Self-thinning dynamics in a balsam fir (Abies balsamea (L.) Mill.) insect-mediated boreal forest chronosequence.

摘要

Self-thinning dynamics were examined in a natural, 120-year, insect-mediated balsam fir (Abies balsamea) chronosequence in the humid boreal forests of western Newfoundland, Canada. The well-developed chronosequence representing the classic stages of stand development provided a unique opportunity to quantify balsam fir self-thinning dynamics and to independently test a first approximation stand density management diagram developed for mixed balsam fir-black spruce (Picea mariana) stands in western Newfoundland. A slope of -1.28 for the self-thinning tree volume-density line (as determined by reduced major axis) was significantly different than the theoretical self-thinning slope of -1.5. This compared very well with other self-thinning studies in Abies stands. Older stands judged as non-self-thinning had a shallower slope approaching unity. The mixed fir-spruce stand density management diagram was found to be a good reflection of stand dynamics and may act as an effective operational tool in tree density management. Balsam fir began to self-thin at 75 percentile heights of ~7 m, 60 years of age and stem densities approaching 31 000 stems ha-1. Balsam fir ceased self-thinning in 90 year-old stands, with tree heights >15 m and stem densities <3000 stems ha. The relative accumulation of live and dead basal area across the chronosequence was best explained by the relative contribution of insect herbivory, self-thinning and density-independent mortality to tree death. The relative proportion of dead basal area declined steadily from a high of 80% in the youngest stands to a low of 20% in the 60-year-old stands, increasing to levels not exceeding 30% in the oldest stands. Stand break-up associated with the onset of density-independent tree mortality occurred in stands approaching 90 years of age..