Alaska Reference Database

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 The database provides a listing of fire research publications relevant to Alaska and a venue for sharing unpublished agency reports and works in progress that are not normally found in the published literature.

 

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Displaying 1 - 10 of 187

Organized by the Alaska Fire Modeling and Analysis Committee. Presented by Eric Miller, Chris Moore, and Robert (Zeke) Ziel.

Person: Ziel, Miller, Moore
Year: 2019
Resource Group: Media
Source: FRAMES

Resilience has become a common goal for science-based natural resource management, particularly in the context of changing climate and disturbance regimes. Integrating varying perspectives and definitions of resilience is a complex and often...

Person: Higuera, Metcalf, Miller, Buma, McWethy, Metcalf, Ratajczak, Nelson, Chaffin, Stedman, McCaffrey, Schoennagel, Harvey, Hood, Schultz, Black, Campbell, Haggerty, Keane, Krawchuk, Kulig, Rafferty, Virapongse
Year: 2019
Resource Group: Document
Source: FRAMES

Presented By: Eric Miller

March 27th, 2019. Part of the Alaska Fire Science Consortium workshop, the presentation gave an overview of the new Research Task List by FRDAC.

Person: Miller
Year: 2019
Resource Group: Media
Source: FRAMES

From the Spring 2017 AFSC Remote Sensing Workshop: Opportunities to Apply Remote Sensing in Boreal/Arctic Wildfire Management and Science.

Person: Loehman, Saperstein, Miller, Hrobak, Loboda, Veraverbeke, Hoy
Year: 2017
Resource Group: Media
Source: FRAMES

From the Spring 2017 AFSC Remote Sensing Workshop: Opportunities to Apply Remote Sensing in Boreal/Arctic Wildfire Management and Science.

Person: Jenkins, Butteri, Miller, Slaughter, Ellicott, Heinrichs, Waigl
Year: 2017
Resource Group: Media
Source: FRAMES

From the Spring 2017 AFSC Remote Sensing Workshop: Opportunities to Apply Remote Sensing in Boreal/Arctic Wildfire Management and Science.

Person: Miller
Year: 2017
Resource Group: Media
Source: FRAMES

Sorption models were developed to predict the moisture content in fuelbeds of standing dead grass from ambient weather measurements. Intuition suggests that the response time of standing dead grass to diurnal changes in weather is negligible and that...

Person: Miller
Year: 2019
Resource Group: Document
Source: FRAMES

Fuel loads in real-world fire scenarios often feature discrete elements, discontinuities, or inhomogeneities; however, most models for flame spread only assume a continuous, homogeneous fuel. Because discrete fuels represent a realistic scenario not...

Person: Lin, Zhao, Tang, Miller, Sun, Gollner
Year: 2019
Resource Group: Document
Source: FRAMES

The combination of frequent droughts, changing climate conditions, and longer fire seasons along with urban development expansion into wildland areas has resulted in more difficult conditions for managing wildfires. Wildfires are causing more frequent...

Person: Schoennagel, Godwin, Miller
Year: 2018
Resource Group: Media
Source: FRAMES

The following study examines the role of streaklike coherent structures in mixed convection via a horizontal heated boundary layer possessing an unheated starting length. The three-dimensionality of flows in this configuration, which is regularly...

Person: Miller, Tang, Sluder, Finney, McAllister, Forthofer, Gollner
Year: 2018
Resource Group: Document
Source: FRAMES