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 The database provides a listing of fire research publications relevant to Alaska and a venue for sharing unpublished agency reports and works in progress that are not normally found in the published literature.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 1 - 25 of 90
Rupp, Bieniek, Ziel, Bhatt
Meeting on Thursday November 29th, 2018 at the Alaska Fire Service on the Alaska Climate Adaption Science Center Wildfire Forecasting. Presenters include: Scott Rupp, Peter Bieniek, Robert (Zeke) Ziel, and Uma Bhatt
Year: 2018
Type: Media
Source: FRAMES
Dube
Literature shows that at a global scale, fire activity increased from the Last Glacial Maximum to the present. There is incremental evidence indicating that climate defines the regional boundary conditions for fire. Human influence on ignitions depends on climate and has, since…
Year: 2009
Type: Document
Source: TTRS
Le Goff, Flannigan, Bergeron
The main objective of this paper is to evaluate whether future climate change would trigger an increase in the fire activity of the Waswanipi area, central Quebec. First, we used regression analyses to model the historical (1973-2002) link between weather conditions and fire…
Year: 2009
Type: Document
Source: TTRS
Klenner, Walton
We used the TELSA forest landscape model to examine the long-term consequences of applying different forest management scenarios on indicators of wildlife habitat, understory productivity, crown fuel hazard, timber yield and treatment costs. The study area was a dry forest…
Year: 2009
Type: Document
Source: TTRS
Anderson, Englefield, Little, Reuter
This paper presents an operational approach to predicting fire growth for wildland fires in Canada. The approach addresses data assimilation to provide predictions in a timely and efficient manner. Fuels and elevation grids, forecast weather, and active fire locations are…
Year: 2009
Type: Document
Source: TTRS
Wotton
Understanding and being able to predict forest fire occurrence, fire growth and fire intensity are important aspects of forest fire management. In Canada fire management agencies use the Canadian Forest Fire Danger Rating System (CFFDRS) to help predict these elements of forest…
Year: 2009
Type: Document
Source: TTRS
Sullivan
In recent years, advances in computational power have led to an increase in attempts to model the behaviour of wildland fires and to simulate their spread across landscape. The present series of articles endeavours to comprehensively survey and précis all types of surface fire…
Year: 2009
Type: Document
Source: TTRS
Sullivan
In recent years, advances in computational power have led to an increase in attempts to model the behaviour of wildland fires and to simulate their spread across the landscape. The present series of articles endeavours to comprehensively survey and précis all types of surface…
Year: 2009
Type: Document
Source: TTRS
Sullivan
In recent years, advances in computational power have led to an increase in attempts to model the behaviour of wildland fires and to simulate their spread across landscape. The present series of articles endeavours to comprehensively survey and précis all types of surface fire…
Year: 2009
Type: Document
Source: TTRS
Podur, Martell
Forest fires are influenced by weather, fuels, and topography, but the relative influence of these factors may vary in different forest types. Compositional analysis can be used to assess the relative importance of fuels and weather in the boreal forest. Do forest or wild land…
Year: 2009
Type: Document
Source: TTRS
Perera, Dalziel, Buse, Routledge
Knowledge of postfire residuals in boreal forest landscapes is increasingly important for ecological applications and forest management. While many studies provide useful insight, knowledge of stand-scale postfire residual occurrence and variability remains fragmented and…
Year: 2009
Type: Document
Source: TTRS
Abt, Prestemon, Gebert
The US Forest Service and other land-management agencies seek better tools for anticipating future expenditures for wildfire suppression. We developed regression models for forecasting US Forest Service suppression spending at 1-, 2-, and 3-year lead times. We compared these…
Year: 2009
Type: Document
Source: TTRS
Potter, Butler
From the text ... 'This resolution of wind information can be useful to fire models simulating fire growth in very specific locations, such as individual drainages or ridges.'
Year: 2009
Type: Document
Source: TTRS
Krawchuk, Cumming, Flannigan
Forecasting future fire activity as a function of climate change is a step towards understanding the future state of the western mixedwood boreal ecosystem. We developed five annual weather indices based on the Daily Severity Rating (DSR) of the Canadian Forest Fire Weather…
Year: 2009
Type: Document
Source: TTRS
Sun, Krueger, Jenkins, Zulauf, Charney
The major source of uncertainty in wildfire behavior prediction is the transient behavior of wildfire due to changes in flow in the fire's environment. The changes in flow are dominated by two factors. The first is the interaction or 'coupling' between the fire and the fire-…
Year: 2009
Type: Document
Source: TTRS
Fill, Crandall
Basic information on past, current and future weather conditions is critical for making decisions in prescribed fire and wildfire operations. It is not surprising that weather is one side of the fire behavior triangle. Weather patterns prior to a fire affect fuel moisture and…
Year: 2018
Type: Document
Source: FRAMES
Jolly, Bradshaw, Freeborn
Year: 2018
Type: Media
Source: FRAMES
Berger, Grand, Fitzgerald, Leavell
Fire severity is a measure of the effects of fire on the environment—both in damage to vegetation and impacts on the soil. Fire severity is driven by weather conditions, the topography of the landscape, and the fuels that are present. Of these, weather is the overriding factor.
Year: 2018
Type: Document
Source: FRAMES
This reference work encompasses the current, accepted state of the art in the science of wildfires and wildfires that spread to communities, known as wildland-urban interface (WUI) fires. More than 300 author contributions include accepted knowledge on these topics from…
Year: 2018
Type: Document
Source: FRAMES
Forthofer
Fire Weather Alert System tutorial video for online use to alert firefighters to hazardous weather conditions in their area.
Year: 2018
Type: Media
Source: FRAMES
Ziel
There are at least 5 important factors that lead Alaska fire managers to continue their use of the Canadian CFFDRS system of fire danger and fire behavior tools for fire potential assessments in Alaska. Fire behavior expert Robert "Zeke" Ziel gives a succinct review of them in…
Year: 2018
Type: Document
Source: FRAMES
Fisher, White, Thoman
Alaska experiences extremely variable and increasingly active wildland fire seasons, with 6.6 million acres burned in 2004 and 5.1 million in 2015 respectively. The majority of acres burn in relatively brief periods of extremely warm and dry weather. Our hypothesis is that there…
Year: 2018
Type: Media
Source: FRAMES
Stacey
WeatherSHIELD (Weather SHort & Intermediate Ensemble and Long-term Dynamic weather patterns) is a system for preparing and displaying probabilistic weather forecasts over the short, intermediate, and long term. WeatherSHIELD is comprised of (1) Aviation Forest Fire &…
Year: 2018
Type: Media
Source: FRAMES
The fires that ravaged Yellowstone National Park in 1988 were large and severe, but they were still within the normal limits of fire regimes in the West. Following those fires 30 years ago, University of Wisconsin–Madison Professor of Integrative Biology, Monica Turner,…
Year: 2018
Type: Media
Source: FRAMES
In 2017, the dominant greenhouse gases released into Earth’s atmosphere—carbon dioxide, methane, and nitrous oxide— reached new record highs. The annual global average carbon dioxide concentration at Earth’s surface for 2017 was 405.0 ± 0.1 ppm, 2.2 ppm greater than for 2016 and…
Year: 2018
Type: Document
Source: FRAMES