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 The database provides a listing of fire research publications relevant to Alaska and a venue for sharing unpublished agency reports and works in progress that are not normally found in the published literature.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 - 20 of 20
Smith, Finch, Hawksworth
Despite widespread efforts to avert wildfire by reducing the density of flammable vegetation, little is known about the effects of this practice on the reproductive biology of forest birds. We examined nest-site selection and nest survival of the Black-chinned Hummingbird (…
Year: 2009
Type: Document
Source: TTRS
Cyr, Gauthier, Bergeron, Carcaillet
Fire is fundamental to the natural dynamics of the North American boreal forest. It is therefore often suggested that the impacts of anthropogenic disturbances (e.g. logging) on a managed landscape are attenuated if the patterns and processes created by these events resemble…
Year: 2009
Type: Document
Source: TTRS
Kardynal, Hobson, Van Wilgenburg, Morissette
Forest harvesting strategies that approximate natural disturbances have been proposed as a means of maintaining natural species' diversity and richness in the boreal forests of North America. Natural disturbances impact shoreline forests and upland areas at similar rates.…
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
Yi, McGuire, Harden, Kasischke, Manies, Hinzman, Liljedahl, Randerson, Liu, Romanovsky, Marchenko, Kim
Soil temperature and moisture are important factors that control many ecosystem processes. However, interactions between soil thermal and hydrological processes are not adequately understood in cold regions, where the frozen soil, fire disturbance, and soil drainage play…
Year: 2009
Type: Document
Source: TTRS
Crohn, Chaganti, Reddy
Erosion from fire-damaged wildlands poses a significant water quality concern. Deprived of vegetation, runoff intensifies, which escalates exports of sediments and other pollutants. Used as mulches, composts shield the soil surface and reduce runoff by absorbing water and…
Year: 2013
Type: Document
Source: TTRS
Smith, Blake, Owens
Wildfire can cause substantial changes to runoff, erosion and downstream sediment delivery processes. In response to these disturbance effects, the main sources of sediment transported within burned catchments may also change. Sediment tracing offers an approach to determine the…
Year: 2013
Type: Document
Source: TTRS
Post-wildfire science is generally not recognized as a discipline in its own right, so the intention of this Chapman Conference is to bring together experts from the field of post-wildfire research, the meteorological and hydrological modeling field, other fields of related…
Year: 2013
Type: Document
Source: FRAMES
Davis, Baxter, Rosi-Marshall, Pierce, Crosby
Climate change (CC) is projected to increase the frequency and severity of natural disturbances (wildfires, insect outbreaks, and debris flows) and shift distributions of terrestrial ecosystems on a global basis. Although such terrestrial changes may affect stream ecosystems,…
Year: 2013
Type: Document
Source: FRAMES
Blodau, Olefeldt, Turetsky
Production, transport, and degradation of terrestrial dissolved organic matter (DOM) influence carbon (C) and nutrient cycling in both soils and downstream aquatic ecosystems. Here, we assessed the impacts of wildfire on DOM production, composition, and reactivity (…
Year: 2013
Type: Document
Source: FRAMES, TTRS
Betts, Jones
With climatic warming, wildfire occurrence is increasing in the boreal forest of interior Alaska. Loss of catchment vegetation during fire can impact streams directly through altered solute and debris inputs and changed light and temperature regimes. Over longer time scales,…
Year: 2009
Type: Document
Source: FRAMES
Osborne, Kobziar, Inglett
This special issue of Fire Ecology is dedicated to furthering scientific understanding of the role fire plays in the development and functioning of wetland ecosystems. While not initially intuitive, the concept of fire exerting significant influence on how wetland environments…
Year: 2013
Type: Document
Source: FRAMES, TTRS
Altmann
Wildfire is ubiquitous to interior Alaska and is the primary large-scale disturbance regime affecting thawing permafrost and ecosystem processes in boreal forests. Since surface and near surface hydrology is strongly affected by permafrost occurrence, and wildfire can consume…
Year: 2013
Type: Document
Source: FRAMES
O'Donnell
From The Effects of Wildland Fire and Fire Management on Amphibians and Reptiles symposium at The Wildlife Society's 20th Annual Meeting, Milwaukee, WI on October 7, 2013.
Year: 2013
Type: Media
Source: FRAMES
Jorgenson, Harden, Kanevskiy, O'Donnell, Wickland, Ewing, Manies, Zhuang, Shur, Striegl, Koch
The diversity of ecosystems across boreal landscapes, successional changes after disturbance and complicated permafrost histories, present enormous challenges for assessing how vegetation, water and soil carbon may respond to climate change in boreal regions. To address this…
Year: 2013
Type: Document
Source: TTRS
Marchand, Prairie, Del Giorgio
Natural fires annually decimate up to 1% of the forested area in the boreal region of Quebec, and represent a major structuring force in the region, creating a mosaic of watersheds characterized by large variations in vegetation structure and composition. Here, we investigate…
Year: 2009
Type: Document
Source: TTRS
Wieder, Scott, Kamminga, Vile, Vitt, Bone, Xu, Benscoter, Bhatti
Boreal peatland ecosystems occupy about 3.5 million km2 of the earth's land surface and store between 250 and 455 Pg of carbon (C) as peat. While northern hemisphere boreal peatlands have functioned as net sinks for atmospheric C since the most recent deglaciation, natural and…
Year: 2009
Type: Document
Source: TTRS
Norris, Quideau, Bhatti, Wasylishen, MacKenzie
Boreal forest soils represent a considerable reservoir of carbon on a global basis. The objective of this study was to compare the response of soil organic carbon (OC) to disturbance along two jack pine (Pinus banksiana Lamb.) chronosequences of either fire or harvest origin.…
Year: 2009
Type: Document
Source: TTRS
Betts, Jones
With climatic warming, wildfire occurrence is increasing in the boreal forest of interior Alaska. Loss of catchment vegetation during fire can impact streams directly through altered solute and debris inputs and changed light and temperature regimes. Over longer time scales,…
Year: 2009
Type: Document
Source: TTRS
Okin, Parsons, Herrick, Bestelmeyer, Peters, Fredrickson
Arid and semiarid regions cover more than 40% of Earths land surface. Desertification, or broadscale land degradation in drylands, is a major environmental hazard facing inhabitants of the world's deserts as well as an important component of global change. There is no unifying…
Year: 2009
Type: Document
Source: TTRS