Fire severity and nutrient availability do not constrain resprouting in forest shrubs

Plants often survive disturbances such as fire by resprouting which involves having both protection traits and carbohydrate storage capacity. Protection traits not only act directly to insulate meristems but also prevent combustion of carbohydrate stores. Rapid stem growth also allows replenishment...

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Bibliographic Details
Published in:Plant ecology 2011-12, Vol.212 (12), p.1967-1978
Main Authors: Knox, Kirsten J. E., Clarke, Peter J.
Format: Article
Language:English
Subjects:
Applied Ecology
Bark
Biodiversity
Biomedical and Life Sciences
Carbohydrates
Combustion
Community & Population Ecology
Dry forests
Ecology
Fire protection
Fire severity
Fires
Forest & brush fires
Forest fires
Forest growth
Forests
Growth traits
Leaf area
Life Sciences
Light effects
Meristems
Modeling
Nutrient availability
Nutrients
Plant Ecology
Plant growth
Plant protection
Plants
Resource availability
Sclerophyll forests
Sclerophylls
Shrubs
Storage
Storage capacity
Survival
Terrestial Ecology
Woody plants
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Summary:Plants often survive disturbances such as fire by resprouting which involves having both protection traits and carbohydrate storage capacity. Protection traits not only act directly to insulate meristems but also prevent combustion of carbohydrate stores. Rapid stem growth also allows replenishment of carbohydrate stores ensuring persistence through another event. Resource availability may, however, constrain the ability to develop resilience to high-severity fires through either nutrient limitation or light limitation. We tested whether fire severity influenced resprouting ability of woody plants in two contrasting environments, low nutrient dry sclerophyll forest and more fertile wet sclerophyll forest. We tested which fire protection and growth traits were associated with resprouting ability (27 species) and resprouting vigour (16 species). Fire severity did not limit the ability of most species to resprout in either forest type. There was no generalized protection syndrome for surviving top kill, but combinations of bud protection and growth together with storage capacity appear to drive resprouting ability. In nutrient-limited forests, low specific leaf area (SLA) may reduce stem growth in resprouters, causing more reliance on bud protection through bark thickness. Conversely, in the more fertile forests, where light becomes limiting with timesince-fire, high SLA appears to increase the capacity for rapid stem growth with less emphasis on developing thicker bark. These different syndromes appear to be adaptive as fire severity did not influence survival in either forest type.
ISSN:1385-0237
1573-5052
DOI:10.1007/s11258-011-9956-5