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Article
Forest recovery patterns in response to divergent disturbance regimes in the Border Lakes region of Minnesota (USA) and Ontario (Canada)
USDA Forest Service / UNL Faculty Publications
  • Brian R. Sturtevant, Institute for Applied Ecosystem Studies, Northern Research Station, USDA Forest Service, Rhinelander, WI
  • Brian R. Miranda, Institute for Applied Ecosystem Studies, Northern Research Station, USDA Forest Service, Rhinelander, WI
  • Peter T. Wolter, Iowa State University Ames
  • Patrick M.A. James, Université de Montréal
  • Marie-Josée Fortin, University of Toronto
  • Philip A. Townsend, University of Wisconsin - Madison
Date of this Version
1-1-2013
Citation

Forest Ecology and Management 313 (2014) 199–211

Comments

This article is a U.S. government work, and is not subject to copyright in the United States.

Abstract

The persistence of landscape-scale disturbance legacies in forested ecosystems depends in part on the nature and strength of feedback among disturbances, their effects, and subsequent recovery processes such as tree regeneration and canopy closure. We investigated factors affecting forest recovery rates over a 25-year time period in a large (6 million ha) landscape where geopolitical boundaries have resulted in important land management legacies (managed forests of Minnesota, USA; managed forests of Ontario, Canada; and a large unmanaged wilderness). Stand-replacing disturbance regimes were quantified across management zones, both inside and outside a central ecoregion, using a time series of classified land cover data constructed at 5-year intervals between 1975 and 2000. The temporally variable disturbance regime of the wilderness was characterized by fine-scaled canopy disturbances punctuated by less frequent large disturbance events (i.e., fire and blow down). The comparably consistent disturbance regimes of the managed forests of Minnesota and Ontario differed primarily in the size distribution of disturbances – principally clearcut harvesting. Using logistic regression we found that a combination of time since disturbance, mapped disturbance attributes, climate, and differences among management zones affected pixel-scale probabilities of forest recovery that reflect recovery rates. We conclude that the magnitude of divergence in landscape disturbance legacies of this region will be additionally reinforced by regional variations in the human and natural disturbance regimes and their interactions with forest recovery processes. Our analyses compliment traditional plot-scale studies that investigate post-disturbance recovery by (a) examining vegetation trends across a wide range of variability and (b) quantifying the cumulative effects of disturbances as they affect recovery rates over a broad spatial extent. Our findings therefore have implications for sustainable forestry, ecosystem-based management, and landscape disturbance and succession modeling.

Citation Information
Brian R. Sturtevant, Brian R. Miranda, Peter T. Wolter, Patrick M.A. James, et al.. "Forest recovery patterns in response to divergent disturbance regimes in the Border Lakes region of Minnesota (USA) and Ontario (Canada)" (2013)
Available at: http://works.bepress.com/peter-wolter/3/