Abstract
The extant and potential (seed bank) vegetation of a rare maritime holly forest on Fire Island, New York was described to assess whether treefall gaps act as a mechanism for the persistence of the species composition of this plant community over time. The Sunken Forest overstory is dominated by Ilex opaca, Amelanchier canadensis and Sassafras albidum. A survey of canopy gaps indicated canopy openings compose 11.3% of the land within the Sunken Forest (16 ha). The composition and density of the seed bank were described using the emergence method. Germination from soil samples placed in the greenhouse was monitored over 2 years. Sixteen species germinated with an average propagule density of 215±41 germinants per square metre. An early successional species (Rhus copallinum) dominated the seed bank, but the late-successional, shade-tolerant I. opaca was also present. Though only one species in the seed bank did not appear in the current vegetation, species abundance differed between vegetation strata. The mean cover and density of the ground-layer flora were higher beneath treefall gaps than closed canopy. Sapling density did not differ between the two canopy conditions, but the dominant species differed with A. canadensis occupying several closed canopy plots and P. serotina saplings appearing more often in gap plots. Most of the dominant canopy species are present in the seed bank and ground layer but are not present in the shrub and sapling layer, with the exception of A. canadensis. Current (2002) sapling density is lower than three decades ago for all species except P. serotina, which is now the dominant woody species in the Sunken Forest understory. The results of this study indicate that if the cause of the sapling reduction is lessened or removed, the characteristic species of the overstory of this unusual plant community may rebound and redevelop a sapling and shrub layer akin to that present before the increase in Odocoileus virginianus on the island.
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Acknowledgements
This project received financial support from the National Park Service and the USGS Patuxent Wildlife Research Station. We thank H.B. Underwood, M. Foley, S. Stehman, D. Raynal and H. Art for their support and review of this project; and thanks to A. Park, K. Godwin, and L. Whelpton for their field and greenhouse assistance. Many thanks to two anonymous reviewers and M. Buff for helpful improvements on the manuscript.
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Forrester, J.A., Leopold, D.J. Extant and potential vegetation of an old-growth maritime Ilex opaca forest. Plant Ecol 183, 349–359 (2006). https://doi.org/10.1007/s11258-005-9045-8
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DOI: https://doi.org/10.1007/s11258-005-9045-8