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 The database provides a listing of fire research publications relevant to Alaska and a venue for sharing unpublished agency reports and works in progress that are not normally found in the published literature.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 - 14 of 14
Rutkosky
[no description entered]
Year: 1978
Type: Document
Source: TTRS
Malmer
[no description entered]
Year: 2004
Type: Document
Source: TTRS
Macdonald, Burgess, Scrimgeour, Boutin, Reedyk, Kotak
Riparian communities (those near open water) have often been shown to display high structural and compositional diversity and they have been identified as potentially serving a keystone role in the landscape. Thus, they are the focus of specific management guidelines that…
Year: 2004
Type: Document
Source: TTRS
Gonzalez-Bonorino, Osterkamp
[no description entered]
Year: 2004
Type: Document
Source: TTRS
Cwynar
Laminated sediment (presumed varved) from Greenleaf Lake was examined for evidence of forest fires. A 500-year section dating approximately 770—1270 AD. was analysed for influx of pollen, charcoal, aluminum, and vanadium using decadal samples. Intervals showing concurrent peaks…
Year: 1978
Type: Document
Source: TTRS
Teed, Camill, Umbanhowar, Geiss, Murphy, Dorr
[no description entered]
Year: 2004
Type: Document
Source: TTRS
Smith, Kelly, Finch
[no description entered]
Year: 2004
Type: Document
Source: TTRS
Hunter, Omi
[no description entered]
Year: 2004
Type: Document
Source: TTRS
Tiedemann, Helvey, Anderson
During the first 3 years after a severe wildfire in 1970, maximum concentrations of nitrate-N (NO3-N) in stream water increased from prefire levels of <0.016 to 0.$6 mg/liter on a burned, unfertilized watershed and to 0.54 and 1.47 mg/liter on two watersheds that were burned…
Year: 1978
Type: Document
Source: FRAMES
Lyon, Crawford, Czuhai, Fredriksen, Harlow, Metz, Pearson
Description not entered.
Year: 1978
Type: Document
Source: FRAMES, TTRS
Lynch, Clark, Stocks
The relationship between charcoal production from fires and charcoal deposition in lakes is poorly understood, which limits the interpretation of sediment charcoal records. This calibration study assessed charcoal particle production, size, and transport during the International…
Year: 2004
Type: Document
Source: FRAMES, TTRS
Lynch, Hollis, Hu
1) The response of ecosystems to past and future climatic change is difficult to understand due to the uncertainties in the direction and magnitude of changes and the relative importance of interactions between climate and local factors. In boreal ecosystems such interactions…
Year: 2004
Type: Document
Source: FRAMES, TTRS
Brown, Clark, Grimm, Donovan, Mueller
[no description entered]
Year: 2004
Type: Document
Source: TTRS
Ice, Neary, Adams
Wildfire can cause water repellency and consume plant canopy, surface plants and litter, and structure-enhancing organics within soil. Changes in soil moisture, structure, and infiltration can accelerate surface runoff, erosion, sediment transport, and deposition. Intense…
Year: 2004
Type: Document
Source: FRAMES, TTRS