Abstract

The seedling stage is a critical point in the life history of plants. The survival and growth of tree seedlings can be affected by both the abiotic and biotic environment. Seedlings of both tropical and temperate forests have been shown to experience conspecific negative density dependence (CNDD) and positive density dependence (facilitation). American chestnut was once a common species throughout eastern North America that was decimated by an introduced pathogen in the early 1900 s. Here we present an analysis of chestnut seedling ecology in a unique, sexually reproducing population of American chestnut in central Maine, USA, to understand how both conspecific and heterospecific canopy trees along with size and age influence the survival and growth of understory chestnut trees. Using both a cohort analysis and a static life table approach, we found that seedling survival was lower in the first year of life, and those trees that survive their first and second years had consistently high survival. Our data did not support facilitation as none of the neighborhood indices were positive. We found evidence for CNDD for American chestnuts in the first year of life, but we found no evidence for continued effects beyond the first year. Heterospecifics decreased growth and survival of understory chestnuts beyond the first year of life. Enhanced understanding of American chestnut ecology, particularly at the critical seedling stage, can guide management strategies that support reintroduction efforts.

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