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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 The database provides a listing of fire research publications relevant to Alaska and a venue for sharing unpublished agency reports and works in progress that are not normally found in the published literature.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 - 25 of 52

Power, Codding, Taylor, Swetnam, Magargal, Bird, O'Connell
The primacy of past human activity in triggering change in earth’s ecosystems remains a contested idea. Treating human-environmental dynamics as a dichotomous phenomenon – turning “on” or “off” at some tipping point in the past – misses the broader, longer-term, and varied role…
Year: 2018
Type: Document
Source: FRAMES

Malevich, Guiterman, Margolis
We developed a new software package, burnr, for fire history analysis and plotting in the R statistical programming environment. It was developed for tree-ring fire-scar analysis, but is broadly applicable to other event analyses (e.g., avalanches, frost rings, or culturally…
Year: 2018
Type: Document
Source: FRAMES

Wade
George Byram's accomplishments read like the tree of fire science knowledge. The magnitude of his contributions tower above those of other fire science icons. Looking at the scope, importance and continued relevance of his contributions, one cannot help but reach the conclusion…
Year: 2013
Type: Document
Source: TTRS

Alexander
This paper constituents the remarks made during the introduction of the special session 'Standing on the Shoulders of a Giant: A Tribute to George M. Byram (1909-1996) - Pioneering Scientist in Forest Fire Research' held on February 20, 2013, at the International Association of…
Year: 2013
Type: Document
Source: TTRS

Alexander
This paper constituents the closing comments made at the special session 'Standing on the Shoulders of a Giant: A Tribute to George M. Byram (1909-1996) - Pioneering Scientist in Forest Fire Research' held on February 20, 2013, at the International Association of Wildland Fire's…
Year: 2013
Type: Document
Source: TTRS

Jolly, Bradshaw, Freeborn
Year: 2018
Type: Media
Source: FRAMES

Mustaphi, Pisaric
Aim Top-down (climatic) controls of fire occurrence are expected to homogenize fire regimes in a given area over long (millennial) temporal scales. Previous investigations in south-eastern British Columbia have shown that bottom-up (local site) factors can override long-term…
Year: 2013
Type: Document
Source: TTRS

Marcoux, Gergel, Daniels
Maps depicting historic fire regimes provide critical baselines for sustainable forest management and wildfire risk assessments. However, given our poor understanding of mixed-severity fire regimes, we asked if there may be considerable errors in fire-regime classification…
Year: 2013
Type: Document
Source: TTRS

Kelly, Chipman, Higuera, Stefanova, Brubaker, Hu
Wildfire activity in boreal forests is anticipated to increase dramatically, with far-reaching ecological and socioeconomic consequences. Paleorecords are indispensible for elucidating boreal fire regime dynamics under changing climate, because fire return intervals and…
Year: 2013
Type: Document
Source: TTRS

Harbour
From the text ... 'For anyone who has spent any amount of time working in the world of wildland fire management, it is not news that wildland fire management is a risky business -- that risk is inherent in our work.'
Year: 2013
Type: Document
Source: TTRS

Ryan, Knapp, Varner
Whether ignited by lightning or by Native Americans, fire once shaped many North American ecosystems. Euro-American settlement and 20th Century fire suppression practices drastically altered historic fire regimes, leading to excessive fuel accumulation and uncharacteristically…
Year: 2013
Type: Document
Source: TTRS

Wei, Larsen
Boreal forest fire history is typically reconstructed using tree-ring based time since last fire (TSLF) frequency distributions from across the landscape. We employed stochastic landscape fire simulations to assess how large a study area and how many TSLF sample-points are…
Year: 2018
Type: Document
Source: FRAMES

Schoennagel, Godwin, Miller
The combination of frequent droughts, changing climate conditions, and longer fire seasons along with urban development expansion into wildland areas has resulted in more difficult conditions for managing wildfires. Wildfires are causing more frequent and wider-ranging societal…
Year: 2018
Type: Media
Source: FRAMES

Pyne
Fire is special. Even among the ancient elements, fire is different because it alone is a reaction. It synthesizes its surroundings; it takes its character from its context. It varies by place, by culture, and by time. It has no single expression. There is no single way to…
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

Pyne
Given the nature of the deliverables - books, with copyrights - it isn't possible to reproduce the full texts here. Instead, I am including the tables of contents and prologues for the four regions the grant has touched on - oak woodlands, Pacific Northwest, North east, and…
Year: 2018
Type: Document
Source: FRAMES

Pyne
To complement the narrative of recent fire history by writing short regional surveys under the collective title To the Last Smoke. These surveys will be focused on the Pacific Northwest, oak woodlands, and Alaska.
Year: 2018
Type: Project
Source: FRAMES

Hawthorne, Mitchell
In recent years a number of studies have suggested that trends in wildfire can be seen at a regional, national and global scale, and can be explained by interactions with factors such as anthropogenic activity and climate. As future susceptibility to fire is expected to be high…
Year: 2018
Type: Document
Source: FRAMES

Koltz, Burkle, Pressler, Dell, Vidal, Richards, Murphy
Climate change is drastically altering global fire regimes, which may affect the structure and function of insect communities. Insect responses to fire are strongly tied to fire history, plant responses, and changes in species interactions. Many insects already possess adaptive…
Year: 2018
Type: Document
Source: FRAMES

Leys, Marlon, Umbanhower, Vannière
Grasslands are globally extensive; they exist in many different climates, at high and low elevations, on nutrient‐rich and nutrient‐poor soils. Grassland distributions today are closely linked to human activities, herbivores, and fire, but many have been converted to urban areas…
Year: 2018
Type: Document
Source: FRAMES

Norman
Presented by Steve Norman, USFS Southern Research Station, and sponsored by the US Forest Service, Research and Development. The Landscape Science Webinar Series occurs monthly on a Tuesday at 1 pm Eastern providing a forum to communicate research findings, promote awareness of…
Year: 2013
Type: Media
Source: FRAMES

Fresco
Climate change data - and future projections of related impacts - are crucial to community planners, land managers, and indeed all the people of Alaska. We depend on the landscape and its resources, and that landscape is changing. But raw data, even if freely shared, is only…
Year: 2018
Type: Media
Source: FRAMES

Hanan, Tague, Choate, Liu, Kolden, Adam
Disturbances such as wildfire, insect outbreaks, and forest clearing, play an important role in regulating carbon, nitrogen, and hydrologic fluxes in terrestrial watersheds. Evaluating how watersheds respond to disturbance requires understanding mechanisms that interact over…
Year: 2018
Type: Document
Source: FRAMES

Baker
Historical evidence suggests natural disturbances could allow more forest persistence, than expected from models, over 40 yr of transition to the net‐zero emissions needed to limit warming to <2.0°C (e.g., Paris Agreement). Forests must ultimately equilibrate with committed…
Year: 2018
Type: Document
Source: FRAMES