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 The database provides a listing of fire research publications relevant to Alaska and a venue for sharing unpublished agency reports and works in progress that are not normally found in the published literature.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 126 - 138 of 138
Jiang, Rastetter, Shaver, Rocha, Zhuang, Kwiatkowski
To investigate the underlying mechanisms that control long-term recovery of tundra carbon (C) and nutrients after fire, we employed the Multiple Element Limitation (MEL) model to simulate 200-yr post-fire changes in the biogeochemistry of three sites along a burn severity…
Year: 2017
Type: Document
Source: FRAMES
Young, Higuera, Duffy, Hu
Boreal forests and arctic tundra cover 33% of global land area and store an estimated 50% of total soil carbon. Because wildfire is a key driver of terrestrial carbon cycling, increasing fire activity in these ecosystems would likely have global implications. To anticipate…
Year: 2017
Type: Document
Source: FRAMES
Birdsey
This project involves a review of relevant literature and preparation of a review paper to be submitted to a prominent journal. Lead Author (Anping Chen) will select and work with a team of respected scientists with expertise in fire emissions, national emissions inventories,…
Year: 2017
Type: Project
Source: FRAMES
Baker, Pierce
This U.S. Environmental Protection Agency modeling team proposes to provide expertise related to smoke emissions, modeling, and transport to support the design of future field studies focused on fire behavior. As part of that commitment, we plan to model all of the pre-burn…
Year: 2017
Type: Project
Source: FRAMES
Mell, Linn
The physics-based models FIRETEC and WFDS have been used to simulate a number of field experiments involving fire in wildland fuels. These models work by simulating the coupled physical processes driving fire behavior including the drying and thermal degradation of vegetation,…
Year: 2017
Type: Project
Source: FRAMES
Kochanski, Fournier, Jenkins, Mandel
Recent advancements in fire-atmosphere modeling have increased the number of physical processes integrated into the coupled models. This greater complexity allows for more comprehensive representation of the complex interactions between the fire and the atmosphere; however, as a…
Year: 2017
Type: Project
Source: FRAMES
Urbanski
This proposal responds to JFSP FON #16-04 Fire and Smoke Model Evaluation Experiment, Task 4: Smoke Emissions, Chemistry, and Transport. Over the past decade, significant progress has been gained in characterizing the composition, transport, and processing of wildland fire…
Year: 2017
Type: Project
Source: FRAMES
Potter, Clements
The FASMEE FON requests proposals from individuals seeking to serve as discipline leads for the development of the FASMEE study plan. We propose to serve as co-discipline leads for plume development and meteorology for this endeavor. The proposal outlines what data are needed to…
Year: 2017
Type: Project
Source: FRAMES
Dickinson, Butler, Hao, O'Brien, Schroeder
The radiation field - resolved in time and space and encompassing an entire burn unit - and the convective field that can be derived from it are essential kinds of evaluation data for fire models and input data for smoke models. The primary challenge of the Fire Behavior and…
Year: 2017
Type: Project
Source: FRAMES
Hudak, Keane, Loudermilk, Parsons, Prichard, Seielstad, Skowronski
The assumption of homogeneous fuel beds that underlies most fire spread models fundamentally limits their operational utility and future advancements in fire science, and imposes a significant disconnect between real fuels, which are highly heterogeneous, the inferences made…
Year: 2017
Type: Project
Source: FRAMES
Lutes
FOFEM - A First Order Fire Effects Model - is a computer program that was developed to meet needs of resource managers, planners, and analysts in predicting and planning for fire effects. Quantitative predictions of fire effects are needed for planning prescribed fires that best…
Year: 2017
Type: Document
Source: FRAMES
Petrenko, Kahn, Chin, Limbacher
Simulations of biomass burning (BB) emissions in global chemistry and aerosol transport models depend on external inventories, which provide location and strength for BB aerosol sources. Our previous work shows that to first order, satellite snapshots of aerosol optical depth (…
Year: 2017
Type: Document
Source: FRAMES
Jiang, Rastetter, Shaver, Rocha, Zhuang, Kwiatkowski
To investigate the underlying mechanisms that control long-term recovery of tundra carbon (C) and nutrients after fire, we employed the Multiple Element Limitation (MEL) model to simulate 200-yr post-fire changes in the biogeochemistry of three sites along a burn severity…
Year: 2017
Type: Document
Source: TTRS