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 The database provides a listing of fire research publications relevant to Alaska and a venue for sharing unpublished agency reports and works in progress that are not normally found in the published literature.

 

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Smoke from fire is a local, regional and often international issue that is growing in complexity as competition for airshed resources increases. BlueSky is a smoke modeling framework designed to help address this problem by enabling simulations of the...

Person: Larkin, O'Neill, Solomon, Raffuse, Strand, Sullivan, Krull, Rorig, Peterson, Ferguson
Year: 2009
Resource Group: Document
Source: FRAMES, TTRS

[no description entered]

Person: Brown, Ferguson, Flannigan
Year: 2005
Resource Group: Document
Source: TTRS

BlueSky is a real-time smoke forecast system that predicts surface smoke concentrations from prescribed fire, wildfire, and agricultural burn activities. Developed by the USDA Forest Service in cooperation with the US Environmental Protection Agency (...

Person: O'Neill, Ferguson, Peterson, Wilson
Year: 2003
Resource Group: Document
Source: TTRS

Case study analyses of the BlueSky smoke modeling framework help identify the input values or modeling components that require improvement. BlueSky is a smoke forecasting system that combines burn information with models of consumption, emissions,...

Person: Adkins, O'Neill, Rorig, Ferguson, Krull, Hoadley
Year: 2003
Resource Group: Document
Source: TTRS

The advent of 'fire management' has increased the need to understand and predict fire effects on vegetation. Such prediction is greatly complicated by the many factors that influence fire characteristics and plant response. Nevertheless, a...

Person: Ferguson, Morgan, Johnson, Arno, Fischer
Year: 1988
Resource Group: Document
Source: TTRS

Formulation of a physics-based model, capable of predicting fire spread through a single elevated crown-like shrub, is described in detail. Predictions from the model, obtained by numerical solutions to governing equations of fluid dynamics, combustion...

Person: Dahale, Ferguson, Shotorban, Mahalingam
Year: 2013
Resource Group: Document
Source: FRAMES, TTRS

The role of water vapor, originated from the moisture content in vegetation, on the combustion process was investigated via simulating an opposed diffusion flame and a laminar premixed flame with pyrolysis gases as the fuel and air as the oxidizer. The...

Person: Ferguson, Dahale, Shotorban, Mahalingam, Weise
Year: 2013
Resource Group: Document
Source: FRAMES

Research to quantify fuel consumption and flammability in shrub-dominated ecosystems has received little attention despite the widespread occurrence of fire-influenced, shrub-dominated landscapes across the arid lands of the western United States....

Person: Wright, Ottmar, Ferguson, Vihnanek
Year: 2003
Resource Group: Document
Source: FRAMES

Project Objectives For at least 5 different major classes of fuels typically involved in residual smoldering combustion (RSC) and two different moisture content conditions dispersed over at least 10 different sites. Four of these will be in the western...

Person: Hao, Babbitt, Ferguson, Lahm, Ottmar, Sandberg, Susott, Yokelson
Year: 2007
Resource Group: Project
Source: FRAMES

This project is designed to provide an improved version of the Fire and Fuels Extension to the Forest Vegetation Simulator (FFE-FVS), a program whose original development was largely financed by the JFSP. The program is widely used by JFSP member...

Person: Rebain, Crookston, Dixon, Reinhardt, Ferguson
Year: 2009
Resource Group: Project
Source: FRAMES