Acorn production is characterized by extreme variation among years and amon
g individual trees. The size of acorn crops affects many components of the
ecosystem, and both annual and individual variation in acorn production inf
luence the regeneration and management of oak forests. In order to assess t
he variation within a stand, we sampled the acorn production of 120 red oak
s (Subgenus Erythrobalanus) for 11 years. Half of the trees were treated by
thinning 2 years before the study began, and half were unthinned controls.
Trees in the thinned part of the stand produced more acorns per tree than
those in the unthinned area, but the treatment effect was small in comparis
on with individual and annual variation. Differences in acorn production be
tween the most productive and least productive individual trees were about
11-fold for thinned and 28-fold for unthinned trees. The largest yearly aco
rn collection exceeded the smallest by 135 times for the thinned treatment
and by 109 times for the unthinned treatment. The two best years (1991, 199
3) accounted for 55% of the total 11-year acorn collection, while the five
poorest years provided only 10% of the total collection, suggesting that ef
forts to enhance regeneration should coincide with mast years. Thinned and
unthinned sample populations exhibited synchronous masting patterns, and go
od and poor producers within each population also exhibited year-to-year sy
nchrony in acorn production. There was no evidence of cyclic acorn producti
on by this population. Half of the total acorn collection was produced by a
bout one-third of the trees. On average, we were able to identify 87% of th
e better-than-average acorn producers by monitoring individual tree product
ion for any three consecutive years. This method of identifying superior ac
orn producers is effective and conceptually simple but it requires at least
3 years to implement. (C) 1999 Elsevier Science B.V. All rights reserved.