, Physiology, QP1-981

Published

2023

8. Shell color polymorphism in marine gastropods.

Author

Gefaell, Juan, Galindo, Juan, and Rolán‐Alvarez, Emilio

Subjects

*MARINE biodiversity, *GASTROPODA, *NATURAL selection, *COLOR, *GENETIC drift

Abstract

Marine gastropods are characterized by an incredible variation in shell color. In this review, we aim to introduce researchers to previous studies of shell color polymorphism in this group of animals, trying to provide an overview of the topic and highlighting some potential avenues for future research. For this, we tackle the different aspects of shell color polymorphism in marine gastropods: its biochemical and genetic basis, its patterns of spatial and temporal distribution, as well as its potential evolutionary causes. In particular, we put special emphasis on the evolutionary studies that have been conducted so far to reveal the evolutionary mechanisms responsible for the maintenance of shell color polymorphism in this group of animals, as it constitutes the least addressed aspect in existing literature reviews. Several general conclusions can be drawn from our review: First, natural selection is commonly involved in the maintenance of gastropod color polymorphism; second, although the contribution of neutral forces (gene flow‐genetic drift equilibrium) to shell color polymorphism maintenance do not seem to be particularly important, it has rarely been studied systematically; third, a relationship between shell color polymorphism and mode of larval development (related to dispersal capability) may exist. As for future studies, we suggest that a combination of both classical laboratory crossing experiments and ‐Omics approaches may yield interesting results on the molecular basis of color polymorphism. We believe that understanding the various causes of shell color polymorphism in marine gastropods is of great importance not only to understand how biodiversity works, but also for protecting such biodiversity, as knowledge of its evolutionary causes may help implement conservation measures in those species or ecosystems that are threatened. [ABSTRACT FROM AUTHOR]

Published

2023

9. Deep ecomorphological and genetic divergence in Steller's Jays (Cyanocitta stelleri, Aves: Corvidae).

Author

Cicero, Carla, Mason, Nicholas A., Oong, Zheng, Title, Pascal O., Morales, Melissa E., Feldheim, Kevin A., Koo, Michelle S., and Bowie, Rauri C. K.

Subjects

*BIOLOGICAL classification, *CORVIDAE, *PONDEROSA pine, *ECOLOGICAL niche, *SPECIES distribution, *BIRD populations

Abstract

The relationship between ecology and morphology is a cornerstone of evolutionary biology, and quantifying variation across environments can shed light on processes that give rise to biodiversity. Three morphotypes of the Steller's Jay (Cyanocitta stelleri) occupy different ecoregions in western North America, which vary in climate and landcover. These morphotypes (Coastal, Interior, Rocky Mountain) differ in size, plumage coloration, and head pattern. We sampled 1080 Steller's Jays from 68 populations (plus 11 outgroups) to address three main questions using data on morphology, plumage, genetics (mtDNA, microsatellites), and ecological niches: (1) How do phenotypic and genetic traits vary within and among populations, morphotypes, and ecoregions? (2) How do population‐level differences in Steller's Jays compare with other sister species pairs of North American birds? (3) What can we infer about the population history of Steller's Jays in relation to past climates, paleoecology, and niche evolution? We found substantial morphological, genetic, and ecological differentiation among morphotypes. The greatest genetic divergence separated Coastal and Interior morphotypes from the Rocky Mountain morphotype, which was associated with warmer, drier, and more open habitats. Microsatellites revealed additional structure between Coastal and Interior groups. The deep mtDNA split between Coastal/Interior and Rocky Mountain lineages of Steller's Jay (ND2 ~ 7.8%) is older than most North American avian sister species and dates to approximately 4.3 mya. Interior and Rocky Mountain morphotypes contact across a narrow zone with steep clines in traits and reduced gene flow. The distribution of the three morphotypes coincides with divergent varieties of ponderosa pine and Douglas fir. Species distribution models support multiple glacial refugia for Steller's Jays. Our integrative dataset combined with extensive geographic sampling provides compelling evidence for recognizing at least two species of Steller's Jay. [ABSTRACT FROM AUTHOR]

Published

2022

10. The effects of environmental heterogeneity within a city on the evolution of clines.

Author

Santangelo, James S., Roux, Cindy, and Johnson, Marc T. J.

Subjects

*PUBLIC spaces, *RURAL-urban differences, *SUBURBS, *HETEROGENEITY, *HYDROCYANIC acid, *URBAN parks, *COMPLEX matrices

Abstract

There is increasing evidence that environmental change associated with urbanization can drive rapid adaptation. However, most studies of urban adaptation have focused on coarse urban vs. rural comparisons or sampled along a single urban–rural environmental gradient, thereby ignoring the role that within‐city environmental heterogeneity might play in adaptation to urban environments.In this study, we examined fine‐scale variation in the presence of hydrogen cyanide (HCN)—a potent anti‐herbivore defence—and its two underlying genes (Ac and Li) between park green spaces and surrounding suburban habitats for five city parks in the Greater Toronto Area.We show that fine‐scale urbanization has driven the formation of micro‐clines in HCN on a scale of <2 km, though the presence and strength of micro‐clines varied across parks. Interestingly, these micro‐clines were driven by lower HCN frequencies inside park green spaces, and are therefore in the opposite direction to that predicted based on previously described patterns of HCN frequency change along urban–rural gradients.Synthesis: These results suggest larger scale, adaptive urban–rural clines occur across a complex matrix of environmental heterogeneity within cities that drives fine‐scale adaptive microclines of varying strengths and directions. [ABSTRACT FROM AUTHOR]

Published

2022

11. Clinal variation as a tool to understand climate change.

Author

Mayekar, Harshad Vijay, Ramkumar, Durga Kavya, Garg, Divita, Nair, Abhishek, Khandelwal, Ashwin, Joshi, Kavya, and Rajpurohit, Subhash

Subjects

CLIMATE change, PHENOTYPIC plasticity, DROSOPHILIDAE, GENOTYPES, DROSOPHILA melanogaster

Abstract

Clines are observable gradients that reflect continuous change in biological traits of species across geographical ranges. Clinal gradients could vary at geographic scales (latitude and altitude). Since clinal variations represent active genomic responses at the population level they (clines) provide an immense power to address questions related to climatic change. With the fast pace of climate change i.e. warming, populations are also likely to exhibit rapid responses; at both the phenotypic and genotypic levels. We seek to understand how clinal variation could be used to anticipate climatic responses using Drosophila, a pervasively used inter-disciplinary model system owing to its molecular repertoire. The genomic information coupled with the phenotypic variation greatly facilitates our understanding of the Drosophilidae response to climate change. We discuss traits associated with clinal variation at the phenotypic level as well as their underlying genetic regulators. Given prevailing climatic conditions and future projections for climate change, clines could emerge as monitoring tools to track the cross-talk between climatic variables and organisms. [ABSTRACT FROM AUTHOR]

Published

2022

12. Clinal Adaptation in the Marine Environment

Author

Dayan, David I., Rajora, Om P., Editor-in-Chief, and Oleksiak, Marjorie F., editor

Published

2020

13. Clinal variation as a tool to understand climate change

Author

Harshad Vijay Mayekar, Durga Kavya Ramkumar, Divita Garg, Abhishek Nair, Ashwin Khandelwal, Kavya Joshi, and Subhash Rajpurohit

Subjects

Clines, latitudes, altitudes, climate change, temperature, clinal shift, Physiology, QP1-981

Abstract

Clines are observable gradients that reflect continuous change in biological traits of species across geographical ranges. Clinal gradients could vary at geographic scales (latitude and altitude). Since clinal variations represent active genomic responses at the population level they (clines) provide an immense power to address questions related to climatic change. With the fast pace of climate change i.e. warming, populations are also likely to exhibit rapid responses; at both the phenotypic and genotypic levels. We seek to understand how clinal variation could be used to anticipate climatic responses using Drosophila, a pervasively used inter-disciplinary model system owing to its molecular repertoire. The genomic information coupled with the phenotypic variation greatly facilitates our understanding of the Drosophilidae response to climate change. We discuss traits associated with clinal variation at the phenotypic level as well as their underlying genetic regulators. Given prevailing climatic conditions and future projections for climate change, clines could emerge as monitoring tools to track the cross-talk between climatic variables and organisms.

Published

2022

14. Editorial: Insects and changing environments: Emerging perspectives on abiotic stress tolerance mechanisms.

Author

Thorat, Leena, Paluzzi, Jean-Paul, Pflüger, Hans-Joachim, and Nath, Bimalendu B.

Subjects

ABIOTIC stress, INSECTS, GREEN peach aphid, OXYGEN consumption

Published

2023

15. Multivariate selection mediated by aridity predicts divergence of drought‐resistant traits along natural aridity gradients of an invasive weed.

Author

Carvalho, Carter, Davis, Rochelle, Connallon, Tim, Gleadow, Roslyn M., Moore, Joslin L., and Uesugi, Akane

Subjects

*NOXIOUS weeds, *DROUGHTS, *NATURAL selection, *HERBICIDE resistance, *BIOMASS, *PHENOLOGY, *DROUGHT tolerance

Abstract

Summary: Geographical variation in the environment underpins selection for local adaptation and evolutionary divergence among populations. Because many environmental conditions vary across species' ranges, identifying the specific environmental variables underlying local adaptation is profoundly challenging.We tested whether natural selection mediated by aridity predicts clinal divergence among invasive populations of capeweed (Arctotheca calendula) that established and spread across southern Australia during the last two centuries.Using common garden experiments with two environmental treatments (wet and dry) that mimic aridity conditions across capeweed's invasive range, we estimated clinal divergence and effects of aridity on fitness and multivariate phenotypic selection in populations sampled along aridity gradients in Australia. We show that: (1) capeweed populations have relatively high fitness in aridity environments similar to their sampling locations; (2) the magnitude and direction of selection strongly differs between wet and dry treatments, with drought stress increasing the strength of selection; and (3) differences in directional selection between wet and dry treatments predict patterns of clinal divergence across the aridity gradient, particularly for traits affecting biomass, flowering phenology and putative antioxidant expression.Our results suggest that aridity‐mediated selection contributes to trait diversification among invasive capeweed populations, possibly facilitating the expansion of capeweed across southern Australia. [ABSTRACT FROM AUTHOR]

Published

2022

16. Revisiting a classic hybrid zone: Movement of the northern flicker hybrid zone in contemporary times.

Author

Aguillon, Stepfanie M. and Rohwer, Vanya G.

Subjects

*HYBRID zones, *UNITS of time, *CLIMATE change, *LAND management

Abstract

Natural hybrid zones have provided important insights into the evolutionary process, and their geographic dynamics over time can help to disentangle the underlying biological processes that maintain them. Here, we leverage replicated sampling of an identical transect across the hybrid zone between yellow‐shafted and red‐shafted flickers in the Great Plains to assess its stability over ∼60 years (1955–1957 to 2016–2018). We identify a ∼73‐km westward shift in the hybrid zone center toward the range of the red‐shafted flicker, but find no associated changes in width over our sampling period. In fact, the hybrid zone remains remarkably narrow, suggesting some kind of selective pressure maintains the zone. By comparing to previous work in the same geographic region, it appears likely that the movement in the hybrid zone has occurred in the years since the early 1980s. This recent movement may be related to changes in climate or land management practices that have allowed westward movement of yellow‐shafted flickers into the Great Plains. [ABSTRACT FROM AUTHOR]

Published

2022

17. Parallel flowering time clines in native and introduced ragweed populations are likely due to adaptation

Author

Brechann V. McGoey, Kathryn A. Hodgins, and John R. Stinchcombe

Subjects

adaptation, clines, GBS, genotyping‐bysequencing, invasive species, population differentiation, Ecology, QH540-549.5

Abstract

Abstract As introduced species expand their ranges, they often encounter differences in climate which are often correlated with geography. For introduced species, encountering a geographically variable climate sometimes leads to the re‐establishment of clines seen in the native range. However, clines can also be caused by neutral processes, and so it is important to gather additional evidence that population differentiation is the result of selection as opposed to nonadaptive processes. Here, we examine phenotypic and genetic differences in ragweed from the native (North America) and introduced (European) ranges. We used a common garden to assess phenotypic differentiation in size and flowering time in ragweed populations. We found significant parallel clines in flowering time in both North America and Europe. Height and branch number had significant clines in North America, and, while not statistically significant, the patterns in Europe were the same. We used SNP data to assess population structure in both ranges and to compare phenotypic differentiation to neutral genetic variation. We failed to detect significant patterns of isolation by distance, geographic patterns in population structure, or correlations between the major axes of SNP variation and phenotypes or latitude of origin. We conclude that the North American clines in size and the parallel clines seen for flowering time are most likely the result of adaptation.

Published

2020

18. Replicated anthropogenic hybridisations reveal parallel patterns of admixture in marine mussels

Author

Alexis Simon, Christine Arbiol, Einar Eg Nielsen, Jérôme Couteau, Rossana Sussarellu, Thierry Burgeot, Ismaël Bernard, Joop W. P. Coolen, Jean‐Baptiste Lamy, Stéphane Robert, Maria Skazina, Petr Strelkov, Henrique Queiroga, Ibon Cancio, John J. Welch, Frédérique Viard, and Nicolas Bierne

Subjects

admixture, bentho‐pelagic species, biological introductions, clines, ports, secondary contact, Evolution, QH359-425

Abstract

Abstract Human‐mediated transport creates secondary contacts between genetically differentiated lineages, bringing new opportunities for gene exchange. When similar introductions occur in different places, they provide informally replicated experiments for studying hybridisation. We here examined 4,279 Mytilus mussels, sampled in Europe and genotyped with 77 ancestry‐informative markers. We identified a type of introduced mussels, called “dock mussels,” associated with port habitats and displaying a particular genetic signal of admixture between M. edulis and the Mediterranean lineage of M. galloprovincialis. These mussels exhibit similarities in their ancestry compositions, regardless of the local native genetic backgrounds and the distance separating colonised ports. We observed fine‐scale genetic shifts at the port entrance, at scales below natural dispersal distance. Such sharp clines do not fit with migration‐selection tension zone models, and instead suggest habitat choice and early‐stage adaptation to the port environment, possibly coupled with connectivity barriers. Variations in the spread and admixture patterns of dock mussels seem to be influenced by the local native genetic backgrounds encountered. We next examined departures from the average admixture rate at different loci, and compared human‐mediated admixture events, to naturally admixed populations and experimental crosses. When the same M. galloprovincialis background was involved, positive correlations in the departures of loci across locations were found; but when different backgrounds were involved, no or negative correlations were observed. While some observed positive correlations might be best explained by a shared history and saltatory colonisation, others are likely produced by parallel selective events. Altogether, genome‐wide effect of admixture seems repeatable and more dependent on genetic background than environmental context. Our results pave the way towards further genomic analyses of admixture, and monitoring of the spread of dock mussels both at large and at fine spacial scales.

Published

2020

19. Origen de la variación clinal en el genoma humano europeo.

Author

Valero Almingol, Alba and Peña, Jose A.

Subjects

Y chromosome, NATURAL selection, HUMAN genome, NATURAL products, SINGLE nucleotide polymorphisms, EMIGRATION & immigration

Abstract

Copyright of Antropo is the property of Antropo and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

20. Using replicate hybrid zones to understand the genomic basis of adaptive divergence.

Author

Westram, Anja M., Faria, Rui, Johannesson, Kerstin, and Butlin, Roger

Subjects

*HYBRID zones, *GENE flow, *SINGLE nucleotide polymorphisms, *BIG data, *GENE frequency, *GENOMICS

Abstract

Combining hybrid zone analysis with genomic data is a promising approach to understanding the genomic basis of adaptive divergence. It allows for the identification of genomic regions underlying barriers to gene flow. It also provides insights into spatial patterns of allele frequency change, informing about the interplay between environmental factors, dispersal and selection. However, when only a single hybrid zone is analysed, it is difficult to separate patterns generated by selection from those resulting from chance. Therefore, it is beneficial to look for repeatable patterns across replicate hybrid zones in the same system. We applied this approach to the marine snail Littorina saxatilis, which contains two ecotypes, adapted to wave‐exposed rocks vs. high‐predation boulder fields. The existence of numerous hybrid zones between ecotypes offered the opportunity to test for the repeatability of genomic architectures and spatial patterns of divergence. We sampled and phenotyped snails from seven replicate hybrid zones on the Swedish west coast and genotyped them for thousands of single nucleotide polymorphisms. Shell shape and size showed parallel clines across all zones. Many genomic regions showing steep clines and/or high differentiation were shared among hybrid zones, consistent with a common evolutionary history and extensive gene flow between zones, and supporting the importance of these regions for divergence. In particular, we found that several large putative inversions contribute to divergence in all locations. Additionally, we found evidence for consistent displacement of clines from the boulder–rock transition. Our results demonstrate patterns of spatial variation that would not be accessible without continuous spatial sampling, a large genomic data set and replicate hybrid zones. [ABSTRACT FROM AUTHOR]

Published

2021

21. Purifying selection does not drive signatures of convergent local adaptation of lodgepole pine and interior spruce

Author

Mengmeng Lu, Kathryn A. Hodgins, Jon C. Degner, and Sam Yeaman

Subjects

Clines, Nucleotide diversity, Tajima’s D, Genetic admixture, Hybridization, SNP, Evolution, QH359-425

Abstract

Abstract Background Lodgepole pine (Pinus contorta) and interior spruce (Picea glauca, Picea engelmannii, and their hybrids) are distantly related conifer species. Previous studies identified 47 genes containing variants associated with environmental variables in both species, providing evidence of convergent local adaptation. However, if the intensity of purifying selection varies with the environment, clines in nucleotide diversity could evolve through linked (background) selection that would yield allele frequency-environment signatures resembling local adaptation. If similar geographic patterns in the strength of purifying selection occur in these species, this could result in the convergent signatures of local adaptation, especially if the landscape of recombination is conserved. In the present study, we investigated whether spatially/environmentally varying purifying selection could give rise to the convergent signatures of local adaptation that had previously reported. Results We analyzed 86 lodgepole pine and 50 interior spruce natural populations spanning heterogeneous environments in western Canada where previous analyses had found signatures of convergent local adaptation. We estimated nucleotide diversity and Tajima’s D for each gene within each population and calculated the strength of correlations between nucleotide diversity and environmental variables. Overall, these estimates in the genes with previously identified convergent local adaptation signatures had no similar pattern between pine and spruce. Clines in nucleotide diversity along environmental variables were found for interior spruce, but not for lodgepole pine. In spruce, genes with convergent adaption signatures showed a higher strength of correlations than genes without convergent adaption signatures, but there was no such disparity in pine, which suggests the pattern in spruce may have arisen due to a combination of selection and hybridization. Conclusions The results rule out purifying/background selection as a driver of convergent local adaption signatures in lodgepole pine and interior spruce.

Published

2019

22. Secondary contact zones of closely‐related Erebia butterflies overlap with narrow phenotypic and parasitic clines.

Author

Lucek, Kay, Butlin, Roger K., and Patsiou, Theofania

Subjects

*KARYOTYPES, *GENE flow, *BUTTERFLIES, *GLACIAL Epoch, *SPECIES hybridization, *CHROMOSOMES

Abstract

Zones of secondary contact between closely related taxa are a common legacy of the Quaternary ice ages. Despite their abundance, the factors that keep species apart and prevent hybridization are often unknown. Here, we study a very narrow contact zone between three closely related butterfly species of the Erebia tyndarus species complex. Using genomic data, we first determined whether gene flow occurs and then assessed whether it might be hampered by differences in chromosome number between some species. We found interspecific gene flow between sibling species that differ in karyotype by one chromosome. Conversely, only F1 hybrids occurred between two species that have the same karyotype, forming a steep genomic cline. In a second step, we fitted clines to phenotypic, ecological and parasitic data to identify the factors associated with the genetic cline. We found clines for phenotypic data and the prevalence of the endosymbiont parasite Wolbachia to overlap with the genetic cline, suggesting that they might be drivers for separating the two species. Overall, our results highlight that some gene flow is possible between closely related species despite different chromosome numbers, but that other barriers restrict such gene flow. [ABSTRACT FROM AUTHOR]

Published

2020

23. Genomic Analysis of European Drosophila melanogaster Populations Reveals Longitudinal Structure, Continent-Wide Selection, and Previously Unknown DNA Viruses.

Author

Kapun, Martin, Barrón, Maite G, Staubach, Fabian, Obbard, Darren J, Wiberg, R Axel W, Vieira, Jorge, Goubert, Clément, Rota-Stabelli, Omar, Kankare, Maaria, Bogaerts-Márquez, María, Haudry, Annabelle, Waidele, Lena, Kozeretska, Iryna, Pasyukova, Elena G, Loeschcke, Volker, Pascual, Marta, Vieira, Cristina P, Serga, Svitlana, Montchamp-Moreau, Catherine, and Abbott, Jessica

Abstract

Genetic variation is the fuel of evolution, with standing genetic variation especially important for short-term evolution and local adaptation. To date, studies of spatiotemporal patterns of genetic variation in natural populations have been challenging, as comprehensive sampling is logistically difficult, and sequencing of entire populations costly. Here, we address these issues using a collaborative approach, sequencing 48 pooled population samples from 32 locations, and perform the first continent-wide genomic analysis of genetic variation in European Drosophila melanogaster. Our analyses uncover longitudinal population structure, provide evidence for continent-wide selective sweeps, identify candidate genes for local climate adaptation, and document clines in chromosomal inversion and transposable element frequencies. We also characterize variation among populations in the composition of the fly microbiome, and identify five new DNA viruses in our samples. [ABSTRACT FROM AUTHOR]

Published

2020

24. Parallel flowering time clines in native and introduced ragweed populations are likely due to adaptation.

Author

McGoey, Brechann V., Hodgins, Kathryn A., and Stinchcombe, John R.

Subjects

*RAGWEEDS, *POPULATION differentiation, *INTRODUCED species

Abstract

As introduced species expand their ranges, they often encounter differences in climate which are often correlated with geography. For introduced species, encountering a geographically variable climate sometimes leads to the re‐establishment of clines seen in the native range. However, clines can also be caused by neutral processes, and so it is important to gather additional evidence that population differentiation is the result of selection as opposed to nonadaptive processes. Here, we examine phenotypic and genetic differences in ragweed from the native (North America) and introduced (European) ranges. We used a common garden to assess phenotypic differentiation in size and flowering time in ragweed populations. We found significant parallel clines in flowering time in both North America and Europe. Height and branch number had significant clines in North America, and, while not statistically significant, the patterns in Europe were the same. We used SNP data to assess population structure in both ranges and to compare phenotypic differentiation to neutral genetic variation. We failed to detect significant patterns of isolation by distance, geographic patterns in population structure, or correlations between the major axes of SNP variation and phenotypes or latitude of origin. We conclude that the North American clines in size and the parallel clines seen for flowering time are most likely the result of adaptation. [ABSTRACT FROM AUTHOR]

Published

2020

25. Gene flow and genetic admixture across a secondary contact zone between two divergent lineages of the Eurasian Green Woodpecker Picus viridis.

Author

Pons, J.-M., Masson, C., Olioso, G., and Fuchs, J.

Subjects

*GENE flow, *WOODPECKERS, *SUBSPECIES, *ZONING, *PALEARCTIC

Abstract

Secondary contact zones are natural systems which can be efficiently used to measure genetic differentiation and gene flow and thus provide a good opportunity to assess the level of reproductive isolation between divergent evolutionary lineages. In this study, we used ten Z-linked and nine autosomal loci from seven chromosomes and twenty males to evaluate gene flow across a secondary contact zone between two mitochondrial lineages of the Eurasian Green Woodpecker (Picus viridis), that diverged around 1 million years ago. One lineage (Picus viridissharpei) is distributed throughout the Iberian Peninsula whereas the other one (Picus viridisviridis) is widespread across the Western Palearctic. These two lineages form a secondary contact zone in southern France. Formerly treated as two subspecies of Picus viridis, several authors have recently proposed assigning a specific rank to P. viridis sharpei and P. viridis viridis. Our results indicate no introgression of nuclear loci in allopatric populations located on both sides of the contact zone, which thus acts as an efficient barrier to gene flow. All males sampled within the contact zone and one male sampled near its eastern border were slightly admixed revealing that reproductive isolation between P. viridissharpei and P viridis viridis has not been completely achieved. In accordance with the geographical range of each lineage, the two admixed males sampled near the western border of the contact zone harboured a large proportion of P. viridissharpei alleles whereas admixed males sampled eastwardly near the Rhone Valley had a high proportion of P. viridis viridis alleles. Overall our results further support considering P. viridissharpei and P. viridisviridis as two biological species. [ABSTRACT FROM AUTHOR]

Published

2019

26. Does thermal plasticity align with local adaptation? An interspecific comparison of wing morphology in sepsid flies.

Author

Rohner, Patrick T., Roy, Jeannine, Schäfer, Martin A., Blanckenhorn, Wolf U., and Berger, David

Subjects

*THERMAL tolerance (Physiology), *MATERIAL plasticity, *PHENOTYPIC plasticity, *MORPHOLOGY, *PHYSIOLOGICAL adaptation, *SEXUAL dimorphism

Abstract

Although genetic and plastic responses are sometimes considered as unrelated processes, their phenotypic effects may often align because genetic adaptation is expected to mirror phenotypic plasticity if adaptive, but run counter to it when maladaptive. Because the magnitude and direction of this alignment has further consequences for both the tempo and mode of adaptation, they are relevant for predicting an organisms' reaction to environmental change. To better understand the interplay between phenotypic plasticity and genetic change in mediating adaptive phenotypic variation to climate variability, we here quantified genetic latitudinal variation and thermal plasticity in wing loading and wing shape in two closely related and widespread sepsid flies. Common garden rearing of 16 geographical populations reared across multiple temperatures revealed that wing loading decreases with latitude in both species. This pattern could be driven by selection for increased dispersal capacity in the cold. However, although allometry, sexual dimorphism, thermal plasticity and latitudinal differentiation in wing shape all show similar patterns in the two species, the relationship between the plastic and genetic responses differed between them. Although latitudinal differentiation (south to north) mirrored thermal plasticity (hot to cold) in Sepsis punctum, there was no relationship in Sepsis fulgens. While this suggests that thermal plasticity may have helped to mediate local adaptation in S. punctum, it also demonstrates that genetic wing shape differentiation and its relation to thermal plasticity may be complex and idiosyncratic, even among ecologically similar and closely related species. Hence, genetic responses can, but do not necessarily, align with phenotypic plasticity induced by changing environmental selection pressures. [ABSTRACT FROM AUTHOR]

Published

2019

27. The adaptive significance of chromosomal inversion polymorphisms in Drosophila melanogaster.

Author

Kapun, Martin and Flatt, Thomas

Subjects

*DROSOPHILA melanogaster, *GENETIC polymorphisms, *CHROMOSOMES, *HYPOTHESIS, *GENOMES

Abstract

Chromosomal inversions, structural mutations that reverse a segment of a chromosome, cause suppression of recombination in the heterozygous state. Several studies have shown that inversion polymorphisms can form clines or fluctuate predictably in frequency over seasonal time spans. These observations prompted the hypothesis that chromosomal rearrangements might be subject to spatially and/or temporally varying selection. Here, we review what has been learned about the adaptive significance of inversion polymorphisms in the vinegar fly Drosophila melanogaster, the species in which they were first discovered by Sturtevant in 1917. A large body of work provides compelling evidence that several inversions in this system are adaptive; however, the precise selective mechanisms that maintain them polymorphic in natural populations remain poorly understood. Recent advances in population genomics, modelling and functional genetics promise to greatly improve our understanding of this long‐standing and fundamental problem in the near future. [ABSTRACT FROM AUTHOR]

Published

2019

28. Adaptation along a climatic gradient: Is trait plasticity or genetic adaptation responsible in the narrow-leaf hop-bush 'Dodonaea viscosa' ssp. 'angustissima'?; A lesson in collecting seed for common garden experiements

Author

Christmas, Matthew J

Published

2015

29. Is the Success of Plant Invasions the Result of Rapid Adaptive Evolution in Seed Traits? Evidence from a Latitudinal Rainfall Gradient

Author

Marco A. Molina-Montenegro, Ian S. Acuña-Rodríguez, Tomás S. M. Flores, Rasme Hereme, Alejandra Lafon, Cristian Atala, and Cristian Torres-Díaz

Subjects

dandelion, clines, heritability, invasive, latitudinal gradient, reciprocal transplant, Plant culture, SB1-1110

Abstract

It has been widely suggested that invasion success along broad environmental gradients may be partially due to phenotypic plasticity, but rapid evolution could also be a relevant factor for invasions. Seed and fruit traits can be relevant for plant invasiveness since they are related to dispersal, germination, and fitness. Some seed traits vary along environmental gradients and can be heritable, with the potential to evolve by means of natural selection. Utilizing cross-latitude and reciprocal-transplant experiments, we evaluated the adaptive value of seed thickness as assessed by survival and biomass accumulation in Taraxacum officinale plants. In addition, thickness of a seed and Endosperm to Seed Coat Proportion (ESCP) in a second generation (F2) was measured to evaluate the heritability of this seed trait. On the other hand, we characterized the genetic variability of the sampled individuals with amplified fragment length polymorphism (AFLP) markers, analyzing its spatial distribution and population structure. Overall, thickness of seed coat (plus wall achene) decreases with latitude, indicating that individuals of T. officinale from northern populations have a thicker seed coat than those from southern populations. Germination increased with greater addition of water and seeds from southern localities germinated significantly more than those from the north. Additionally, reciprocal transplants showed significant differences in survival percentage and biomass accumulation among individuals from different localities and moreover, the high correlation between maternal plants and their offspring can be suggesting a high grade of heritability of this trait. Although genetic differentiation was found when was considered all populations, there was no significant differentiation when only was compared the northernmost populations which inhabit in the driest climate conditions. Our results suggest that climatic conditions could affect both, the ESCP and the genetic variability in the invasive T. officinale, suggesting that this seed trait could be indicative of adaptive selection. Thus, colonization along broad geographical gradients in many cases may be the result –in part- for the presence of functional traits as shown in invasive plant species with rapid adaptive capacity.

Published

2018

30. Rapid establishment of a flowering cline in Medicago polymorpha after invasion of North America.

Author

Helliwell, Emily E., Faber‐Hammond, Joshua, Lopez, Zoie C., Garoutte, Aaron, Wettberg, Eric, Friesen, Maren L., and Porter, Stephanie S.

Subjects

*CLINES, *MEDICAGO, *FLOWER development, *INTRODUCED species, *BIOLOGICAL invasions

Abstract

To establish and spread in a new location, an invasive species must be able to carry out its life cycle in novel environmental conditions. A key trait underlying fitness is the shift from vegetative to reproductive growth through floral development. In this study, we used a common garden experiment and genotyping‐by‐sequencing to test whether the latitudinal flowering cline of the North American invasive plant Medicago polymorpha was translocated from its European native range through multiple introductions, or whether the cline rapidly established due to evolution following a genetic bottleneck. Analysis of flowering time in 736 common garden plants showed a latitudinal flowering time cline in both the native and invaded ranges where genotypes from lower latitudes flowered earlier. Genotyping‐by‐sequencing of 9,658 SNPs in 446 individuals revealed two major subpopulations of M. polymorpha in the native range, only one of which is present in the invaded range. Additionally, native range populations have higher genetic diversity than invaded range populations, suggesting that a genetic bottleneck occurred during invasion. All invaded range individuals are closely related to plants collected from native range populations in Portugal and southern Spain, and population assignment tests assigned invaded range individuals to this same narrow source region. Taken together, our results suggest that latitudinal clinal variation in flowering time has rapidly evolved across the invaded range despite a genetic bottleneck following introduction. [ABSTRACT FROM AUTHOR]

Published

2018

31. Genetic constraints on microevolutionary divergence of sex-biased gene expression.

Author

Allen, Scott L., Bonduriansky, Russell, and Chenoweth, Stephen F.

Subjects

*GENE expression, *MOLECULAR genetics, *SPECIES, *PHYSIOLOGICAL adaptation, *GENETICS

Abstract

The evolution of sex-specific phenotypes is an important dimension of diversification and local adaptation. The sex-dependent regulation of gene expression is considered a key genomic mechanism facilitating sex-dependent adaptation. In many species, genes with male-biased expression evolve faster in DNA sequence and expression level than genes with femalebiased or sexually monomorphic expression. While positive selection may be responsible for rapid DNA sequence evolution, why expression of male-biased genes also evolves rapidly remains unclear. Beyond sex differences in selection, some aspects of the genetic architecture of gene expression could contribute to the rapid evolution of male-biased gene expression. First, male-biased genes might simply have greater standing genetic variance than female-biased genes. Second, male-biased genes could be less constrained by pleiotropy, either within or between sexes. Here, we evaluate these alternative explanations on an intraspecific scale using a series of quantitative genetic experiments conducted on natural variation in male and female gene expression in the fly Drosophila serrata. Male-biased genes had significantly higher genetic variance than femalebiased genes and were generally more narrowly expressed across tissues, suggesting lower within-individual pleiotropy. However, consistent with stronger constraints due to between-sex pleiotropy, their between-sex genetic correlations, rMF, were higher than for female-biased genes and more strongly negatively associated with sex bias. Using an extensive clinal dataset, we tested whether sex differences in gene expression divergence among populations have been shaped by pleiotropy. Here too, male-biased gene divergence was more strongly associated with between-sex pleiotropy than was female-biased gene divergence. Systematic differences in genetic variance and pleiotropy may be important factors influencing sex-specific adaptation arising through changes in gene expression. [ABSTRACT FROM AUTHOR]

Published

2018

32. Temporal dynamics of genetic clines of invasive European green crab (Carcinus maenas) in eastern North America.

Author

Lehnert, Sarah J., DiBacco, Claudio, Jeffery, Nicholas W., Blakeslee, April M. H., Isaksson, Jonatan, Roman, Joe, Wringe, Brendan F., Stanley, Ryan R. E., Matheson, Kyle, McKenzie, Cynthia H., Hamilton, Lorraine C., and Bradbury, Ian R.

Subjects

*CLINES, *CARCINUS maenas, *INTRODUCED species, *BIOLOGICAL invasions, *SINGLE nucleotide polymorphisms

Abstract

Two genetically distinct lineages of European green crabs (Carcinus maenas) were independently introduced to eastern North America, the first in the early 19th century and the second in the late 20th century. These lineages first came into secondary contact in southeastern Nova Scotia, Canada (NS), where they hybridized, producing latitudinal genetic clines. Previous studies have documented a persistent southward shift in the clines of different marker types, consistent with existing dispersal and recruitment pathways. We evaluated current clinal structure by quantifying the distribution of lineages and fine‐scale hybridization patterns across the eastern North American range (25 locations, ~39 to 49°N) using informative single nucleotide polymorphisms (SNPs; n = 96). In addition, temporal changes in the genetic clines were evaluated using mitochondrial DNA and microsatellite loci (n = 9–11) over a 15‐year period (2000–2015). Clinal structure was consistent with prior work demonstrating the existence of both northern and southern lineages with a hybrid zone occurring between southern New Brunswick (NB) and southern NS. Extensive later generation hybrids were detected in this region and in southeastern Newfoundland. Temporal genetic analysis confirmed the southward progression of clines over time; however, the rate of this progression was slower than predicted by forecasting models, and current clines for all marker types deviated significantly from these predictions. Our results suggest that neutral and selective processes contribute to cline dynamics, and ultimately, highlight how selection, hybridization, and dispersal can collectively influence invasion success. [ABSTRACT FROM AUTHOR]

Published

2018

33. An inversion supergene in Drosophila underpins latitudinal clines in survival traits.

Author

Durmaz, Esra, Benson, Clare, Kapun, Martin, Schmidt, Paul, and Flatt, Thomas

Subjects

*DROSOPHILA, *CLINES, *CHROMOSOME inversions, *BIOLOGICAL adaptation, *BODY size, *DROSOPHILA melanogaster, *GENETIC polymorphisms

Abstract

Abstract: Chromosomal inversions often contribute to local adaptation across latitudinal clines, but the underlying selective mechanisms remain poorly understood. We and others have previously shown that a clinal inversion polymorphism in Drosophila melanogaster, In(3R)Payne, underpins body size clines along the North American and Australian east coasts. Here, we ask whether this polymorphism also contributes to clinal variation in other fitness‐related traits, namely survival traits (lifespan, survival upon starvation and survival upon cold shock). We generated homokaryon lines, either carrying the inverted or standard chromosomal arrangement, isolated from populations approximating the endpoints of the North American cline (Florida, Maine) and phenotyped the flies at two growth temperatures (18 °C, 25 °C). Across both temperatures, high‐latitude flies from Maine lived longer and were more stress resistant than low‐latitude flies from Florida, as previously observed. Interestingly, we find that this latitudinal pattern is partly explained by the clinal distribution of the In(3R)P polymorphism, which is at ~ 50% frequency in Florida but absent in Maine: inverted karyotypes tended to be shorter‐lived and less stress resistant than uninverted karyotypes. We also detected an interaction between karyotype and temperature on survival traits. As In(3R)P influences body size and multiple survival traits, it can be viewed as a ‘supergene’, a cluster of tightly linked loci affecting multiple complex phenotypes. We conjecture that the inversion cline is maintained by fitness trade‐offs and balancing selection across geography; elucidating the mechanisms whereby this inversion affects alternative, locally adapted phenotypes across the cline is an important task for future work. [ABSTRACT FROM AUTHOR]

Published

2018

34. Geographic clines in wing morphology relate to colonization history in New World but not Old World populations of yellow dung flies.

Author

Schäfer, Martin A., Berger, David, Rohner, Patrick T., Kjaersgaard, Anders, Bauerfeind, Stephanie S., Guillaume, Frédéric, Fox, Charles W., and Blanckenhorn, Wolf U.

Subjects

*ANTHOMYIIDAE, *CLINES, *GENETICS, *HABITATS, *NATURAL selection

Abstract

Abstract: Geographic clines offer insights about putative targets and agents of natural selection as well as tempo and mode of adaptation. However, demographic processes can lead to clines that are indistinguishable from adaptive divergence. Using the widespread yellow dung fly Scathophaga stercoraria (Diptera: Scathophagidae), we examine quantitative genetic differentiation (QST) of wing shape across North America, Europe, and Japan, and compare this differentiation with that of ten microsatellites (FST). Morphometric analyses of 28 populations reared at three temperatures revealed significant thermal plasticity, sexual dimorphism, and geographic differentiation in wing shape. In North America morphological differentiation followed the decline in microsatellite variability along the presumed route of recent colonization from the southeast to the northwest. Across Europe, where S. stercoraria presumably existed for much longer time and where no molecular pattern of isolation by distance was evident, clinal variation was less pronounced despite significant morphological differentiation (QST>FST). Shape vector comparisons further indicate that thermal plasticity (hot‐to‐cold) does not mirror patterns of latitudinal divergence (south‐to‐north), as might have been expected under a scenario with temperature as the major agent of selection. Our findings illustrate the importance of detailed phylogeographic information when interpreting geographic clines of dispersal traits in an adaptive evolutionary framework. [ABSTRACT FROM AUTHOR]

Published

2018

35. Clines on the seashore: The genomic architecture underlying rapid divergence in the face of gene flow.

Author

Westram, Anja M., Rafajlović, Marina, Chaube, Pragya, Faria, Rui, Larsson, Tomas, Panova, Marina, Ravinet, Mark, Blomberg, Anders, Mehlig, Bernhard, Johannesson, Kerstin, and Butlin, Roger

Abstract

Abstract: Adaptive divergence and speciation may happen despite opposition by gene flow. Identifying the genomic basis underlying divergence with gene flow is a major task in evolutionary genomics. Most approaches (e.g., outlier scans) focus on genomic regions of high differentiation. However, not all genomic architectures potentially underlying divergence are expected to show extreme differentiation. Here, we develop an approach that combines hybrid zone analysis (i.e., focuses on spatial patterns of allele frequency change) with system‐specific simulations to identify loci inconsistent with neutral evolution. We apply this to a genome‐wide SNP set from an ideally suited study organism, the intertidal snail Littorina saxatilis, which shows primary divergence between ecotypes associated with different shore habitats. We detect many SNPs with clinal patterns, most of which are consistent with neutrality. Among non‐neutral SNPs, most are located within three large putative inversions differentiating ecotypes. Many non‐neutral SNPs show relatively low levels of differentiation. We discuss potential reasons for this pattern, including loose linkage to selected variants, polygenic adaptation and a component of balancing selection within populations (which may be expected for inversions). Our work is in line with theory predicting a role for inversions in divergence, and emphasizes that genomic regions contributing to divergence may not always be accessible with methods purely based on allele frequency differences. These conclusions call for approaches that take spatial patterns of allele frequency change into account in other systems. [ABSTRACT FROM AUTHOR]

Published

2018

36. Clines in traits compared over two decades in a plant hybrid zone.

Author

Campbell, Diane R, Faidiga, Alexandra, and Trujillo, Gabriel

Subjects

*CLINES, *HYBRID zones, *NATURAL selection, *BIOLOGICAL evolution, *SCARLET gilia, *PLANTS

Abstract

Background and Aims Clines in traits across hybrid zones reflect a balance between natural selection and gene flow. Changes over time in average values for traits, and especially the shapes of their clines, are rarely investigated in plants, but could result from evolution in an unstable hybrid zone. Differences in clines between floral and vegetative traits could indicate different strengths of divergent selection. Methods Five floral and two vegetative traits were measured in 12 populations along an elevational gradient spanning a natural hybrid zone between Ipomopsis aggregata and Ipomopsis tenuituba. We compared clines in the floral traits with those measured 25 years ago. Observed changes in mean trait values were compared with predictions based on prior estimates of natural selection. We also compared the steepness and position of clines between the floral and vegetative traits. Key Results Corolla length has increased over five generations to an extent that matches predictions from measurements of phenotypic selection and heritability. The shape of its cline, and that of other traits, has not changed detectably. Clines varied across traits, but not all floral traits showed steeper clines than did vegetative traits. Both suites of morphological traits had steeper clines than did neutral molecular markers. Conclusions The increase in corolla length provides a rare example of a match between predicted and observed evolution of a plant trait in natural populations. The clinal properties are consistent with the hypothesis that habitat-mediated divergent selection on vegetative traits and pollinator-mediated selection on floral traits both maintain species differences across the hybrid zone. [ABSTRACT FROM AUTHOR]

Published

2018

37. Modern spandrels: the roles of genetic drift, gene flow and natural selection in the evolution of parallel clines.

Author

Santangelo, James S., Johnson, Marc T. J., and Ness, Rob W.

Subjects

*CLINES, *BIOLOGICAL evolution, *WHITE clover, *CYANOGENESIS, *PHENOTYPES, *HYDROCYANIC acid, *SIMULATION methods & models, *PLANTS

Abstract

Urban environments offer the opportunity to study the role of adaptive and non-adaptive evolutionary processes on an unprecedented scale. While the presence of parallel clines in heritable phenotypic traits is often considered strong evidence for the role of natural selection, non-adaptive evolutionary processes can also generate clines, and this may be more likely when traits have a non-additive genetic basis due to epistasis. In this paper,we use spatially explicit simulations modelled according to the cyanogenesis (hydrogen cyanide, HCN) polymorphism in white clover (Trifolium repens) to examine the formation of phenotypic clines along urbanization gradients under varying levels of drift, gene flowand selection. HCNresults froman epistatic interaction between two Mendelian-inherited loci. Our results demonstrate that the genetic architecture of this trait makes natural populations susceptible to decreases in HCN frequencies via drift. Gradients in the strength of drift across a landscape resulted in phenotypic clines with lower frequencies of HCN in strongly drifting populations, giving the misleading appearance of deterministic adaptive changes in the phenotype. Studies of heritable phenotypic change in urban populations should generate null models of phenotypic evolution based on the genetic architecture underlying focal traits prior to invoking selection's role in generating adaptive differentiation. [ABSTRACT FROM AUTHOR]

Published

2018

38. Elevational clines in morphological traits of subtropical and tropical butterfly assemblages.

Author

SHUANG XING, WENDA CHENG, AKIHIRO NAKAMURA, CHIN CHEUNG TANG, PICKETT, EVAN J., SHUYIN HUANG, ODELL, ERICA, GOODALE, EBEN, GOODALE, UROMI M., and BONEBRAKE, TIMOTHY C.

Subjects

*CLINES, *INSECT morphology, *SPECIES distribution, *MELANISM, *INSECT ecology, *BUTTERFLIES, *INSECTS

Abstract

Morphological traits can determine the ecological niches and performance of ectotherms and structure their distributions along environmental gradients. The thermal melanism hypothesis and Bergmann’s rule describe patterns of body colour luminance and body size along environmental gradients shaped by thermal influences on morphology. However, these patterns have rarely been investigated at the interspecific level for subtropical and tropical mountain environments. In this study, we sampled butterfly assemblages along elevations across three subtropical and tropical locations in China and examined how environmental factors affected body colour luminance and body size. We additionally reconstructed phylogenetic relationships among the sampled butterfly species and investigated morphology– elevation relationships within an evolutionary framework. Butterfly assemblages were consistently darker and larger at higher elevations across three replicate locations. Furthermore, based on a phylogenetic comparative analysis, we found that body colour luminance and body size of butterfly assemblages responded to elevation through both long-term processes and more recent environmental influences. Our findings support the thermal melanism hypothesis and Bergmann’s rule from diverse subtropical and tropical butterfly assemblages, indicating elevation may structure the distributions of tropical species through morphology. The thermal functions of morphology should therefore be considered when investigating species distribution patterns and responses to environmental changes. [ABSTRACT FROM AUTHOR]

Published

2018

39. Is the Success of Plant Invasions the Result of Rapid Adaptive Evolution in Seed Traits? Evidence from a Latitudinal Rainfall Gradient.

Author

Molina-Montenegro, Marco A., Acuña-Rodríguez, Ian S., Flores, Tomás S. M., Hereme, Rasme, Lafon, Alejandra, Atala, Cristian, and Torres-Díaz, Cristian

Subjects

PLANT invasions, SEEDS & climate, RAINFALL

Abstract

It has been widely suggested that invasion success along broad environmental gradients may be partially due to phenotypic plasticity, but rapid evolution could also be a relevant factor for invasions. Seed and fruit traits can be relevant for plant invasiveness since they are related to dispersal, germination, and fitness. Some seed traits vary along environmental gradients and can be heritable, with the potential to evolve by means of natural selection. Utilizing cross-latitude and reciprocal-transplant experiments, we evaluated the adaptive value of seed thickness as assessed by survival and biomass accumulation in Taraxacum officinale plants. In addition, thickness of a seed and Endosperm to Seed Coat Proportion (ESCP) in a second generation (F2) was measured to evaluate the heritability of this seed trait. On the other hand, we characterized the genetic variability of the sampled individuals with amplified fragment length polymorphism (AFLP) markers, analyzing its spatial distribution and population structure. Overall, thickness of seed coat (plus wall achene) decreases with latitude, indicating that individuals of T. officinale from northern populations have a thicker seed coat than those from southern populations. Germination increased with greater addition of water and seeds from southern localities germinated significantly more than those from the north. Additionally, reciprocal transplants showed significant differences in survival percentage and biomass accumulation among individuals from different localities and moreover, the high correlation between maternal plants and their offspring can be suggesting a high grade of heritability of this trait. Although genetic differentiation was found when was considered all populations, there was no significant differentiation when only was compared the northernmost populations which inhabit in the driest climate conditions. Our results suggest that climatic conditions could affect both, the ESCP and the genetic variability in the invasive T. officinale, suggesting that this seed trait could be indicative of adaptive selection. Thus, colonization along broad geographical gradients in many cases may be the result --in part- for the presence of functional traits as shown in invasive plant species with rapid adaptive capacity. [ABSTRACT FROM AUTHOR]

Published

2018

40. Relative contributions of neutral and non-neutral processes to clinal variation in calyx lobe length in the series Sakawanum (Asarum: Aristolochiaceae).

Author

Takahashi, Daiki, Teramine, Tsutomu, Sakaguchi, Shota, and Setoguchi, Hiroaki

Subjects

*CALYX, *ASARUM, *CLINES, *PLANT evolution, *MICROSATELLITE repeats in plants

Abstract

• Background and Aims Clines, the gradual variation in measurable traits along a geographical axis, play a major role in evolution and can contribute to our understanding of the relative roles of selective and neutral process in trait variation. Using genetic and morphological analyses, the relative contributions of neutral and non-neutral processes were explored to infer the evolutionary history of species of the series Sakawanum (genus Asarum), which shows significant clinal variation in calyx lobe length. • Methods A total of 27 populations covering the natural geographical distribution of the series Sakawanum were sampled. Six nuclear microsatellite markers were used to investigate genetic structure and genetic diversity. The lengths of calyx lobes of multiple populations were measured to quantify their geographical and taxonomic differentiation. To detect the potential impact of selective pressure, morphological differentiation was compared with genetic differentiation (QCT-FST comparison). • Key Results Average calyx lobe length of A. minamitanianum was 124.11 mm, while that of A. costatum was 13.80 mm. Though gradually changing along the geographical axis within series, calyx lobe lengths were significantly differentiated among the taxa. Genetic differentiation between taxa was low (FST = 0.099), but a significant geographical structure along the morphological cline was detected. Except for one taxon pair, pairwise QCT values were significantly higher than the neutral genetic measures of FST and G'ST. • Conclusions Divergent selection may have driven the calyx lobe length variation in series Sakawanum taxa, although the underlying mechanism is still not clear. The low genetic differentiation indicates recent divergence and/or gene flows between geographically close taxa. These neutral processes would also affect the clinal variation in calyx lobe lengths. Overall, this study implies the roles of population history and divergent selection in shaping the current cline of a flower trait in the series Sakawanum. [ABSTRACT FROM AUTHOR]

Published

2018

41. Range-wide parallel climate-associated genomic clines in Atlantic salmon

Author

Nicholas W. Jeffery, Ryan R. E. Stanley, Brendan F. Wringe, Javier Guijarro-Sabaniel, Vincent Bourret, Louis Bernatchez, Paul Bentzen, Robert G. Beiko, John Gilbey, Marie Clément, and Ian R. Bradbury

Subjects

atlantic salmon, snps, clines, adaptation, parallel evolution, Science

Abstract

Clinal variation across replicated environmental gradients can reveal evidence of local adaptation, providing insight into the demographic and evolutionary processes that shape intraspecific diversity. Using 1773 genome-wide single nucleotide polymorphisms we evaluated latitudinal variation in allele frequency for 134 populations of North American and European Atlantic salmon (Salmo salar). We detected 84 (4.74%) and 195 (11%) loci showing clinal patterns in North America and Europe, respectively, with 12 clinal loci in common between continents. Clinal single nucleotide polymorphisms were evenly distributed across the salmon genome and logistic regression revealed significant associations with latitude and seasonal temperatures, particularly average spring temperature in both continents. Loci displaying parallel clines were associated with several metabolic and immune functions, suggesting a potential basis for climate-associated adaptive differentiation. These climate-based clines collectively suggest evidence of large-scale environmental associated differences on either side of the North Atlantic. Our results support patterns of parallel evolution on both sides of the North Atlantic, with evidence of both similar and divergent underlying genetic architecture. The identification of climate-associated genomic clines illuminates the role of selection and demographic processes on intraspecific diversity in this species and provides a context in which to evaluate the impacts of climate change.

Published

2017

42. ClineHelpR

Author

Martin, Bradley

Subjects

bgc, cline help r, genomic cline, introgression, introgress, hybridization, clinehelpr, clines

Abstract

Example Data for ClineHelpR R Package

Published

2022

43. Rapid evolution of wing size clines in Drosophila subobscura

Author

Gilchrist, George W., Huey, Raymond B., Serra, Lluís, Hendry, A. P., editor, and Kinnison, M. T., editor

Published

2001

44. Global biogeography of warning coloration in the butterfly Danaus chrysippus

Author

Wanzhen Liu, David A. S. Smith, Gayatri Raina, Rowan Stanforth, Ivy Ng'Iru, Piera Ireri, Dino J. Martins, Ian J. Gordon, and Simon H. Martin

Subjects

citizen science, aposematic, dispersal, General Agricultural and Biological Sciences, Agricultural and Biological Sciences (miscellaneous), polymorphism, clines

Abstract

Warning coloration provides a textbook example of natural selection, but the frequent observation of polymorphism in aposematic species presents an evolutionary puzzle. We investigated biogeography and polymorphism of warning patterns in the widespread butterfly Danaus chrysippus using records from citizen science ( n = 5467), museums ( n = 8864) and fieldwork ( n = 2586). We find that polymorphism in three traits controlled by known mendelian loci is extensive. Broad allele frequency clines, hundreds of kilometres wide, suggest a balance between long-range dispersal and predation of unfamiliar morphs. Mismatched clines for the white hindwing and forewing tip in East Africa are consistent with a previous finding that the black wingtip allele has spread recently in the region through hitchhiking with a heritable endosymbiont. Light/dark background coloration shows more extensive polymorphism. The darker genotype is more common in cooler regions, possibly reflecting a trade-off between thermoregulation and predator warning. Overall, our findings show how studying local adaptation at the global scale provides a more complete picture of the evolutionary forces involved.

Published

2022

45. Grow with the flow: a latitudinal cline in physiology is associated with more variable precipitation in Erythranthe cardinalis.

Author

Muir, C. D. and Angert, A. L.

Subjects

*PHOTOSYNTHESIS, *CLIMATE change, *PHOTOSYNTHETIC rates, *CLINES, *MACHINE learning

Abstract

Local adaptation is commonly observed in nature: organisms perform well in their natal environment, but poorly outside it. Correlations between traits and latitude, or latitudinal clines, are among the most common pieces of evidence for local adaptation, but identifying the traits under selection and the selective agents is challenging. Here, we investigated a latitudinal cline in growth and photosynthesis across 16 populations of the perennial herb Erythranthe cardinalis (Phrymaceae). Using machine learning methods, we identify interannual variation in precipitation as a likely selective agent: southern populations from more variable environments had higher photosynthetic rates and grew faster. We hypothesize that selection may favour a more annualized life history - grow now rather than save for next year - in environments where severe droughts occur more often. Thus, our study provides insight into how species may adapt if Mediterranean climates become more variable due to climate change. [ABSTRACT FROM AUTHOR]

Published

2017

46. Narrow hybrid zones in spite of very low population differentiation in neutral markers in an island bird species complex.

Author

Delahaie, B., Cornuault, J., Masson, C., Bertrand, J. A. M., Bourgeois, Y. X. C., Milá, B., and Thébaud, C.

Subjects

*CLINES, *COLOR of birds, *ZOSTEROPS, *HYBRID zones, REPRODUCTIVE isolation

Abstract

Patterns of phenotypic and genic frequencies across hybrid zones provide insight into the origin and evolution of reproductive isolation. The Reunion grey white-eye, Zosterops borbonicus, exhibits parapatrically distributed plumage colour forms across the lowlands of the small volcanic island of Reunion (Mascarene archipelago). These forms meet and hybridize in regions that are natural barriers to dispersal (rivers, lava fields). Here, we investigated the relationship among patterns of differentiation at neutral genetic (microsatellite) markers, phenotypic traits (morphology and plumage colour) and niche characteristics across three independent hybrid zones. Patterns of phenotypic divergence revealed that these hybrid zones are among the narrowest ever documented in birds. However, the levels of phenotypic divergence stand in stark contrast to the lack of clear population neutral genetic structure between forms. The position of the hybrid zones coincides with different natural physical barriers, yet is not associated with steep changes in vegetation and related climatic variables, and major habitat transitions are shifted from these locations by at least 18 km. This suggests that the hybrid zones are stabilized over natural dispersal barriers, independently of environmental boundaries, and are not associated with niche divergence. A striking feature of these hybrid zones is the very low levels of genetic differentiation in neutral markers between forms, suggesting that phenotypic divergence has a narrow genetic basis and may reflect recent divergence at a few linked genes under strong selection, with a possible role for assortative mating in keeping these forms apart. [ABSTRACT FROM AUTHOR]

Published

2017

47. Testing environmental correlates of clines in clades: an example from cassidine beetles.

Author

Simões, Marianna V. P., Lieberman, Bruce S., Soberón, Jorge, Peterson, A. Townsend, Basset, Yves, and Barton, Philip

Subjects

*CLINES, *BEETLES, *BIOLOGICAL evolution, *SPECIES distribution, *PHENOTYPES

Abstract

Phenotypic change across environmental gradients has been an important topic in evolutionary biology. Members of the tortoise beetle tribe Dorynotini are characterised by an elytral suture adorned with either a tubercle or a large, vertical spine. Overall spine height across species had previously been posited to exhibit a latitudinal gradient of increasing height and decreasing width towards the southern extreme of the tribe's range, and this pattern had been linked to environmental variation., We explore the evidence behind such a cline by testing associations between climate and morphology across the clade's geographic distribution using an approach based on ecological niche modelling (ENM) and morphological and environmental hypervolumes. The degree of overlap between the respective hypervolumes was assessed, and the correlation of matrix overlap values was quantified using Mantel tests. Degrees of niche similarity and conservatism at the genus level were also assessed using both Schoener's index and Hellinger distances., Overall, we observed that characters defining our morphological hypervolumes were informative, and capable of grouping taxa into discrete units in morphospace. In contrast, environmental hypervolumes were largely homogeneous across the tribe, with high overlap among taxa. No significant correlations were found between environmental and morphological hypervolumes., Our results indicate that morphological divergence occurs along with high levels of environmental overlap; perhaps historical biogeographic factors along with sexual selection may have promoted its diversification. Our approach based on ENM and statistical comparisons between environmental and morphological hypervolumes can provide a useful approach to testing the existence of gradients and clines. [ABSTRACT FROM AUTHOR]

Published

2017

48. Analysis of Population Genomic Data from Hybrid Zones.

Author

Gompert, Zachariah, Mandeville, Elizabeth G., and Buerkle, C. Alex

Abstract

Hybrid zones provide a powerful opportunity to analyze ecological and evolutionary interactions between divergent lineages. As such, research on hybrid zones has played a prominent role in the fields of evolutionary biology and systematics. Herein, we clarify what hybrid zones are, what is (and is not) known about them, and how different types of genomic data contribute to our understanding of hybrid zones. We then review two key topics, namely, what genomic analyses of hybrid zones have revealed about the basis and dynamics of speciation and how hybrid zones directly affect evolutionary processes. In the latter case, we emphasize the importance of contingency and ecological and genomic context in outcomes of hybridization. Throughout, we highlight limitations and key unknowns, and suggest approaches most likely to advance our understanding of hybrid zones and evolutionary processes in general. [ABSTRACT FROM AUTHOR]

Published

2017

49. Anatomy of a cline: dissecting anti-predatory adaptations in a marine gastropod along the U.S. Atlantic coast.

Author

Kosloski, Mary E., Dietl, Gregory P., and Handley, John C.

Subjects

*KNOBBED whelk, *PREDATION, *CLINES, *SEASHELLS, *MENIPPE mercenaria, *MOLLUSKS

Abstract

The scope of anti-predatory adaptation is expected to be greater in warm than in cold environments. High temperatures lower the costs associated with the production and maintenance of energetically expensive traits and enable ecological interactions to intensify. We tested this hypothesis by characterizing the expression of anti-predatory morphology within a marine gastropod species (the knobbed whelk Busycon carica) over a large (> 1400 km) geographic area that spans more than 10°C annual temperature variation. We also conducted experimental predation studies with a powerful durophagous predator, the stone crab Menippe, to verify the anti-predatory advantages of a heavily ornamented shell morphology (e.g. increased thickness, pronounced spines), and we used repair scar data to assess clinal variation in selective pressure from predators. We predicted that repair scar rates would be greatest in warm southernmost latitudes, and that expression of energetically costly anti-predatory morphology would peak in concert with elevated predation pressures. Experiments confirmed that whelks with energetically costly, heavily ornamented shells had higher survivorship rates than those with weakly ornamented shells. As predicted, we also found that the expression of anti-predatory traits was greatest in the southern part of B. carica's range. After standardizing shells for size, shape, and exposure time to enemies, repair scar rates also peaked to the south. Taken together, these results suggest that the expression of anti-predatory traits along the geographic cline is governed by the interaction of two selective factors: temperature and predation, with the former acting as the ultimate control on the scope of adaptation both by escalating predation pressure in the southern part of B. carica's range and by physically limiting (to the north) and facilitating (to the south) the production of anti-predatory traits. Feedbacks between temperature and predation thus causally interact to enable and drive, respectively, the observed geographic cline in energy-intensive anti-predatory shell traits. [ABSTRACT FROM AUTHOR]

Published

2017

50. Exploring Jordan's rule in Pacific three-spined stickleback Gasterosteus aculeatus.

Author

Morris, M. R. J., Petrovitch, E., Bowles, E., Jamniczky, H. A., and Rogers, S. M.

Subjects

*BIOLOGICAL adaptation, *CLINES, *PHENOTYPIC plasticity, *PHYSIOLOGICAL effects of temperature, *FISH populations, *THREESPINE stickleback

Abstract

Coastal marine Gasterosteus aculeatus were captured from seven locations along the Pacific coast of North America, ranging across 21·8° latitude to test Jordan's rule, i.e. that vertebral number should increase with increasing latitude for related populations of fish. Vertebral number significantly increased with increasing latitude for both total and caudal vertebral number. Increasing length with latitude ( sensu Bergmann's rule) was also supported, but the predictions for Jordan's rule held when controlling for standard length. Pleomerism was weakly evidenced. Gasterosteus aculeatus exhibited sexual dimorphism for Jordan's rule, with both sexes having more vertebrae at higher latitudes, but only males showing a positive association between latitude and the ratio of caudal to abdominal vertebrae. The number of dorsal- and anal-fin rays and basals increased with increasing latitude, while pectoral-fin ray number decreased. This study reinforces the association between phenotypic variation and environmental variation in marine populations of G. aculeatus. [ABSTRACT FROM AUTHOR]

Published

2017