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Perspectives and comparisons of smoke emissions from historic and modern fires: taking the elephant out of the closet and putting it in the stadium

From the text ... 'Because fire was such an important historic disturbance and is a large component in understanding regional differences in emissions, it is analogous to an elephant in the closet. One can think of fire frequency as the elephant. That is, it is an issue that is…
Person:
Year: 2009
Type: Document
Source: TTRS
Topic(s): Emissions and Smoke, Fire Occurrence, Prescribed Fire
Region(s): Alaska, California, Eastern, Great Basin, Hawaii, Northern Rockies, Northwest, Rocky Mountain, Southern, Southwest, National
Keywords: fire frequency, air quality, fire management, forest management, smoke management

Climatic and weather factors affecting fire occurrence and behavior

Weather and climate have a profound influence on wildland fire ignition potential, fire behavior, and fire severity. Local weather and climate are affected by large-scale patterns of winds over the hemispheres that predispose wildland fuels to fire. The characteristics of…
Person:
Year: 2009
Type: Document
Source: FRAMES
Topic(s): Climate, Emissions and Smoke, Fire Behavior, Fire Occurrence, Fuels, Weather
Region(s): Alaska, California, Eastern, Great Basin, Hawaii, Northern Rockies, Northwest, Rocky Mountain, Southern, Southwest, International, National
Keywords: ENSO - El Nino Southern Oscillation, fuel moisture, wildland fire, AVHRR - Advanced Very High Resolution Radiometer, climate change, wind

Linking forest fires to lake metabolism and carbon dioxide emissions in the boreal region of northern Quebec

Natural fires annually decimate up to 1% of the forested area in the boreal region of Quebec, and represent a major structuring force in the region, creating a mosaic of watersheds characterized by large variations in vegetation structure and composition. Here, we investigate…
Person:
Year: 2009
Type: Document
Source: TTRS
Topic(s): Aquatic, Climate, Emissions and Smoke, Fire Behavior, Fire Ecology, Fire Effects, Fire History, Fire Occurrence, Fuels
Region(s): Alaska, California, Eastern, Great Basin, Hawaii, Northern Rockies, Northwest, Rocky Mountain, Southern, Southwest, International, National
Keywords: Abies balsamea, Betula papyrifera, boreal forests, Canada, C - carbon, carbon dioxide, coniferous forests, drainage, ecosystem dynamics, fire frequency, fire management, lakes, mosaic, nutrient cycling, nutrients, organic matter, Picea glauca, Picea mariana, Pinus banksiana, Populus tremuloides, Populus trichocarpa, Quebec, succession, water, watershed management, watersheds, wildfires, boreal, carbon dioxide flux, forest fire, lakes, organic carbon, plankton respiration, watershed

Implications of changing climate for global wildland fire

Wildland fire is a global phenomenon, and a result of interactions between climate-weather, fuels and people. Our climate is changing rapidly primarily through the release of greenhouse gases that may have profound and possibly unexpected impacts on global fire activity. The…
Person:
Year: 2009
Type: Document
Source: TTRS
Topic(s): Climate, Emissions and Smoke, Fire Behavior, Fire Ecology, Fire Effects, Fire Occurrence, Fuels, Mapping, Models, Social Science, Weather
Region(s): Alaska, California, Eastern, Great Basin, Hawaii, Northern Rockies, Northwest, Rocky Mountain, Southern, Southwest, International, National
Keywords: air quality, Australia, boreal forests, Canada, C - carbon, disturbance, Europe, fire frequency, fire intensity, fire management, fire regimes, fire size, forest management, fuel moisture, fuel types, gases, greenhouse gases, lightning, remote sensing, season of fire, South America, wildfires, area burned, C - carbon, fire activity, forest fire, intensity, management, review, season, severity

Postfire carbon balance in boreal bogs of Alberta, Canada

Boreal peatland ecosystems occupy about 3.5 million km2 of the earth's land surface and store between 250 and 455 Pg of carbon (C) as peat. While northern hemisphere boreal peatlands have functioned as net sinks for atmospheric C since the most recent deglaciation, natural and…
Person:
Year: 2009
Type: Document
Source: TTRS
Topic(s): Aquatic, Climate, Emissions and Smoke, Fire Behavior, Fire Ecology, Fire Effects, Fire Occurrence, Fuels
Region(s): Alaska, California, Eastern, Great Basin, Hawaii, Northern Rockies, Northwest, Rocky Mountain, Southern, Southwest, International, National
Keywords: age classes, air temperature, Alberta, bark, biomass, black spruce, bogs, boreal forests, Canada, C - carbon, cover, disturbance, ecosystem dynamics, fire frequency, fire management, forest management, fuel accumulation, lakes, CH4 - methane, mosses, needles, nutrient cycling, peat, peatlands, Picea mariana, post fire recovery, roots, size classes, sphagnum, statistical analysis, succession, temperature, understory vegetation, vegetation surveys, watershed management, wildfires, black spruce, bog, boreal, Canada, carbon cycling, climate change, peatland, roots, sphagnum

Implications of changing climate for global wildland fire

Wildland fire is a global phenomenon, and a result of interactions between climate-weather, fuels and people. Our climate is changing rapidly primarily through the release of greenhouse gases that may have profound and possibly unexpected impacts on global fire activity. The…
Person:
Year: 2009
Type: Document
Source: FRAMES
Topic(s): Climate, Emissions and Smoke, Fire Occurrence, Models, Weather
Region(s): Alaska, California, Eastern, Great Basin, Hawaii, Northern Rockies, Northwest, Rocky Mountain, Southern, Southwest, National
Keywords: C - carbon, forest fire, management, area burned, fire activity, intensity, severity, review, season