Your search keyword '"clinal variation"' showing total 10 results

1. Local adaptation to precipitation in the perennial grass Elymus elymoides: Trade‐offs between growth and drought resistance traits

Author

Dana M. Blumenthal, Daniel R. LeCain, Lauren M. Porensky, Elizabeth A. Leger, Rowan Gaffney, Troy W. Ocheltree, and Adrienne M. Pilmanis

Subjects

clinal variation, drought resistance, ecosystem restoration, Elymus elymoides (bottlebrush squirreltail), leaf osmotic potential, leaf size, Evolution, QH359-425

Abstract

Abstract Understanding local adaptation to climate is critical for managing ecosystems in the face of climate change. While there have been many provenance studies in trees, less is known about local adaptation in herbaceous species, including the perennial grasses that dominate arid and semiarid rangeland ecosystems. We used a common garden study to quantify variation in growth and drought resistance traits in 99 populations of Elymus elymoides from a broad geographic and climatic range in the western United States. Ecotypes from drier sites produced less biomass and smaller seeds, and had traits associated with greater drought resistance: small leaves with low osmotic potential and high integrated water use efficiency (δ13C). Seasonality also influenced plant traits. Plants from regions with relatively warm, wet summers had large seeds, large leaves, and low δ13C. Irrespective of climate, we also observed trade‐offs between biomass production and drought resistance traits. Together, these results suggest that much of the phenotypic variation among E. elymoides ecotypes represents local adaptation to differences in the amount and timing of water availability. In addition, ecotypes that grow rapidly may be less able to persist under dry conditions. Land managers may be able to use this variation to improve restoration success by seeding ecotypes with multiple drought resistance traits in areas with lower precipitation. The future success of this common rangeland species will likely depend on the use of tools such as seed transfer zones to match local variation in growth and drought resistance to predicted climatic conditions.

Published

2021

2. Local adaptation to precipitation in the perennial grass Elymus elymoides : Trade‐offs between growth and drought resistance traits

Author

Dana M. Blumenthal, Lauren M. Porensky, Troy W. Ocheltree, Daniel R. LeCain, Elizabeth A. Leger, Adrienne M. Pilmanis, and Rowan Gaffney

Subjects

0106 biological sciences, 0301 basic medicine, Perennial plant, drought resistance, lcsh:Evolution, 010603 evolutionary biology, 01 natural sciences, Elymus elymoides (bottlebrush squirreltail), 03 medical and health sciences, lcsh:QH359-425, Genetics, Water-use efficiency, semiarid steppe, clinal variation, Ecology, Evolution, Behavior and Systematics, Local adaptation, Biomass (ecology), leaf osmotic potential, biology, Ecotype, food and beverages, Elymus, Original Articles, biology.organism_classification, Arid, ecosystem restoration, 030104 developmental biology, Agronomy, leaf size, Original Article, Rangeland, General Agricultural and Biological Sciences, local adaptation

Abstract

Understanding local adaptation to climate is critical for managing ecosystems in the face of climate change. While there have been many provenance studies in trees, less is known about local adaptation in herbaceous species, including the perennial grasses that dominate arid and semiarid rangeland ecosystems. We used a common garden study to quantify variation in growth and drought resistance traits in 99 populations of Elymus elymoides from a broad geographic and climatic range in the western United States. Ecotypes from drier sites produced less biomass and smaller seeds, and had traits associated with greater drought resistance: small leaves with low osmotic potential and high integrated water use efficiency (δ13C). Seasonality also influenced plant traits. Plants from regions with relatively warm, wet summers had large seeds, large leaves, and low δ13C. Irrespective of climate, we also observed trade‐offs between biomass production and drought resistance traits. Together, these results suggest that much of the phenotypic variation among E. elymoides ecotypes represents local adaptation to differences in the amount and timing of water availability. In addition, ecotypes that grow rapidly may be less able to persist under dry conditions. Land managers may be able to use this variation to improve restoration success by seeding ecotypes with multiple drought resistance traits in areas with lower precipitation. The future success of this common rangeland species will likely depend on the use of tools such as seed transfer zones to match local variation in growth and drought resistance to predicted climatic conditions.

Published

2020

3. Wing morphology of the butterfly Coenonympha arcania in Europe: Traces of both historical isolation in glacial refugia and current adaptation

Author

Cassel-Lundhagen, Anna, Schmitt, Thomas, Wahlberg, Niclas, Sarvasová, Lenka, Konvicka, Martin, Ryrholm, Nils, Kanuch, Peter, Cassel-Lundhagen, Anna, Schmitt, Thomas, Wahlberg, Niclas, Sarvasová, Lenka, Konvicka, Martin, Ryrholm, Nils, and Kanuch, Peter

Abstract

In this study, we examined the evolutionary outcome of and interplay between historic isolation and current selection pressures on traits more or less closely connected to fitness in the Pearly Heath butterfly (Coenonympha arcania) across its range in Europe. We hypothesized that a trait mean is more related to historic events if it has low connection to fitness, while a trait more closely connected with fitness is expected to have a mean that relates more to current selection pressures. In order to test this, we collected 322 butterflies from across the species range in Europe and measured five wing traits relating to size and color patterns. To infer a phylogeographic history for each individual, we sequenced a 594 bp fragment of the COI gene. The morphological data were then analyzed in relation to selected climatic variables and the history of individuals to disentangle which factors best correlated with morphological variation. The results supported our hypothesis in that wing sizes correlated with summer precipitation but not with its inferred location during the last glaciation. Eyespot position, on the other hand, correlated with the history of individuals but not with the analyzed climatic indicators. The sizes of the black spot and the white band, two traits that were expected to have intermediate selection pressure, were associated with both history and current conditions. Thus, this study illustrates the fascinating interplay between events and processes that lead to a specific evolutionary outcome.

Published

2020

4. Biogeography of species richness gradients

Subjects

demographic variability, diversification, species richness gradient, systems biology, SPATIALLY STRUCTURED POPULATIONS, ECO-EVOLUTIONARY DYNAMICS, phylogeny, LARGE-SCALE PATTERNS, behaviour, LATITUDINAL DIVERSITY GRADIENT, ABUNDANCE-EXTINCTION DYNAMICS, DROSOPHILA-MELANOGASTER, BREEDING HABITAT SELECTION, BEAK-SHAPE VARIATION, genomics, LIFE-HISTORY TRAITS, adaptive trait, adaptive trait continuum, clinal variation, ENVIRONMENTAL GRADIENTS

Abstract

Here we review how adaptive traits contribute to the emergence and maintenance of species richness gradients through their influence on demographic and diversification processes. We start by reviewing how demographic dynamics change along species richness gradients. Empirical studies show that geographical clines in population parameters and measures of demographic variability are frequent along latitudinal and altitudinal gradients. Demographic variability often increases at the extremes of regional species richness gradients and contributes to shape these gradients. Available studies suggest that adaptive traits significantly influence demographic dynamics, and set the limits of species distributions. Traits related to thermal tolerance, resource use, phenology and dispersal seem to play a significant role. For many traits affecting demography and/or diversification processes, complex mechanistic approaches linking genotype, phenotype and fitness are becoming progressively available. In several taxa, species can be distributed along adaptive trait continuums, i.e. a main axis accounting for the bulk of inter-specific variation in some correlated adaptive traits. It is shown that adaptive trait continuums can provide useful mechanistic frameworks to explain demographic dynamics and diversification in species richness gradients. Finally, we review the existence of sequences of adaptive traits in phylogenies, the interactions of adaptive traits and community context, the clinal variation of traits across geographical gradients, and the role of adaptive traits in determining the history of dispersal and diversification of clades. Overall, we show that the study of demographic and evolutionary mechanisms that shape species richness gradients clearly requires the explicit consideration of adaptive traits. To conclude, future research lines and trends in the field are briefly outlined.

Published

2012

5. Biogeography of species richness gradients: linking adaptive traits, demography and diversification

Author

Constantí Stefanescu, Lluís Brotons, Jofre Carnicer, and Josep Peñuelas

Subjects

diversification, Biogeography, Population Dynamics, Population, species richness gradient, SPATIALLY STRUCTURED POPULATIONS, ECO-EVOLUTIONARY DYNAMICS, Diversification (marketing strategy), Biology, Extinction, Biological, phylogeny, LARGE-SCALE PATTERNS, General Biochemistry, Genetics and Molecular Biology, Life history theory, ABUNDANCE-EXTINCTION DYNAMICS, Phylogenetics, BREEDING HABITAT SELECTION, genomics, Animals, education, adaptive trait continuum, clinal variation, ENVIRONMENTAL GRADIENTS, education.field_of_study, demographic variability, Ecology, systems biology, Biodiversity, Adaptation, Physiological, behaviour, LATITUDINAL DIVERSITY GRADIENT, Taxon, DROSOPHILA-MELANOGASTER, Evolutionary biology, BEAK-SHAPE VARIATION, Biological dispersal, Genetic Fitness, LIFE-HISTORY TRAITS, Species richness, General Agricultural and Biological Sciences, adaptive trait, Demography

Abstract

Here we review how adaptive traits contribute to the emergence and maintenance of species richness gradients through their influence on demographic and diversification processes. We start by reviewing how demographic dynamics change along species richness gradients. Empirical studies show that geographical clines in population parameters and measures of demographic variability are frequent along latitudinal and altitudinal gradients. Demographic variability often increases at the extremes of regional species richness gradients and contributes to shape these gradients. Available studies suggest that adaptive traits significantly influence demographic dynamics, and set the limits of species distributions. Traits related to thermal tolerance, resource use, phenology and dispersal seem to play a significant role. For many traits affecting demography and/or diversification processes, complex mechanistic approaches linking genotype, phenotype and fitness are becoming progressively available. In several taxa, species can be distributed along adaptive trait continuums, i.e. a main axis accounting for the bulk of inter-specific variation in some correlated adaptive traits. It is shown that adaptive trait continuums can provide useful mechanistic frameworks to explain demographic dynamics and diversification in species richness gradients. Finally, we review the existence of sequences of adaptive traits in phylogenies, the interactions of adaptive traits and community context, the clinal variation of traits across geographical gradients, and the role of adaptive traits in determining the history of dispersal and diversification of clades. Overall, we show that the study of demographic and evolutionary mechanisms that shape species richness gradients clearly requires the explicit consideration of adaptive traits. To conclude, future research lines and trends in the field are briefly outlined.

Published

2011

6. Arabidopsis thaliana populations show clinal variation in a climatic gradient associated with altitude

Author

Jennifer Wig, F. Xavier Picó, Stephen J. Tonsor, and Alicia Montesinos-Navarro

Subjects

Arabidopsis thaliana, Physiology, Vegetative reproduction, Photoperiod, Rain, Arabidopsis, Climate change, Plant Science, Biology, Botany, natural variation, clinal variation, Local adaptation, Bolting, Ecology, Phenology, Altitude, Temperature, Genetic Variation, Fecundity, biology.organism_classification, Phenotype, Climatic gradient, genetic differentiation, Evolutionary ecology, local adaptation

Abstract

• Understanding the adaptive basis of life history variation is a central goal in evo- lutionary ecology. The use of model species enables the combination of molecular mechanistic knowledge with ecological and evolutionary questions, but the study of life history variation in natural environments is required to merge these disci- plines. • Here, we tested for clinal variation in life history and associated traits along an environmental and altitudinal gradient in the model species Arabidopsis thaliana. Seventeen natural populations of A. thaliana were geo-referenced in north- eastern Spain on a gradient in which precipitation increases but maximum spring temperature and minimum winter temperature decrease with altitude. • One hundred and eighty-nine genotypes from the 17 populations were grown under uniform controlled conditions. Variations in traits related to biomass alloca- tion, fecundity, phenology and vegetative growth were tested for relationships with the altitude and climatic variables associated with the home sites. Above- ground mass, number of rosette leaves at bolting, developmental time and seed weight increased with the home site’s altitude. Root allocation, vegetative growth during winter and number of seeds decreased with altitude. • We suggest that the differences among home sites provide clues to the variation in adaptive strategies associated with the climatic gradient. We compared these results with adaptations and clinal relationships reported for other species and with molecular mechanisms described in Arabidopsis.

Published

2010

7. Geographic patterns of genetic differentiation and plumage colour variation are different in the pied flycatcher (Ficedula hypoleuca)

Author

Lehtonen, Paula K., Laaksonen, Toni, Artemyev, Aleksandr V., Belskii, Eugen, Both, Christiaan, Bures, Stanislav, Bushuev, Andrey V., Krams, Indrikis, Moreno, Juan, Maegi, Marko, Nord, Andreas, Potti, Jaime, Ravussin, Pierre-Alain, Sirkiae, Paeivi M., Saetre, Glenn-Peter, Primmer, Craig R., Bureš, Stanislav, Mägi, Marko, Sirkiä, Päivi M., and Both group

Subjects

Gene Flow, Male, MITOCHONDRIAL-DNA, Population, DIVERGENT SELECTION, Biology, phylogeography, microsatellites, Songbirds, LAGOPUS-LAGOPUS-SCOTICUS, Gene Frequency, Genetic drift, Genetics, Animals, pigmentation, passerine birds, POPULATION-STRUCTURE, Selection, Genetic, Allele, education, Ecology, Evolution, Behavior and Systematics, CLINAL VARIATION, Panmixia, education.field_of_study, ALLELE FREQUENCY DATA, Natural selection, Geography, Models, Genetic, Genetic Drift, Ficedula, QUANTITATIVE TRAITS, Sequence Analysis, DNA, Feathers, biology.organism_classification, colonization, Q(ST)-F-ST COMPARISONS, P(ST)-F(ST), CONTRASTING PATTERNS, NATURAL-SELECTION, Genetics, Population, Phenotype, Evolutionary biology, Genetic marker, Plumage, genetic differentiation, Microsatellite Repeats

Abstract

The pied flycatcher is one of the most phenotypically variable bird species in Europe. The geographic variation in phenotypes has often been attributed to spatial variation in selection regimes that is associated with the presence or absence of the congeneric collared flycatcher. Spatial variation in phenotypes could however also be generated by spatially restricted gene flow and genetic drift. We examined the genetic population structure of pied flycatchers across the breeding range and applied the phenotypic QST (P ST)-FST approach to detect indirect signals of divergent selection on dorsal plumage colouration in pied flycatcher males. Allelic frequencies at neutral markers were found to significantly differ among populations breeding in central and southern Europe whereas northerly breeding pied flycatchers were found to be one apparently panmictic group of individuals. Pairwise differences between phenotypic (PST) and neutral genetic distances (FST) were positively correlated after removing the most differentiated Spanish and Swiss populations from the analysis, suggesting that genetic drift may have contributed to the observed phenotypic differentiation in some parts of the pied flycatcher breeding range. Differentiation in dorsal plumage colouration however greatly exceeded that observed at neutral genetic markers, which indicates that the observed pattern of phenotypic differentiation is unlikely to be solely maintained by restricted gene flow and genetic drift. © 2009 Blackwell Publishing Ltd.

Published

2009

8. Solidago altissima differs with respect to ploidy frequency and clinal variation across the prairie-forest biome border in Minnesota.

Author

Etterson JR, Toczydlowski RH, Winkler KJ, Kirschbaum JA, and McAulay TS

Subjects

Climate Change, Minnesota, Rain, Snow, Temperature, Forests, Genetic Variation, Genome, Plant, Grassland, Ploidies, Solidago genetics

Abstract

Premise of the Study: Although our awareness of ploidy diversity has expanded with the application of flow cytometry, we still know little about the extent to which cytotypes within mixed-ploidy populations are genetically differentiated across environmental gradients., Methods: To address this issue, we reared 14 populations of Solidago altissima spanning the prairie-forest ecotone in Minnesota in a common garden with a watering treatment. We assessed ploidy frequencies and measured survival, flowering phenology, and plant architectural traits for 4 years., Key Results: All populations harbored multiple cytotypes; prairie populations were dominated by tetraploids, forest populations by hexaploids. Diploids and polyploids differed significantly for 84% of the traits. Beyond average differences, the slope of trait values covaried with latitude and longitude, but this relationship was stronger for diploids than the other two polyploid cytotypes as indicated by numerous ploidy × latitude and ploidy × longitude interactions. For example, the timing of flowering of the cytotypes overlapped in populations sampled from the northeastern hemiboreal forest but differed significantly between cytotypes sampled from populations in the southwestern prairie. The watering treatments had weak effects, and there were no ploidy differences for phenotypic plasticity., Conclusions: Our data show that diploids have diverged genetically to a greater extent than polyploids along the environmental clines sampled in this study. Moreover, different environments favor phenotypic convergence over divergence among cytotypes for some traits. Differences in ploidy frequency and phenotypic divergence among cytotypes across gradients of temperature and precipitation are important considerations for restoration in an age of climate change., (© 2016 Botanical Society of America.)

Published

2016

9. Evolutionary insights from studies of geographic variation: Contemporary variation and looking to the future.

Author

Etterson JR, Schneider HE, Gorden NL, and Weber JJ

Subjects

Phenotype, Biological Evolution, Genetic Variation, Plants genetics

Abstract

In an age of rapid global change, it is imperative that we continue to improve our understanding of factors that govern genetic differentiation in plants to inform biologically reasonable predictions for the future and enlighten conservation and restoration practices. In this special issue, we have assembled a set of original research and reviews that employ diverse approaches, both classic and contemporary, to illuminate patterns of phenotypic and genetic variation, probe the underlying evolutionary processes that have contributed to these patterns, build predictive models, and test evolutionary hypotheses. Our goal was to underscore the unique insights that can be obtained through the complementary and distinct studies of plant populations across species' geographic ranges., (© 2016 Botanical Society of America.)

Published

2016

10. Rethinking refugia: Tree topology, divergence dates, and demographic history trace the distribution of the endangered Plymouth gentian (Sabatia kennedyana) from the Pleistocene glaciation to present day.

Author

Suarez-Gonzalez A, Sutton JT, Trant AJ, Zamlynny E, and Good SV

Subjects

Canada, Climate Change, DNA, Chloroplast metabolism, Evolution, Molecular, Haplotypes genetics, Molecular Sequence Data, Phylogeny, Phylogeography, Sequence Analysis, DNA, United States, DNA, Chloroplast genetics, Genetic Variation, Gentianaceae genetics, Plant Dispersal, Refugium

Abstract

Premise of Study: Molecular population genetics is a powerful tool to infer how species responded to past environmental change. In the northern hemisphere, interest is increasing in how species responded to changes in ice coverage and temperature during the last glaciation maximum (LGM, between 18000-21000 yr ago) with a common assumption that glacial refugia were located at the southern edge of a species range., Methods: We reconstructed the glacial and postglacial phylogeography of Sabatia kennedyana, a member of the Atlantic Coastal Plains Flora with a current distribution from Nova Scotia (NS) to South Carolina, using both cpDNA and nuclear markers. We also examined clinal variation in morphological traits, in particular relative investment in asexual vs sexual growth., Key Results: We find strong evidence that the species did not reside in southern glacial refugia, but rather in primary glacial refugia off the exposed continental shelf extending from Cape Cod and that this area was responsible for the founding of modern populations across the range from Nova Scotia (NS) to the United States. Additionally, based on the finding of higher cpDNA diversity and older cpDNA lineages in NS, we propose that multiple founder events occurred in NS, while only a single lineage gave rise to current populations in the United States., Conclusions: By understanding how S. kennedyana responded to past shifts in climate and by identifying areas of high genetic diversity in the northern range edge, we discuss the potential response of the species to future climate change scenarios., (© 2015 Botanical Society of America, Inc.)

Published

2015