Local and regional vegetation change on the northeastern Olympic Peninsula during the Holocene

Abstract

The postglacial vegetation history of the northeastern Olympic Peninsula was investigated at different spatial scales by comparing the pollen, macrofossil, and charcoal records from a low elevation lake (Crocker Lake) and a nearby forested swamp (Cedar Swamp). The regional pollen record from Crocker Lake revealed a parkland of coniferous species with divergent modern ecological tolerances, including Pinus contorta, Picea sitchensis, and Abies lasiocarpa during the late glacial period (~ 13 000 – 10 000 BP). Disturbance-adapted species such as Alnus rubra and Pseudotsuga menziesii dominated forests during the early Holocene (10 000 – 7000 BP). Modern forests containing mesic late-successional species such as Tsuga heterophylla and Thuja plicata were established during the late Holocene (7000 BP to present). During the late glacial period, the local vegetation at Cedar Swamp was dominated by Alnus sinuata. Hydrologic changes resulted in the establishment of a deep marsh during the early Holocene. Hydrosere succession from an open aquatic environment to a forested wetland and disturbance-mediated alternations between Thuja plicata and Alnus rubra characterized the local vegetation during the late Holocene. Throughout the Holocene, the vegetation of the northeastern Olympic Peninsula was governed by broad climatic and physiographic parameters at the regional scale and the effects of local geomorphologic constraints and disturbance history at the finer landscape scale. Key words: fossil pollen, vegetation history, Olympic Peninsula, Quaternary.