Publications Library

Found 184 results
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2018
Stevens-Rumann CS. Evidence for declining forest resilience to wildfires under climate change Kemp KB, ed. Ecology Letters. 2018;21(2).
DeMeo T. Expanding Our Understanding of Forest Structural Restoration Needs in the Pacific Northwest Haugo R, ed. Northwest Science. 2018;92(1).
Davis EJ. Forest Service Managers' Perception of Landscapes and Computer Models.; 2018:3.PDF icon Go Big or Go Home Brief 4b.pdf (944.54 KB)
Parks SA. High-severity fire: Evaluating its key drivers and mapping its probability across western US forests Holsinger LM, ed. Environmental Research Letters. 2018;13. Available at: https://www.fs.fed.us/rmrs/publications/high-severity-fire-evaluating-its-key-drivers-and-mapping-its-probability-across.
Parks SA. High-severity fire: Evaluating its key drivers and mapping its probability across western US forests Holsinger LM, ed. Environmental Research Letters. 2018;13. Available at: https://www.fs.fed.us/rmrs/publications/high-severity-fire-evaluating-its-key-drivers-and-mapping-its-probability-across.
Pingree MRA. The influence of fire history on soil nutrients and vegetation cover in mixed-severity fire regime forests of the eastern Olympic Peninsula, Washington, USA DeLuca TH, ed. Forest Ecology and Management. 2018;422.
Davis EJ. Key Findings and Messages from the Go Big or Go Home? Project.; 2018:3.PDF icon Go Big or Go Home Brief 3-final.pdf (840.87 KB)
Davis EJ. Landscapes 101: Understanding Landscape Approaches to Forest Restoration and Management.; 2018:3.PDF icon Go Big or Go Home Brief 1final.pdf (2.06 MB)
Hoe MS. Multitemporal LiDAR improves estimates of fire severity in forested landscapes Dunn CJ, ed. International Journal of Wildland Fire. 2018;Online early.
Halofsky JS. The nature of the beast: examining climate adaptation options in forests with stand‐replacing fire regimes Donato DC, ed. Ecosphere. 2018;9(3).
Dwire KA. Potential effects of climate change on riparian areas, wetlands, and groundwater-dependent ecosystems in the Blue Mountains, Oregon, USA Mellmann-Brown S, ed. Climate Services. 2018;10.
Kerns BK. Prescribed fire regimes subtly alter ponderosa pine forest plant community structure Day MA, ed. Ecosphere. 2018;9(12).
Thompson MP. Rethinking the wildland fire management system MacGregor DG, ed. Journal of Forestry. 2018;fvy020.
Davis EJ. Science and Collaborative Processes.; 2018:3.PDF icon Go Big or Go Home Brief 2-final.pdf (1.27 MB)
Zald HSJ. Severe fire weather and intensive forest management increase fire severity in a multi-ownership landscape Dunn CJ, ed. Ecological Applications. 2018;Online early.
Johnston JD. Tree traits influence response to fire severity in the western Oregon Cascades, USA Dunn CJ, ed. Forest Ecology and Management. 2018;433.
David AT. Wildfire smoke cools summer river and stream water temperatures Asarian JE, ed. Water Resources Research. 2018;54.
Barros AMG. Wildfires managed for restoration enhance ecological resilience Ager AA, ed. Ecosphere. 2018;9(3).
2017
DellaSala DA. Accommodating mixed-severity fire to restore and maintain ecosystem integrity with a focus on the Sierra Nevada of California, USA Hutto RL, ed. Fire Ecology. 2017;13(2).
Schoennagel T. Adapt to more wildfire in western North American forests as climate changes Balch JK, ed. Proceedings of the National Academy of Sciences. 2017;Online early.
Katuwal H. Characterising resource use and potential inefficiencies during large-fire suppression in the western US Dunn CJ, ed. International Journal of Wildland Fire. 2017;26(7).
Rappold AG. Community Vulnerability to Health Impacts of Wildland Fire Smoke Exposure Reves J, ed. Environ Sci Technol. 2017.
Reilly MJ. Contemporary patterns of fire extent and severity in forests of the Pacific Northwest, USA (1985–2010) Dunn CJ, ed. Ecosphere. 2017;8(3).

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