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2. Evolutionary Ecology of the Prezygotic Stage

Author

Bernasconi, G., Birkhead, T. R., Bishop, J. D. D., Grossniklaus, U., Kubli, E., Marshall, D. L., Schmid, B., Skogsmyr, I., Snook, R. R., Taylor, D., Till-Bottraud, I., Ward, P. I., Zeh, D. W., and Hellriegel, B.

Published
2004

4. Pollen and Ovules in Evolutionary Studies

Author

Till-Bottraud, I., Morgante, M., Curiel, R. A., Dajoz, I., Giannini, R., Gonzales, M. L., Gouyon, P. H., Olivieri, A. M., Solorzano, V. D. E., Solorzano, V. E., Vendramini, G. G., Ottaviano, E., editor, Gorla, M. Sari, editor, Mulcahy, D. L., editor, and Mulcahy, G. Bergamini, editor

Published
1992
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11. Genetic diversity and differentiation in Eryngium alpinum L. (apiaceae): comparison of AFLP and microsatellite markers

Author

Gaudeul, M., Till-Bottraud, I., Barjon, F., and Manel, S.

Subjects
Genetic polymorphisms -- Research, Genetic markers -- Research, Biological diversity -- Research, Biological sciences
Abstract

A study is conducted to investigate genetic diversity and structure of 13 populations of Eryngium alpinum L. with the help of 63 dominant amplified fragment length polymorphism (AFLP) and seven codominant microsatellite markers. The findings indicate that genetic patterns are more congruent with the spatial arrangement of populations when inferred from microsatellitees than from AFLP.

Published
2004

13. Genetic structure of the endangered perennial plant Eryngium alpinum (Apiaceae) in an alpine valley

Author

Gaudeul, M., Till-Bottraud, I., Laboratoire d'Ecologie Alpine (LECA), and Université Joseph Fourier - Grenoble 1 (UJF)-Centre National de la Recherche Scientifique (CNRS)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])

Subjects
[SDV.EE]Life Sciences [q-bio]/Ecology, environment, allele frequencies, evolutionary processes, isolation by distance, population-structure, sampling designs, landscape genetics, [SDV.BID]Life Sciences [q-bio]/Biodiversity, landscape, spatial autocorrelation, microsatellites, pollen and seed dispersal, seed dispersal, nested, Multilocus genotype data, geographic patterns, pollen, spatial-analysis, f-statistics, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, gene flow, dispersal, spatial genetic structure
Abstract

International audience; We investigated the genetic structure of Eryngium alpinum (Apiaceae) in an Alpine valley where the plant occurs in patches of various sizes. In a conservation perspective, our goal was to determine whether the valley consists of one or several genetic units. Habitat fragmentation and previous observations of restricted pollen/seed dispersal suggested pronounced genetic structure, but gene dispersal often follows a leptokurtic distribution, which may lead to weak genetic structure. We used nine microsatellite loci and two nested sampling designs (50 x 50 m grid throughout the valley and 2 x 2 m grid in two 50 x 10 m quadrats). Within the overall valley, F-statistics and Bayesian approaches indicated high genetic homogeneity. This result might be explained by: (1) underestimation of long-distance pollen/seed dispersal by in situ experiments and (2) too recent fragmentation events to build up genetic structure. Spatial autocorrelation revealed isolation by distance on the overall valley but this pattern was much more pronounced in the 50 x 10 m quadrats sampled with a 2-m mesh. This was probably associated with limited primary seed dispersal, leading to the spatial clustering of half-sibs around maternal plants. We emphasize the interest of nested sampling designs and of combining several statistical tools. (C) 2008 The Linnean Society of London.

Published
2008

14. Pollen and Ovules in Evolutionary Studies

Author

Till-Bottraud, I., primary, Morgante, M., additional, Curiel, R. A., additional, Dajoz, I., additional, Giannini, R., additional, Gonzales, M. L., additional, Gouyon, P. H., additional, Olivieri, A. M., additional, Solorzano, V. D. E., additional, Solorzano, V. E., additional, and Vendramini, G. G., additional

Published
1984
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15. Population viability analysis of Cypripedium calceolus in a protected area: longevity, stability and persistence

Author

Nicole, F., Brzosko, E., Till-Bottraud, I., Laboratoire d'Ecologie Alpine (LECA), Université Joseph Fourier - Grenoble 1 (UJF)-Centre National de la Recherche Scientifique (CNRS)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry]), Institute of Biology, and University in Bialystok

Subjects
[SDV.EE]Life Sciences [q-bio]/Ecology, environment, demography, dormancy, environmental and demographic stochasticities, persistence, dynamics, [SDV.BID]Life Sciences [q-bio]/Biodiversity, age-based parameters, stability, species management, Stage-structured populations, northeast poland, adult dormancy, longevity, island populations, population viability analysis, genetic-structure, perturbation analysis, orchid, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, perennial plants, Cypripedium calceolus
Abstract

Times Cited: 5 Reference: 49; International audience; Cypripedium calceolus L. is an emblematic long-lived clonal orchid which has suffered an alarming decline throughout Eurasia. We performed a population viability analysis on three island populations in a protected area to estimate population viability and thus to gain a better understanding of the species and its needs. We developed a 10-stage matrix model, comprising the seed bank, the first 4 years underground, juveniles, young and adult clump stages and three dormant stages, from an 11-year census. All analyses indicate that the three populations have remarkably slow and stable dynamics, with stochastic growth rates close to 1 after 100 years and very slow convergence to equilibrium. The system is probably stabilized by the long life span of clumps (mean longevity from 110 to 350 years). Retrospective and perturbation analyses showed that adult dormancy had an important role in the dynamics, and adult survival and seed persistence were key factors in maintaining population stability and persistence. A young, uniformly distributed population had fewer, shorter lived adult clumps than two older, aggregated populations. Although no perceptible change was predicted for the next 100 years, the younger population was more sensitive to environmental variations and may go extinct in the next 250-500 years, depending on longevity of the seed bank. C. calceolus populations can persist in a protected area where there are only slow changes in habitat through secondary forest succession. The dramatic decrease in C. calceolus population size and area over 20 years in Eurasia suggests that many populations have experienced unforeseeable extrinsic disturbances or unfavourable habitat disturbances. Our Population Viability Analysis indicated the importance of habitat vs. individual conservation for the protection of C. calceolus populations. As this species is usually found within rich orchid communities, it should be used as an umbrella species in management plans.

Published
2005

16. Evolutionary Ecology of the Prezygotic Stage

Author

Bernasconi, Giorgina, Ashman, T.-L, Birkhead, T. R, Bishop, J. D. D, Grossniklaus, U, Kubli, E, Marshall, D. L, Schmid, B, Skogsmyr, I, Snook, R. R, Taylor, D, Till-Bottraud, I, Ward, P. I, Zeh, D. W, Hellriegel, B, Bernasconi, Giorgina, Ashman, T.-L, Birkhead, T. R, Bishop, J. D. D, Grossniklaus, U, Kubli, E, Marshall, D. L, Schmid, B, Skogsmyr, I, Snook, R. R, Taylor, D, Till-Bottraud, I, Ward, P. I, Zeh, D. W, and Hellriegel, B

Abstract

The life cycles of sexually reproducing animals and flowering plants begin with male and female gametes and their fusion to form a zygote. Selection at this earliest stage is crucial for offspring quality and raises similar evolutionary issues, yet zoology and botany use dissimilar approaches. There are striking parallels in the role of prezygotic competition for sexual selection on males, cryptic female choice, sexual conflict, and against selfish genetic elements and genetic incompatibility. In both groups, understanding the evolution of sex-specific and reproductive traits will require an appreciation of the effects of prezygotic competition on fitness.

Published
2013

17. The number of competitors providing pollen on a stigma strongly influences intraspecific variation in number of pollen apertures

Author

Till-Bottraud, I., Gouyon, P. H., Venable, D. L., Godelle, B., Laboratoire d'Ecologie Alpine (LECA), Université Joseph Fourier - Grenoble 1 (UJF)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS), Ecologie Systématique et Evolution (ESE), Ecole Nationale du Génie Rural, des Eaux et des Forêts (ENGREF)-Université Paris-Sud - Paris 11 (UP11)-Centre National de la Recherche Scientifique (CNRS), Ecology and Evolutionary Biology [Tucson] (EEB), University of Arizona, Génome, Population, Interactions, Université Montpellier 2 - Sciences et Techniques (UM2)-Centre National de la Recherche Scientifique (CNRS), and Université Joseph Fourier - Grenoble 1 (UJF)-Centre National de la Recherche Scientifique (CNRS)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])

Subjects
game theory, [SDV.EE]Life Sciences [q-bio]/Ecology, environment, heteromorphism, flowering plants, consequences, pollinator behavior, selection, two-level frequency dependence, Multiple paternity, population, [SDV.BID]Life Sciences [q-bio]/Biodiversity, carryover, polymorphism, soft, morphology, pollen competition, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, dispersal
Abstract

Times Cited: 3 Cited Reference Count: 32; International audience; Variation in the number of pollen apertures has been widely described among and within angiosperm species. Apertures are weak points of the pollen wall where the pollen tube germinates. Pollen aperture heteromorphism (pollen grains with different numbers of apertures in a single individual) is common in flowering plants, whereas polymorphism (among-individual variation) is rare. Previous work on Viola has shown that pollen with few apertures has a better survival rate, whereas pollen with more apertures germinates faster. Here we develop game-theoretic models of competition between several pollen donors. These show that heteromorphism can be a stable strategy for all finite numbers of competitors per stigma for some parameter values where one pollen type germinates faster but has lower longevity. In contrast, polymorphism is not stable in pairwise contests (two pollen donors). When more than two pollen donors interact on stigmas, polymorphism can be stable for certain parameter values. In both heteromorphism and polymorphism, selection operating on the number of pollen apertures is an example of soft selection if each flower in a population produces a fixed number of seeds, regardless of the average fitness of the particular pollen composition present on its stigma. This results in stigma-level and population-level frequency dependence, which makes stable heteromorphism and polymorphism possible. Selective scenarios vary among stigmas due to variation in the pollen present. Thus, a particular pollen type may be more fit than average on some stigmas but less fit on others. As a pollen strategy increases in frequency in a population, the frequency of different kinds of pollen contests shift. This may result in the pollen strategy's fitness advantage being lost at an intermediate frequency, resulting in heteromorphism or polymorphism. Low numbers of pollen donors per stigma result in greater variance in pollen composition among stigmas, resulting in a broader parameter range for stable heteromorphism or polymorphism. For any number of pollen donors per stigma, the conditions for polymorphism are a more restrictive subset of those for heteromorphism. We show that heteromorphism can invade a polymorphic population, whereas heteromorphism is stable against polymorphism, thus explaining why polymorphic species are rare.

Published
2001

18. Evolutionary conflict between Trollius europaeus and its seed-parasite pollinators Chiastocheta flies

Author

Jaeger, N., Till-Bottraud, I., Despres, L., Laboratoire d'Ecologie Alpine (LECA), Université Joseph Fourier - Grenoble 1 (UJF)-Centre National de la Recherche Scientifique (CNRS)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry]), and Pla, Kim

Subjects
[SDV.EE]Life Sciences [q-bio]/Ecology, environment, flowers, oviposition patterns, conflict, mutualism, [SDV.BID]Life Sciences [q-bio]/Biodiversity, Chiastocheta, stability, Trollius europaeus, anthomyiidae, [SDE.BE] Environmental Sciences/Biodiversity and Ecology, [SDV.EE] Life Sciences [q-bio]/Ecology, environment, longevity, wasp mutualism, host plants, Yucca moths, flower senescence, predation, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, oviposition, seed, success, [SDV.BID] Life Sciences [q-bio]/Biodiversity
Abstract

Times Cited: 16 Reference Count: 35; International audience; Mutualisms are characterized by balanced reciprocal exploitation. This creates an evolutionary conflict in that selection will favour individuals that increase their fitness at the cost of the mutualist partner. To counter this evolutionary instability, each partner must be able to prevent over-exploitation by the other. In plant/seed-parasite pollinator mutualisms like that involving the globeflower Trollius europaeus and the globeflower fly (Chiastocheta spp.), ovipositing females can have a more or less mutualistic/antagonistic effect on plant seed output, depending on the amount of pollination achieved during oviposition, the number of eggs laid and seed predation per larva. We found that flowers with no Chiastocheta egg had a high seed set and there was no significant increase in seed set before predation with increasing egg load, suggesting that most pollination is achieved by non-ovipositing visitors (males and/or non-ovipositing females). Hence, additional eggs do not lead to higher pollination, oviposition is a non-mutualistic behaviour and, therefore, there is a conflict between T. europaeus and Chiastocheta flies for the number of eggs laid. Egg load increases throughout flower lifespan. No mechanism seems to have evolved to regulate the number of eggs laid on T. europaeus. For example, controlled pollination experiments showed that T europaeus cannot limit Chiastocheta oviposition by triggering flower senescence as soon as full pollination has been achieved. In this context, the high average number of eggs per flower observed in alpine populations is not surprising. Finally, the decrease in net seed production with increasing egg load was weak. We discuss the other factors involved in the regulation of the conflict between T europaeus and Chiastocheta flies.

Published
2000

20. Common garden experiments in the genomic era: new perspectives and opportunities

Author

de Villemereuil, P, Gaggiotti, O E, Mouterde, M, and Till-Bottraud, I

Abstract

The study of local adaptation is rendered difficult by many evolutionary confounding phenomena (for example, genetic drift and demographic history). When complex traits are involved in local adaptation, phenomena such as phenotypic plasticity further hamper evolutionary biologists to study the complex relationships between phenotype, genotype and environment. In this perspective paper, we suggest that the common garden experiment, specifically designed to deal with phenotypic plasticity, has a clear role to play in the study of local adaptation, even (if not specifically) in the genomic era. After a quick review of some high-throughput genotyping protocols relevant in the context of a common garden, we explore how to improve common garden analyses with dense marker panel data and recent statistical methods. We then show how combining approaches from population genomics and genome-wide association studies with the settings of a common garden can yield to a very efficient, thorough and integrative study of local adaptation. Especially, evidence from genomic (for example, genome scan) and phenotypic origins constitute independent insights into the possibility of local adaptation scenarios, and genome-wide association studies in the context of a common garden experiment allow to decipher the genetic bases of adaptive traits.

Published
2016
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22. Genetic diversity in an endangered alpine plant, Eryngium alpinum L. (Apiaceae), inferred from amplified fragment length polymorphism markers.

Author

Gaudeul, M., Taberlet, P., and Till-Bottraud, I.

Subjects
MOUNTAIN plants, BIOLOGICAL variation, GENETIC polymorphisms, GENETICS
Abstract

Abstract Eryngium alpinum L. is an endangered species found across the European Alps. In order to obtain base-line data for the conservation of this species, we investigated levels of genetic diversity within and among 14 populations from the French Alps. We used the amplified fragment length polymorphism (AFLP) technique with three primer pairs and scored a total of 62 unambiguous, polymorphic markers in 327 individuals. Because AFLP markers are dominant, within-population genetic structure (e.g. FIS) could not be assessed. Analyses based either on the assumption of random-mating or on complete selfing lead to very similar results. Diversity levels within populations were relatively high (mean Nei’s expected heterozygosity = 0.198; mean Shannon index = 0.283), and a positive correlation was detected between both genetic diversity measurements and population size (Spearman rank correlation: P = 0.005 and P = 0.002, respectively). Moreover, FST values and exact tests of differentiation revealed high differentiation among populations (mean pairwise FST = 0.40), which appeared to be independent of geographical distance (nonsignificant Mantel test). Founder events during postglacial colonizations and/or bottlenecks are proposed to explain this high but random genetic differentiation. By contrast, we detected a pattern of isolation by distance within populations and valleys. Predominant local gene flow by pollen or seed is probably responsible for this pattern. Concerning the management of E. alpinum, the high genetic differentiation leads us to recommend the conservation of a maximum number of populations. This study demonstrates that AFLP markers enable a quick and reliable assessment of intraspecific genetic variability in conservation genetics. [ABSTRACT FROM AUTHOR]

Published
2000
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24. Evolution of pollen morphology.

Author

Dajoz, I. and Till-Bottraud, I.

Subjects
*PLANTS
Abstract

Describes a study that tested the relation between pollen aperture and components of fitness such as germination and survival, as a main feature of pollen evolution. Background; Study details; Results; Conclusions.

Published
1991
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25. Evolutionary Ecology of the Prezygotic Stage

Author

Bernasconi, Giorgina, Ashman, T.-L, Birkhead, T. R, Bishop, J. D. D, Grossniklaus, U, Kubli, E, Marshall, D. L, Schmid, B, Skogsmyr, I, Snook, R. R, Taylor, D, Till-Bottraud, I, Ward, P. I, Zeh, D. W, Hellriegel, B, Bernasconi, Giorgina, Ashman, T.-L, Birkhead, T. R, Bishop, J. D. D, Grossniklaus, U, Kubli, E, Marshall, D. L, Schmid, B, Skogsmyr, I, Snook, R. R, Taylor, D, Till-Bottraud, I, Ward, P. I, Zeh, D. W, and Hellriegel, B

Abstract

The life cycles of sexually reproducing animals and flowering plants begin with male and female gametes and their fusion to form a zygote. Selection at this earliest stage is crucial for offspring quality and raises similar evolutionary issues, yet zoology and botany use dissimilar approaches. There are striking parallels in the role of prezygotic competition for sexual selection on males, cryptic female choice, sexual conflict, and against selfish genetic elements and genetic incompatibility. In both groups, understanding the evolution of sex-specific and reproductive traits will require an appreciation of the effects of prezygotic competition on fitness.

27. A Review of the Developmental Processes and Selective Pressures Shaping Aperture Pattern in Angiosperms.

Author

Albert B, Matamoro-Vidal A, Prieu C, Nadot S, Till-Bottraud I, Ressayre A, and Gouyon PH

Abstract

Pollen grains of flowering plants display a fascinating diversity of forms. The observed diversity is determined by the developmental mechanisms involved in the establishment of pollen morphological features. Pollen grains are generally surrounded by an extremely resistant wall displaying apertures that play a key role in reproduction, being the places at which pollen tube growth is initiated. Aperture number, structure, and position (collectively termed 'aperture pattern') are determined during microsporogenesis, which is the earliest step of pollen ontogeny. Here, we review current knowledge about aperture pattern developmental mechanisms and adaptive significance with respect to plant reproduction and how advances in these fields shed light on our understanding of aperture pattern evolution in angiosperms.

Published
2022
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28. Accounting for stochasticity in demographic compensation along the elevational range of an alpine plant.

Author

Andrello M, de Villemereuil P, Carboni M, Busson D, Fortin MJ, Gaggiotti OE, and Till-Bottraud I

Subjects
Demography, Population Dynamics, Stochastic Processes, Arabis, Plants
Abstract

Demographic compensation arises when vital rates change in opposite directions across populations, buffering the variation in population growth rates, and is a mechanism often invoked to explain the stability of species geographic ranges. However, studies on demographic compensation have disregarded the effects of temporal variation in vital rates and their temporal correlations, despite theoretical evidence that stochastic dynamics can affect population persistence in temporally varying environments. We carried out a seven-year-long demographic study on the perennial plant Arabis alpina (L.) across six populations encompassing most of its elevational range. We discovered demographic compensation in the form of negative correlations between the means of plant vital rates, but also between their temporal coefficients of variation, correlations and elasticities. Even if their contribution to demographic compensation was small, this highlights a previously overlooked, but potentially important, role of stochastic processes in stabilising population dynamics at range margins., (© 2020 John Wiley & Sons Ltd/CNRS.)

Published
2020
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29. Some (do not) like it hot: shrub growth is hampered by heat and drought at the alpine treeline in recent decades.

Author

Francon L, Corona C, Till-Bottraud I, Carlson BZ, and Stoffel M

Subjects
Climate Change, Ecosystem, Temperature, Droughts, Hot Temperature
Abstract

Premise: Mountain ecosystems are particularly sensitive to climate change. However, only a very small number of studies exist so far using annually resolved records of alpine plant growth spanning the past century. Here we aimed to identify the effects of heat waves and drought, driven by global warming, on annual radial growth of Rhododendron ferrugineum., Methods: We constructed two century-long shrub ring-width chronologies from R. ferrugineum individuals on two adjacent, north- and west-facing slopes in the southern French Alps. We analyzed available meteorological data (temperature, precipitation and drought) over the period 1960-2016. Climate-growth relationships were evaluated using bootstrapped correlation functions and structural equation models to identify the effects of rising temperature on shrub growth., Results: Analysis of meteorological variables during 1960-2016 revealed a shift in the late 1980s when heat waves and drought increased in intensity and frequency. In response to these extreme climate events, shrubs have experienced significant changes in their main limiting factors. Between 1960 and 1988, radial growth on both slopes was strongly controlled by the sum of growing degree days during the snow free period. Between 1989 and 2016, August temperature and drought have emerged as the most important., Conclusions: Increasing air temperatures have caused a shift in the growth response of shrubs to climate. The recently observed negative effect of high summer temperature and drought on shrub growth can, however, be buffered by topographic variability, supporting the macro- and microrefugia hypotheses., (© 2020 Botanical Society of America.)

Published
2020
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31. Disturbance and density-dependent processes (competition and facilitation) influence the fine-scale genetic structure of a tree species' population.

Author

Fajardo A, Torres-Díaz C, and Till-Bottraud I

Subjects
Alleles, Heterozygote, Plant Leaves physiology, Population Dynamics, Species Specificity, Trees growth & development, Trees genetics, Trees physiology
Abstract

Background and Aims: Disturbances, dispersal and biotic interactions are three major drivers of the spatial distribution of genotypes within populations, the last of which has been less studied than the other two. This study aimed to determine the role of competition and facilitation in the degree of conspecific genetic relatedness of nearby individuals of tree populations. It was expected that competition among conspecifics will lead to low relatedness, while facilitation will lead to high relatedness (selection for high relatedness within clusters)., Methods: The stand structure and spatial genetic structure (SGS) of trees were examined within old-growth and second-growth forests (including multi-stemmed trees at the edge of forests) of Nothofagus pumilio following large-scale fires in Patagonia, Chile. Genetic spatial autocorrelations were computed on a spatially explicit sampling of the forests using five microsatellite loci. As biotic plant interactions occur among immediate neighbours, mean nearest neighbour distance (MNND) among trees was computed as a threshold for distinguishing the effects of disturbances and biotic interactions., Key Results: All forests exhibited a significant SGS for distances greater than the MNND. The old-growth forest genetic and stand structure indicated gap recolonization from nearby trees (significantly related trees at distances between 4 and 10 m). At distances smaller than the MNND, trees of the second-growth interior forest showed significantly lower relatedness, suggesting a fading of the recolonization structure by competition, whereas the second-growth edge forest showed a positive and highly significant relatedness among trees (higher among stems of a cluster than among stems of different clusters), resulting from facilitation., Conclusions: Biotic interactions are shown to influence the genetic composition of a tree population. However, facilitation can only persist if individuals are related. Thus, the genetic composition in turn influences what type of biotic interactions will take place among immediate neighbours in post-disturbance forests., (© The Author 2015. Published by Oxford University Press on behalf of the Annals of Botany Company. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published
2016
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32. The importance of biotic interactions and local adaptation for plant response to environmental changes: field evidence along an elevational gradient.

Author

Grassein F, Lavorel S, and Till-Bottraud I

Subjects
Adaptation, Physiological, Altitude, Biomass, Cyperaceae growth & development, France, Poaceae growth & development, Species Specificity, Climate Change, Cyperaceae physiology, Environment, Poaceae physiology
Abstract

Predicting the response of species to environmental changes is a great and on-going challenge for ecologists, and this requires a more in-depth understanding of the importance of biotic interactions and the population structuration in the landscape. Using a reciprocal transplantation experiment, we tested the response of five species to an elevational gradient. This was combined to a neighbour removal treatment to test the importance of local adaptation and biotic interactions. The trait studied was performance measured as survival and biomass. Species response varied along the elevational gradient, but with no consistent pattern. Performance of species was influenced by environmental conditions occurring locally at each site, as well as by positive or negative effects of the surrounding vegetation. Indeed, we observed a shift from competition for biomass to facilitation for survival as a response to the increase in environmental stress occurring in the different sites. Unlike previous studies pointing out an increase of stress along the elevation gradient, our results supported a stress gradient related to water availability, which was not strictly parallel to the elevational gradient. For three of our species, we observed a greater biomass production for the population coming from the site where the species was dominant (central population) compared to population sampled at the limit of the distribution (marginal population). Nevertheless, we did not observe any pattern of local adaptation that could indicate adaptation of populations to a particular habitat. Altogether, our results highlighted the great ability of plant species to cope with environmental changes, with no local adaptation and great variability in response to local conditions. Our study confirms the importance of taking into account biotic interactions and population structure occurring at local scale in the prediction of communities' responses to global environmental changes., (© 2013 John Wiley & Sons Ltd.)

Published
2014
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33. Gametophytic vs. sporophytic control of pollen aperture number: a generational conflict.

Author

Till-Bottraud I, Gouyon PH, Ressayre A, and Godelle B

Subjects
Germination, Models, Theoretical, Plant Physiological Phenomena, Pollen
Abstract

In flowering plants, the haploid phase is reduced to the pollen grain and embryo sac. These reproductive tissues (gametophytes) are actually distinct individuals that have a different genome from the plant (sporophyte), and are more or less independent. The morphology of pollen grains, particularly the openings permitting pollen tube germination (apertures), is crucial for determining the outcome of pollen competition. Many species of flowering plants simultaneously produce pollen grains with different aperture numbers in a single individual (heteromorphism). In this paper, we show that the heteromorphic pollen aperture pattern depends on the genetic control of pollen morphogenesis. This points out a conflict of interest between genes expressed in the sporophyte and genes expressed in the gametophyte. More generally, such a conflict should exist whenever heteromorphism is an ESS resulting from a bet-hedging strategy. For pollen aperture, heteromorphism has been observed in about 40% of angiosperm species, suggesting that conflicting situations are the rule. In this context, the sporo-gametophytic conflict could be one of the factors that led to the reduction of the haploid phase in plants., (2012 Elsevier Inc. All rights reserved)

Published
2012
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34. Multi-stemmed trees of Nothofagus pumilio second-growth forest in Patagonia are formed by highly related individuals.

Author

Till-Bottraud I, Fajardo A, and Rioux D

Subjects
Amplified Fragment Length Polymorphism Analysis, Biomarkers analysis, Chile, DNA, Plant genetics, Fires, Genotype, Magnoliopsida growth & development, Plant Leaves genetics, Plant Leaves growth & development, Plant Stems genetics, Plant Stems growth & development, Trees, Magnoliopsida genetics, Polymorphism, Genetic genetics
Abstract

Background and Aims: Multi-stemmed trees (tree clusters) in Nothofagus pumilio, a dominant tree species in Patagonia, are very uncommon and are restricted to the edge of second-growth forests following human-provoked fires. No vegetative reproduction has been reported so far. The genetic structure of multi-stemmed trees of this species was investigated and it was hypothesized that genets within a cluster were more closely related than average in the population., Methods: Fifteen clusters (composed of at least three purported stems) and 15 single trees were sampled at the edge of a second-growth forest and genotyped using two amplified fragment length polymorphism (AFLP) primer pairs. We obtained 119 polymorphic markers that allowed clonality to be determined, together with sibship structure and relatedness among samples., Key Results: Clonality was detected in seven clusters but all clusters had at least two different genotypes. Full sibs were found exclusively within clusters and in all clusters. Within a cluster, stems that were not identified as full sibs were often half sibs. Relatedness values for the full sibs and half sibs were higher than the theoretical values of 0·5 and 0·25 but the relatedness between clusters was very low., Conclusions: Tree clusters that are merged at the edge of the second-growth forest of N. pumilio are composed of stems of the same genotype and of other genotypes that are highly related (but not always). It is suggested that this peculiar genetic structure results from a combination of several causes, including selection for merging of related individuals.

Published
2012
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35. Effect of stage-specific vital rates on population growth rates and effective population sizes in an endangered iteroparous plant.

Author

Andrello M, Nicolè F, Till-Bottraud I, and Gaggiotti OE

Subjects
Models, Theoretical, Population Growth, Survival Rate, Endangered Species, Plant Development
Abstract

Effective population size (N(e)) determines the strength of genetic drift and can influence the level of genetic diversity a population can maintain. Assessing how changes in demographic rates associated with environmental variables and management actions affect N(e) thus can be crucial to the conservation of endangered species. Calculation of N(e) through demographic models makes it possible to use elasticity analyses to study this issue. The elasticity of N(e) to a given vital rate is the proportional change in N(e) associated with a proportional increase in that vital rate. In addition, demographic models can be used to study N(e) and population growth rate (λ) simultaneously. Simultaneous examination is important because some vital rates differ diametrically in their associations with λ and N(e). For example, in some cases increasing these vital rates increases λ and decreases N(e). We used elasticity analysis to study the effect of stage-specific survival and flowering rates on N(e), annual effective population size (N(a)), and λ in seven populations of the endangered plant Austrian dragonhead (Dracocephalum austriacum). In populations with λ ≥ 1, the elasticities of N(e) and N(a) were similar to those of λ. Survival rates of adults were associated with greater elasticities than survival rates of juveniles, flowering rates, or fecundity. In populations with λ < 1, N(e) and N(a) exhibited greater elasticities to juvenile than to adult vital rates. These patterns are similar to those observed in other species with similar life histories. We did not observe contrasting effects of any vital rate on λ and N(e); thus, management actions that increase the λ of populations of Austrian dragonhead will not increase genetic drift. Our results show that elasticity analyses of N(e) and N(a) can complement elasticity analysis of λ. Moreover, such analyses do not require more data than standard matrix models of population dynamics., (©2012 Society for Conservation Biology.)

Published
2012
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36. Plant resource-use strategies: the importance of phenotypic plasticity in response to a productivity gradient for two subalpine species.

Author

Grassein F, Till-Bottraud I, and Lavorel S

Subjects
Analysis of Variance, Dactylis anatomy & histology, Festuca anatomy & histology, Genetic Variation genetics, Genotype, Phenotype, Dactylis genetics, Festuca genetics
Abstract

Background and Aims: Functional traits are indicators of plant interactions with their environment and the resource-use strategies of species can be defined through some key functional traits. The importance of genetic variability and phenotypic plasticity in trait variations in response to a common environmental change was investigated in two subalpine species., Methods: Two species with contrasted resource-use strategies, Dactylis glomerata and Festuca paniculata, were grown along a productivity gradient in a greenhouse experiment. Functional traits of different genotypes were measured to estimate the relative roles of phenotypic plasticity and genetic variability, and to compare their levels of phenotypic plasticity., Key Results: Trait variability in the field for the two species is more likely to be the result of phenotypic plasticity rather than of genetic differentiation between populations. The exploitative species D. glomerata expressed an overall higher level of phenotypic plasticity compared with the conservative species F. paniculata. In addition to different amplitudes of phenotypic plasticity, the two species differed in their pattern of response for three functional traits relevant to resource use (specific leaf area, leaf dry matter content and leaf nitrogen content)., Conclusions: Functional trait variability was mainly the result of phenotypic plasticity, with the exploitative species showing greater variability. In addition to average trait values, two species with different resource-use strategies differed in their plastic responses to productivity.

Published
2010
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38. Low selfing in a mass-flowering, endangered perennial, Eryngium alpinum L. (Apiaceae).

Author

Gaudeul M and Till-Bottraud I

Abstract

We investigated the reproductive ecology of an endangered alpine species, Eryngium alpinum L., to determine its selfing rate and to propose possible mechanisms that may shape its breeding system. Whereas pollinators' foraging behavior suggested a high potential for geitonogamy (70% of the flights occur within plants), microsatellite analyses of seed progenies demonstrated that plants are primarily outcrossing (outcrossing rate [tm] = 0.65, 0.96, and 1 in three populations). Given the relatively long pollen viability (at least 4-5 d) and the high number of simultaneously opened flowers on each plant, protandry is not sufficient to eliminate selfing. Second, controlled crosses demonstrated not only auto-fertility, but also partial self-incompatibility. Partial self-incompatibility is probably due to the competitive advantage of cross vs. self-pollen, and, together with protandry, could lead the species to selfing as a reproductive assurance. These results are encouraging for the maintenance of large populations. However, higher selfing was observed in a small population that could suffer inbreeding depression, as observed on experimentally selfed seeds. Thus, these populations should be carefully monitored. Finally, this study shows how molecular markers and field experiments may complement each other in our reaching a global understanding of mating patterns.

Published
2003
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39. Stamen dimorphism in Rhododendron ferrugineum (Ericaceae): development and function.

Author

Escaravage N, Flubacker E, Pornon A, Doche B, and Till-Bottraud I

Abstract

The function of stamen dimorphism in the breeding system of the alpine shrub Rhododendron ferrugineum was studied in two populations in the French Alps. This species has pentameric flowers with two whorls of stamens: an inner whorl of five long stamens and an outer whorl of short stamens. We studied the development of stamens from buds to mature flowers (measurement of the filament, anther, and style lengths at five successive phenological stages) and compared the size and position of reproductive organs at maturity in control and partially emasculated flowers (removal of long-level stamens) to determine whether the presence of long-level stamens constitutes a constraint for the development of the short-level ones. Stamen dimorphism can be observed early in stamen development, from the bud stage of the year prior to flowering. At this early stage, meiosis had already occurred. Emasculation of the long-level stamens induced the short-level ones to grow longer than in normal conditions. We also performed seven pollination treatments on ten randomly chosen individuals in each population, and the number of seeds following each treatment was recorded. Results from these treatments showed that R. ferrugineum produced spontaneous selfed seeds in the absence of pollinators. However, no seed was produced when short-level stamens were emasculated and pollinators excluded, suggesting that long-level stamens are not responsible for selfing in the absence of pollinators and that reproductive assurance is promoted by short-level stamens.

Published
2001

40. POLLEN APERTURE POLYMORPHISM AND GAMETOPHYTE PERFORMANCE IN VIOLA DIVERSIFOLIA.

Author

Dajoz I, Till-Bottraud I, and Gouyon PH

Abstract

Pollen aperture polymorphism is studied in Viola diversifolia, where all plants produce three- and four-apertured pollen grains. We tested whether there are genetic differences among plants for the proportions of the different pollen morphs, and whether the morphs differ in gametophytic performance. Results show that the more apertures a pollen grain has, the more quickly it germinates but that few-apertured pollen grains have faster growing pollen tubes and longer life expectancies. The proportions of the different pollen morphs, together with pollen tube growth rates, may be inherited traits based on differences among maternal families. These results suggest that the different pollen morphs are favored in different pollination ecology situations. The production of several pollen morphs by the same individual could therefore be evolutionarily advantageous., (© 1993 The Society for the Study of Evolution.)

Published
1993
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