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From the Conclusion ... 'A comprehensive, mechanistic simulation of wildland fire and ecosystem dynamics across a landscape may not be possible because of computer limitations, inadequate research, inconsistent data, and extensive parameterization. Therefore empirical and…
Person:
Year: 2003
Type: Document
Source: TTRS
Topic(s): Aquatic, Climate, Emissions and Smoke, Fire Behavior, Fire Ecology, Fire Effects, Fuels, Models
Region(s): Alaska, California, Eastern, Great Basin, Hawaii, Northern Rockies, Northwest, Rocky Mountain, Southern, Southwest, National
Keywords: bacteria, climate change, decomposition, disturbance, duff, ecosystem dynamics, erosion, evapotranspiration, fire growth, fire injuries (plants), fire management, fuel moisture, fungi, heat effects, humidity, hydrology, ignition, insects, landscape ecology, leaves, litter, mortality, nutrient cycling, photosynthesis, plant diseases, precipitation, radiation, rate of spread, regeneration, roots, runoff, seed dispersal, seed production, smoke behavior, smoke management, soil moisture, soil organic matter, soils, stand characteristics, temperate forests, understory vegetation, wilderness fire management, wildfires, woody fuels