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 The database provides a listing of fire research publications relevant to Alaska and a venue for sharing unpublished agency reports and works in progress that are not normally found in the published literature.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 101 - 125 of 612
McCaffrey, Rhodes
In the United States, the increasing costs and negative impacts of wildfires are causing fire managers and policymakers to reexamine traditional approaches to fire management including whether mass evacuation of populations threatened by wildfire is always the most appropriate…
Year: 2009
Type: Document
Source: TTRS
Higuera, Brubaker, Anderson, Hu, Brown
We examined direct and indirect impacts of millennial-scale climate change on fire regimes in the south-central Brooks Range, Alaska, USA, using four lake sediment records and existing paleoclimate interpretations. New techniques were introduced to identify charcoal peaks semi-…
Year: 2009
Type: Document
Source: TTRS
Hagemann, Moroni, Makeschin
Deadwood (woody debris (WD), standing dead trees (snags), stumps, and buried deadwood) abundance was estimated in Labrador humid high-boreal black spruce (Picea mariana (Mill.) BSP) forests regrown following natural and anthropogenic disturbances. Aboveground deadwood (DW)…
Year: 2009
Type: Document
Source: TTRS
Derner, Lauenroth, Stapp, Augustine
Domestic livestock have the potential to function as ecosystem engineers in semiarid rangelands, but prevailing management practices largely emphasize livestock production and uniform use of vegetation. As a result, variation in vegetation structure might not occur at…
Year: 2009
Type: Document
Source: TTRS
Finney
[From the Introduction] Fire as a landscape process is of broad interest to ecologists and land managers. Fires alter forest age-distributions (Heinselman, 1973; Van Wagner, 1978), are sensitive to climate (Balling et al., 1992, Swetnam and Bettancourt, 1990; Swetnam, 1993;…
Year: 1999
Type: Document
Source: FRAMES, TTRS
Gardner, Romme, Turner
[no description entered]
Year: 1999
Type: Document
Source: TTRS
Vavrek, Fetcher, McGraw, Shaver, Chapin, Bovard
Tundra ecosystems appear to recover slowly from disturbance, but little long-term data concerning plant diversity has been available. We examined recovery of tundra vegetation in Alaska, U.S.A., 23 yr after fire and 24 yr after bulldozing. Primary productivity, depth of thaw,…
Year: 1999
Type: Document
Source: TTRS
Harvey
The Lake Duparquet Research and Teaching Forest is situated in northwestern Quebec in the Boreal Shield Ecozone. Managed by two constituents of the Universite du Quebec, in collaboration with two forest companies, Norbord and Tembec, the Lake Duparquet Forest has a strong…
Year: 1999
Type: Document
Source: TTRS
Herr, Duchesne, Reader
The effects of soil organic matter, soil moisture, shading and ash on white pine (Pinus strobus L.) emergence were investigated using soil monoliths in greenhouse experiments. White pine seedling emergence increased with soil organic matter removal, and levelled with the…
Year: 1999
Type: Document
Source: TTRS
Hamer
Hedysarum (Hedysarum spp.) roots are a primary food of grizzly bears (Ursus arctos) in the Front Ranges of the Canadian Rocky Mountains. I studied the effects of recent forest fire on yellow hedysarum (H. sulphurescens) habitat by comparing root density, mass, fibre content,…
Year: 1999
Type: Document
Source: TTRS
Fortin, Payette, Marineau
Boreal forest dynamics and biodiversity are mainly governed by natural disturbances such as fire. Because boreal forest communities are typically species-poor and composed predominantly of wide-ranging circumboreal species, all measurements of biodiversity using the most common…
Year: 1999
Type: Document
Source: TTRS
Clearwater, Nifinluri, van Gardingen
[no description entered]
Year: 1999
Type: Document
Source: TTRS
Levine
[no description entered]
Year: 1999
Type: Document
Source: TTRS
Kerr, Schwilk, Bergman, Feldman
Using a two-locus diallelic population genetic model, we studied the evolution and impact of flammable traits in resprouting plants. A 'flammability locus' determines the flammable character of a plant and the frequency of alleles at this locus affects the probability that any…
Year: 1999
Type: Document
Source: TTRS
Miller
[no description entered]
Year: 1999
Type: Document
Source: TTRS
Gom, Rood
[no description entered]
Year: 1999
Type: Document
Source: TTRS
Ohtsuka
[no description entered]
Year: 1999
Type: Document
Source: TTRS
Wotton, McAlpine, Hobbs
[no description entered]
Year: 1999
Type: Document
Source: TTRS
Richards
[no description entered]
Year: 1999
Type: Document
Source: TTRS
McAlpine
[no description entered]
Year: 1999
Type: Document
Source: TTRS
Nalder, Wein, Alexander, de Groot
The quantity of dead and downed woody fuels in forests is commonly estimated using the line intersect method of sampling. Determination of the mass of wood per unit area for each size class requires values for the mean specific gravity, piece tilt angle and piece diameter. We…
Year: 1999
Type: Document
Source: TTRS
Beland, Bergeron, Zarnovican
[no description entered]
Year: 1999
Type: Document
Source: TTRS
Cameron, Morrison, Baldwin, Kreutzweiser
[no description entered]
Year: 1999
Type: Document
Source: TTRS
Johnson, Miyanishi, O'Brien
Climate modelling studies have predicted an increase in fire frequency with global warming as well as suggesting a longer fire season occurring later in the year. We used 160 years of fire scars in Pinus banksiana Lamb. dating from 1831 to 1948 and written fire records from 1927…
Year: 1999
Type: Document
Source: TTRS
Haddow
From the text ... 'So what is the number one reason that we're burning? What is the number one reason we treat fuels? Well, of course it's to protect the public from extremely high concentration of fine particulates associated with wildfire, right? And that's the number one…
Year: 2009
Type: Document
Source: TTRS