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 The database provides a listing of fire research publications relevant to Alaska and a venue for sharing unpublished agency reports and works in progress that are not normally found in the published literature.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 351 - 375 of 14915
Yamaguchi
A hoist–puller (come-along) or a scissor jack can be used to extract stuck increment borers from trees. An electric drill is also helpful for removing jammed wood from the inside of borers.
Year: 1991
Type: Document
Source: FRAMES
Tsuyuzaki, Kwon, Takeuchi, Otaki, Sawada
We measured differences in %C, %N, δ13C, and δ15N of plant functional types (PFTs) between burned and unburned ground surfaces soon after a wildfire on a north-facing slope in interior Alaska. The C and N were measured for 16 species and Sphagnum litter. δ13C differed among the…
Year: 2022
Type: Document
Source: FRAMES
Grissino-Mayer
An increment borer is the primary tool used to collect samples for dendrochronological analyses. These are precision instruments and users should be trained in their proper use, care, and maintenance. In this paper, I describe the various parts of an increment borer and how to…
Year: 2003
Type: Document
Source: FRAMES
Grissino-Mayer
COFECHA is a computer program that assesses the quality of crossdating and measurement accuracy of tree-ring series. Written by Richard L. Holmes in 1982, the program has evolved into one of the most important and widely used in dendrochronology. It is important to note that…
Year: 2001
Type: Document
Source: FRAMES
Trigg
Calculated values of precipitation effectiveness index and temperature efficiency index for 48 weather observation stations on the Alaska mainland are used to delineate areas that have different climatic subclassifications during the wildfire season of April through September.…
Year: 1971
Type: Document
Source: FRAMES
Wang, Swystun, Flannigan
Great efforts have been made to understand the impacts of a changing climate on fire activity; however, a reliable approach with high prediction confidence has yet to be found. By establishing linkages between the longest duration of fire-conducive weather spell and fire…
Year: 2022
Type: Document
Source: FRAMES
Fillmore, McCaffrey
To improve understanding of the managed wildfire decision-making process on federal lands (USA), we conducted a mixed methods review of the existing literature. The review was published in September, 2021 in the journal Fire. The review spanned from 1976 to 2013 and used…
Year: 2022
Type: Media
Source: FRAMES
Leverkus, Thorn, Gustafsson, Noss, Müller, Pausas, Lindenmayer
[from the text] A recent warning to humanity signed by >15 000 scientists identified global environmental threats that require urgent policy response from world leaders (Ripple et al 2017). Here, we document challenges and propose solutions related to ongoing shifts in…
Year: 2021
Type: Document
Source: FRAMES
Yan, Zhu, Wang, Zhang, Luo, Qian, Jiang
This study investigates the impacts of African wildfire aerosols (primary organic carbon, black carbon and sulfate) on the Northern Hemispheric in January. We found that wildfire aerosols emitted from equatorial Africa result in two mid-to-high latitudes atmospheric Rossby wave…
Year: 2021
Type: Document
Source: FRAMES
Son, Kim, Wang, Jeong, Woo, Jeong, Lee, Kim, LaPlante, Kwon
The 2015 Paris Agreement led to a number of studies that assessed the impact of the 1.5 °C and 2.0 °C increases in global temperature over preindustrial levels. However, those assessments have not actively investigated the impact of these levels of warming on fire weather. In…
Year: 2021
Type: Document
Source: FRAMES
Estimates of temporal-spatial variability of wildfire danger across the Pan-Arctic and extra-tropics
Satellite-based hot-spot analysis for the Pan-Arctic, shows that Asia experiences a greater number of fires compared to North America and Europe. While hot spots are prevalent through the year in Asia, Europe (North America) exhibits marked annual (semi-annual) variability. The…
Year: 2021
Type: Document
Source: FRAMES
Yasunari, Nakamura, Kim, Choi, Lee, Tachibana, da Silva
Long-term assessment of severe wildfires and associated air pollution and related climate patterns in and around the Arctic is essential for assessing healthy human life status. To examine the relationships, we analyzed the National Aeronautics and Space Administration (NASA)…
Year: 2021
Type: Document
Source: FRAMES
Webb, Loranty, Lichstein
The Arctic is warming twice as fast as the global average, due in part to the albedo feedbacks of a diminishing cryosphere. As snow cover extent decreases, the underlying land is exposed, which has lower albedo and therefore absorbs more radiation, warming the surface and…
Year: 2021
Type: Document
Source: FRAMES
Pereira, Oom, Silva, Benali
Climate and natural vegetation dynamics are key drivers of global vegetation fire, but anthropogenic burning now prevails over vast areas of the planet. Fire regime classification and mapping may contribute towards improved understanding of relationships between those fire…
Year: 2022
Type: Document
Source: FRAMES
Ludwig, Natali, Mann, Schade, Holmes, Powell, Fiske, Commane
Climate change is causing an intensification in tundra fires across the Arctic, including the unprecedented 2015 fires in the Yukon-Kuskokwim (YK) Delta. The YK Delta contains extensive surface waters (∼33% cover) and significant quantities of organic carbon, much of which is…
Year: 2022
Type: Document
Source: FRAMES
Zhan, Hu, Zhou, Wang, Cai, Li
The occurrence of forest fires can lead to ecological damage, property loss, and human casualties. Current forest fire smoke detection methods do not sufficiently consider the characteristics of smoke with high transparency and no clear edges and have low detection accuracy,…
Year: 2022
Type: Document
Source: FRAMES
Sanderfoot, Bassing, Brusa, Emmet, Swift, Gardner
Climate change is intensifying global wildfire activity, and people and wildlife are increasingly exposed to hazardous air pollution during large-scale smoke events. Although wildfire smoke is considered a growing risk to public health, few studies have investigated the impacts…
Year: 2021
Type: Document
Source: FRAMES
Doherty, Geary, Jolly, Macdonald, Miritis, Watchorn, Cherry, Conner, González, Legge, Ritchie, Stawski, Dickman
Both fire and predators have strong influences on the population dynamics and behaviour of animals, and the effects of predators may either be strengthened or weakened by fire. However, knowledge of how fire drives or mediates predator–prey interactions is fragmented and has not…
Year: 2022
Type: Document
Source: FRAMES
Steketee, Rocha, Gough, Griffin, Klupar, An, Williamson, Rowe
Fire is an important ecological disturbance that can reset ecosystems and initiate changes in plant community composition, ecosystem biogeochemistry, and primary productivity. Since herbivores rely on primary producers for food, changes in vegetation may alter plant-herbivore…
Year: 2022
Type: Document
Source: FRAMES
Moody, Gibbs, Krueger, Mallia, Pardyjak, Kochanski, Bailey, Stoll
A microscale wildfire model, QES-Fire, that dynamically couples the fire front to microscale winds was developed using a simplified physics rate of spread (ROS) model, a kinematic plume-rise model and a mass-consistent wind solver. The model is three-dimensional and couples fire…
Year: 2022
Type: Document
Source: FRAMES
Zhou, Simeoni
In forest fires, the fire plume can heat tree crowns and cause the mortality of live vegetation, even though the surface fire spread is of low burning intensity. A lot of empirical or semi-empirical correlations have been built to link the fire intensity and flame height to the…
Year: 2022
Type: Document
Source: FRAMES
McGowan-Stinski, Charney, Kobziar, Wickman, Pitrolo
This is the 3rd panel discussion in Season 2 of the Fueling Collaboration series. Moderator Jack McGowan-Stinski (Lake States Fire Science Consortium) discusses all things smoke. What is it? What are the messages we should be communicating? What are the tools that can help us…
Year: 2022
Type: Media
Source: FRAMES
Koch, Bogard, Butman, Finlay, Ebel, James, Johnston, Jorgenson, Pastick, Spencer, Striegl, Walvoord, Wickland
Climate change is thawing and potentially mobilizing vast quantities of organic carbon (OC) previously stored for millennia in permafrost soils of northern circumpolar landscapes. Climate-driven increases in fire and thermokarst may play a key role in OC mobilization by thawing…
Year: 2022
Type: Document
Source: FRAMES
Healey, Yang
Part of the Science You Can Use Spring 2022 Webinar Series sponsored by the Rocky Mountain Research Station
Forest managers increasingly require statistically grounded estimates of forest carbon storage at the resolution of individual ownerships (a few thousand acres). Carbon…
Year: 2022
Type: Media
Source: FRAMES
Noble, Ernstrom
Part of the Science You Can Use Spring 2022 Webinar Series sponsored by the Rocky Mountain Research Station
IFTDSS is becoming a go to tool for fuels planning across interagency partners. With its all access web-based approach, IFTDSS makes fuels management planning accessible…
Year: 2022
Type: Media
Source: FRAMES