Shrub Seed Banks in Mixed Conifer Forests of Northern California and the Role of Fire in Regulating Abundance

TitleShrub Seed Banks in Mixed Conifer Forests of Northern California and the Role of Fire in Regulating Abundance
Publication TypeJournal Article
Year of Publication2012
AuthorsKnapp, EE, Weatherspoon, PC, Skinner, CN
JournalFire Ecology
Volume8
Start Page32
Issue1
Pagination17
Keywordsforests, technical reports and journal articles
Abstract

Understory shrubs play important ecological roles in forests of the western US, but they can also impede early tree growth and lead to fire hazard concerns when very dense. Some of the more common genera (Ceanothus, Arctostaphylos, and Prunus) persist for long periods in the seed bank, even in areas where plants have been shaded out. To determine shrub seed density and investigate the feasibility of managing shrub abundance by regulating the size of the soil seed bank with fire, we sampled the seed bank in 24 mixed conifer forest stands throughout northern California. Twenty stands were unburned, two had recently burned in wildfires, and two (McCloud and Jennie Springs) were subjected to experimental prescribed fires with unburned controls. Seeds were extracted from duff and soil that was collected in six layers, to a depth of 10 cm in the mineral soil. Ceanothus seeds were the most abundant (mean = 246 seeds m-2), noted at all sites and at 88 % of sampling locations within unburned sites. Arctostaphylos and Prunus seeds were less abundant (mean = 29 seeds m-2 and 6 seeds m-2, respectively), but still recorded at 64 % and 45 % of the unburned sites, respectively. The depth of seed burial varied at all unburned sites, but some seed was present even at the deepest (6 cm to 10 cm) soil layer, where seed mortality due to heat from burning is least likely. Seed density was substantially reduced, but not eliminated, by October prescribed burns at both McCloud and Jennie Springs, while seed density following July burns at Jennie Springs did not differ from the control. The abundance of buried seed indicates that restoring shrubs to forest understory should be possible even in areas where they are currently lacking. If preventing shrubs from colonizing a site is the management goal, the effectiveness of a single prescribed fire may be limited.

URLhttp://www.fs.fed.us/psw/publications/knapp/psw_2012_knapp001.pdf
DOI10.4996/fireecology.0801032