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An earlier paper* described three techniques used to estimate the moisture content of large (3- to 9-inch diameter) woody fuels in logging slash west of the Cascade range in Washington and Oregon. Our paper examines the use of these and other independent variables to predict…
Person:
Year: 1983
Type: Document
Source: TTRS
Topic(s): Emissions and Smoke, Fire Ecology, Fuels, Hazard and Risk, Monitoring and Inventory, Prescribed Fire
Region(s): Northwest
Keywords: broadcast burning, Cascades Range, coniferous forests, fire hazard reduction, fuel appraisal, fuel arrangement, fuel inventory, fuel loading, fuel management, fuel moisture, heat, logging, moisture, Oregon, Pseudotsuga menziesii, size classes, slash, surface fuels, trees, Tsuga heterophylla, Washington, woody fuels
The high variablility of burning conditions and fuels, found in Alaskan forest fires, produces an associated complex emission of particulate matter. Histological evidence of some large particles has been found in the forest fire plumes as well as aerosols resulting apparently…
Person:
Year: 1983
Type: Document
Source: TTRS
Topic(s): Climate, Communications, Emissions and Smoke, Fire History, Intelligence, Mapping, Monitoring and Inventory, Fuels
Region(s): Alaska, Great Basin, Northwest
Keywords: aerosols, air quality, distribution, energy, environmental impact analysis, heat, Interior Alaska, particulates, radiation, remote sensing, sampling, smoke effects, smoke management, statistical analysis, temperature, wildfires, wind