Abstract
Serotiny, the retention of seeds in a canopy seed bank until high temperatures cause seeds to be released, is an important life history trait for many woody plants in fire‐prone habitats. Serotiny provides a competitive advantage after fire but increases vulnerability to predispersal seed predation, due to the seeds being retained in clusters in predictable locations for extended periods. This creates opposing selection pressures. Serotiny is favored in areas of high fire frequency, but is selected against by predispersal seed predators. However, predation also selects for cone traits associated with seed defense that could reduce predation on serotinous cones and thereby relax selection against serotiny. This helps explain the elevated defenses in highly serotinous species. However, whether such interactions drive variation in seed defenses within variably serotinous populations has been studied rarely. We investigated the effects of phenotypic selection exerted by red squirrel (Tamiasciurus hudsonicus) predation on Rocky Mountain lodgepole pine (Pinus contorta latifolia) seeds. Squirrels preferentially harvested cones with more and larger seeds, indicating a preference for a higher food reward. We found evidence for stronger selection on trees with serotinous cones, which presumably accounts for the elevated defenses of and lower predation on serotinous compared to non‐serotinous cones. Lower levels of predation on serotinous cones in turn lessen selection against serotiny by squirrels. This has important implications because the frequency of serotiny in lodgepole pine has profound consequences for post‐fire communities and ecosystems widespread in the Rocky Mountains.
Highlights
Serotiny, the retention of seeds in a canopy seed bank, is an important life history trait of woody plants that are likely to experience a stand-replacing fire (Lamont, Le Maitre, Cowling, & Enright, 1991)
Serotiny increases the opportunity for predispersal seed predators to harvest the seeds (Janzen, 1971; Lamont et al, 1991; Smith, 1970; Talluto & Benkman, 2014)
This suggests that plants evolve seed defenses that counter selection by seed predators against serotiny
Summary
The retention of seeds in a canopy seed bank, is an important life history trait of woody plants that are likely to experience a stand-replacing fire (Lamont, Le Maitre, Cowling, & Enright, 1991). An elevated risk of predation should result in stronger selection for increased physical seed defenses and presumably explains why serotinous species allocate more resources to apparent seed defense (Smith, 1970; Janzen, 1971; Lamont et al, 1991; Groom & Lamont, 1997; Hulme & Benkman, 2002). A genome-wide association study of serotiny in lodgepole pine found 11 unlinked loci contributed to much of the variation in the occurrence of serotiny, with no genes of major effect (Parchman et al, 2012) Whether these loci influence seed defenses is unknown; cone traits are generally highly heritable in conifers (references in Benkman, Parchman, & Mezquida, 2010). We determined whether traits differed between serotinous and non-serotinous cones in a manner consistent with selection
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