Your search keyword '"Ashman, Tia‐Lynn"' showing total 156 results

1. Hyperaccumulation of nickel but not selenium drives floral microbiome differentiation: A study with six species of Brassicaceae.

Author

Cullen, Nevin P. and Ashman, Tia‐Lynn

Subjects

*COMPOSITION of flowers, *PLANT populations, *SELENIUM, *NICKEL, *GEOGRAPHY

Abstract

Premise Methods Results Conclusions Intraspecific variation in flower microbiome composition can mediate pollination and reproduction, and so understanding the community assembly processes driving this variation is critical. Yet the relative importance of trait‐based host filtering and dispersal in shaping among‐species variation in floral microbiomes remains unknown.Within two clades of Brassicaceae, we compared diversity and composition of floral microbiomes in natural populations of focal nickel and selenium hyperaccumulator species and two of their non‐accumulating relatives. We assessed the relative strengths of floral elemental composition, plant phylogenetic distance (host filtering), and geography (dispersal) in driving floral microbiome composition.Species in the nickel hyperaccumulator clade had strongly divergent floral microbiomes, the most of that variation driven by floral elemental composition, followed by geographic distance between plant populations and, lastly, phylogenetic distance. Conversely, within the selenium hyperaccumulator clade, floral microbiome divergence was much lower among the species and elemental composition, geography, and plant phylogeny were far weaker determinants of microbiome variation.Our results show that the strength of elemental hyperaccumulation's effect on floral microbiomes differs substantially among plant clades, possibly due to variation in elements as selective filters or in long‐distance dispersal probability in different habitats. [ABSTRACT FROM AUTHOR]

Published

2024

2. Neopolyploidy‐induced changes in giant duckweed (Spirodela polyrhiza) alter herbivore preference and performance and plant population performance.

Author

Assour, Hannah R., Ashman, Tia‐Lynn, and Turcotte, Martin M.

Subjects

*PLANT performance, *RHOPALOSIPHUM, *POLYPLOIDY, *HOST plants, *PLANT populations

Abstract

Premise: Polyploidy is a widespread mutational process in angiosperms that may alter population performance of not only plants but also their interacting species. Yet, knowledge of whether polyploidy affects plant–herbivore dynamics is scarce. Here, we tested whether aphid herbivores exhibit preference for diploid or neopolyploid plants, whether polyploidy impacts plant and herbivore performance, and whether these interactions depend on the plant genetic background. Methods: Using independently synthesized neotetraploid strains paired with their diploid progenitors of greater duckweed (Spirodela polyrhiza), we evaluated the effect of neopolyploidy on duckweed's interaction with the water‐lily aphid (Rhopalosiphum nymphaeae). Using paired‐choice experiments, we evaluated feeding preference of the herbivore. We then evaluated the consequences of polyploidy on aphid and plant performance by measuring population growth over multiple generations. Results: Aphids preferred neopolyploids when plants were provided at equal abundances but not at equal surface areas, suggesting the role of plant population surface area in driving this preference. Additionally, neopolyploidy increased aphid population performance, but this result was dependent on the plant's genetic lineage. Lastly, the impact of herbivory on neopolyploid vs. diploid duckweed varied greatly with genetic lineage, where neopolyploids appeared to be variably tolerant compared to diploids, sometimes mirroring the effect on herbivore performance. Conclusions: By experimentally testing the impacts of polyploidy on trophic species interactions, we showed that polyploidization can impact the preference and performance of herbivores on their plant hosts. These results have significant implications for the establishment and persistence of plants and herbivores in the face of plant polyploidy. [ABSTRACT FROM AUTHOR]

Published

2024

3. Neopolyploidy has variable effects on the diversity and composition of the wild strawberry microbiome.

Author

Anneberg, Thomas J., Cullen, Nevin P., O'Neill, Elizabeth M., Wei, Na, and Ashman, Tia‐Lynn

Subjects

BACTERIAL diversity, MICROBIAL communities, COMPOSITION of leaves, PHENOTYPES, BACTERIAL communities

Abstract

Premise: Whole‐genome duplication (neopolyploidy) can instantly differentiate the phenotype of neopolyploids from their diploid progenitors. These phenotypic shifts in organs such as roots and leaves could also differentiate the way neopolyploids interact with microbial species. While some studies have addressed how specific microbial interactions are affected by neopolyploidy, we lack an understanding of how genome duplication affects the diversity and composition of microbial communities. Methods: We performed a common garden experiment with multiple clones of artificially synthesized autotetraploids and their ancestral diploids, derived from 13 genotypes of wild strawberry, Fragaria vesca. We sequenced epiphytic bacteria and fungi from roots and leaves and characterized microbial communities and leaf functional traits. Results: Autotetraploidy had no effect on bacterial alpha diversity of either organ, but it did have a genotype‐dependent effect on the diversity of fungi on leaves. In contrast, autotetraploidy restructured the community composition of leaf bacteria and had a genotype‐dependent effect on fungal community composition in both organs. The most differentially abundant bacterial taxon on leaves belonged to the Sphingomonas, while a member of the Trichoderma was the most differentially abundant fungal taxon on roots. Ploidy‐induced change in leaf size was strongly correlated with a change in bacterial but not fungal leaf communities. Conclusions: Genome duplication can immediately alter aspects of the plant microbiome, but this effect varies by host genotype and bacterial and fungal community. Expanding these studies to wild settings where plants are exposed continuously to microbes are needed to confirm the patterns observed here. [ABSTRACT FROM AUTHOR]

Published

2024

4. Evaluating the influences of floral traits and pollinator generalism on α and β diversity of heterospecific pollen on stigmas.

Author

Ashman, Tia‐Lynn and Wei, Na

Subjects

*POLLINATION, *POLLINATORS, *PLANT species diversity, *POLLEN, *STRUCTURAL equation modeling, *FLOWERING of plants, *PLANT evolution

Abstract

Pollinator sharing often leads to receipt of heterospecific pollen (HP) along with conspecific pollen. As a result, flowering plants can accumulate diverse communities of HP on stigmas. While variation in HP diversity is an important selective force contributing to flowering plant fitness, evolution and community assembly, our understanding of the extent and drivers of heterogeneity of HP diversity is limited.In this study, we examined the species compositions and abundances of ~1000 HP communities across 59 co‐flowering plant species in three serpentine seep communities in California, USA. We evaluated the variation in HP diversity (γ diversity) across plant species in each seep and asked whether the variation in HP γ diversity was caused by variation in HP diversity within stigmas (α diversity) or HP compositional variation among stigmas (β diversity) due to the replacement of HP species (turnover) or their loss (nestedness) from one stigma to another. We further evaluated the potential drivers of variation in HP α and β diversity using phylogenetic structural equation models.We found that variation in HP γ diversity across plant species was driven strongly by differences among species in HP α diversity and to a lesser extent by HP β diversity. HP community turnover contributed more to HP β diversity than nestedness consistently across plant species and seeps, suggesting a general pattern of HP compositional heterogeneity from stigma to stigma. The phylogenetic structural equation models further revealed that floral traits (e.g., stigma area, stigma‐anther distance, stigma exposure) and floral abundance were key in determining HP α diversity by influencing HP abundance (load size), while floral traits and abundance showed variable impact on HP β diversity (turnover and nestedness). Pollination generalism contributed relatively less to HP‐α and β diversity.These findings disentangle the heterogeneity in HP diversity at different levels, which is essential for understanding the process underlying patterns of HP receipt in plant communities. That floral traits drive the heterogeneity in HP diversity points to additional avenues by which HP receipt may contribute to plant evolution. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published

2024

5. Plant neopolyploidy and genetic background differentiate the microbiome of duckweed across a variety of natural freshwater sources.

Author

Anneberg, Thomas J., Turcotte, Martin M., and Ashman, Tia‐Lynn

Subjects

ABIOTIC environment, PORTULACA oleracea, POLYPLOIDY, MICROBIAL diversity, LEMNA minor, FRESH water, AQUATIC plants

Abstract

Whole‐genome duplication has long been appreciated for its role in driving phenotypic novelty in plants, often altering the way organisms interface with the abiotic environment. Only recently, however, have we begun to investigate how polyploidy influences interactions of plants with other species, despite the biotic niche being predicted as one of the main determinants of polyploid establishment. Nevertheless, we lack information about how polyploidy affects the diversity and composition of the microbial taxa that colonize plants, and whether this is genotype‐dependent and repeatable across natural environments. This information is a first step towards understanding whether the microbiome contributes to polyploid establishment. We, thus, tested the immediate effect of polyploidy on the diversity and composition of the bacterial microbiome of the aquatic plant Spirodela polyrhiza using four pairs of diploids and synthetic autotetraploids. Under controlled conditions, axenic plants were inoculated with pond waters collected from 10 field sites across a broad environmental gradient. Autotetraploids hosted 4%–11% greater bacterial taxonomic and phylogenetic diversity than their diploid progenitors. Polyploidy, along with its interactions with the inoculum source and genetic lineage, collectively explained 7% of the total variation in microbiome composition. Furthermore, polyploidy broadened the core microbiome, with autotetraploids having 15 unique bacterial taxa in addition to the 55 they shared with diploids. Our results show that whole‐genome duplication directly leads to novelty in the plant microbiome and importantly that the effect is dependent on the genetic ancestry of the polyploid and generalizable over many environmental contexts. [ABSTRACT FROM AUTHOR]

Published

2023

6. The pollen virome: A review of pollen‐associated viruses and consequences for plants and their interactions with pollinators.

Author

Fetters, Andrea M. and Ashman, Tia‐Lynn

Subjects

*PLANT viruses, *POLLEN, *POLLINATORS, *AGRICULTURE, *INSECT pollinators, *PLANT reproduction

Abstract

The movement of pollen grains from anthers to stigmas, often by insect pollinator vectors, is essential for plant reproduction. However, pollen is also a unique vehicle for viral spread. Pollen‐associated plant viruses reside on the outside or inside of pollen grains, infect susceptible individuals through vertical or horizontal infection pathways, and can decrease plant fitness. These viruses are transferred with pollen between plants by pollinator vectors as they forage for floral resources; thus, pollen‐associated viral spread is mediated by floral and pollen grain phenotypes and pollinator traits, much like pollination. Most of what is currently known about pollen‐associated viruses was discovered through infection and transmission experiments in controlled settings, usually involving one virus and one plant species of agricultural or horticultural interest. In this review, we first provide an updated, comprehensive list of the recognized pollen‐associated viruses. Then, we summarize virus, plant, pollinator vector, and landscape traits that can affect pollen‐associated virus transmission, infection, and distribution. Next, we highlight the consequences of plant–pollinator–virus interactions that emerge in complex communities of co‐flowering plants and pollinator vectors, such as pollen‐associated virus spread between plant species and viral jumps from plant to pollinator hosts. We conclude by emphasizing the need for collaborative research that bridges pollen biology, virology, and pollination biology. [ABSTRACT FROM AUTHOR]

Published

2023

7. Herbicides and their potential to disrupt plant–insect chemical communication.

Author

Ramos, Sergio E., Bakhtiari, Moe, Castañeda‐Zárate, Miguel, Iriart, Veronica, and Ashman, Tia‐Lynn

Subjects

HERBICIDES, LIFE history theory, HERBICIDE-resistant crops, INSECT-plant relationships, INSECT populations, AGRICULTURAL intensification, METABOLISM

Abstract

Ecological interactions between plants and insects are of paramount importance for the maintenance of biodiversity and ecosystem functioning. Herbicides have long been considered a threat to plant and insect populations, but global increases in intensive agriculture and availability of herbicide‐resistant crops have intensified concerns about their full impact on biodiversity. Here, we argue that exposure to sublethal herbicide doses has the potential to alter plant–insect interactions as a result of disruptions in their chemical communication. This is because herbicides interfere with biosynthetic pathways and phytohormones involved in the production of several classes of plant volatiles that mediate plant–insect chemical communication. Sublethal herbicide doses can modify the morphological and life‐history plant traits and affect interactions with insects. However, the potential changes in plant volatiles and their consequences for plant–insect chemical communication have not yet received as much attention. We discuss how target‐site (disruptors of primary metabolism) and non‐target‐site (synthetic auxins) herbicides could alter the production of plant volatiles and disrupt plant–insect chemical communication. We suggest research avenues to fill in the current gap in our knowledge that might derive recommendations and applied solutions to minimize herbicides' impacts on plant–insect interactions and biodiversity. [ABSTRACT FROM AUTHOR]

Published

2023

8. Polyploidy impacts population growth and competition with diploids: multigenerational experiments reveal key life‐history trade‐offs.

Author

Anneberg, Thomas J., O'Neill, Elizabeth M., Ashman, Tia‐Lynn, and Turcotte, Martin M.

Subjects

POLYPLOIDY, AQUATIC plants, PLANT competition

Abstract

Summary: Ecological theory predicts that early generation polyploids ('neopolyploids') should quickly go extinct owing to the disadvantages of rarity and competition with their diploid progenitors. However, polyploids persist in natural habitats globally. This paradox has been addressed theoretically by recognizing that reproductive assurance of neopolyploids and niche differentiation can promote establishment. Despite this, the direct effects of polyploidy at the population level remain largely untested despite establishment being an intrinsically population‐level process.We conducted population‐level experiments where life‐history investment in current and future growth was tracked in four lineage pairs of diploids and synthetic autotetraploids of the aquatic plant Spirodela polyrhiza. Population growth was evaluated with and without competition between diploids and neopolyploids across a range of nutrient treatments.Although neopolyploid populations produce more biomass, they reach lower population sizes and have reduced carrying capacities when growing alone or in competition across all nutrient treatments. Thus, contrary to individual‐level studies, our population‐level data suggest that neopolyploids are competitively inferior to diploids. Conversely, neopolyploid populations have greater investment in dormant propagule production than diploids.Our results show that neopolyploid populations should not persist based on current growth dynamics, but high potential future growth may allow polyploids to establish in subsequent seasons. [ABSTRACT FROM AUTHOR]

Published

2023

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

Author

Rakosy, Demetra, Ashman, Tia‐Lynn, Zoller, Leana, Stanley, Amber, and Knight, Tiffany M.

Subjects

*POLLINATORS, *POLLINATION, *COLLECTIONS, *TIME perspective, *PERIODICAL articles

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. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published

2023

10. Flower colour and flowering phenology mediate plant–pollinator interaction assembly in a diverse co‐flowering community.

Author

Albor, Cristopher, Ashman, Tia‐Lynn, Stanley, Amber, Martel, Carlos, and Arceo‐Gómez, Gerardo

Subjects

*PLANT competition, *COMMUNITIES, *POLLINATORS, *SPECTRAL reflectance, *FLOWERING time, *PHENOLOGY, *COLOR

Abstract

Uncovering the role of competition and facilitation in community assembly is central for developing a predictive understanding of the forces that organize biodiversity. Standard trait‐based approaches however rely on detection of only one assembly mechanism (competition or facilitation) along a single trait even though pollinator‐mediated plant–plant interactions can be structured along multiple phenotypic, phenological and ecological traits.We evaluated plant species distribution along multiple phenotypic and ecological traits (flower colour, flowering time, pollinator sharing) and described an entire co‐flowering community as a set of modules with unique patterns of assembly, to test predictions regarding the relative contribution of competition and facilitation to the assembly of a diverse co‐flowering community.We show a modular pattern of flower colour assembly. Flower colour modules differ in their spectral reflectance patterns including colour hue and saturation. Within modules, however, species are differentially assembled along phenological and ecological traits (pollinator sharing) depending on the main pollinator group visiting plant species within each module. Results suggest different trait assembly patterns within individual trait‐modules in the same co‐flowering community and that different trait‐patterns can result from the same type of ecological interaction.This study reveals empirical evidence of community assembly along multiple axes of trait differentiation and raises caution when interpreting assembly patterns based on a single trait. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published

2022

11. The Plant Science Blogging Project: A curriculum to develop student science communication skills.

Author

Iriart, Veronica, Forrester, Nicole J., Ashman, Tia‐Lynn, and Kuebbing, Sara E.

Subjects

SCIENTIFIC communication, BOTANY, SCIENCE projects, COMMUNICATIVE competence, SCIENCE students, BOTANICAL gardens

Abstract

Societal Impact Statement: The practice of writing science blogs benefits both the scientist and society alike by providing professional development opportunities and delivering information in a format that is accessible to large and diverse audiences. By designing a project that introduced upper‐level undergraduate students to science blog writing with a focus on plant biology, we piqued students' interest in science writing and the content of a popular plant science blog website. If adopted more widely, this work could broaden the scope of science education and promote the development of effective science communication skills for the next generation of scientists. Summary: Successful scientists must communicate their research to broad audiences, including distilling key scientific concepts for the general public. Students pursuing careers in Science, Technology, Engineering, and Mathematics (STEM) fields benefit from developing public communication skills early in their careers, but opportunities are limited in traditional biology curricula.We created the "Plant Science Blogging Project" for a Plant Biology undergraduate course at the University of Pittsburgh in Fall 2018 and 2019. Students wrote blog posts merging personal connections with plants with plant biology concepts for the popular science blogs Plant Love Stories and EvoBites. By weaving biology into their narratives, students learned how to share botanical knowledge with the general public.The project had positive impacts on student learning and public engagement. In post‐assignment surveys, the majority of students reported that they enjoyed the assignment, felt it improved their understanding of plant biology, and piqued their interest in reading and writing science blogs in the future. Approximately one‐third of the student‐authored blogs were published, including two that rose to the top 10 most‐read posts on Plant Love Stories. Some dominant themes in student blogs, including medicine and culture, differed from common story themes published on the web, indicating the potential for students to diversify science blog content.Overall, the Plant Science Blogging Project allows undergraduate students to engage with plant biology topics in a new way, sharpen their scientific communication skills in accordance with today's world of mass information sharing, and contribute to the spread of scientific knowledge for public benefit. [ABSTRACT FROM AUTHOR]

Published

2022

12. Herbicides as anthropogenic drivers of eco‐evo feedbacks in plant communities at the agro‐ecological interface.

Author

Iriart, Veronica, Baucom, Regina S., and Ashman, Tia‐Lynn

Subjects

BIOTIC communities, PLANT genetic transformation, PLANT communities, HERBICIDE resistance, FOOD chains, PHENOTYPES, HERBICIDES

Abstract

Herbicides act as human‐mediated novel selective agents and community disruptors, yet their full effects on eco‐evolutionary dynamics in natural communities have only begun to be appreciated. Here, we synthesize how herbicide exposures can result in dramatic phenotypic and compositional shifts within communities at the agro‐ecological interface and how these in turn affect species interactions and drive plant (and plant‐associates') evolution in ways that can feedback to continue to affect the ecology and ecosystem functions of these assemblages. We advocate a holistic approach to understanding these dynamics that includes plastic changes and plant community transformations and also extends beyond this single trophic level targeted by herbicides to the effects on nontarget plant‐associated organisms and their potential to evolve, thereby embracing the complexity of these real‐world systems. We make explicit recommendations for future research to achieve this goal and specifically address impacts of ecology on evolution, evolution on ecology and their feedbacks so that we can gain a more predictive view of the fates of herbicide‐impacted communities. [ABSTRACT FROM AUTHOR]

Published

2021

13. Rhizobial variation, more than plant variation, mediates plant symbiotic and fitness responses to herbicide stress.

Author

Iriart, Veronica, Rarick, Elizabeth M., and Ashman, Tia‐Lynn

Subjects

*ATMOSPHERIC circulation, *RHIZOBIUM leguminosarum, *PLANT variation, *PESTICIDE pollution, *RED clover, *HERBICIDES

Abstract

Symbiotic mutualisms provide critical ecosystem services throughout the world. Anthropogenic stressors, however, may disrupt mutualistic interactions and impact ecosystem health. The plant‐rhizobia symbiosis promotes plant growth and contributes to the nitrogen (N) cycle. While off‐target herbicide exposure is recognized as a significant stressor impacting wild plants, we lack knowledge about how it affects the symbiotic relationship between plants and rhizobia. Moreover, we do not know whether the impact of herbicide exposure on symbiotic traits or plant fitness might be ameliorated by plant or rhizobial genetic variation. To address these gaps, we conducted a greenhouse study where we grew 17 full‐sibling genetic families of red clover (Trifolium pratense) either alone (uninoculated) or in symbiosis with one of two genetic strains of rhizobia (Rhizobium leguminosarum) and exposed them to a concentration of the herbicide dicamba that simulated “drift” (i.e., off‐target atmospheric movement) or a control solution. We recorded responses in immediate vegetative injury, key features of the plant‐rhizobia mutualism (nodule number, nodule size, and N fixation), mutualism outcomes, and plant fitness (biomass). In general, we found that rhizobial variation more than plant variation determined outcomes of mutualism and plant fitness in response to herbicide exposure. Herbicide damage response depended on plant family, but also whether plants were inoculated with rhizobia and if so, with which strain. Rhizobial strain variation determined nodule number and size, but this was herbicide treatment‐dependent. In contrast, strain and herbicide treatment independently impacted symbiotic N fixation. And while herbicide exposure significantly reduced plant fitness, this effect depended on inoculation state. Furthermore, the differential fitness benefits that the two rhizobial strains provided plants seemed to diminish under herbicidal conditions. Altogether, these findings suggest that exposure to low levels of herbicide impact key components of the plant‐rhizobia mutualism as well as plant fitness, but genetic variation in the partners determines the magnitude and/or direction of these effects. In particular, our results highlight a strong role of rhizobial strain identity in driving both symbiotic and plant growth responses to herbicide stress. [ABSTRACT FROM AUTHOR]

Published

2024

14. Recipient and donor characteristics govern the hierarchical structure of heterospecific pollen competition networks.

Author

Lanuza, Jose B., Bartomeus, Ignasi, Ashman, Tia‐Lynn, Bible, Greg, Rader, Romina, and Iler, Amy

Subjects

BIOLOGICAL fitness, COMPETITION (Biology), PLANT variation, POLLEN, POLLINATION, SEED industry, POLLINATORS

Abstract

Pollinator sharing can have negative consequences for plant fitness via competition for visits as well as with the arrival of heterospecific pollen. Plant traits and relatedness of donor and recipient species have been suggested to drive the observed variation in plant fitness effects of both processes, but how they shape the structure of interspecific pollen competition networks has been overlooked at the community level.To understand the importance of reproductive traits and relatedness to the impact of heterospecific pollen, we conducted a controlled glasshouse experiment with an artificial co‐flowering community. We performed 2,200 hand pollination crosses by experimentally transferring conspecific pollen alone or with 50% and 100% foreign pollen among 10 species belonging to three different plant families.Relative to conspecific pollen alone, there was a significant reduction in seed set with 50% heterospecific pollen for 67% of the crosses. This effect is driven largely by recipient traits and the interaction between recipient and donor traits under specific circumstances of trait matching. In general, species with shorter styles, smaller stigmas and lower pollen:ovule ratios were more impacted by heterospecific pollen. These traits and their differences among species led to a hierarchical (or transitive) structure of pollen competition with clear winners and losers. However, phylogenetic distance among recipient and donor species did not explain the effects.Synthesis. Our study shows that specific traits and trait combinations between donor and recipient species are important in determining seed production outcomes with heterospecific pollen receipt. Moreover, the differences in traits between species lead to a competitive structure with clear 'winners' or 'losers' species. The results of this study highlight the importance of specific traits in understanding the position of the competitive hierarchy of the species and the mechanisms underlying heterospecific pollen impacts upon plant reproductive success. [ABSTRACT FROM AUTHOR]

Published

2021

15. Pollinators mediate floral microbial diversity and microbial network under agrochemical disturbance.

Author

Wei, Na, Russell, Avery L., Jarrett, Abigail R., and Ashman, Tia‐Lynn

Subjects

MICROBIAL diversity, POLLINATORS, INSECT pollinators, HEMIPTERA, STRUCTURAL equation modeling, AGRICULTURAL chemicals

Abstract

How pollinators mediate microbiome assembly in the anthosphere is a major unresolved question of theoretical and applied importance in the face of anthropogenic disturbance. We addressed this question by linking visitation of diverse pollinator functional groups (bees, wasps, flies, butterflies, beetles, true bugs and other taxa) to the key properties of the floral microbiome (microbial α‐ and β‐diversity and microbial network) under agrochemical disturbance, using a field experiment of bactericide and fungicide treatments on cultivated strawberries that differ in flower abundance. Structural equation modelling was used to link agrochemical disturbance and flower abundance to pollinator visitation to floral microbiome properties. Our results revealed that (i) pollinator visitation influenced the α‐ and β‐diversity and network centrality of the floral microbiome, with different pollinator functional groups affecting different microbiome properties; (ii) flower abundance influenced the floral microbiome both directly by governing the source pool of microbes and indirectly by enhancing pollinator visitation; and (iii) agrochemical disturbance affected the floral microbiome primarily directly by fungicide, and less so indirectly via pollinator visitation. These findings improve the mechanistic understanding of floral microbiome assembly, and may be generalizable to many other plants that are visited by diverse insect pollinators in natural and managed ecosystems. [ABSTRACT FROM AUTHOR]

Published

2021

16. Pollen transfer networks reveal alien species as main heterospecific pollen donors with fitness consequences for natives.

Author

Parra‐Tabla, Víctor, Alonso, Conchita, Ashman, Tia‐Lynn, Raguso, Robert A., Albor, Cristopher, Sosenski, Paula, Carmona, Diego, Arceo‐Gómez, Gerardo, and Heard, Matthew

Subjects

INTRODUCED species, FLOWERING of plants, POLLEN, POLLEN tube, PLANT invasions, INTRODUCED plants, POLLINATORS, POLLINATION

Abstract

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

Published

2021

17. Spatially explicit depiction of a floral epiphytic bacterial community reveals role for environmental filtering within petals.

Author

Hayes, Rebecca A., Rebolleda-Gómez, Maria, Butela, Kristen, Cabo, Leah F., Cullen, Nevin, Kaufmann, Nancy, O'Neill, Steffani, and Ashman, Tia-Lynn

Published

2021

18. Polyploid plants obtain greater fitness benefits from a nutrient acquisition mutualism.

Author

Forrester, Nicole J., Rebolleda‐Gómez, Maria, Sachs, Joel L., and Ashman, Tia‐Lynn

Subjects

MUTUALISM, NUTRIENT cycles, POLYPLOIDY, CAPITAL investments, KNOWLEDGE gap theory

Abstract

Summary: Polyploidy is a key driver of ecological and evolutionary processes in plants, yet little is known about its effects on biotic interactions. This gap in knowledge is especially profound for nutrient acquisition mutualisms, despite the fact that they regulate global nutrient cycles and structure ecosystems. Generalism in mutualistic interactions depends on the range of potential partners (niche breadth), the benefits obtained and ability to maintain benefits across a variety of partners (fitness plasticity). Here, we determine how each of these is influenced by polyploidy in the legume–rhizobium mutualism.We inoculated a broad geographic sample of natural diploid and autotetraploid alfalfa (Medicago sativa) lineages with a diverse panel of Sinorhizobium bacterial symbionts. To analyze the extent and mechanism of generalism, we measured host growth benefits and functional traits.Autotetraploid plants obtained greater fitness enhancement from mutualistic interactions and were better able to maintain this across diverse rhizobial partners (i.e. low plasticity in fitness) relative to diploids. These benefits were not attributed to increases in niche breadth, but instead reflect increased rewards from investment in the mutualism.Polyploid plants displayed greater generalization in bacterial mutualisms relative to diploids, illustrating another axis of advantage for polyploids over diploids. [ABSTRACT FROM AUTHOR]

Published

2020

19. Autopolyploidy alters nodule‐level interactions in the legume–rhizobium mutualism.

Author

Forrester, Nicole J. and Ashman, Tia‐Lynn

Subjects

*RHIZOBIUM, *LEGUMES, *NUTRIENT cycles, *MUTUALISM, *NITROGEN fixation, *ROOT-tubercles, *PLANT-microbe relationships

Abstract

Premise: Polyploidy is a major genetic driver of ecological and evolutionary processes in plants, yet its effects on plant interactions with mutualistic microbes remain unresolved. The legume–rhizobium symbiosis regulates global nutrient cycles and plays a role in the diversification of legume species. In this mutualism, rhizobia bacteria fix nitrogen in exchange for carbon provided by legume hosts. This exchange occurs inside root nodules, which house bacterial cells and represent the interface of legume–rhizobium interactions. Although polyploidy may directly impact the legume–rhizobium mutualism, no studies have explored how it alters the internal structure of nodules. Methods: We created synthetic autotetraploids using Medicago sativa subsp. caerulea. Neotetraploid plants and their diploid progenitors were singly inoculated with two strains of rhizobia, Sinorhizobium meliloti and S. medicae. Confocal microscopy was used to quantify internal traits of nodules produced by diploid and neotetraploid plants. Results: Autotetraploid plants produced larger nodules with larger nitrogen fixation zones than diploids for both strains of rhizobia, although the significance of these differences was limited by power. Neotetraploid M. sativa subsp. caerulea plants also produced symbiosomes that were significantly larger, nearly twice the size, than those present in diploids. Conclusions: This study sheds light on how polyploidy directly affects a plant–bacterium mutualism and uncovers novel mechanisms. Changes in plant–microbe interactions that directly result from polyploidy likely contribute to the increased ability of polyploid legumes to establish in diverse environments. [ABSTRACT FROM AUTHOR]

Published

2020

20. Genome duplication effects on functional traits and fitness are genetic context and species dependent: studies of synthetic polyploid Fragaria.

Author

Wei, Na, Du, Zhaokui, Liston, Aaron, and Ashman, Tia‐Lynn

Subjects

GENOMES, SPECIES, WILD plants, LEAF area, TREATMENT effectiveness, HORDEUM, STRAWBERRIES, GENE flow

Abstract

Premise: Divergence in functional traits and adaptive responses to environmental change underlies the ecological advantage of polyploid plants in the wild. While established polyploids may benefit from combined outcomes of genome doubling, hybridization, and polyploidy‐enabled adaptive evolution, whether genome doubling alone can drive ecological divergence or whether the outcome is genetically variable remains less clear. Methods: Using synthetic, colchicine‐induced, autotetraploid (4x) plants derived from self‐pollinated diploid (2x) seeds, and their colchicine‐treated but unconverted diploid (2x.nc) full sibs from two diploid wild strawberry taxa (Fragaria vesca subsp. vesca and F. vesca subsp. bracteata), we examined the effects of genome doubling on functional traits, heat stress tolerance, and fitness components across taxa and maternal families (i.e., genetic families) within taxa. Results: Comparisons between 2x and 2x.nc plants indicated a negligible effect of colchicine treatment on functional traits. Genome doubling increased stomatal length and decreased stomatal density, specific leaf area, and leaf vein density, recapitulating patterns observed in wild polyploid Fragaria. Trichome density, heat stress tolerance, and relative growth rate were not significantly affected by genome doubling. Although clonal reproduction was reduced in response to genome doubling, this effect was strongly genetic‐family dependent. Conclusions: The results suggest that genome doubling during incipient speciation alone can generate ecological divergence and variation among genetic lineages. This response potentially allows for rapid short‐term evolutionary adaptation and fuels genomic diversity and independent origins of polyploidy. [ABSTRACT FROM AUTHOR]

Published

2020

21. Floral organs act as environmental filters and interact with pollinators to structure the yellow monkeyflower (Mimulus guttatus) floral microbiome.

Author

Rebolleda Gómez, María and Ashman, Tia‐Lynn

Subjects

*POLLINATORS, *FLOWERING of plants, *BACTERIAL communities, *MICROBIAL communities, *FILTERS & filtration, *SERPENTINE

Abstract

Assembly of microbial communities is the result of neutral and selective processes. However, the relative importance of these processes is still debated. Microbial communities of flowers, in particular, have gained recent attention because of their potential impact to plant fitness and plant‐pollinator interactions. However, the role of selection and dispersal in the assembly of these communities remains poorly understood. Here, we evaluated the role of pollinator‐mediated dispersal on the contribution of neutral and selective processes in the assembly of floral microbiomes of the yellow monkeyflower (Mimulus guttatus). We sampled floral organs from flowers in the presence and absence of pollinators within five different serpentine seeps in CA and obtained 16S amplicon data on the epiphytic bacterial communities. Consistent with strong microenvironment selection within flowers we observed significant differences in community composition across floral organs and only a small effect of geographic distance. Pollinator exposure affected the contribution of environmental selection and depended on the rate and intimacy of interactions with flower visitors. This study provides evidence of the importance of dispersal and within‐flower heterogeneity in shaping epiphytic bacterial communities of flowers, and highlights the complex interplay between pollinator behaviour, environmental selection and additional abiotic factors in shaping the epiphytic bacterial communities of flowers. [ABSTRACT FROM AUTHOR]

Published

2019

22. Gazing into the anthosphere: considering how microbes influence floral evolution.

Author

Rebolleda‐Gómez, María, Forrester, Nicole J., Russell, Avery L., Wei, Na, Fetters, Andrea M., Stephens, Jessica D., and Ashman, Tia‐Lynn

Subjects

PLANT reproduction, FLOWERING of plants, MICROORGANISMS, PLANT genes, BIOLOGICAL evolution, KNOWLEDGE gap theory

Abstract

Summary: The flower is the hallmark of angiosperms and its evolution is key to their diversification. As knowledge of ecological interactions between flowers and their microbial communities (the anthosphere) expands, it becomes increasingly important to consider the evolutionary impacts of these associations and their potential eco‐evolutionary dynamics. In this Viewpoint we synthesize current knowledge of the anthosphere within a multilevel selection framework and illustrate the potential for the extended floral phenotype (the phenotype expressed from the genes of the plant and its associated flower microbes) to evolve. We argue that flower microbes are an important, but understudied, axis of variation that shape floral trait evolution and angiosperm reproductive ecology. We highlight knowledge gaps and discuss approaches that are critical for gaining a deeper understanding of the role microbes play in mediating plant reproduction, ecology, and evolution. [ABSTRACT FROM AUTHOR]

Published

2019

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

Author

Burns, Jean H., Bennett, Joanne M., Li, Junmin, Xia, Jing, Arceo‐Gómez, Gerardo, Burd, Martin, Burkle, Laura A., Durka, Walter, Ellis, Allan G., Freitas, Leandro, Rodger, James G., Vamosi, Jana C., Wolowski, Marina, Ashman, Tia‐Lynn, Knight, Tiffany M., and Steets, Janette A.

Subjects

NATIVE plants, POLLINATION, INTRODUCED plants, POLLINATORS, POLLEN, PLANT invasions

Abstract

Summary: 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 noninvasive and 1931 native plant populations, across 1249 species.We found that invasive populations with generalist pollination or pollinator dependence were less pollen limited than natives, but invasives and introduced noninvasives did not differ. Invasive species produced 3× fewer ovules/flower and >250× more flowers per 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 generalisation are able to compensate for or avoid pollen limitation, potentially helping to explain the invaders' reproductive successes. [ABSTRACT FROM AUTHOR]

Published

2019

24. The case for the continued use of the genus name Mimulus for all monkeyflowers.

Author

Lowry, David B., Sobel, James M., Angert, Amy L., Ashman, Tia‐Lynn, Baker, Robert L., Blackman, Benjamin K., Brandvain, Yaniv, Byers, Kelsey J.R.P., Cooley, Arielle M., Coughlan, Jennifer M., Dudash, Michele R., Fenster, Charles B., Ferris, Kathleen G., Fishman, Lila, Friedman, Jannice, Grossenbacher, Dena L., Holeski, Liza M., Ivey, Christopher T., Kay, Kathleen M., and Koelling, Vanessa A.

Subjects

CHLOROPLAST DNA, BOTANY, MOLECULAR phylogeny, SCIENTIFIC knowledge, CHROMOSOME inversions, ECOPHYSIOLOGY, LIFE sciences

Published

2019

25. Functional trait divergence and trait plasticity confer polyploid advantage in heterogeneous environments.

Author

Wei, Na, Cronn, Richard, Liston, Aaron, and Ashman, Tia‐Lynn

Subjects

PHYSIOLOGICAL adaptation, STRAWBERRIES, POLYPLOIDY, DIPLOIDY, ALLOPOLYPLOIDY in plant chromosomes, PLANT genomes

Abstract

Summary: Polyploidy, or whole‐genome duplication often with hybridization, is common in eukaryotes and is thought to drive ecological and evolutionary success, especially in plants. The mechanisms of polyploid success in ecologically relevant contexts, however, remain largely unknown.We conducted an extensive test of functional trait divergence and plasticity in conferring polyploid fitness advantage in heterogeneous environments, by growing clonal replicates of a worldwide genotype collection of six allopolyploid and five diploid wild strawberry (Fragaria) taxa in three climatically different common gardens.Among leaf functional traits, we detected divergence in trait means but not plasticities between polyploids and diploids, suggesting that increased genomic redundancy in polyploids does not necessarily translate into greater trait plasticity in response to environmental change. Across the heterogeneous garden environments, however, polyploids exhibited fitness advantage, which was conferred by both trait means and adaptive trait plasticities, supporting a 'jack‐and‐master' hypothesis for polyploids.Our findings elucidate essential ecological mechanisms underlying polyploid adaptation to heterogeneous environments, and provide an important insight into the prevalence and persistence of polyploid plants. [ABSTRACT FROM AUTHOR]

Published

2019

26. Consequences of invasion for pollen transfer and pollination revealed in a tropical island ecosystem.

Author

Johnson, Anna L. and Ashman, Tia‐Lynn

Subjects

*TROPICAL forests, *HONEYBEES, *INTRODUCED species, *POLLINATION, *FOREST ecology

Abstract

Summary: Pollination is known to be sensitive to environmental change but we lack direct estimates of how quantity and quality of pollen transferred between plant species shifts along disturbance gradients. This limits our understanding of how species compositional change impacts pollen receipt per species and structure of pollen transfer networks.We constructed pollen transfer networks along a plant invasion gradient in the Hawaiian dry tropical forest ecosystem. Flowers and stigmas were collected from both native and introduced plants, pollen was identified and enumerated and floral traits were measured. We also characterized pollen loads carried by individuals of the dominant invasive pollinator, Apis mellifera.Species flowering in native‐dominated sites were more tightly connected by pollen transfer than those in heavily invaded sites. Compositional turnover in the pollen loads of A. mellifera was correlated (70%) with turnover in the composition of pollen transfer networks. Floral traits predicted species roles within pollen transfer networks, but many of these differed qualitatively depending on whether plants were native or introduced.Our work indicates that pollen transfer networks change with invasion. Floral morphology and foraging behaviour of the introduced super‐generalist pollinator are implicated as key in determining the roles introduced species play within native pollen transfer networks. [ABSTRACT FROM AUTHOR]

Published

2019

27. Is heterospecific pollen receipt the missing link in understanding pollen limitation of plant reproduction?

Author

Ashman, Tia‐Lynn, Arceo‐Gómez, Gerardo, Bennett, Joanne M., and Knight, Tiffany M.

Subjects

*POLLINATORS, *POLLINATION, *POLLEN, *PLANT reproduction, *BIOTIC communities, *TROPICAL dry forests, *BOTANY

Abstract

Keywords: Anthropocene; heterospecific pollen; invasive species; plant-pollinator interactions; pollen limitation; pollination; pollinators; pollen transfer network EN Anthropocene heterospecific pollen invasive species plant-pollinator interactions pollen limitation pollination pollinators pollen transfer network 845 847 3 06/30/20 20200601 NES 200601 How will anthropogenic changes (species invasions/extinctions, land-use conversion, and climate change) influence the pollination and reproductive success of the world's angiosperms, 85% of which require animal pollination (Ollerton et al., [18])? It should include a characterization of both HP and CP on the stigmas of open-pollinated and pollen-supplemented plants to determine the potential contribution of HP receipt to PL. Anthropocene, heterospecific pollen, invasive species, plant-pollinator interactions, pollen limitation, pollination, pollinators, pollen transfer network. [Extracted from the article]

Published

2020

28. Variation in sampling effort affects the observed richness of plant–plant interactions via heterospecific pollen transfer: implications for interpretation of pollen transfer networks.

Author

Arceo‐Gómez, Gerardo, Alonso, Conchita, Ashman, Tia‐Lynn, and Parra‐Tabla, Victor

Subjects

POLLINATION, SERPENTINE plants

Abstract

Premise of the Study: There is growing interest in understanding plant–plant interactions via pollen transfer at the community level. Studies on the structure and spatial variability of pollen transfer networks have been valuable to this understanding. However, there is high variability in the intensity of sampling used to characterize pollen transfer interactions, which could influence network structure. To date, there is no knowledge of how sampling effort influences the richness of pollen on stigmas and thereby transfer interactions observed, nor how this may vary across species and study sites. Methods: We use rarefaction curves on 16 species to characterize the relationship between sampling effort (number of stigmas analyzed) and the richness of pollen transfer interactions recorded. We further assess variability in this relationship among species, plant community types, and sites within a single plant community. Key Results: We show high among‐species variation in the amount of sampling required to sufficiently characterize interspecific pollen transfer. We further reveal variability in the sampling effort‐interaction richness relationship among different plant communities and even for the same species growing in different sites. Conclusions: The wide heterogeneity in the sampling effort required to accurately characterize pollen transfer interactions observed has the potential to influence the characterization of pollen transfer dynamics. Thus, sampling completeness should be considered in future studies to avoid overestimation of modularity and specialization in pollen transfer networks that may bias the predicted causes and expected consequences of such processes for plant–plant interactions. [ABSTRACT FROM AUTHOR]

Published

2018

29. Effects of heterospecific pollen from a wind‐pollinated and pesticide‐treated plant on reproductive success of an insect‐pollinated species.

Author

Ashman, Tia‐Lynn, Arceo‐Gómez, Gerardo, and Jameel, Mohammad I.

Subjects

*POLLEN, *PLANT reproduction, *POLLINATION

Abstract

Premise of The Study: Studies on the effects of heterospecific pollen (HP) transfer have been focused mainly on insect‐pollinated species, despite evidence of insect visitation to wind‐pollinated species and transfer of their pollen onto stigmas of insect‐pollinated plants. Thus, the potential consequences of HP transfer from wind‐pollinated species remain largely unknown. Furthermore, accumulation of pesticide residues in pollen of wind‐pollinated crops has been documented, but its potential effects on wild plant species via HP transfer have not been tested. Methods: We evaluated the effect of wind‐dispersed Zea mays pollen on pollen tube growth of the insect‐pollinated Mimulus nudatus via hand pollinations. We further evaluated whether pesticide‐contaminated Z. mays pollen has larger effects on M. nudatus pollen success than non‐contaminated Z. mays pollen. Key Results: We found a significant negative effect of Z. mays pollen on M. nudatus pollen tube growth even when deposited in small amounts. However, we did not observe any difference in the magnitude of this effect between pesticide‐laden Z. mays pollen and non‐contaminated Z. mays pollen. Conclusions: Our results suggest that wind‐pollinated species can have negative effects as HP donors on insect‐pollinated recipients. Thus, their role in shaping co‐flowering interactions for wind‐ and insect‐pollinated species deserves more attention. Although we did not find evidence that pesticide contamination increased HP effects, we cannot fully rule out the existence of such an effect, because pollen load and thus the pesticide dose applied to stigmas was low. This result should be confirmed using other HP donors and across a range of HP loads, pesticide types, and concentrations. [ABSTRACT FROM AUTHOR]

Published

2018

30. Plastid genomes reveal recurrent formation of allopolyploid Fragaria.

Author

Dillenberger, Markus S., Liston, Aaron, Wei, Na, Ashman, Tia‐Lynn, and Tennessen, Jacob A.

Subjects

STRAWBERRY genetics, STRAWBERRY diseases & pests

Abstract

Premise of the Study: Recurrent formation of polyploid taxa is a common observation in many plant groups. Haploid, cytoplasmic genomes like the plastid genome can be used to overcome the problem of homeologous genes and recombination in polyploid taxa. Fragaria (Rosaceae) contains several octo‐ and decaploid species. We use plastome sequences to infer the plastid ancestry of these taxa with special focus on the decaploid Fragaria cascadensis. Methods: We used genome skimming of 96 polyploid Fragaria samples on a single Illumina HiSeq 3000 lane to obtain whole plastome sequences. These sequences were used for phylogenetic reconstructions and dating analyses. Ploidy of all samples was inferred with flow cytometry, and plastid inheritance was examined in a controlled cross of F. cascadensis. Key Results: The plastid genome phylogeny shows that only the octoploid F. chiloensis is monophyletic, all other polyploid taxa were supported to be para‐ or polyphyletic. The decaploid Fragaria cascadensis has biparental plastid inheritance and four different plastid donors. Diversification of the F. cascadensis clades occurred in the last 230,000 years. The southern part of its distribution range harbors considerably higher genetic diversity, suggestive of a potential refugium. Conclusions: Fragaria cascadensis had at least four independent origins from parents with different plastomes. In contrast, para‐ and polyphyletic taxa of the octoploid Fragaria species are best explained by incomplete lineage sorting and/or hybridization. Biogeographic patterns in F. cascadensis are probably a result of range shift during the last glacial maximum. [ABSTRACT FROM AUTHOR]

Published

2018

31. Higher ploidy is associated with reduced range breadth in the Potentilleae tribe.

Author

Brittingham, Hayley A., Koski, Matthew H., and Ashman, Tia‐Lynn

Subjects

ROSACEAE, POLYPLOIDY

Abstract

Premise of the Study: Polyploids are predicted to have greater niche breadth and larger ranges than diploids because of higher ecological tolerances, self‐compatibility, and increased genetic variation. However, empirical support for this prediction is mixed, and most studies compare diploids and polyploids, rather than accounting for quantitative variation in ploidy. We test the prediction that species of higher ploidy have greater range breadth and abiotic breadth than those of lower ploidy. Methods: We estimate range breadth (latitudinal range, altitudinal range, and range size) and abiotic breadth (range in temperature, precipitation, and ultraviolet‐B irradiance) for 109 species in the Potentilleae tribe of Rosaceae. We assess the contribution of ploidy to variation in range breadth, while accounting for shared evolutionary history and time of species divergence using phylogenetic comparative methods. Key Results: Ploidy varied widely among species from 2× to 12×. Phylogenetic relatedness explained little of the variation in ploidy, range breadth, and abiotic breadth. Transitions to higher ploidy were associated with reduced latitudinal and altitudinal ranges, smaller overall range size, and reduced abiotic breadth for temperature and UV‐B. Conclusions: In contrast to predictions, this study shows that transitions to higher ploidy are associated with reduced range size and abiotic breadth. It also highlights the importance of considering continuous variation in ploidy when evaluating ecological correlates with ploidy. We discuss how genome duplication may contribute to the observed negative relationship between ploidy and range breadth. [ABSTRACT FROM AUTHOR]

Published

2018

32. Present-day sympatry belies the evolutionary origin of a high-order polyploid.

Author

Wei, Na, Tennessen, Jacob A., Liston, Aaron, and Ashman, Tia‐Lynn

Subjects

POLYPLOIDY, STRAWBERRIES, PLEISTOCENE Epoch, INSULIN derivatives, MORPHOLOGY

Abstract

Disentangling the evolutionary histories of polyploids, especially those with high ploidies, can reveal fundamental processes in speciation. Despite occurring frequently during evolution, the origins of many extant polyploid plant species remain largely unknown., By integrating linkage mapping, polyploid phylogeny and sex-determining region ( SDR) in a unified framework, we statistically evaluated evolutionary hypotheses concerning the origin of a recently recognized decaploid strawberry ( Fragaria cascadensis)., The maximum-likelihood phylogenies and topology tests across homeologous groups consistently rejected the seemingly parsimonious hypothesis of 'contemporary sympatric speciation' via hybridization between octoploid and diploid congeners. Instead, most chromosomes supported 'ancient hybrid speciation' between a maternal octoploid progenitor ancestral to extant octoploid strawberries and a paternal, extinct Fragaria iinumae-like diploid progenitor, probably in Beringia during the Pleistocene. The absence of a shared SDR between the decaploid and other Fragaria is also consistent with an older origin rather than a recent hybrid origin in situ., Our study reveals a long evolutionary history of the decaploid despite its recent discovery, and highlights the pitfalls of inferring polyploid origins from niche/range alone or combined with morphology. It can serve as an exemplary starting step towards building much-needed model systems of established polyploids that have been, and remain to be, recognized. [ABSTRACT FROM AUTHOR]

Published

2017

33. Considering the unintentional consequences of pollinator gardens for urban native plants: is the road to extinction paved with good intentions?

Author

Johnson, Anna L., Fetters, Andrea M., and Ashman, Tia‐Lynn

Subjects

POLLINATORS, NATIVE plants, URBAN plants, PLANT diversity, WILD flowers

Abstract

Urban centers are important foci for plant biodiversity and yet widespread planting of wildflower gardens in cities to sustain pollinator biodiversity is on the rise, without full consideration of potential ecological consequences. The impact of intentional wildflower plantings on remnant native plant diversity in urban and peri-urban settings has not received attention, although shared pollinators are likely to mediate several types of biotic interactions between human-introduced plants and remnant native ones. Additionally, if wildflower species escape gardens these indirect effects may be compounded with direct ones. We review the potential positive and negative impacts of wildflower gardens on urban native flowering plants, and we reveal substantial gaps in our knowledge. We present a roadmap for research to address whether wildflower gardens, while benefiting pollinators, could also hasten the extinction of native remnant plants in urban settings, or whether they could have other effects that enrich urban biodiversity. Goals of future wildflower mixes should consider the totality of potential interactions. [ABSTRACT FROM AUTHOR]

Published

2017

34. Homomorphic ZW chromosomes in a wild strawberry show distinctive recombination heterogeneity but a small sex‐determining region.

Author

Tennessen, Jacob A., Govindarajulu, Rajanikanth, Liston, Aaron, and Ashman, Tia‐Lynn

Subjects

SEX chromosomes, CHROMOSOMES, SEX in plants, DIOECIOUS plants, STRAWBERRIES

Abstract

Summary: Recombination in ancient, heteromorphic sex chromosomes is typically suppressed at the sex‐determining region (SDR) and proportionally elevated in the pseudoautosomal region (PAR). However, little is known about recombination dynamics of young, homomorphic plant sex chromosomes.We examine male and female function in crosses and unrelated samples of the dioecious octoploid strawberry Fragaria chiloensis in order to map the small and recently evolved SDR controlling both traits and to examine recombination patterns on the incipient ZW chromosome.The SDR of this ZW system is located within a 280 kb window, in which the maternal recombination rate is lower than the paternal one. In contrast to the SDR, the maternal PAR recombination rate is much higher than the rates of the paternal PAR or autosomes, culminating in an elevated chromosome‐wide rate. W‐specific divergence is elevated within the SDR and a single polymorphism is observed in high species‐wide linkage disequilibrium with sex.Selection for recombination suppression within the small SDR may be weak, but fluctuating sex ratios could favor elevated recombination in the PAR to remove deleterious mutations on the W. The recombination dynamics of this nascent sex chromosome with a modestly diverged SDR may be typical of other dioecious plants. [ABSTRACT FROM AUTHOR]

Published

2016

35. Macroevolutionary patterns of ultraviolet floral pigmentation explained by geography and associated bioclimatic factors.

Author

Koski, Matthew H. and Ashman, Tia‐Lynn

Subjects

*BACTERIAL pigments, *GEOGRAPHY, *BIOCLIMATOLOGY, *MOLECULAR phylogeny, *FLOWERS, *COLOR of plants, *FLOWER anatomy, *FLORAL morphology

Abstract

Selection driven by biotic interactions can generate variation in floral traits. Abiotic selection, however, also contributes to floral diversity, especially with respect to patterns of pigmentation. Combining comparative studies of floral pigmentation and geography can reveal the bioclimatic factors that may drive macroevolutionary patterns of floral color., We create a molecular phylogeny and measure ultraviolet ( UV) floral pattern for 177 species in the Potentilleae tribe (Rosaceae). Species are similar in flower shape and visible color but vary in UV floral pattern. We use comparative approaches to determine whether UV pigmentation variation is associated with geography and/or bioclimatic features ( UV-B, precipitation, temperature)., Floral UV pattern was present in half of the species, while others were uniformly UV-absorbing. Phylogenetic signal was detected for presence/absence of pattern, but among patterned species, quantitative variation in UV-absorbing area was evolutionarily labile. Uniformly UV-absorbing species tended to experience higher UV-B irradiance. Patterned species occurring at higher altitudes had larger UV-absorbing petal areas, corresponding with low temperature and high UV exposure., This analysis expands our understanding of the covariation of UV-B irradiance and UV floral pigmentation from within species to that among species, and supports the view that abiotic selection is associated with floral diversification among species. [ABSTRACT FROM AUTHOR]

Published

2016

36. Invasion status and phylogenetic relatedness predict cost of heterospecific pollen receipt: implications for native biodiversity decline.

Author

Arceo‐Gómez, Gerardo, Ashman, Tia‐Lynn, and Rafferty, Nicole

Subjects

*BIODIVERSITY, *GENETIC speciation, *BIOLOGICAL evolution, *BIOLOGICAL classification, *CLADISTIC analysis

Abstract

Understanding the mechanisms by which invasive species affect native plants is a central challenge. Invasive plants have been shown to reduce pollinator visitation to natives and increase pollen quantity limitation. However, visitation and conspecific pollen delivery are the only two components of the pollination process; post-pollination interactions on the stigma (heterospecific pollen [ HP] receipt) could intensify pre-pollination responses to invasion., Here, we used meta-analysis to test the hypotheses that invasive plants are more detrimental as HP donors than natives ones and that HP donors that are closely related to the recipients have stronger effects on fruit and seed production compared to distantly related ones., Invasive HP donors reduced fruit and seed production of recipients to a greater degree than native ones, and this was more intense for HP donors closely related to natives. Related donors were more detrimental overall., Synthesis. These results suggest that the total effect of invasive plants on native plant reproductive success could be greater than what is inferred from visitation and conspecific pollen transfer alone. Furthermore, these results indicate that invasive species can reduce reproductive success of native species even if pollinator visitation rates remain unaltered. Thus, we highlight the need to evaluate pre- and post-pollination processes in order to fully understand the potential effects of invasive species on the reproductive success and maintenance of native plant populations. [ABSTRACT FROM AUTHOR]

Published

2016

37. Polyploidy and sexual system in angiosperms: Is there an association?

Author

Glick, Lior, Sabath, Niv, Ashman, Tia‐Lynn, Goldberg, Emma, and Mayrose, Itay

Subjects

ANGIOSPERMS, POLYPLOIDY in plant chromosomes, INTERSEXUALITY, PLANT genomes, DIMORPHISM in plants, PLANTS

Abstract

PREMISE OF THE STUDY: Flowering plants display a variety of sexual systems, ranging from complete cosexuality (hermaphroditism) to separate-sexed individuals (dioecy). While dioecy is relatively rare, it has evolved many times and is present in many plant families. Transitions in sexual systems are hypothesized to be affected by large genomic events such as whole-genome duplication, or polyploidy, and several models have been proposed to explain the observed patterns of association. METHODS: In this study, we assessed the association between ploidy and sexual system (separate or combined sexes). To this end, we assembled a database of ploidy levels and sexual systems for 1000 species, spanning 18 genera and 15 families. We applied several phylogenetic comparative approaches, including Pagel�s coevolutionary framework and sister clade analyses, for detecting correlations between ploidy level and sexual system. KEY RESULTS:Our results indicate a broad association between polyploidy and sexual system dimorphism, with low evolutionary stability of the diploid-dioecious condition observed in several clades. A detailed examination of the clades exhibiting this correlation reveals that it is underlain by various patterns of transition rate asymmetry. CONCLUSIONS: We conclude that the long-hypothesized connection between ploidy and sexual system holds in some clades, although it may well be affected by factors that differ from clade to clade. Our results further demonstrate that to better understand the evolutionary processes involved, more sophisticated methods and extensive and detailed data sets are required for both broad and focused inquiry. [ABSTRACT FROM AUTHOR]

Published

2016

38. A first test of elemental allelopathy via heterospecific pollen receipt.

Author

Wipf, Heidi M.‐L., Meindl, George A., and Ashman, Tia‐Lynn

Subjects

ALLELOPATHY, POLLINATORS, STIGMAS (Botany), HYPERACCUMULATOR plants, COMMON monkeyflower

Abstract

PREMISE OF THE STUDY: Coflowering plants often share pollinators and may receive mixed species pollen loads. Although detrimental effects of heterospecific pollen receipt have been documented, trait-based modifiers of interactions on the stigma remain largely unknown. Chemicals that mediate interactions between sporophytes could also influence pollen-pollen or pollen-style interactions. We test for the first time whether nickel (Ni) accumulation in pollen can lead to "elemental allelopathy" and intensify the fitness consequences of heterospecific pollen receipt. METHODS: We grew Ni-hyperaccumulator Streptanthus polygaloides in soils augmented with three concentrations of Ni, measured pollen Ni concentration, and hand-pollinated non-Ni hyperaccumulator Mimulus guttatus. We assayed pollen germination, tube gro th and seeds of M. guttatus after pure and mixed species pollinations. KEY RESULTS: Streptanthus polygaloides pollen accumulated Ni in proportion to soil availability and at levels significantly greater than M. guttatus pollen. Altho ug h receipt of 5. polygaloides pollen increased M. guttatus pollen germination, it decreased the proportion of pollen tubes reaching the ovary and seed number. Increased Ni in pollen, however, did not significantly intensify the e ffect of S. polygaloides pollen receipt on M. guttatus seed production. CONCLUSIONS: Different levels of Ni in the pollen of S. polygaloides achieved in the greenhouse did not significantly reduce the fitness of M. guttatus. Stigma tolerance to Ni may also have contributed to the lack of response to increased Ni in heterospecific pollen. This study paves the way for additional tests in other metal hyperaccumulators and recipients, and to identify mechanisms of interactions on the stigma. [ABSTRACT FROM AUTHOR]

Published

2016

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

Author

Arceo‐Gómez, Gerardo, Abdala‐Roberts, Luis, Jankowiak, Anneka, Kohler, Clare, Meindl, George A., Navarro‐Fernández, Carmen M., Parra‐Tabla, Víctor, Ashman, Tia‐Lynn, and Alonso, Conchita

Subjects

POLLEN, PHENOTYPES, PLANT communities, PLANT spacing, POLLINATORS

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 r e s u lt s : 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. [ABSTRACT FROM AUTHOR]

Published

2016

40. Dioecy does not consistently accelerate or slow lineage diversification across multiple genera of angiosperms.

Author

Sabath, Niv, Goldberg, Emma E., Glick, Lior, Einhorn, Moshe, Ashman, Tia‐Lynn, Ming, Ray, Otto, Sarah P., Vamosi, Jana C., and Mayrose, Itay

Subjects

ANGIOSPERMS, SEX in plants, PLANT physiology, PLANT reproduction, STERILITY in plants

Abstract

Dioecy, the sexual system in which male and female organs are found in separate individuals, allows greater specialization for sex-specific functions and can be advantageous under various ecological and environmental conditions. However, dioecy is rare among flowering plants. Previous studies identified contradictory trends regarding the relative diversification rates of dioecious lineages vs their nondioecious counterparts, depending on the methods and data used., We gathered detailed species-level data for dozens of genera that contain both dioecious and nondioecious species. We then applied a probabilistic approach that accounts for differential speciation, extinction, and transition rates between states to examine whether there is an association between dioecy and lineage diversification., We found a bimodal distribution, whereby dioecious lineages exhibited higher diversification in certain genera but lower diversification in others. Additional analyses did not uncover an ecological or life history trait that could explain a context-dependent effect of dioecy on diversification. Furthermore, in-depth simulations of neutral characters demonstrated that such bimodality is also found when simulating neutral characters across the observed trees., Our analyses suggest that - at least for these genera with the currently available data - dioecy neither consistently places a strong brake on diversification nor is a strong driver. [ABSTRACT FROM AUTHOR]

Published

2016

41. An altitudinal cline in UV floral pattern corresponds with a behavioral change of a generalist pollinator assemblage.

Author

Koski, Matthew H. and Ashman, Tia-Lynn

Subjects

*POLLINATORS, *BEHAVIOR modification, *ECOLOGICAL succession, *POLLINATION, *PLANT fertilization

Abstract

Spatial variation in pollinator communities or behaviors can underlie floral diversification. Floral traits in the UV spectrum are common and mediate plant-pollinator interactions, but the role of pollinators in driving or maintaining their geographic variation has not been fully explored. We identify an altitudinal cline of increasing relative size of the UV bullseye pattern in Argentina anserina (Rosaceae) flowers, and assess whether pollination context contributes to clinal variation. At four sites that varied in altitude, we document the pollinator assemblage, and pollinator preference and visitation behavior. We then determine how pollinator visits affected pollen receipt and export. Finally, we describe how the functional relationship between UV floral phenotype and pollen receipt changed with altitude. Floral UV bullseye size increased with altitude, which corresponded with a change from a hymenopteran-to a dipteran-dominated pollinator assemblage. While dipteran and hymenopteran preferences for bullseye size were similar, flowers with large bullseyes received more foraging visits than those with small bullseyes at higher altitude. The reverse was observed at the lower altitudes; pollinators approached large-bullseye flowers often but rarely foraged. These differences are expected to affect fitness because foraging visits increased pollen export and receipt. Indeed, when natural variation in bullseye size was considered, it had a stronger effect on pollen receipt than other traits (flower size, display, or color). Plants with larger bullseyes tended to receive more pollen at the highest-altitude site, while those with smaller ones received more pollen at the lowest-altitude site. Results suggest that altitudinal changes in preference and behavior of the overall pollinator assemblage, but not differential preferences of pollinator taxonomic groups, could contribute to clinal variation in a UV floral trait for a generalist-pollinated plant. [ABSTRACT FROM AUTHOR]

Published

2015

42. COMPARISON OF NUCLEAR, PLASTID, AND MITOCHONDRIAL PHYLOGENIES AND THE ORIGIN OF WILD OCTOPLOID STRAWBERRY SPECIES.

Author

Govindarajulu, Rajanikanth, Parks, Matthew, Tennessen, Jacob A., Liston, Aaron, and Ashman, Tia‐Lynn

Subjects

PHYLOGENY, CHLOROPLASTS, STRAWBERRY research, GENOMICS, MITOCHONDRIA, ROSACEA

Abstract

Premise of the study: Molecular phylogenies derived from all three plant genomes can provide insight into the evolutionary history of plant groups influenced by reticulation. We sought to reconstruct mitochondrial exome, chloroplast, and nuclear genome phylogenies for octoploid Fragaria and their diploid ancestors and to document patterns of incongruence between and within the cytoplasmic genomes and interpret these in the context of evolutionary origin of the octoploid strawberries. Methods: Using a genome-skimming approach, we assembled chloroplast genomes and mitochondrial exomes, and we used the POLiMAPS method to assemble nuclear sequence for octoploid species and constructed phylogenies from all three genomes. We assessed incongruence between and within cytoplasmic genomes using topology-based phylogenetic incongruence tests. Key results: The incongruent cytoplasmic genome phylogeny with respect to the placement of octoploids suggests potential breakage in linkage disequilibrium of cytoplasmic genomes during allopolyploid origin of the octoploids. Furthermore, a single mitochondrial chimeric gene with a putative roie in cytoplasmic male sterility yields a phylogeny that is inconsistent with the rest of the mitochondrial genome but consistent with the chloroplast phylogeny, suggesting intracellular gene transfer between heteroplasmic mitochondria, possibly driven by selection to overcome the effects of mito-nuclear incompatibility in octoploid origins. Conclusions: This work expands on the current understanding of evolutionary history of the octoploid ancestors of cultivated strawberry. It demonstrates phylogenetic incongruence between cytoplasmic genomes in octoploids with respect to diploid ancestors, indicating breakage in linkage disequilibrium of cytoplasmic genomes. We discuss potential organism-level processes that may have contributed to the observed incongruence in Fragaria. [ABSTRACT FROM AUTHOR]

Published

2015

43. EFFECTS OF FLORAL METAL ACCUMULATION ON FLORAL VISITOR COMMUNITIES: INTRODUCING THE ELEMENTAL FILTER HYPOTHESIS.

Author

Meindl, George A. and Ashman, Tia‐Lynn

Subjects

*PLANT species, *POLLINATORS, *SPECIES diversity, *STREPTANTHUS, *POLLINATION

Abstract

* Premise o f the study: For plant species that occur in heavy-metal-rich soil, floral metal accumulation may produce an "elemental filter" that reduces pollinator visitation rate and species richness and changes pollinator species composition relative to closely related species growing on normal soils. Consequently, metal hyperaccumulation may contribute to pollinator-mediated reproductive isolation between closely related plant species that differ in metal accumulation. * Methods: To test these ideas, we characterized plant-pollinator interactions in a sympatric pair of species that differ in metal accumulation (Streptanthus polygaloides, a nickel (Ni) hyperaccumulator, and S. tortuosus, a nonaccumulator). To test the elemental filter hypothesis, we presented arrays of S. polygaloides that were grown in either Ni-treated or control soils to insects at both S. polygaloides and S. tortuosus sites and recorded visitation. * Key results: Naturally occurring S. polygaloides hyperaccumulated Ni in anthers and accumulated Ni in nectar, while S. tortuosus did not. Floral visitation rates in natural populations were higher to S. tortuosus than S. polygaloides. In addition, while floral visitor richness was similar, few pollinator taxa were shared between the two plant species. Nickel-treatment of S. polygaloides reduced visits by bees, but only for arrays presented at S. tortuosus sites. * Conclusions: We show that the Ni hyperaccumulator S. polygaloides hosts a distinct floral visitor community, indicating that metal accumulation creates a filter for pollinators, similar to that documented for herbivores. Our study highlights a novel mechanism by which the abiotic environment can alter plant-pollinator interactions, and consequently plant reproduction and speciation. [ABSTRACT FROM AUTHOR]

Published

2015

44. Elemental composition of serpentine plants depends on habitat affinity and organ type.

Author

DeHart, Kyle S., Meindl, George A., Bain, Daniel J., and Ashman, Tia-Lynn

Subjects

CHEMICAL composition of plants, SERPENTINE plants, SERPENTINE in soils, HABITATS, PLANT nutrients, CONCENTRATION functions

Abstract

Serpentine soils represent a stressful growing environment for most plants due to a number of edaphic factors, including low concentrations of plant nutrients and high concentrations of heavy metals. Plants in these environments range from weakly resistant to strictly endemic, yet it remains unclear whether serpentine habitat affinity affects plant chemistry, including elemental distribution among various organs. We address this knowledge gap using three confamilial pairs of endemic and non-endemic plants. First, we determined total and phytoavailable soil concentrations of four nutrients (Ca, Mg, P, K) and three heavy metals (Co, Cr, Ni) across 11 serpentine study sites. Next, we determined the concentrations of these elements in leaves, flowers, and seeds in plants of each species growing on serpentine soil. Soils at the study sites were characteristically high in concentrations of Mg, Ni, Co and Cr, and low in K, P and Ca relative to non-serpentine soils. Habitat affinity was critical in determining the organ concentrations of Ca, Mg, K, and Co, although concentration often varied by organ type. Relative to non-endemics, endemics had higher concentrations of Mg and K across all organ types, whereas Ca concentrations were higher for non-endemics in the leaves but equal for the two reproductive organs. While no difference was observed in Ni or Cr concentrations, endemics contained 56% less Co than non-endemics across all organ types. These results suggest that serpentine endemics are more effective at acquiring potentially limiting nutrients compared to non-endemic species, but both endemic and non-endemic plants exclude most phytotoxic heavy metals. Therefore, growth on serpentine requires common physiological responses of all plants, though high variation in uptake of some key nutrients and exclusion of some metals may reflect differential adaptation to serpentines by non-endemic and endemic plants. [ABSTRACT FROM AUTHOR]

Published

2014

45. Heterospecific pollen receipt affects self pollen more than outcross pollen: implications for mixed-mating plants.

Author

Arceo-Gómez, Gerardo and Ashman, Tia-Lynn

Subjects

*POLLEN, *OUTCROSSING (Biology), *BIODIVERSITY, *PLANT populations, *PLANT diversity, *PLANT species

Abstract

Flowering plants often occur in mixed-species groups where interactions between them can occur both pre- and post-pollination. In post-pollination interactions, conspecific (CP) and heterospecific pollen (HP) interact on the style and previous work indicates that these interactions, often, but not always, lead to reduced fitness. However, over half of insect-pollinated species display a mixed mating system, where both self and outcross CP could interact with HP, yet no study has evaluated the effects on both types of CP. We present and test hypotheses for the differential effects of HP depending on CP source and timing of HP arrival with a mixed-mating plant, Mimulus guttatus, and one of its HP donors (Helianthus exilis). We found H. exilis pollen reduced tube growth and fertilization success of M. guttatus self pollen to a greater degree than outcross pollen, but only when CP and HP were applied simultaneously. Our results indicate that for mixed-mating plants the fitness consequences of HP receipt can be more detrimental than previously thought. Furthermore, our findings suggest that HP receipt, which can be high in biodiverse areas, has the potential to influence mating system and genetic diversity of the plant populations within them. [ABSTRACT FROM AUTHOR]

Published

2014

46. Patterns of pollen quantity and quality limitation of pre-zygotic reproduction in Mimulus guttatus vary with co-flowering community context.

Author

Arceo‐Gómez, Gerardo and Ashman, Tia‐Lynn

Subjects

*COMMON monkeyflower, *PALYNOLOGY, *PLANT reproduction, *POLLEN viability, *PLANT species diversity, *SEED quality

Abstract

Pollen quantity limitation has been widely recognized as one of the main causes of plant reproductive failure in nature. However, its negative effects on fruit and seed production have been often confounded with those of low pollen quality (i.e. low conspecific pollen viability and/or slow pollen tube growth rate). The lack of differentiation between these two aspects of pollen limitation has resulted not only in a potential overestimation of the incidence of pollen quantity limitation but has led to a poor understanding of the factors and mechanisms that affect pollen quality limitation. Knowledge of the relative importance and underlying causes of both aspects of pollen limitation (quantity and quality) is required to fully understand the ecological and evolutionary consequences of pollen limitation in natural populations. Co-flowering community context (e.g. species richness and conspecific density), in particular, can be an important driver of overall pollen limitation. However, how pollen quantity and quality limitation vary separately with the community context has not previously been examined, even though they may vary differently as they arise from different mechanisms, e.g. insect visitation rate versus inbreeding depression. Here we evaluate the effect of co-flowering diversity and conspecific density on the relative importance of pollen quantity and quality limitation for Mimulus guttatus pre-zygotic reproduction (i.e. pollen tube success) at serpentine seeps in California over two years. We found overall pollen limitation of pre-zygotic reproductive success at all seeps regardless of the co-flowering context. However, plants in high-diversity/low- conspecific density communities were mostly limited by pollen quantity, whereas plants in low-diversity/high-conspecific density ones experienced stronger quality limitation - a pattern that was consistent across years. These results not only highlight the importance of conducting comprehensive studies on pollen limitation that evaluate both, its quantity and quality aspects, but are the first to show how their relative contribution to overall pollen limitation can vary with extrinsic factors such as the co-flowering community context. [ABSTRACT FROM AUTHOR]

Published

2014

47. FRAGARIA: A GENUS WITH DEEP HISTORICAL ROOTS AND RIPE FOR EVOLUTIONARY AND ECOLOGICAL INSIGHTS.

Author

Liston, Aaron, Cronn, Richard, and Ashman, Tia‐Lynn

Subjects

STRAWBERRY research, ROSACEAE, BIOLOGICAL evolution, BIOLOGY, ECOLOGY

Abstract

The cultivated strawberry, Fragaria xananassa, is one of the youngest domesticated plants. Its 18th century origin via hybridization in Europe between the North American F. virginiana and the South American F. chiloensis was documented by the botanist Antoine Nicolas Duchesne. His 1766 "Natural History of Strawberries" is an extraordinary work that integrates fundamental discoveries on the biology, ecology, and phylogeny of Fragaria with applied information on cultivation and ethnobotanical uses, serving as an inspiration for current research in the genus. Fragaria species exhibit the full range of sexual systems in the gynodioecy pathway from hermaphroditism to dioecy (and back again), as well as variation in self-compatibility, and evidence of sex chromosomes with female heterogamety. The genus is also characterized by interspecific hybridization and polyploidy, with a natural range of ploidy levels from diploids to decaploids. This biological diversity, combined with the availability of genomic resources and the ease of growing and experimenting with the plants, makes Fragaria a very attractive system for ecological and evolutionary genomics. The goal of this review is to introduce Fragaria as a model genus and to provide a roadmap for future integrative research. These research directions will deepen our understanding of the ecological and evolutionary context that shaped the ancestors of the cultivated strawberry, not only providing information that can be applied to efforts to shape the future of this important fruit crop but also our understanding of key transitions in plant evolution. [ABSTRACT FROM AUTHOR]

Published

2014

48. Dissecting pollinator responses to a ubiquitous ultraviolet floral pattern in the wild.

Author

Koski, Matthew H. and Ashman, Tia-Lynn

Subjects

*POLLINATORS, *WILD plants, *FLOWERS, *COLOR of plants, *SPATIAL variation, *PLANT species, *INSECT-plant relationships

Abstract

Colour patterns on flowers can increase pollinator visitation and enhance foraging behaviour. Flowers uniform in colour to humans, however, can appear patterned to insects due to spatial variation in UV reflectance on petals. A UV 'bullseye' pattern that is common among angiosperms - UV-absorbing petal bases and UV-reflective apices - purportedly functions as a nectar guide, enhancing pollinator orientation and experimental evidence suggests that UV reflectance increases floral apparency to pollinators., We test the pollinator-attracting and pollinator-orienting functions of floral UV pattern and UV reflectance under natural conditions. Specifically, we address whether UV reflection alone, or UV pattern influences small bee and syrphid fly attraction rates (approaching, landing and foraging visits), foraging rates, and likelihood of foraging and orienting to the centre of flowers, using Argentina anserina, a species whose flowers exhibit variability in the size of the UV bullseye. We manipulated UV properties while maintaining uniformly yellow petals to create three phenotypes - uniformly UV-absorptive, uniformly UV-reflective, and inversed bullseye (reflective bases and absorptive apices) and compared insect visitation and behaviour to control flowers with the common UV bullseye phenotype., The presence of UV pattern increased attraction rates by both bees and syrphid flies relative to either fully UV reflective or absorptive flowers. However, only in the inverse array did the bullseye phenotype elicit higher foraging rates than the test flower. Neither the presence of pattern, nor the reversal of the common pattern influenced the likelihood of pollinator foraging or orientating to the flowers' centre during a visit., We provide some of the first evidence to suggest that flowers with spatial variation in UV reflectance may be more conspicuous to insects than those with petals that uniformly absorb or reflect UV, all of which are naturally occurring phenotypes. Further, we verify that the most common UV pattern in nature increases insect attraction and foraging rate relative to the inverse pattern. Results confirm a distance apparency function of the UV bullseye, but we argue for reconsideration of the notion that pollinators benefit from this ubiquitous floral motif through enhanced foraging efficiency. [ABSTRACT FROM AUTHOR]

Published

2014

49. TOWARD A PREDICTIVE UNDERSTANDING OF THE FITNESS COSTS OF HETEROSPECIFIC POLLEN RECEIPT AND ITS IMPORTANCE IN CO-FLOWERING COMMUNITIES.

Author

Ashman, Tia‐Lynn and Arceo‐Gómez, Gerardo

Subjects

*ANGIOSPERMS, *POLLINATORS, *POLLEN, *PHYLOGENY, *POLLINATION

Abstract

* Premise of the study: While we have a good understanding of how co-flowering plants interact via pollinator foraging, we still know very little about how plants interact via heterospecific pollen (HP) receipt. To fill this gap, we sought to illuminate the extent of HP receipt and quantitatively evaluate the fitness consequences of HP receipt. We consider plant traits that could mediate the fitness costs of HP receipt in an effort to better understand the potential consequences of pollinator sharing in natural communities. * Methods: We survey the literature for occurrence of HP receipt and assess variation in the fitness effects of a standard HP treatment. We develop a conceptual framework for understanding variation in fitness consequences of HP receipt. * Key results: We find evidence for variation in HP receipt and its costs. Our framework predicts that certain traits (self-incompatibility, small, highly aperaturate or allelopathic pollen) will lead to detrimental HP donors, whereas others (self-compatibility, small or wet stigmas, short styles) will lead to vulnerable HP recipients. We also predict that detrimental effects of HP receipt will increase with decreasing phylogenetic distance between donor and recipient. * Conclusions: Our framework can guide much needed additional work so that we can evaluate whether and which plant traits contribute to the variation in the effects of HP receipt. This will be a step toward predicting the consequences of HP receipt in natural communities, and ultimately transform our understanding of the role of postpollination interactions in floral trait evolution and pollinator sharing. [ABSTRACT FROM AUTHOR]

Published

2013

50. BIOCLIMATIC, ECOLOGICAL, AND PHENOTYPIC INTERMEDIACY AND HIGH GENETIC ADMIXTURE IN A NATURAL HYBRID OF OCTOPLOID STRAWBERRIES.

Author

Salamone, Isabella, Govindarajulu, Rajanikanth, Falk, Stacey, Parks, Matthew, Liston, Aaron, and Ashman, Tia‐Lynn

Subjects

BIOCLIMATOLOGY research, STRAWBERRY growing, PLANT ecological genetics, GENETIC polymorphisms in plants, EFFECT of environment on plants

Abstract

Premise of the Study: Hybrid zones provide "natural laboratories" for understanding the processes of selection, reinforcement, and speciation. We sought to gain insight into the degree of introgression and the extent of ecological-phenotypic intermediacy in the natural hybrid strawberry, Fragaria x ananassa subsp, cuneifolia. Methods: We used whole-plastome sequencing to identify parental species-specific (Fragaria chiloensis and F. virginiana) chloroplast single-nucleotide polymorphisms and combined the use of these with nuclear microsatellite markers to genetically characterize the hybrid zone. We assessed the potential role of selection in the observed geographic patterns by bioclimatically characterizing the niche of the hybrid populations and phenotypically characterizing hybrid individuals of known genomic constitution. Key Results: Significant admixture and little overall maternal bias in chloroplast or nuclear genomes suggest a high degree of interfertility among the parental and hybrid species and point to a long history of backcrossing and genetic mixing in the hybrid zone. Even though hybrids were phenotypically intermediate to the parental species, there was a discernible fingerprint of the parental genotype within hybrid individuals. Thus, although the pattern of introgression observed suggests geographic limitations to gene flow, it may be reinforced by selection for specific parental traits in the bioclimatically intermediate habitat occupied by the hybrid. Conclusions: This work uncovered the genetic complexity underlying the hybrid zone of the wild relatives of the cultivated strawberry. It lays the foundation for experimental dissection of the causes of genomic introgression and nuclear--cytoplasmic disassociation, and for understanding other parts of Fragaria evolutionary history. [ABSTRACT FROM AUTHOR]

Published

2013