We used path analysis to examine postfire survival of south Florida slash pine
(Pinus elliottii var. densa) at
Archbold Biological Station in south-central Florida. We considered the
interacting factors of bark beetle infestation, fire intensity (estimated by
bark char, percentage of canopy green, and other measures), season of burn,
burn size, and vegetation structure and composition. Trees were sampled in 24
burned areas for 3 years after each fire. Fires on recently-burned sites
(5–19 years since previous fire) killed fewer trees (44%
mortality) than fires on sites > 25 years postfire (71%). For
long-unburned sites, we used multiple regression to examine 35 variables and
form a path model linking nine variables at four levels. Pine survival was
most affected by season of burn; fall burns decreased survival indirectly
through increases in fire intensity. Higher mortality was associated with
greater char height, larger area burned, more intense attacks by the beetle
Platypus, occurrence of hickory scrub or flatwoods
vegetation, and complete needle consumption. The final path model explained
over 90% of the variation in pine survival. It suggested that beetle
effects reflect fire intensity, and detailed many complex interactions. Both
preburn and fire intensity data were needed to explain a high amount of
variance. Analyses of survival within burns produced similar results, but
added some patterns due to vegetation differences within burns and higher
survival for larger trees. Fire-induced south Florida slash pine mortality did
not spread to trees growing in adjacent, unburned areas. Fire intensity may
influence pine densities over the upland landscape in all but the most xeric
and hydric sites. Fire management to maximize pine survival is feasible, but
management for landscape heterogeneity will tolerate variation in fire
intensity and pine survival.
The Role of Fire-Return Interval and Season of Burn in Snag Dynamics in a South Florida Slash Pine Forest
