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 The database provides a listing of fire research publications relevant to Alaska and a venue for sharing unpublished agency reports and works in progress that are not normally found in the published literature.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 - 25 of 77
Shiraishi, Hirata, Hirano
Recently, the effect of large-scale fires on the global environment has attracted attention. Satellite observation data are used for global estimation of fire CO2 emissions, and available data sources are increasing. Although several CO2 emission inventories have already been…
Year: 2021
Type: Document
Source: FRAMES
Belenguer-Plomer, Tanase, Chuvieco, Bovolo
In this paper, we present an in-depth analysis of the use of convolutional neural networks (CNN), a deep learning method widely applied in remote sensing-based studies in recent years, for burned area (BA) mapping combining radar and optical datasets acquired by Sentinel-1 and…
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
Hrobak, Barnes
National Park Service Resource Brief for the Arctic Inventory and Monitory Network which briefly summarizes the status of fire extent and frequency in ARCN parks and highlights the historic fire record (WFMI) & perimeter improvements. The brief is written for a non-…
Year: 2021
Type: Document
Source: FRAMES
Hrobak, Barnes
National Park Service web article summarizes fire effects after the 2018 Andrew Creek fire in the Yukon-Charley Rivers National preserve including permafrost and watershed effects and also taking into account the long-term climate trends in the area.
Year: 2021
Type: Document
Source: FRAMES
Holzworth, Brundell, McCarthy, Jacobson, Rodger, Anderson
World Wide Lightning Location Network (WWLLN) data on global lightning are used to investigate the increase of total lightning strokes at Arctic latitudes. We use the summertime data from June, July, and August (JJA) which average >200,000 strokes each year above 65°N for the…
Year: 2021
Type: Document
Source: FRAMES
Creasy, Tinkham, Hoffman, Vogeler
Characterization of forest structure is important for management-related decision making, monitoring, and adaptive management. Increasingly, observations of forest structure are needed at both finer resolutions and across greater extents to support spatially explicit management…
Year: 2021
Type: Document
Source: FRAMES
The challenges of the 2020 Fire Year have validated the Cohesive Strategy and proven its foundational value for additional success and achievement across boundaries and landscapes in the West. The following pages offer a snapshot of 2020 activities and successes in the Western…
Year: 2021
Type: Document
Source: FRAMES
McCarty
Fire activity and severity is increasing in the high northern latitudes, including burning landscapes long thought to be "fire resistant." Across the Pan-Arctic, smoke impacts from lengthening fire seasons in the boreal and the Arctic mean new public health challenges, as well…
Year: 2021
Type: Media
Source: FRAMES
Lu, Zhang, Li, Cochrane, Ciren
Smoke from fires significantly influences climate, weather, and human health. Fire smoke is traditionally detected using an aerosol index calculated from spectral contrast changes. However, such methods usually miss thin smoke plumes. It also remains challenging to accurately…
Year: 2021
Type: Document
Source: FRAMES
Harrison, Prentice, Bloomfield, Dong, Forkel, Forrest, Ningthoujam, Pellegrini, Shen, Baudena, Cardoso, Huss, Joshi, Oliveras, Pausas, Simpson
Recent extreme wildfire seasons in several regions have been associated with exceptionally hot, dry conditions, made more probable by climate change. Much research has focused on extreme fire weather and its drivers, but natural wildfire regimes – and their interactions with…
Year: 2021
Type: Document
Source: FRAMES
Palm, Peng, Hall, Ullmann, Campos, Weinheimer, Montzka, Tyndall, Permar, Hu, Flocke, Fischer, Thornton
Wildfire emissions affect downwind air quality and human health. Predictions of these impacts using models are limited by uncertainties in emissions and chemical evolution of smoke plumes. Using high-time-resolution aircraft measurements, we illustrate spatial variations that…
Year: 2021
Type: Document
Source: FRAMES
Kuhn-Régnier, Voulgarakis, Nowack, Forkel, Prentice, Harrison
The seasonal and longer-term dynamics of fuel accumulation affect fire seasonality and the occurrence of extreme wildfires. Failure to account for their influence may help to explain why state-of-the-art fire models do not simulate the length and timing of the fire season or…
Year: 2021
Type: Document
Source: FRAMES
Chen, Shevade, Baer, Loboda
Global estimates of burned areas, enabled by the wide-open access to the standard data products from the Moderate Resolution Imaging Spectroradiometer (MODIS), are heavily relied on by scientists and managers studying issues related to wildfire occurrence and its worldwide…
Year: 2021
Type: Document
Source: FRAMES
Wooster, Roberts, Giglio, Roy, Freeborn, Boschetti, Justice, Ichoku, Schroeder, Davies, Smith, Setzer, Csiszar, Strydom, Frost, Zhang, Xu, de Jong, Johnston, Ellison, Vadrevu, McCarty, Tanpipat, Schmidt, SanMiguel-Ayanz
Highlights:
A review of active fire remote sensing using EO satellites is presented.
Different approaches for fire detection and characterization are compared and contrasted.
Main satellite active fire products and their applications are summarised.
Some key research topics for…
Year: 2021
Type: Document
Source: FRAMES
Goolsby
This seminar is part of the USFS Missoula Fire Lab Seminar Series.
Theme: Life with Fire: Next Generation IT Fire Modeling
Forest Service & Department of the Interior (Wildland Fire Management Research Development & Applications / Office of Wildland Fire) are excited to…
Year: 2021
Type: Media
Source: FRAMES
McCarty, Aalto, Paunu, Arnold, Eckhardt, Klimont, Fain, Evangeliou, Venäläinen, Tchebakova, Parfenova, Kupiainen, Soja, Huang
In recent years, the pan-Arctic region has experienced increasingly extreme fire seasons. Fires in the northern high latitudes are driven by current and future climate change, lightning, fuel conditions, and human activity. In this context, conceptualizing and parameterizing…
Year: 2021
Type: Document
Source: FRAMES
Wang, Baccini, Farina, Randerson, Friedl
Climate change is altering vegetation and disturbance dynamics in boreal ecosystems. However, the aggregate impact of these changes on boreal carbon budgets is not well understood. Here we combined multiple satellite datasets to estimate annual stocks and changes in aboveground…
Year: 2021
Type: Document
Source: FRAMES
He, Chen, Jenkins, Loboda
Tundra ecosystems contain some of the largest stores of soil organic carbon among all biomes worldwide. Wildfire, the primary disturbance agent in Arctic tundra, is likely to impact soil properties in ways that enable carbon release and modify ecosystem functioning more broadly…
Year: 2021
Type: Document
Source: FRAMES
Scholten, Jandt, Miller, Rogers, Veraverbeke
Forest fires are usually viewed within the context of a single fire season, in which weather conditions and fuel supply can combine to create conditions favourable for fire ignition—usually by lightning or human activity—and spread1,2,3. But some fires exhibit ‘overwintering’…
Year: 2021
Type: Document
Source: FRAMES
Grabinski
An intensified pattern of wildfire is emerging in Alaska as rapidly increasing temperatures and longer growing seasons alter the state's environment. Both tundra and Boreal forest regions are seeing larger and more frequent fires. The impacts of these fires are felt across the…
Year: 2021
Type: Media
Source: FRAMES
Achtemeier, Goodrick
Abrupt changes in wind direction and speed caused by thunderstorm-generated gust fronts can, within a few seconds, transform slow-spreading low-intensity flanking fires into high-intensity head fires. Flame heights and spread rates can more than double. Fire mitigation…
Year: 2021
Type: Document
Source: FRAMES
Potter, Conkling
The annual national report of the Forest Health Monitoring (FHM) program of the Forest Service, U.S. Department of Agriculture, presents forest health status and trends from a national or multi-State regional perspective using a variety of sources, introduces new techniques for…
Year: 2021
Type: Document
Source: FRAMES
Sharma, Dhakal
With increasing forest and grassland wildfire trends strongly correlated to anthropogenic climate change, assessing wildfire danger is vital to reduce catastrophic human, economic, and environmental loss. From this viewpoint, the authors discuss various approaches deployed to…
Year: 2021
Type: Document
Source: FRAMES