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 The database provides a listing of fire research publications relevant to Alaska and a venue for sharing unpublished agency reports and works in progress that are not normally found in the published literature.

Type

Topic

Year

Displaying 526 - 536 of 536

Postfire stand dynamics in a southern boreal forest (Quebec): a dendroecological approach

Bergeron, Charron
Arboreal succession in the southern boreal forest of QuTbec was documented through a dendroecological analysis of a mid-successional stand originating from fire 75 years ago. The studied stand was located in the forest surrounding Lake Duparquet, south of Lake Abitibi in…
Year: 1994
Type: Document
Source: FRAMES

Monoterpenes: their effects on ecosystem nutrient cycling

White
This article explores the evidence for monoterpenes to alter rates of nutrient cycling, with particular emphasis on the nitrogen (N) cycle, from an ecosystem perspective. The general N cycle is reviewed and particular processes are noted where monoterpenes could exert control.…
Year: 1994
Type: Document
Source: TTRS

NOx pollution from biomass burning: a global study

Dignon, Atherton, Penner, Walton
We present estimates of nitrogen oxide (NOx) emission from worldwide biomass burning totaling ~13 Tg N yr-1 on a 1 degree longitude by 1 degree latitude grid. Roughly 80 percent of these emissions occur in the zone from 25N to 25 degrees S. The inventory presented here is…
Year: 1994
Type: Document
Source: TTRS

The burning of the New World: the extent and significance of broadcast burning by early humans

Woodcock, Wells
It is possible to delimit the areas of the North, Central, and South America that are most susceptible to fire and would have been most affected by burning practices of early Americans. Areas amounting to approximately 155 x 105 km² are here designated as the most burnable part…
Year: 1994
Type: Document
Source: TTRS

Age structure and disturbance legacy of North American forests

Pan, Chen, Birdsey, McCullough, He, Deng
Most forests of the world are recovering from a past disturbance. It is well known that forest disturbances profoundly affect carbon stocks and fluxes in forest ecosystems, yet it has been a great challenge to assess disturbance impacts in estimates of forest carbon budgets. Net…
Year: 2011
Type: Document
Source: FRAMES, TTRS

Water and heat transport in boreal soils: Implications for soil response to climate change

Fan, Neff, Harden, Zhang, Veldhuis, Czimczik, Winston, O'Donnell
Soil water content strongly affects permafrost dynamics by changing the soil thermal properties. However, the movement of liquid water, which plays an important role in the heat transport of temperate soils, has been under-represented in boreal studies. Two different heat…
Year: 2011
Type: Document
Source: FRAMES

Soils data related to the 1999 FROSTFIRE burn

Manies, Harden, Ottmar
This report describes the sample collection and processing for U.S. Geological Survey efforts at FROSTFIRE, an experimental burn that occurred in Alaska in 1999. Data regarding carbon, water, and energy dynamics pre-fire, during, and post-fire were obtained in this landscape-…
Year: 2011
Type: Document
Source: FRAMES

Exploring the sensitivity of soil carbon dynamics to climate change, fire disturbance and permafrost thaw in a black spruce ecosystem

O'Donnell, Harden, McGuire, Romanovsky
In the boreal region, soil organic carbon (OC) dynamics are strongly governed by the interaction between wildfire and permafrost. Using a combination of field measurements, numerical modeling of soil thermal dynamics, and mass-balance modeling of OC dynamics, we tested the…
Year: 2011
Type: Document
Source: FRAMES, TTRS

Experimental drying intensifies burning and carbon losses in a northern peatland

Turetsky, Donahue, Benscoter
For millennia, peatlands have served as an important sink for atmospheric CO2 and today represent a large soil carbon reservoir. While recent land use and wildfires have reduced carbon sequestration in tropical peatlands, the influence of disturbance on boreal peatlands is…
Year: 2011
Type: Document
Source: FRAMES, TTRS

Burn severity influences postfire CO2 exchange in arctic tundra

Rocha, Shaver
Burned landscapes present several challenges to quantifying landscape carbon balance. Fire scars are composed of a mosaic of patches that differ in burn severity, which may influence postfire carbon budgets through damage to vegetation and carbon stocks. We deployed three eddy…
Year: 2011
Type: Document
Source: FRAMES, TTRS

Evaluating the type and state of Alaska taiga forests with imaging radar for use in ecosystem models

Way, Rignot, McDonald, Oren, Kwok, Bonan, Dobson, Viereck, Roth
Changes in the seasonal CO2 flux of the boreal forests may result from increased atmospheric CO2 concentrations and associated global warming patterns. To monitor this potential change, a combination of information derived from remote sensing data, including forest type and…
Year: 1994
Type: Document
Source: FRAMES