FIRE-BCG. A mechanistic ecological process model for simulating fire succesion on coniferous forest landscapes of the northern Rocky Mountains
Abstract
An ecological process model of vegetation dynamics mechanistically simulates long-term stand dynamics on coniferous landscapes of the Northern Rocky Mountains. This model is used to investigate and evaluate cumulative effects of various fire regimes, including prescribed burning and fire exclusion, on the vegetation and fuel complex of a simulation landscape composed of many stands. Detailed documentation of the model FIRE-BGC (a FIRE BioGeoChemical succession model) with complete discussion of all model parameters is followed with results of an application of the FIRE-BGC to a whitebark pine landscape in the Bob Marshall Wilderness complex. Simulation results of several management scenarios are contrasted to predict the fate of whitebark pine over 200 years. Model testing reveals predictions within 10 to 30 percent of observed values.
URI
url.ie/di2sCollections
Documento no disponible en formato digital. Consultar en biblioteca INFOR: Contacto
Excepto si se señala otra cosa, la licencia del ítem se describe como
Licencia Creative Commons Atribución-NoComercial-SinDerivar 4.0 Internacional
Related items
Showing items related by title, author, creator and subject.
-
Simulating coarse-scale vegetation dynamics using the Columbia river basin succesion model - CRBSUM
Keane, R.E.; Bevins, C.D.; Hann, W.J.; Long, D.G.; Menakis, J.P. (USDA Forest Service. Intermountain Research Station, 1996) -
A heuristic process for solving mixed-integer land management and transportation planning models
Jones, J.G.; Magendzo, A.; Meacham, M.L.; Weintraub, Andrés (USDA Forest Service. Intermountain Research Station, 1991) -
Experimental forests, ranges, and watersheds in the northern Rocky Mountains: a compendium of outdoor ...
Friede, J. L.; Schmidt, W. C. (USDA Forest Service. Intermountain Research Station, 1996)