The Alaska Reference Database originated as the standalone Alaska Fire Effects Reference Database, a ProCite reference database maintained by former BLM-Alaska Fire Service Fire Ecologist Randi Jandt. It was expanded under a Joint Fire Science Program grant for the FIREHouse project (The Northwest and Alaska Fire Research Clearinghouse). It is now maintained by the Alaska Fire Science Consortium and FRAMES, and is hosted through the FRAMES Resource Catalog. The database provides a listing of fire research publications relevant to Alaska and a venue for sharing unpublished agency reports and works in progress that are not normally found in the published literature.
Type
Topic
Year
Displaying 101 - 113 of 113
Hardy, Andrews, Finney
Development of the BehavePlus fire modeling system and the FlamMap fire behavior analysis and mapping system and supporting technology transfer material was funded in part under JFSP project #98-1-8-02. After successful completion of that project, development of those systems…
Year: 2008
Type: Project
Source: FRAMES
Hardy
1. Initial focus will likely be on energy transfer within heterogeneous and spatially non-uniform fuel beds; 2. As stated in the Framework, moisture dynamics in the combustion environment is a critical element demanding attention, and we expect the plan to phase in work directed…
Year: 2008
Type: Project
Source: FRAMES
Renschler, Perry, Saveland
This proposal is in response to Task 1: Extension of Technology Transfer Activities, as described in the JFSP Announcement for Proposals 2005-4. This proposal seeks continued funding to customize and deliver additional user-requested functionality of our currently JFSP-funded.
Year: 2008
Type: Project
Source: FRAMES
Smith, Miller
The Fire Effects Information System (FEIS) has provided a scientific basis for fire and land management since 1986. The Bureau of Land Management, National Park Service, Fish and Wildlife Service, Forest Service, and National Wildfire Coordinating Group sponsored development of…
Year: 2008
Type: Project
Source: FRAMES
Reinhardt, Lutes, Noble, Scott
A need exists for a simple computer program to determine surface and canopy fuel quantities (load, bulk density, depth) and qualities (fire behavior fuel model, fire-carrying fuel type) from a variety of fuel inventory data sources. In addition, fuel managers need help analyzing…
Year: 2008
Type: Project
Source: FRAMES
Kurz, Stinson, Rampley
To understand how boreal forest carbon (C) dynamics might respond to anticipated climatic changes, we must consider two important processes. First, projected climatic changes are expected to increase the frequency of fire and other natural disturbances that would change the…
Year: 2008
Type: Document
Source: TTRS
French, Kasischke, Hall, Murphy, Verbyla, Hoy, Barnes
There has been considerable interest in the recent literature regarding the assessment of post-fire effects on forested areas within the North American boreal forest. Assessing the physical and ecological effects of fire in boreal forests has far-reaching implications for a…
Year: 2008
Type: Document
Source: FRAMES
Chuvieco, Giglio, Justice
There is interest in the global community on how fire regimes are changing as a function of changing demographics and climate. The ground-based data to monitor such trends in fire activity are inadequate at the global scale. Satellite observations provide a basis for such a…
Year: 2008
Type: Document
Source: FRAMES, TTRS
Cheyette, Rupp, Rodman
Fire behavior modeling systems are playing an increasingly important role in identifying areas of the wildland-urban interface (WUI) that could support intense and fast-moving wildfires. The modeling systems also can be used to prioritize areas for fuels reduction treatments. We…
Year: 2008
Type: Document
Source: FRAMES, TTRS
Calef, McGuire, Chapin
Boreal ecosystems in Alaska are responding to climate change in many ways, including changes in the fire regime. While large-scale wildfires are an essential part of the boreal forest ecosystem, humans are changing fire regimes through ignition and suppression. The authors…
Year: 2008
Type: Document
Source: FRAMES
Arroyo, Pascual, Manzanera
Understanding fire is essential to improving forest management strategies. More specifically, an accurate knowledge of the spatial distribution of fuels is critical when analyzing, modeling and predicting fire behavior. First, we review the main concepts and terminology…
Year: 2008
Type: Document
Source: FRAMES, TTRS
Blackard, Finco, Helmer, Holden, Hoppus, Jacobs, Lister, Moisen, Nelson, Riemann, Ruefenacht, Salajanu, Weyermann, Winterberger, Brandeis, Czaplewski, McRoberts, Patterson, Tycio
Annotation: This paper presents a spatially explicit dataset of aboveground live forest biomass made from ground measured inventory plots for the conterminous U.S., Alaska and Puerto Rico. The plot data are from the USDA Forest Service Forest Inventory and Analysis (FIA) program…
Year: 2008
Type: Document
Source: FRAMES
Lenihan, Bachelet, Neilson, Drapek
A modeling experiment was designed to investigate the impact of fire management, CO2 emission rate, and the growth response to CO2 on the response of ecosystems in the conterminous United States to climate scenarios produced by three different General Circulation Models (GCMs)…
Year: 2008
Type: Document
Source: FRAMES