Print Friendly and PDF


Advanced Search Results Detail

Project ID: 14-1-01-2

Year: 2014

Date Started: 01/01/2015

Ending Date:  12/31/2017

Title: Outcomes Prioritization on Fuel Treatment Placement in Extreme Fire Weather in 3 CFLRP Landscapes

Project Proposal Abstract: Active forest management practices (e.g., mechanical thinning, prescribed fire) for reducing fire risk and enhancing forest integrity have become essential in many U.S. forests. The risks of inaction and escalating costs of continued fire suppression far outweigh the risks of implementation. Fuel treatments are well known to reduce the intensity and spread of wildfires at the stand level. Their effectiveness is, however, also reliant on the timing of future wildfires and the location of fuel treatments across a landscape. When developing fuel treatment plans, managers must consider treatment placement and maintenance frequency. Fuel treatment prescriptions (e.g., mechanical thinning, prescribed fire) and characteristics (e.g., size of fuels removed, re-application interval) vary greatly, although their implementation is determined by the current and desired state of the forest, location, topography, and implementation costs. Quantifying treatment effectiveness requires an understanding of its contribution to reducing landscape-scale wildfire risk and other management objectives. However, the influence of both anthropogenic and climate drivers of future wildfire add uncertainty to the treatment placement decision-making framework. In order to attempt to reduce this uncertainty, we propose to simulate landscape-scale fuel treatments across three intensively-managed landscapes in the western and eastern U.S. that are associated with the federal Collaborative Forest Landscape Restoration Program (CFLRP). Our simulations will focus on identifying highest-priority areas under extreme fire weather conditions, and developing an array of adaptable strategies for future management in a changing world. We will identify both landscape-specific and general determinants of high-priority fuel treatment areas  including spatial configurations, biotic factors (e.g., overstory composition), abiotic factors (e.g., slope, aspect), and infrastructure components (e.g., distance to roads and structures). This combined information is critical for creating resilient landscapes through a collaborative process. This project will provide an array of adaptable strategies, with quantifiable differences in outcomes, which can be implemented into future management based on changing needs and resources. The broader applicability of these results across regions (SW, PNW, SE of the U.S.) will be disseminated through three Fire Science Consortium webinars and news briefs, three publications, as well as manager and scientific meetings.

Principal Investigator: Eva L. Loudermilk

Agency/Organization: Forest Service

Branch or Dept: SRS-Ctr for Forest Disturbance Science


Other Project Collaborators

Type

Name

Agency/Organization

Branch or Dept

Agreements Contact

Joyce M. Gorgas

Forest Service

SRS-Southern Research Station

Budget Contact

Shelly M. Gates

Forest Service

SRS-Southern Research Station

Co-Principal Investigator

Matthew D. Hurteau

Pennsylvania State University

School of Forest Resources

Co-Principal Investigator

Robert M. Scheller

Portland State University

Department of Environmental Sciences & Management


Project Locations

Consortium

California

Northwest

South


Level

State

Agency

Unit

STATE

FL

FS

Osceola National Forest

STATE

CA

FS

Sierra National Forest

STATE

OR

FS

Malheur National Forest


Project Deliverables

There is no final report available for this project.
There are no deliverables available for this project.

Supporting Documents

There are no supporting documents available for this project.

Convert PDF documents to an html document using Adobe's online conversion tool.
Download Adobe Acrobat Reader