Alaska Reference Database

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 The database provides a listing of fire research publications relevant to Alaska and a venue for sharing unpublished agency reports and works in progress that are not normally found in the published literature.

 

Displaying 1 - 8 of 8

Smoldering ground fires can raise mineral soil temperatures above 300°C for several hours with peak temperatures near 600°C. Such temperatures can result in the decomposition of organic material and kill important soil organisms. The heat evolved per...

Person: Frandsen
Year: 1991
Resource Group: Document
Source: TTRS

An integrated study to define fire relationships in wetland soils is described The objectives are to define the limits to combustion (ignition and burnout), model heat and vapor transport, and predict fire effects in organic soils. The goal is to...

Person: Cerulean, Engstrom, Hungerford, Frandsen, Ryan
Year: 1995
Resource Group: Document
Source: TTRS

Surface fires in wetland ecosystems frequently ignite smoldering ground fires. Ground fires often create and maintain open, shallow marshes that contribute to ecosystem diversity. Fire exclusion, drainage, deforestation, and other human activities have...

Person: Cerulean, Engstrom, Hungerford, Frandsen, Ryan
Year: 1995
Resource Group: Document
Source: TTRS

Smoldering spread rates (cm h-1) are derived from the results of an experimental evaluation of the unit area burning rate of smoldering material (g cm-2 h-1). The unit area burning rate, which is the load loss rate normal to the smoldering surface,...

Person: Frandsen
Year: 1994
Resource Group: Document
Source: TTRS

The intensity of a combustion wave moving through a porous, homogeneous fuel array is an important, but poorly defined, concept of fire behavior. Rothermel [1] suggests the term 'reaction intensity' for the energy-release rate, which is...

Person: Frandsen, Rothermel
Year: 1972
Resource Group: Document
Source: TTRS

Smoldering ground fires can raise mineral soil temperatures above 300°C for several hours with peak temperatures near 600°C. Such temperatures can result in the decomposition of organic material and kill important soil organisms. The heat evolved per...

Person: Frandsen
Year: 1991
Resource Group: Document
Source: FRAMES

Smoldering ground fires spread slowly (about 3 cm h-1) and can raise mineral soil temperatures above 300 degrees C for several hours with peak temperatures near 600 degrees C, resulting in decomposition of organic material and the death of soil...

Person: Frandsen
Year: 1991
Resource Group: Document
Source: FRAMES, TTRS

Surface fires in wetland ecosystems frequently ignite smoldering ground fires. Ground fires often create and maintain open, shallow marshes that contribute to ecosystem diversity. Fire exclusion, drainage, deforestation, and other human activities have...

Person: Cerulean, Engstrom, Hungerford, Frandsen, Ryan
Year: 1995
Resource Group: Document
Source: FRAMES