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2. Integration of historic collections can shed light on patterns of change in plant‐pollinator interactions and pollination service

Author

Rakosy, Demetra, Ashman, T.-L., Stanley, A., Zoller, L., Knight, Tiffany, Rakosy, Demetra, Ashman, T.-L., Stanley, A., Zoller, L., and Knight, Tiffany

Abstract

Mutualistic interactions between plants and animal pollinators are increasingly under threat through anthropogenic change, and it is critical to understand how temporal changes affect the structure and function of these ecologically important interactions. Because the responses of plant-pollinator interactions to anthropogenic change may take place over decades, historical collections that store information across long time horizons contribute uniquely to our understanding. In this article, we highlight several key questions related to long term changes in the structure and function of plant-pollinator interactions. We articulate how research could proceed rapidly via new techniques, greater integration of resources in museum collections along with coincident use of a single data source. We acknowledge the challenges that come with using historical collections, and discuss how to minimize them. We provide suggestions that will allow for full utilization of museum resources for addressing a variety of issues regarding plant-pollinator interactions. This perspective paper aims to stimulate new integrative research aimed at understanding temporal patterns in plant-pollinator interactions.

Published
2022

3. Widespread vulnerability of flowering plant seed production to pollinator declines

Author

Rodger, J.G., Bennett, J.M., Razanajatovo, M., Knight, Tiffany, van Kleunen, M., Ashman, T.-L., Steets, J.A., Hui, C., Arceo-Gómez, G., Burd, M., Burkle, L.A., Burns, J.H., Durka, Walter, Freitas, L., Kemp, J.E., Li, J., Pauw, A., Vamosi, J.C., Wolowski, M., Xia, J., Ellis, A.G., Rodger, J.G., Bennett, J.M., Razanajatovo, M., Knight, Tiffany, van Kleunen, M., Ashman, T.-L., Steets, J.A., Hui, C., Arceo-Gómez, G., Burd, M., Burkle, L.A., Burns, J.H., Durka, Walter, Freitas, L., Kemp, J.E., Li, J., Pauw, A., Vamosi, J.C., Wolowski, M., Xia, J., and Ellis, A.G.

Abstract

Despite evidence of pollinator declines from many regions across the globe, the threat this poses to plant populations is not clear because plants can often produce seeds without animal pollinators. Here, we quantify pollinator contribution to seed production by comparing fertility in the presence versus the absence of pollinators for a global dataset of 1174 plant species. We estimate that, without pollinators, a third of flowering plant species would produce no seeds and half would suffer an 80% or more reduction in fertility. Pollinator contribution to plant reproduction is higher in plants with tree growth form, multiple reproductive episodes, more specialized pollination systems, and tropical distributions, making these groups especially vulnerable to reduced service from pollinators. These results suggest that, without mitigating efforts, pollinator declines have the potential to reduce reproduction for most plant species, increasing the risk of population declines.

Published
2021

6. Evolutionary ecology of the prezygotic stage

Author

Bernasconi, G., 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.

Subjects
Evolution -- Genetic aspects, Zygotes -- Genetic aspects, Science and technology, Genetic aspects
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., Multicellular animals and flowering plants (angiosperms) spend most of their life cycle in the diploid state. This cycle, however, begins with a short haploid phase, which ends when male and [...]

Published
2004

7. TRY plant trait database enhanced coverage and open access

Author

Kattge, J., Bönisch, G., Díaz, S., Lavorel, S., Prentice, I.C., Leadley, P., Tautenhahn, S., Werner, G.D.A., Aakala, T., Abedi, M., Acosta, A.T.R., Adamidis, G.C., Adamson, K., Aiba, M., Albert, C.H., Alcántara, J.M., Alcázar, C, C., Aleixo, I., Ali, H., Amiaud, B., Ammer, C., Amoroso, M.M., Anand, M., Anderson, C., Anten, N., Antos, J., Apgaua, D.M.G., Ashman, T.-L., Asmara, D.H., Asner, G.P., Aspinwall, M., Atkin, O., Aubin, I., Baastrup-Spohr, L., Bahalkeh, K., Bahn, M., Baker, T., Baker, W.J., Bakker, J.P., Baldocchi, D., Baltzer, J., Banerjee, A., Baranger, A., Barlow, J., Barneche, D.R., Baruch, Z., Bastianelli, D., Battles, J., Bauerle, W., Bauters, M., Bazzato, E., Beckmann, M., Beeckman, H., Beierkuhnlein, C., Bekker, R., Belfry, G., Belluau, M., Beloiu, M., Benavides, R., Benomar, L., Berdugo-Lattke, M.L., Berenguer, E., Bergamin, R., Bergmann, J., Bergmann, Carlucci, M., Berner, L., Bernhardt-Römermann, M., Bigler, C., Bjorkman, A.D., Blackman, C., Blanco, C., Blonder, B., Blumenthal, D., Bocanegra-González, K.T., Boeckx, P., Bohlman, S., Böhning-Gaese, K., Boisvert-Marsh, L., Bond, W., Bond-Lamberty, B., Boom, A., Boonman, C.C.F., Bordin, K., Boughton, E.H., Boukili, V., Bowman, D.M.J.S., Bravo, S., Brendel, M.R., Broadley, M.R., Brown, K.A., Bruelheide, H., Brumnich, F., Bruun, H.H., Bruy, D., Buchanan, S.W., Bucher, S.F., Buchmann, N., Buitenwerf, R., Bunker, D.E., Bürger, J., Burrascano, Sabina, Burslem, D.F.R.P., Butterfield, B.J., Byun, C., Marques, M., Scalon, M.C., Caccianiga, M., Cadotte, M., Cailleret, M., Camac, J., Camarero, J.J., Campany, C., Campetella, G., Campos Prieto, Juan Antonio, Cano-Arboleda, L., Canullo, R., Carbognani, M., Carvalho, F., Casanoves, F., Castagneyrol, B., Catford, J.A., Cavender-Bares, J., Cerabolini, Bruno E. L., Cervellini, M., Chacón-Madrigal, E., Chapin, K., Chapin, F.S., Chelli, S., Chen, S.-C., Chen, A., Cherubini, P., Chianucci, F., Choat, B., Chung, K.-S., Chytrý, Milan, Ciccarelli, D., Coll, L., Collins, C.G., Conti, L., Coomes, D., Cornelissen, J.H.C., Cornwell, W.K., Corona, P., Coyea, M., Craine, J., Craven, D., Cromsigt, J.P.G.M., Csecserits, A., Cufar, K., Cuntz, M., and da, Silva, A.C

Abstract

Plant traits the morphological, anatomical, physiological, biochemical and phenological characteristics of plants determine how plants respond to environmental factors, affect other trophic levels, and influence ecosystem properties and their benefits and detriments to people. Plant trait data thus represent the basis for a vast area of research spanning from evolutionary biology, community and functional ecology, to biodiversity conservation, ecosystem and landscape management, restoration, biogeography and earth system modelling. Since its foundation in 2007, the TRY database of plant traits has grown continuously. It now provides unprecedented data coverage under an open access data policy and is the main plant trait database used by the research community worldwide. Increasingly, the TRY database also supports new frontiers of trait-based plant research, including the identification of data gaps and the subsequent mobilization or measurement of new data. To support this development, in this article we evaluate the extent of the trait data compiled in TRY and analyse emerging patterns of data coverage and representativeness. Best species coverage is achieved for categorical traits almost complete coverage for plant growth form . However, most traits relevant for ecology and vegetation modelling are characterized by continuous intraspecific variation and trait environmental relationships. These traits have to be measured on individual plants in their respective environment. Despite unprecedented data coverage, we observe a humbling lack of completeness and representativeness of these continuous traits in many aspects. We, therefore, conclude that reducing data gaps and biases in the TRY database remains a key challenge and requires a coordinated approach to data mobilization and trait measurements. This can only be achieved in collaboration with other initiatives. © 2019 The Authors. Global Change Biology published by John Wiley and Sons Ltd

Published
2020

8. Land use and pollinator dependency drives global patterns of pollen limitation in the Anthropocene

Author

Bennett, J.M., Steets, J.A., Burns, J.H., Burkle, L.A., Vamosi, J.C., Wolowski, M., Arceo‐Gómez, G., Burd, M., Durka, Walter, Ellis, A.G., Freitas, L., Li, J., Rodger, J.G., Ştefan, Valentin, Xia, J., Knight, Tiffany, Ashman, T.-L., Bennett, J.M., Steets, J.A., Burns, J.H., Burkle, L.A., Vamosi, J.C., Wolowski, M., Arceo‐Gómez, G., Burd, M., Durka, Walter, Ellis, A.G., Freitas, L., Li, J., Rodger, J.G., Ştefan, Valentin, Xia, J., Knight, Tiffany, and Ashman, T.-L.

Abstract

Land use change, by disrupting the co-evolved interactions between plants and their pollinators, could be causing plant reproduction to be limited by pollen supply. Using a phylogenetically controlled meta-analysis on over 2200 experimental studies and more than 1200 wild plants, we ask if land use intensification is causing plant reproduction to be pollen limited at global scales. Here we report that plants reliant on pollinators in urban settings are more pollen limited than similarly pollinator-reliant plants in other landscapes. Plants functionally specialized on bee pollinators are more pollen limited in natural than managed vegetation, but the reverse is true for plants pollinated exclusively by a non-bee functional group or those pollinated by multiple functional groups. Plants ecologically specialized on a single pollinator taxon were extremely pollen limited across land use types. These results suggest that while urbanization intensifies pollen limitation, ecologically and functionally specialized plants are at risk of pollen limitation across land use categories.

Published
2020

11. Plant traits moderate pollen limitation of introduced and native plants: a phylogenetic meta‐analysis of global scale

Author

Burns, J.H., Bennett, J.M., Li, J., Xia, J., Arceo‐Gómez, G., Burd, M., Burkle, L.A., Durka, Walter, Ellis, A.G., Freitas, L., Rodger, J.G., Vamosi, J.C., Wolowski, M., Ashman, T.-L., Knight, Tiffany, Steets, J.A., Burns, J.H., Bennett, J.M., Li, J., Xia, J., Arceo‐Gómez, G., Burd, M., Burkle, L.A., Durka, Walter, Ellis, A.G., Freitas, L., Rodger, J.G., Vamosi, J.C., Wolowski, M., Ashman, T.-L., Knight, Tiffany, and Steets, J.A.

Abstract

•The role of pollination in the success of invasive plants needs to be understood because invasives have substantial effects on species interactions and ecosystem functions. Previous research has shown both that reproduction of invasive plants is often pollen limited and that invasive plants can have high seed production motivating the questions: how do invasive populations maintain reproductive success in spite of pollen limitation? What species traits moderate pollen limitation for invaders? •We conducted a phylogenetic meta‐analysis with 68 invasive, 50 introduced non‐invasive, and 1931 native plant populations, across a total of 1249 species. •We found that invasive populations with generalist pollination or pollinator dependence were less pollen limited than natives, but invasives and introduced non‐invasives did not differ. Invasive species produced 3× fewer ovules/flower and >250× more flowers/plant, compared with their native relatives. While these traits were negatively correlated, consistent with a tradeoff, this did not differ with invasion status. •Invasive plants that produce many flowers and have floral generalization are able to compensate for or avoid pollen limitation, potentially helping explain invaders’ reproductive success.

Published
2019

12. Global geographic patterns of heterospecific pollen receipt help uncover potential ecological and evolutionary impacts across plant communities worldwide

Author

Arceo‐Gómez, G., Schroeder, A., Albor, C., Ashman, T.-L., Knight, Tiffany, Arceo‐Gómez, G., Schroeder, A., Albor, C., Ashman, T.-L., and Knight, Tiffany

Abstract

Species interactions are known to be key in driving patterns of biodiversity across the globe. Plant-plant interactions through heterospecific pollen (HP) transfer by their shared pollinators is common and has consequences for plant reproductive success and floral evolution, and thus has the potential to influence global patterns of biodiversity and plant community assembly. The literature on HP transfer is growing and it is therefore timely to review patterns and causes of among-species variation in HP receipt at a global scale, thus uncovering its potential contribution to global patterns of biodiversity. Here we analyzed published data on 245 species distributed across five continents to evaluate latitudinal and altitudinal patterns of HP receipt. We further analyzed the role of floral symmetry and evolutionary history in mediating patterns of HP receipt. Latitude and elevation affected the likelihood and intensity of HP receipt indicating that HP transfer increases in species-rich communities and in areas with high abundance of vertebrate pollinators. Floral symmetry and evolutionary history determined HP load size across plant communities worldwide. Overall, our results suggest that HP receipt may have the potential to contribute to global geographic patterns of plant diversity by imposing strong selective pressures in species-rich areas across the globe.

Published
2019

13. Publisher Correction: GloPL, a global data base on pollen limitation of plant reproduction

Author

Bennett, J.M., Steets, J.A., Burns, J.H., Durka, Walter, Vamosi, J.C., Arceo‐Gómez, G., Burd, M., Burkle, L.A., Ellis, A.G., Freitas, L., Li, J., Rodger, J.G., Wolowski, M., Xia, J., Ashman, T.-L., Knight, Tiffany, Bennett, J.M., Steets, J.A., Burns, J.H., Durka, Walter, Vamosi, J.C., Arceo‐Gómez, G., Burd, M., Burkle, L.A., Ellis, A.G., Freitas, L., Li, J., Rodger, J.G., Wolowski, M., Xia, J., Ashman, T.-L., and Knight, Tiffany

Abstract

J. H. Burns was omitted in error from the author list of the original version of this Data Descriptor. This omission has now been corrected in both the HTML and PDF versions.

Published
2019

14. GloPL, a global data base on pollen limitation of plant reproduction

Author

Bennett, J. M., primary, Steets, J. A., additional, Burns, J. H., additional, Durka, W., additional, Vamosi, J. C., additional, Arceo-Gómez, G., additional, Burd, M., additional, Burkle, L. A., additional, Ellis, A. G., additional, Freitas, L., additional, Li, J., additional, Rodger, J. G., additional, Wolowski, M., additional, Xia, J., additional, Ashman, T-L., additional, and Knight, T. M., additional

Published
2018
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16. GloPL, a global data base on pollen limitation of plant reproduction

Author

Bennett, J. M., Steets, J. A., Durka, W., Vamosi, J. C., Arceo-Gomez, G., Burd, M., Burkle, L. A., Ellis, A. G., Freitas, L., Li, J., Rodger, James G., Wolowski, M., Xia, J., Ashman, T-L, Knight, T. M., Bennett, J. M., Steets, J. A., Durka, W., Vamosi, J. C., Arceo-Gomez, G., Burd, M., Burkle, L. A., Ellis, A. G., Freitas, L., Li, J., Rodger, James G., Wolowski, M., Xia, J., Ashman, T-L, and Knight, T. M.

Abstract

Plant reproduction relies on transfer of pollen from anthers to stigmas, and the majority of flowering plants depend on biotic or abiotic agents for this transfer. A key metric for characterizing if pollen receipt is insufficient for reproduction is pollen limitation, which is assessed by pollen supplementation experiments. In a pollen supplementation experiment, fruit or seed production by flowers exposed to natural pollination is compared to that following hand pollination either by pollen supplementation (i.e. manual outcross pollen addition without bagging) or manual outcrossing of bagged flowers, which excludes natural pollination. The GloPL database brings together data from 2969 unique pollen supplementation experiments reported in 927 publications published from 1981 to 2015, allowing assessment of the strength and variability of pollen limitation in 1265 wild plant species across all biomes and geographic regions globally. The GloPL database will be updated and curated with the aim of enabling the continued study of pollen limitation in natural ecosystems and highlighting significant gaps in our understanding of pollen limitation., Correction in: Scientific Data, https://doi.org/10.1038/sdata.2018.249, published online 20 November 2018 J. H. Burns was omitted in error from the author list of the original version of this Data Descriptor. This omissionhas now been corrected in both the HTML and PDF versions.

Published
2018
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17. GloPL, a global data base on pollen limitation of plant reproduction

Author

Bennett, J.M., Steets, J.A., Burns, J.H., Durka, Walter, Vamosi, J.C., Arceo‐Gómez, G., Burd, M., Burkle, L.A., Ellis, A.G., Freitas, L., Li, J., Rodger, J.G., Wolowski, M., Xia, J., Ashman, T.-L., Knight, Tiffany, Bennett, J.M., Steets, J.A., Burns, J.H., Durka, Walter, Vamosi, J.C., Arceo‐Gómez, G., Burd, M., Burkle, L.A., Ellis, A.G., Freitas, L., Li, J., Rodger, J.G., Wolowski, M., Xia, J., Ashman, T.-L., and Knight, Tiffany

Abstract

Plant reproduction relies on transfer of pollen from anthers to stigmas, and the majority of flowering plants depend on biotic or abiotic agents for this transfer. A key metric for characterizing if pollen receipt is insufficient for reproduction is pollen limitation, which is assessed by pollen supplementation experiments. In a pollen supplementation experiment, fruit or seed production by flowers exposed to natural pollination is compared to that following hand pollination either by pollen supplementation (i.e. manual outcross pollen addition without bagging) or manual outcrossing of bagged flowers, which excludes natural pollination. The GloPL database brings together data from 2969 unique pollen supplementation experiments reported in 927 publications published from 1981 to 2015, allowing assessment of the strength and variability of pollen limitation in 1265 wild plant species across all biomes and geographic regions globally. The GloPL database will be updated and curated with the aim of enabling the continued study of pollen limitation in natural ecosystems and highlighting significant gaps in our understanding of pollen limitation.

Published
2018

18. Reflections on, and visions for, the changing field of pollination ecology

Author

Knight, Tiffany, Ashman, T.-L., Bennett, J.M., Burns, J.H., Passonneau, Sarah, Steets, J.A., Knight, Tiffany, Ashman, T.-L., Bennett, J.M., Burns, J.H., Passonneau, Sarah, and Steets, J.A.

Abstract

Since the launch of Ecology Letters in 1998, the field of Pollination Ecology has changed considerably in its focus. In this review, we discuss the major discoveries across the past two decades. We quantitatively synthesise the frequency by which different concepts and topics appeared in the peer‐reviewed literature, as well as the connections between these topics. We then look forward to identify pressing research frontiers and opportunities for additional integration in the future. We find that there has been a shift towards viewing plant–pollinator interactions as networks and towards understanding how global drivers influence the plants, pollinators and the ecosystem service of pollination. Future frontiers include moving towards a macroecological view of plant–pollinator interactions, understanding how ecological intensification and urbanisation will influence pollination, considering other interactions, such as plant–microbe–pollinator networks, and understanding the causes and consequences of extinctions. Pollination Ecology is poised to advance our basic understanding of the ecological and evolutionary factors that shape plant–animal interactions and to create applied knowledge that informs conservation decision making.

Published
2018

19. Genetic constraints on floral evolution: A review and evaluation of patterns

Author

Ashman, T.-L. and Majetic, C.J.

Subjects
Phenotype -- Research, Dimorphism (Biology) -- Research, Angiosperms -- Physiological aspects, Angiosperms -- Sexual behavior, Biological sciences
Abstract

A study describes the capacity for floral phenotype to respond to selection through a review of published data on heritabilities and genetic correlations for several classes of floral traits in hermaphroditic plants. Among the findings is a significant heritability for all floral traits, with variation among them, as well as a tendency for heritability to vary with mating system, but not life history.

Published
2006

20. Genomics tools available for unravelling mechanisms underlying agronomical traits in strawberry with more to come

Author

Denoyes, B., primary, Amaya, I., additional, Liston, A., additional, Tennessen, J., additional, Ashman, T.-L., additional, Whitaker, V.M., additional, Hytönen, T., additional, van de Weg, E., additional, Osorio, S., additional, Folta, K.M., additional, Slovin, J., additional, Harrison, R.J., additional, Monfort, A., additional, and Bassil, N.V., additional

Published
2017
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21. Patterns of among- and within-species variation in heterospecific pollen receipt: The importance of ecological generalization.

Author

Arceo-Gómez, Gerardo, Abdala-Roberts, Luis, Jankowiak A, Kohler C., Meindl, G.A., Navarro-Fernández, Carmen M., Parra-Tabla, Víctor, Ashman, T. L., Alonso, Conchita, Arceo-Gómez, Gerardo, Abdala-Roberts, Luis, Jankowiak A, Kohler C., Meindl, G.A., Navarro-Fernández, Carmen M., Parra-Tabla, Víctor, Ashman, T. L., and Alonso, Conchita

Abstract

PREMISE OF THE STUDY: Coflowering plants are at risk for receiving pollen from heterospecifics as well as conspecifics, yet evidence shows wide variation in the degree that heterospecific pollen transfer occurs. Evaluation of patterns and correlates of among- and within-species variation in heterospecific pollen (HP) receipt is key to understanding its importance for floral evolution and species coexistence; however, the rarity of deeply sampled multispecies comparisons has precluded such an evaluation. METHODS: We evaluated patterns of among- and within-species variation in HP load size and diversity in 19 species across three distinct plant communities. We assessed the importance of phenotypic specialization (floral phenotype), ecological specialization (contemporary visitor assemblage), and conspecific flower density as determinants of among-species variation. We present hypotheses for different accrual patterns of HP within species based on the evenness and quality of floral visitors and evaluated these by characterizing the relationship between conspecific pollen (CP) and HP receipt. KEY RESULTS: We found that within-species variation in HP receipt was greater than among-species and among-communities variation. Among species, ecological generalization emerged as the strongest driver of variation in HP receipt irrespective of phenotypic specialization. Within-species variation in HP load size and diversity was predicted most often from two CP-HP relationships (linear or exponentially decreasing), suggesting that two distinct types of plant¿pollinator interactions prevail. CONCLUSIONS: Our results give important insights into the potential drivers of among- and within-species variation in HP receipt. They also highlight the value of explorations of patterns at the intraspecific level, which can ultimately shed light on plant-pollinator-mediated selection in diverse plant communities.

Published
2016

22. 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

27. Traits affecting mate acquisition in flowering plants: harmony vs. opposition among traits and sex functions

Author

Delph, L.F. and Ashman, T-L.

Subjects
Plant selection -- Research, Plants -- Reproduction, Plants -- Research, Zoology and wildlife conservation
Abstract

Sexual selection can occur in plants even though individuals do not directly interact via a process known as interaction-independent sexual selection. For example, if variation exists among individuals in flower production and this affects their attractiveness to pollinators, then individuals with relatively high flower production may achieve relatively high mating success via pollen donation. We review research on a variety of traits in flowering plants that affect pollinator visitation, with the underlying premise being that these can influence mate acquisition. In some cases research has shown that phenotypes that enhance pollen donation can be antagonistic to fitness achieved via female function, while in other cases both sex functions select for the same phenotype. We also highlight different approaches researchers have taken to address these issues, including studies on gynodioecious species, which contain both hermaphrodites and females. Examples include manipulations of flowers to hone in on the traits that actually contribute to pollinator discrimination, phenotypic selection analyses, and quantitative-genetic parameter estimation.

Published
2004

28. Sex-determining chromosomes and sexual dimorphism: insights from genetic mapping of sex expression in a natural hybrid Fragaria × ananassa subsp. cuneifolia.

Author

Govindarajulu, R, Liston, A, and Ashman, T-L

Subjects
STRAWBERRY research, SEX chromosomes, SEXUAL dimorphism, PLANT gene mapping, MALE sterility in plants, PLANTS
Abstract

We studied the natural hybrid (Fragaria × ananassa subsp. cuneifolia) between two sexually dimorphic octoploid strawberry species (Fragaria virginiana and Fragaria chiloensis) to gain insight into the dynamics of sex chromosomes and the genesis of sexual dimorphism. Male sterility is dominant in both the parental species and thus will be inherited maternally, but the chromosome that houses the sex-determining region differs. Thus, we asked whether (1) the cytotypic composition of hybrid populations represents one or both maternal species, (2) the sex-determining chromosome of the hybrid reflects the location of male sterility within the maternal donor species and (3) crosses from the hybrid species show less sexual dimorphism than the parental species. We found that F. × ananassa subsp. cuneifolia populations consisted of both parental cytotypes but one predominated within each population. Genetic linkage mapping of two crosses showed dominance of male sterility similar to the parental species, however, the map location of male sterility reflected the maternal donor in one cross, but not the other. Moreover, female function mapped to a single region in the first cross, but to two regions in the second cross. Aside from components of female function (fruit set and seed set), other traits that have been found to be significantly sexually dimorphic in the pure species were either not dimorphic or were dimorphic in the opposite direction to the parental species. These results suggest that hybrids experience some disruption of dimorphism in secondary sexual traits, as well as novel location and number of quantitative trait locus (QTL) affecting sex function. [ABSTRACT FROM AUTHOR]

Published
2013
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29. Florivory increases selfing: an experimental study in the wild strawberry, Fragaria virginiana.

Author

Penet, L., Collin, C. L., and Ashman, T.-L.

Subjects
FLORIVORES, FLORIVOROUS insects, ANIMAL sexual behavior, SELF-pollination, POLLEN, FLOWERS, STRAWBERRIES, BOTANY
Abstract

Florivores are antagonists that damage flowers, and have direct negative effects on flowering and pollination of the attacked plants. While florivory has mainly been studied for its consequences on seed production or siring success, little is known about its impact on mating systems. Damage to flowers can alter pollinator attraction to the plant and may therefore modify patterns of pollen transfer. However, the consequences of damage for mating systems can take two forms: a decrease in flower number reduces opportunities for intra-inflorescence pollen deposition (geitonogamy), which, in turn, may lead to a decrease in selfing; whereas a decrease in floral display may also reduce overall visitation and thus increase the chances of self-pollination via facilitated or autonomous autogamy. We investigated the effects of damage by a bud-clipping weevil ( Anthonomus signatus) in Fragaria virginiana in an experimental setting mimicking natural conditions. We found that increased damage led to an increase in selfing, a result consistent with the increased autogamy pathway. We discuss the implications of this finding and evaluate the generality of florivore-mediated mating system expression. [ABSTRACT FROM AUTHOR]

Published
2009
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31. 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.

32. The cost of floral longevity in Clarkia tembloriensis: an experimental investigation

Author

Schoen, D. J. and Ashman, T.-L.

Abstract

The hypothesis that flower maintenance requires resources that wouldbe used to support other plant functions (i.e. a cost of floral maintenance) was tested by experimentally manipulating floral longevity. Plants of Clarkia tembloriensis, a species with pollination-induced flower senescence, received either early or late pollinations (long and short longevities, respectively). We examined the effect of this manipulation on (1) perflower allocation to nectar production and (2) flower, fruit and seed production per plant under two levels of resource availability. The direct costs of floral longevity measured in terms of nectar sugar were high: flowers that were maintained 35% longerinvested proportionately more in nectar sugar (30%). At the whole-plant level, a cost of floral longevity was manifested as reduced seed production, but the magnitude of this cost varied with resource level. While plants with longer-lived flowers showed a 12% reduction in seed production, those that experienced reduced resource levels via partial defoliation, showed a decrement in seed production that was almost three times larger (34%). These differences were not brought aboutby changes in the number of flowers and fruits, but by significant alterations in their sizes. A model that expresses the cost of flower maintenance as a trade-off between floral longevity and seed production shows that an optimal flower longevity is determined by both the rate of fitness accrual and the cost of floral maintenance. [ABSTRACT FROM AUTHOR]

Published
1997

33. Tree of Sex: A database of sexual systems

Author

The Tree of Sex Consortium, Ashman, T.-L., Bachtrog, D., Blackmon, H., Goldberg, E.E., Hahn, M.W., Kirkpatrick, M., Kitano, J., Mank, J.E., Mayrose, I., Ming, R., Otto, S.P., Peichel, C.L., Pennell, M.W., Perrin, N., Ross, L., Valenzuela, N., and Vamosi, J.C.

Abstract

The vast majority of eukaryotic organisms reproduce sexually, yet the nature of the sexual system and the mechanism of sex determination often vary remarkably, even among closely related species. Some species of animals and plants change sex across their lifespan, some contain hermaphrodites as well as males and females, some determine sex with highly differentiated chromosomes, while others determine sex according to their environment. Testing evolutionary hypotheses regarding the causes and consequences of this diversity requires interspecific data placed in a phylogenetic context. Such comparative studies have been hampered by the lack of accessible data listing sexual systems and sex determination mechanisms across the eukaryotic tree of life. Here, we describe a database developed to facilitate access to sexual system and sex chromosome information, with data on sexual systems from 11,038 plant, 705 fish, 173 amphibian, 593 non-avian reptilian, 195 avian, 479 mammalian, and 11,556 invertebrate species.

Published
2014

34. Sex ratio represents a unique context for selection on attractive traits: consequences for the evolution of sexual dimorphism.

Author

Ashman TL and Diefenderfer C

Abstract

We explored the idea that sex ratio represents a unique context for selection on attractive traits by manipulating sex ratio and pollinator abundance in experimental populations of a gender-dimorphic wild strawberry Fragaria virginiana. We found that increasing the frequency of functional males (the pollen-bearing morph) increased the frequency of pollen-collecting syrphid flies in the pollinator assemblage, decreased pollinator visitation to less preferred morph (females), and decreased the degree of pollen limitation of females. Moreover, sex ratio influenced the strength of selection on petal size through female fitness but did not alter the strength of selection through male fitness components, suggesting that sex ratio can alter the gender bias of selection on an attractive trait. This study of context-dependent selection has important implications for the evolution of sexual dimorphism in attractive traits. First, it suggests that only certain conditions generate male-biased selection and, thus, could lead to selection-driven male-biased petal size dimorphism. Second, it suggests that flexible pollinator foraging may be an important mechanism by which sex ratio influences selection on attractive traits. Finally, it implies that variation in sex ratio could limit the evolution of sexual dimorphism and/or could maintain genetic variation in attractive traits.

Published
2001
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35. Dissecting the causes of variation in intra-inflorescence allocation in a sexually polymorphic species, Fragaria virginiana (Rosaceae).

Author

Ashman TL and Hitchens MS

Abstract

In this study we dissect the causes of variation in intra-inflorescence allocation in a sexually polymorphic species, Fragaria virginiana. We separated out the effects of resource competition during flowering from those of inflorescence architecture, as well as identified the effects of sex morph and genotype. We found position-based variation in petal length, ovule, pollen, and flower number to be influenced more by architecture than by our resource manipulations during flowering. We also found both genotype- and sex-specific intra-inflorescence patterns. Furthermore, our data indicate that the sex morph-specific intra-inflorescence patterns result from architectural modifications of the basic pattern. In fact, sex-differential intra-inflorescence patterns suggest that fitness through male and female function may be maximized by different resource distribution patterns within the inflorescence and may have been modified by past selection. Specifically, females invested heavily in ovules at positions where fruit set was most likely (primary and secondary), at the expense of flower number and allocation per flower at more distal positions. Whereas functional males invested minimally in ovules at all flower positions and produced the most abundantly flowered inflorescences, hermaphrodites, on the other hand, showed intermediate patterns, implying a compromise between sex functions. We suggest that consideration of intra-inflorescence allocation and inflorescence architecture may reveal the mechanism underlying sexual dimorphism in flower allocation and number.

Published
2000

36. Quantitative genetics of floral traits in a gynodioecious wild strawberry Fragaria virginiana: implications for the independent evolution of female and hermaphrodite floral phenotypes.

Author

Ashman TL

Subjects
Biological Evolution, Data Interpretation, Statistical, Phenotype, Reproduction genetics, Genetic Variation, Quantitative Trait, Heritable, Rosales genetics
Abstract

The independent evolution of floral phenotype is an important part of the process of gender specialization during the evolution of dioecy from hermaphroditism. However, we have little information on the genetic variation of floral traits in species with separate genders. Gynodioecious species (co-occurrence of females and hermaphrodites) have a breeding system intermediate between hermaphroditism and complete separation of the sexes (dioecy) and thus can provide insight into the genetic architecture underlying floral phenotype with respect to both primary (stamens and carpels) and secondary (petals) sexual traits. I used a nested breeding design to examine the potential for response to selection on floral traits and to examine whether this response would be similar in the two sex morphs of gynodioecious Fragaria virginiana. There was significant genetic variation underlying all floral traits, although narrow-sense heritabilities (ranging from -0.25 to 0.44) were, in most cases, much lower than broad-sense ones (ranging from 0.28 to 1. 53). Moreover, the sex morphs differed significantly in their heritabilities for shared traits, such as stamen length, and showed a tendency towards differing significantly in others, like carpel number and petal length. In addition, correlations between the sex morphs for these traits (ranging from 0.41 to 0.58) were significantly greater than 0, but less than 1. These results indicate that greater sexual dimorphism could evolve in this population of F. virginiana, even if selection on these traits is not divergent. However, strong developmental integration of floral traits (e.g. stamen length and petal length) and high levels of nonadditive genetic variance may represent barriers to the evolution of complete sexual dimorphism.

Published
1999
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