Abstract
Old-growth forests are common in the snowy, montane environments of coastal western North America. To examine dynamics of a stand containing four canopy tree species (Abies amabilis, Chamaecyparis nootkatensis, Tsuga mertensiana and T. heterophylla), we used four stem-mapped, 50 m ×50 m plots. From measurements of annual rings, we obtained ages from basal discs of 1,336 live trees, developed master chronologies for each species, reconstructed early growth rates, and delineated periods of release. The stand was ancient; individuals of all four species exceeded 900 years in age, and the oldest tree exceeded 1,400 years. The four plots differed in the timing of events, and we found no evidence of major, stand-level disturbance. Instead the stand was structured by small-scale patch dynamics, resulting from events that affected one to several trees and initiated episodes of release and relatively rapid early growth. The species differed in age structure and dynamics. A. amabilis and T. heterophylla had a classical reverse-J age structure indicative of stable populations, whereas C. nootkatensis and T. mertensiana appeared to rely on local episodes of increased recruitment, which were often separated by centuries, and were probably related to multiple-tree gaps that occurred infrequently. However, such gaps could be considered normal in the long-term history of the stand, and thus these species with their long life spans can persist. Most individuals of all four species grew extremely slowly, with trees typically spending centuries in the understory before reaching the canopy, where they were able to persist for additional centuries. Thus, the key features of this forest are the very slow dynamics dominated by small-scale events, and the slow growth of stress-tolerant trees.
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Acknowledgments
B. Small and H. Douglas measured annual rings, and B. Small, T. Neumar and M. Drummond assisted with fieldwork. R. White Woods and R. Woolford cut basal discs. L. Peterson, BC Ministry of Forests, prepared the stem maps. We thank R. Alfaro, Canadian Forest Service, for use of his laboratory to measure tree rings, and G.A. Allen, University of Victoria, A. Camp, Yale University and B. Courbaud, Cemagref, and an anonymous reviewer for helpful comments on the manuscript. Forestry Innovation Investment and Forest Renewal BC funded this project.
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Parish, R., Antos, J.A. Structure and dynamics of an ancient montane forest in coastal British Columbia. Oecologia 141, 562–576 (2004). https://doi.org/10.1007/s00442-004-1690-4
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DOI: https://doi.org/10.1007/s00442-004-1690-4