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 The database provides a listing of fire research publications relevant to Alaska and a venue for sharing unpublished agency reports and works in progress that are not normally found in the published literature.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 151 - 175 of 382
Fire behavior is the way a fire acts - how and when fuels ignite, flames develop, and fire spreads as influenced by its interaction with fuel, weather, and topography. Read more at Fire Facts: What is? Fire Behavior.
Year: 2017
Type: Document
Source: FRAMES
Trend analysis of fire season length and extreme fire weather in North America between 1979 and 2015
We have constructed a fire weather climatology over North America from 1979 to 2015 using the North American Regional Reanalysis dataset and the Canadian Fire Weather Index (FWI) System. We tested for the presence of trends in potential fire season length, based on a…
Year: 2017
Type: Document
Source: FRAMES
Costafreda-Aumedes, Comas, Vega-García
The increasing global concern about wildfires, mostly caused by people, has triggered the development of human-caused fire occurrence models in many countries. The premise is that better knowledge of the underlying factors is critical for many fire management purposes, such as…
Year: 2017
Type: Document
Source: FRAMES
When it comes to unnecessary risk and exposure to heat, smoke, fatigue, and noise, could you be a “Bad Ass” or a “Dumb Ass”? Maybe it’s time you put a pinch of practical in your tactical pause. George Broyles, Fire and Fuels Project Leader for the U.S. Forest Service’s National…
Year: 2017
Type: Document
Source: FRAMES
What happens when you are “all in” in your wildland fire service job and you suddenly get the boot—whether through mandatory retirement, freak accident, family demands, or any other “involuntary separation”? “Why Identity Matters” is the focus of this issue. Page 1 provides…
Year: 2017
Type: Document
Source: FRAMES
Flannigan, Tymstra
Fire happens in Canada’s forest. Every year, thousands of small fires and dozens of large ones occur somewhere in Canada’s vast forest landscape. It has been the story for centuries and will continue. Now more than ever people work, build and live in the boreal forest but…
Year: 2017
Type: Media
Source: FRAMES
Barnes
Presentation by Jennifer Barnes at the 2017 Alaska Fall Fire Science Workshop, October 10, 2017.
Year: 2017
Type: Media
Source: FRAMES
Bieniek
Presentation by Peter Bieniek at the 2017 Alaska Fall Fire Science Workshop, October 10, 2017.
Year: 2017
Type: Media
Source: FRAMES
Miller
Presentation by Eric Miller at the 2017 Alaska Fall Fire Science Workshop, October 10, 2017.
Year: 2017
Type: Media
Source: FRAMES
Mann
Presentation from the 2017 Fall Alaska Fire Science Workshop. Tundra fires were once very rare on Alaska's North Slope, but are now becoming more frequent, probably as a result of climate change. Fire-management need to be highly adaptable during this time of rapid change;…
Year: 2017
Type: Media
Source: FRAMES
Suzuki, Manzello
It is well accepted that as structures are exposed to wind, stagnation planes are produced around structures. Past work by the authors demonstrated for the first-time that wind-driven firebrand showers may accumulate in these stagnation planes. While those experiments…
Year: 2017
Type: Document
Source: FRAMES
Calef, Varvak, McGuire
In western North America, the carbon-rich boreal forest is experiencing warmer temperatures, drier conditions and larger and more frequent wildfires. However, the fire regime is also affected by direct human activities through suppression, ignition, and land use changes. Models…
Year: 2017
Type: Document
Source: FRAMES
Thomas, Mueller, Santamaria, Gallagher, El Houssami, Filkov, Clark, Skowronski, Hadden, Mell, Simeoni
An experimental approach has been developed to quantify the characteristics and flux of firebrands during a management-scale wildfire in a pine-dominated ecosystem. By characterizing the local fire behavior and measuring the temporal and spatial variation in firebrand collection…
Year: 2017
Type: Document
Source: FRAMES
Mahmoud, Chulahwat
The ‘wildland–urban interface’ (WUI) is a term commonly used to describe areas where wildfires and the built environment have the potential to interact resulting in loss of properties and potential loss of life. Significant residential losses associated with wildland interface…
Year: 2017
Type: Document
Source: FRAMES
de Groot
This webinar addresses the following subjects regarding CanFIRE: CFFDRS science-management integration model; Stand-level, fire behaviour-based model; Simulates physical and ecological fire effects; Small scale (fire behaviour) to large scale (fire regimes); New fuel consumption…
Year: 2017
Type: Media
Source: FRAMES
Melvin, Mack, Jandt
Clearing and forest thinning are increasingly seen as strategies to protect private property and infrastructure from boreal wildfires. Property sited in natural spruce-dominated forests are often considered high risk due to the intensity of fires in this fuel type when it burns…
Year: 2017
Type: Document
Source: FRAMES
Pastick, Duffy, Genet, Rupp, Wylie, Johnson, Jorgenson, Bliss, McGuire, Jafarov, Knight
Modern climate change in Alaska has resulted in widespread thawing of permafrost, increased fire activity, and extensive changes in vegetation characteristics that have significant consequences for socioecological systems. Despite observations of the heightened sensitivity of…
Year: 2017
Type: Document
Source: FRAMES
Genet, Hue, Lyu, McGuire, Zhuang, Clein, D'Amore, Bennett, Breen, Biles, Euskirchen, Johnson, Kurkowski, Schroder, Pastick, Rupp, Wylie, Zhang, Zhou, Zhu
It is important to understand how upland ecosystems of Alaska, which are estimated to occupy 84% of the state (i.e. 1,237,774 km2), are influencing and will influence state-wide carbon (C) dynamics in the face of ongoing climate change. We coupled fire disturbance and…
Year: 2017
Type: Document
Source: FRAMES
Rutherford, Schultz
Presentation by Courtney Schultz and Tait Rutherford at the 2017 Alaska Fall Fire Science Workshop, October 10, 2017.
Year: 2017
Type: Media
Source: FRAMES
Waigl
Chris Waigl presents a repeat of her thesis defense.
Year: 2017
Type: Media
Source: FRAMES
Houseman
Brian Houseman presents his thesis work, October 27, 2017.
Year: 2017
Type: Media
Source: FRAMES
Barnett
This webinar highlights results from a study on the effects of fuel treatments and previously burned areas on subsequent fire management costs. Presenter Kevin Barnett and his colleagues, Helen Naughton, Sean Parks, and Carol Miller, built models explaining variation in daily…
Year: 2017
Type: Media
Source: FRAMES
Havlina, Mehlman, Silvertand
This webinar will walk the audience through the Vegetation Management Practices learning series, produced by the Bureau of Land Management and The Nature Conservancy. This learning series responds to action item #5 within the fuels section of the Integrated Rangeland Fire…
Year: 2017
Type: Media
Source: FRAMES
Chambers, Champ
Before the rise of social media sites such as Facebook and Twitter, public information officers on wildfires depended on traditional mass media, including newspapers, television, and radio, to get important messages about dangerous wildfires to the public. That is not the…
Year: 2017
Type: Document
Source: FRAMES
Coen, Schroeder
Large wildland fires are complex, dynamic phenomena that can encounter a wide range of fuels, terrain, and weather during a single event. They can produce intense firewhirls that snap mature trees and generate blowups. They can send 300-foot (100-m) bursts of flame shooting…
Year: 2017
Type: Document
Source: FRAMES