Which traits determine shifts in the abundance of tree species in a fire-prone savanna?

1. Fire is a process that shapes the structure and composition of vegetation in many regions. Species in these regions have presumably evolved life-history strategies that allow success in fire-prone environments. 2. In this study, we examine the extent to which the ecological success of savanna tre...

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Bibliographic Details
Published in:The Journal of ecology 2012-11, Vol.100 (6), p.1400-1410
Main Authors: Higgins, Steven I., Bond, William J., Combrink, Henri, Craine, Joseph M., February, Edmund C., Govender, Navashni, Lannas, Kathryn, Moncreiff, Glenn, Trollope, Winston S. W.
Format: Article
Language:English
Subjects:
Abundance
Allometry
Animal and plant ecology
Animal, plant and microbial ecology
Bark
Biological and medical sciences
Determinants of plant community diversity and structure
Diameters
Ecophysiology
fire
Fire ecology
Fire intensity
Fires
Forest & brush fires
Fundamental and applied biological sciences. Psychology
General aspects
Grasslands
growth
Human ecology
Moisture content
Mortality
National parks
Photosynthesis
Plant ecology
plant functional traits
Plant species
Probability theory
savanna
Savannahs
Savannas
shifts in abundance
Species
Success
topkill
Trees
Vegetation
Water content
Wildfire seasons
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Summary:1. Fire is a process that shapes the structure and composition of vegetation in many regions. Species in these regions have presumably evolved life-history strategies that allow success in fire-prone environments. 2. In this study, we examine the extent to which the ecological success of savanna trees is determined by traits that enhance the capacity to tolerate fire and/or traits indicative of an ecophysiological capacity for rapid growth. We define ecological success as the relative change in stem density over the course of a long-term (circa 40 year) fire experiment conducted in the Kruger National Park, South Africa. 3. We first examine the extent to which differences in the capacity of trees to tolerate fire can be explained by allometries describing bark traits and tree size. We then examine whether these differences in fire tolerance traits can explain observed shifts in abundance. 4. We show that species differ in their topkill responses (probability of above-ground mortality) and that these differences are explained in part by differences in bark moisture content and the allometry between height and diameter. Contrary to previous studies, we find no evidence that bark thickness is important in explaining susceptibility to topkill. 5. Synthesis. Fire tolerance traits did explain a significant component of the variance in observed shifts in the abundance of tree species. However, traits related to the carbon economy of photosynthesis were also important.
ISSN:0022-0477
1365-2745
DOI:10.1111/j.1365-2745.2012.02026.x