Initial carbon, nitrogen, and phosphorus fluxes following ponderosa pine restoration treatments

Southwestern ponderosa pine forests were dramatically altered by fire regime disruption that accompanied Euro-American settlement in the 1800s. Major changes include increased tree density, diminished herbaceous cover, and a shift from a frequent low-intensity fire regime to a stand-replacing fire r...

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Bibliographic Details
Published in:Ecological applications 2005-10, Vol.15 (5), p.1581-1593
Main Authors: Kaye, Jason P., Hart, Stephen C., Fulé, Peter Z., Covington, W. Wallace, Moore, Margaret M., Kaye, Margot W.
Format: Article
Language:English
Subjects:
biogeochemical cycles
biogeochemistry
Coniferous forests
ecological restoration
Ecosystems
fire suppression
Forest ecology
Forest ecosystems
forest management
forest restoration
Forest soils
forest thinning
Mineral soils
mineralization
net primary productivity
nitrogen
nitrogen content
nutrient content
nutrient cycling
nutrient uptake
phosphorus
Pinus ponderosa
Plant roots
Plants
prescribed burning
prescribed fire
primary productivity
Restoration ecology
soil fertility
soil microorganisms
thinning
Trees
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Summary:Southwestern ponderosa pine forests were dramatically altered by fire regime disruption that accompanied Euro-American settlement in the 1800s. Major changes include increased tree density, diminished herbaceous cover, and a shift from a frequent low-intensity fire regime to a stand-replacing fire regime. Ecological restoration via thinning and prescribed burning is being widely applied to return forests to the pre-settlement condition, but the effects of restoration on ecosystem function are unknown. We measured carbon (C), nitrogen (N), and phosphorus (P) fluxes during the first two years after the implementation of a replicated field experiment comparing thinning and composite (thinning, forest floor fuel reduction, and prescribed burning) restoration treatments to untreated controls in a ponderosa pine forest in northern Arizona, USA. Total net primary productivity ($260 g C\cdot m^{-2}\cdot yr^{-1}$) was similar among treatments because a 30-50% decrease in pine foliage and fine-root production in restored ecosystems was balanced by greater wood, coarse root, and herbaceous production. Herbaceous plants accounted for
ISSN:1051-0761
1939-5582
DOI:10.1890/04-0868