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 The database provides a listing of fire research publications relevant to Alaska and a venue for sharing unpublished agency reports and works in progress that are not normally found in the published literature.

 

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Displaying 61 - 70 of 342

The capture of fire by the genus Homo changed forever the natural history of the Earth. Even today fire appears at the core of many popular scenarios for an environmental apocalypse. Yet the larger history of fire - the varied ways human society have...

Person: Pyne
Created Year: 1994
Resource Group: Document
Source: TTRS

[no description entered]

Person: Griffiths, Smith, Smith, Reifsnyder
Created Year: 1994
Resource Group: Document
Source: TTRS

Statistically acceptable fire frequency models using time since fire maps are iterative and require specialized statistical and graphical routines. We introduce an automated technique for studying fire frequency usinq Geographic Information Systems...

Person: Bridge, Johnson
Created Year: 1994
Resource Group: Document
Source: TTRS

Two key observations lead to our understanding of how fire scars form on trees. First, as a fire passes by a tree, its flame length increases on the leeward side of the tree. Second, the cambium is killed in a triangular shape, encompassing...

Person: Gutsell, Johnson
Created Year: 1994
Resource Group: Document
Source: TTRS

Future long-term (ca. 100 year) trends in fire frequency and burn patterns were investigated in the subalpine plateau of Yellowstone National Park, USA, using EMBYR, a probabilistic, spatially-explicit fire simulation model. The central subalpine...

Person: Hargrove, Gardner, Turner, Romme
Created Year: 1994
Resource Group: Document
Source: TTRS

The 1988 Yellowstone fires provided a unique opportunity to examine how the geometry of fire created patches affects plant reestablishment. We initiated studies in 1990 in small (1 ha), moderate (74-200 ha), and large (480-3968 ha) crown-fire patches...

Person: Turner, Romme, Gardner, Hargrove
Created Year: 1994
Resource Group: Document
Source: TTRS

Medusahead (Taeniatherum asperum) has replaced cheatgrass (Bromus tectorum) and other annual grasses over extensive areas in California, Idaho, Oregon, and Washington during the past 40 years. It has low palatability, injurious, and pesky awns, and...

Person: Monsen, Kitchen, Hironaka
Created Year: 1994
Resource Group: Document
Source: TTRS

The size and frequency of wildfires are rapidly increasing on rangelands in the Intermountain area of the Western United States. One of the major contributors to increased wildfires is alien annual grasses, primarily cheatgrass (Bromus tectorum)....

Person: Monsen, Kitchen, Pellant
Created Year: 1994
Resource Group: Document
Source: TTRS

'Burning earlier in the season may reduce the need for pre-burn vegetation management treatments (e.g. herbicide application) on some sites...Burning in late spring to take advantage of low green-up levels may result in greater rates of fire...

Person: Archibald, Luke, Coneybeare
Created Year: 1994
Resource Group: Document
Source: TTRS

'The heightened recognition within the research community of the ecological linkages between Local sites and larger spatial scales has spawned increasing calls for more holistic management of landscapes (Noss 1983, Harris 1984, Risser 1985, Norse...

Person: Sample, Allen
Created Year: 1994
Resource Group: Document
Source: TTRS