Abstract
Seed survival is of great importance for the performance of plant species and it is strongly affected by post-dispersal seed removal by either different animals such as granivorous species and secondary dispersers or abiotic conditions such as wind or water. The success of post-dispersal seed removal depends on seed specific traits including seed size, the presence of coats or elaiosomes, the mode of seed dispersion, and on the habitat in which seeds happen to arrive. In the present study we asked how seed traits (dehulled vs. intact; size; dispersal mode), habitat (forest vs. grassland), and time of day (night vs. day) influence post-dispersal seed removal of the four plant species Chelidonium majus, Lotus corniculatus, Tragopogon pratensis and Helianthus annuus. Seed removal experiments were performed in three regions in Hesse, Germany. The results showed different, inconsistent influences of time of day, depending on habitat and region, but consistent variation across seed types. C. majus and dehulled H. annuus seeds had the fastest removal rates. The impact of the habitat on post-dispersal seed removal was very low, only intact H. annuus seeds were removed at significantly higher rates in grasslands than in forests. Our study demonstrates consistent differences across seed types across different habitats and time: smaller seeds and those dispersed by animals had a faster removal rate. It further highlights that experimental studies need to consider seeds in their natural form to be most realistic.
Highlights
Seed dispersal, survival and germination are crucial for plant reproduction
Whereas seed dispersal depends on seed size, dispersal mode, and annual seed production (Lambert & Champman, 2005), seed survival is affected by post-dispersal seed removal
We investigated seed removal over time using linear regressions; first, we compared the fit of linear versus non-linear models using Integrated Nested Laplace Approximation (Inla) and results showed linear models to fit best
Summary
Survival and germination are crucial for plant reproduction. Whereas seed dispersal depends on seed size, dispersal mode, and annual seed production (Lambert & Champman, 2005), seed survival is affected by post-dispersal seed removal. The term post-dispersal seed removal includes both seed predation and secondary seed dispersal (Vander Wall, Kuhn & Beck, 2005). The relative rate of predation (seeds that are digested by granivorous animals) versus dispersal (seeds that are consumed or removed but survive and germinate) is unknown (Vander Wall, Kuhn & Beck, 2005). Seed predation can limit the population growth of certain plant species (Menalled et al, 2000), and it varies considerably due to different factors (Hulme, 1994), including habitat (Notman, Gorchov & Cornejo, 1996; Holl & Lulow, 1997), microhabitat (Manson & Stiles, 1998), seed species (Borchert & Jain, 1978), seed burial Habitat and time of day influence post-dispersal seed removal in temperate ecosystems.
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