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  1. AU="Doublet, Violette"
  2. AU="Arnal, Magdalena"
  3. AU="Holsinger, H"
  4. AU="Herrera-Viedma, Enrique"
  5. AU=Nordbeck Peter
  6. AU="Thomson, Rachael"
  7. AU="Espérou, Hélène"
  8. AU="Lohoff, Michael"
  9. AU="Shen, Yonggen"
  10. AU="Pervez, Muhammad Ijaz"
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  1. Article ; Online: Seed predation-induced Allee effects, seed dispersal and masting jointly drive the diversity of seed sources during population expansion.

    Doublet, Violette / Roques, Lionel / Klein, Etienne K / Lefèvre, François / Boivin, Thomas

    Journal of mathematical biology

    2023  Volume 87, Issue 3, Page(s) 47

    Abstract: The environmental factors affecting plant reproduction and effective dispersal, in particular biotic interactions, have a strong influence on plant expansion dynamics, but their demographic and genetic consequences remain an understudied body of theory. ... ...

    Abstract The environmental factors affecting plant reproduction and effective dispersal, in particular biotic interactions, have a strong influence on plant expansion dynamics, but their demographic and genetic consequences remain an understudied body of theory. Here, we use a mathematical model in a one-dimensional space and on a single reproductive period to describe the joint effects of predispersal seed insect predators foraging strategy and plant reproduction strategy (masting) on the spatio-temporal dynamics of seed sources diversity in the colonisation front of expanding plant populations. We show that certain foraging strategies can result in a higher seed predation rate at the colonisation front compared to the core of the population, leading to an Allee effect. This effect promotes the contribution of seed sources from the core to the colonisation front, with long-distance dispersal further increasing this contribution. As a consequence, our study reveals a novel impact of the predispersal seed predation-induced Allee effect, which mitigates the erosion of diversity in expanding populations. We use rearrangement inequalities to show that masting has a buffering role: it mitigates this seed predation-induced Allee effect. This study shows that predispersal seed predation, plant reproductive strategies and seed dispersal patterns can be intermingled drivers of the diversity of seed sources in expanding plant populations, and opens new perspectives concerning the analysis of more complex models such as integro-difference or reaction-diffusion equations.
    MeSH term(s) Animals ; Predatory Behavior ; Seed Dispersal ; Seeds ; Diffusion
    Language English
    Publishing date 2023-08-26
    Publishing country Germany
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ZDB-ID 187101-8
    ISSN 1432-1416 ; 0303-6812
    ISSN (online) 1432-1416
    ISSN 0303-6812
    DOI 10.1007/s00285-023-01981-x
    Database MEDical Literature Analysis and Retrieval System OnLINE

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  2. Article ; Online: Spatial and temporal patterns of a pulsed resource dynamically drive the distribution of specialist herbivores.

    Doublet, Violette / Gidoin, Cindy / Lefèvre, François / Boivin, Thomas

    Scientific reports

    2019  Volume 9, Issue 1, Page(s) 17787

    Abstract: Patterns and drivers of the spatio-temporal distribution of herbivores are key elements of their ecological and evolutionary impacts on plant populations. Herbivore spatial distributions may be influenced by increased (RCH: resource concentration ... ...

    Abstract Patterns and drivers of the spatio-temporal distribution of herbivores are key elements of their ecological and evolutionary impacts on plant populations. Herbivore spatial distributions may be influenced by increased (RCH: resource concentration hypothesis) or decreased (RDH: resource dilution hypothesis) resource densities, but the effect of temporal variations in resource densities on such distributions remains poorly documented. We used a survey of a masting tree species and its seed predators in Southeastern France to address the effect of a host's pulsed resource on the spatio-temporal distributions of highly specialized insect herbivores feeding on seeds. Variations in both resource and seed predator densities were assessed by estimating seed production and seed infestation rates in focus trees during 10 consecutive years. We found increasing seed infestation rates with decreasing host tree densities in years of low seed production, indicating a RDH pattern of seed predators. However, such pattern was not persistent in years of high seed production during which seed infestation rates did not depend on host tree densities. We showed that temporal variations in resource density can lead to transience of seed predator spatial distribution. This study highlights how predictions of plant-herbivore interactions in natural ecosystems may rely on temporal components underlying RCH and RDH hypotheses.
    MeSH term(s) Animal Distribution ; Animals ; Ecosystem ; Herbivory ; Insecta/physiology ; Seeds/parasitology ; Seeds/physiology ; Trees/parasitology ; Trees/physiology ; Wasps/physiology
    Language English
    Publishing date 2019-11-28
    Publishing country England
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ZDB-ID 2615211-3
    ISSN 2045-2322 ; 2045-2322
    ISSN (online) 2045-2322
    ISSN 2045-2322
    DOI 10.1038/s41598-019-54297-6
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  3. Article ; Online: The ecology of predispersal insect herbivory on tree reproductive structures in natural forest ecosystems.

    Boivin, Thomas / Doublet, Violette / Candau, Jean-Noël

    Insect science

    2017  Volume 26, Issue 2, Page(s) 182–198

    Abstract: Plant-insect interactions are key model systems to assess how some species affect the distribution, the abundance, and the evolution of others. Tree reproductive structures represent a critical resource for many insect species, which can be likely ... ...

    Abstract Plant-insect interactions are key model systems to assess how some species affect the distribution, the abundance, and the evolution of others. Tree reproductive structures represent a critical resource for many insect species, which can be likely drivers of demography, spatial distribution, and trait diversification of plants. In this review, we present the ecological implications of predispersal herbivory on tree reproductive structures by insects (PIHR) in forest ecosystems. Both insect's and tree's perspectives are addressed with an emphasis on how spatiotemporal variation and unpredictability in seed availability can shape such particular plant-animal interactions. Reproductive structure insects show strong trophic specialization and guild diversification. Insects evolved host selection and spatiotemporal dispersal strategies in response to variable and unpredictable abundance of reproductive structures in both space and time. If PIHR patterns have been well documented in numerous systems, evidences of the subsequent demographic and evolutionary impacts on tree populations are still constrained by time-scale challenges of experimenting on such long-lived organisms, and modeling approaches of tree dynamics rarely consider PIHR when including biotic interactions in their processes. We suggest that spatially explicit and mechanistic approaches of the interactions between individual tree fecundity and insect dynamics will clarify predictions of the demogenetic implications of PIHR in tree populations. In a global change context, further experimental and theoretical contributions to the likelihood of life-cycle disruptions between plants and their specialized herbivores, and to how these changes may generate novel dynamic patterns in each partner of the interaction are increasingly critical.
    MeSH term(s) Adaptation, Biological ; Animal Distribution ; Animals ; Biological Evolution ; Forests ; Herbivory ; Insecta ; Seeds/growth & development ; Trees/growth & development
    Language English
    Publishing date 2017-12-27
    Publishing country Australia
    Document type Journal Article ; Review
    ZDB-ID 2179775-4
    ISSN 1744-7917 ; 1672-9609
    ISSN (online) 1744-7917
    ISSN 1672-9609
    DOI 10.1111/1744-7917.12549
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