Potential operational delineations: new horizons for proactive, risk-informed strategic land and fire management
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Matthew P. Thompson | Christopher D. O’Connor | Courtney A. Schultz | Richard D. Stratton | Benjamin M. Gannon | D. Calkin | J. Morisette | Christopher J. C. Dunn | Michael D. Caggiano | S. M. Greiner | Bradley Pietruszka
[1] M. Finney,et al. Mass fire behavior created by extensive tree mortality and high tree density not predicted by operational fire behavior models in the southern Sierra Nevada , 2022, Forest Ecology and Management.
[2] Erin J. Belval,et al. A Historical Perspective to Inform Strategic Planning for 2020 End-of-Year Wildland Fire Response Efforts , 2022, Fire.
[3] Megan K. Creutzburg,et al. Toward Integrated Fire Management to Promote Ecosystem Resilience , 2022, Rangelands.
[4] P. Hessburg,et al. Contemporary wildfires further degrade resistance and resilience of fire-excluded forests , 2022, Forest Ecology and Management.
[5] Sarah McCaffrey,et al. Improving wildfire management outcomes: shifting the paradigm of wildfire from simple to complex risk , 2022, Journal of Environmental Planning and Management.
[6] Matthew P. Thompson,et al. Assessing Potential Safety Zone Suitability Using a New Online Mapping Tool , 2022, Fire.
[7] E. Toman,et al. Assessing the role of short-term weather forecasts in fire manager tactical decision-making: a choice experiment , 2021, Fire Ecology.
[8] C. Wise. Accountability in Collaborative Federal Programs—Multidimensional and Multilevel Performance Measures Needed: The Case of Wildland Fire Prevention , 2021, The American Review of Public Administration.
[9] Cody R. Evers,et al. Planning for future fire: Scenario analysis of an accelerated fuel reduction plan for the western United States , 2021 .
[10] Matthew P. Thompson,et al. Strategic Wildfire Response Decision Support and the Risk Management Assistance Program , 2021, Forests.
[11] R. Bradstock,et al. Quantifying the Prevalence and Practice of Suppression Firing with Operational Data from Large Fires in Victoria, Australia , 2021, Fire.
[12] John Hogland,et al. 21st Century Planning Techniques for Creating Fire-Resilient Forests in the American West , 2021, Forests.
[13] Frank K. Lake,et al. Wildfire and climate change adaptation of western North American forests: a case for intentional management , 2021, Ecological applications : a publication of the Ecological Society of America.
[14] E. Knapp,et al. Evidence for widespread changes in the structure, composition, and fire regimes of western North American forests , 2021, Ecological applications : a publication of the Ecological Society of America.
[15] Frank K. Lake,et al. Adapting western North American forests to climate change and wildfires: 10 common questions , 2021, Ecological applications : a publication of the Ecological Society of America.
[16] H. Huber-Stearns,et al. Transcending Parallel Play: Boundary Spanning for Collective Action in Wildfire Management , 2021, Fire.
[17] Andy Mcevoy,et al. Hazards of Risk: Identifying Plausible Community Wildfire Disasters in Low-Frequency Fire Regimes , 2021, Forests.
[18] Erin K. Noonan-Wright,et al. Patterns of wildfire risk in the United States from systematic operational risk assessments: how risk is characterised by land managers , 2021 .
[19] E. Knapp,et al. Pyrosilviculture Needed for Landscape Resilience of Dry Western United States Forests , 2021, Journal of Forestry.
[20] Melanie M. Colavito,et al. The Human Dimensions of Spatial, Pre-Wildfire Planning Decision Support Systems: A Review of Barriers, Facilitators, and Recommendations , 2021, Forests.
[21] Courtney A. Schultz,et al. A Qualitative Study on the US Forest Service’s Risk Management Assistance Efforts to Improve Wildfire Decision-Making , 2021, Forests.
[22] Matthew P. Thompson,et al. Integrating forest restoration, adaptation, and proactive fire management: Rogue River Basin case study , 2021 .
[23] A. P. Williams,et al. Increasing Synchronous Fire Danger in Forests of the Western United States , 2021, Geophysical Research Letters.
[24] Matthew P. Thompson,et al. Forest Roads and Operational Wildfire Response Planning , 2021, Forests.
[25] Courtney A. Schultz,et al. Pre-season fire management planning: the use of Potential Operational Delineations to prepare for wildland fire events , 2020 .
[26] Matthew P. Thompson,et al. Comparing contingency fire containment strategies using simulated random scenarios , 2020, Natural Resource Modeling.
[27] Matthew P. Thompson,et al. Modelling suppression difficulty: current and future applications , 2020 .
[28] Matthew P. Thompson,et al. Prototyping a Geospatial Atlas for Wildfire Planning and Management , 2020, Forests.
[29] Yu Wei,et al. A Geospatial Framework to Assess Fireline Effectiveness for Large Wildfires in the Western USA , 2020 .
[30] Eric Toman,et al. Wildfire decision support tools: an exploratory study of use in the United States , 2020 .
[31] Paula J. Fornwalt,et al. Wildfire-Driven Forest Conversion in Western North American Landscapes , 2020, Bioscience.
[32] Travis B. Paveglio,et al. Exploring Adoption of the Wildland Fire Decision Support System: End User Perspectives , 2020 .
[33] Erin J. Belval,et al. Fire Suppression Resource Scarcity: Current Metrics and Future Performance Indicators , 2020 .
[34] Matthew P. Thompson,et al. Wildfire risk science facilitates adaptation of fire-prone social-ecological systems to the new fire reality , 2020, Environmental Research Letters.
[35] J. Pagès,et al. Empowering strategic decision-making for wildfire management: avoiding the fear trap and creating a resilient landscape , 2019, Fire Ecology.
[36] Meredith W. Cornett,et al. Forest Management for Carbon Sequestration and Climate Adaptation , 2019, Journal of Forestry.
[37] Yu Wei,et al. Risk Management and Analytics in Wildfire Response , 2019, Current Forestry Reports.
[38] Douglas G. Woolford,et al. Impacts of wildland fire effects on resources and assets through expert elicitation to support fire response decisions , 2019, International Journal of Wildland Fire.
[39] Bret W. Butler,et al. Escape Route Index: A Spatially-Explicit Measure of Wildland Firefighter Egress Capacity , 2019, Fire.
[40] Matthew P. Thompson,et al. Spatial and temporal assessment of responder exposure to snag hazards in post-fire environments , 2019, Forest Ecology and Management.
[41] B. Hungate,et al. Opinion: Managing for disturbance stabilizes forest carbon , 2019, Proceedings of the National Academy of Sciences.
[42] Matthew P. Thompson,et al. Designing Operationally Relevant Daily Large Fire Containment Strategies Using Risk Assessment Results , 2019, Forests.
[43] S. Dobrowski,et al. Wildfires and climate change push low-elevation forests across a critical climate threshold for tree regeneration , 2019, Proceedings of the National Academy of Sciences.
[44] S. Dobrowski,et al. Living on the edge: trailing edge forests at risk of fire‐facilitated conversion to non‐forest , 2019, Ecosphere.
[45] Tyler J. Lark,et al. Natural climate solutions for the United States , 2018, Science Advances.
[46] Crystal S. Stonesifer,et al. Wildfire Response Performance Measurement: Current and Future Directions , 2018, Fire.
[47] Matthew P. Thompson,et al. Rethinking the Wildland Fire Management System , 2018, Journal of Forestry.
[48] A. Westerling,et al. Large‐scale restoration increases carbon stability under projected climate and wildfire regimes , 2018 .
[49] John Hogland,et al. New Geospatial Approaches for Efficiently Mapping Forest Biomass Logistics at High Resolution over Large Areas , 2018, ISPRS Int. J. Geo Inf..
[50] Sarah McCaffrey,et al. Defining Extreme Wildfire Events: Difficulties, Challenges, and Impacts , 2018 .
[51] D. Krofcheck,et al. Prioritizing forest fuels treatments based on the probability of high‐severity fire restores adaptive capacity in Sierran forests , 2018, Global change biology.
[52] Yu Wei,et al. Spatial optimization of operationally relevant large fire confine and point protection strategies: model development and test cases , 2018 .
[53] Matthew P. Thompson,et al. Modeling Fuel Treatment Leverage: Encounter Rates, Risk Reduction, and Suppression Cost Impacts , 2017 .
[54] Pete Smith,et al. Natural climate solutions , 2017, Proceedings of the National Academy of Sciences.
[55] Matthew P. Thompson,et al. Towards enhanced risk management: Planning, decision making and monitoring of US wildfire response , 2017 .
[56] Matthew P. Thompson,et al. An empirical machine learning method for predicting potential fire control locations for pre-fire planning and operational fire management , 2017 .
[57] J. Schneider,et al. A Simplified Approach to Stakeholder Engagement in Natural Resource Management: The Five-Feature Framework , 2016 .
[58] Matthew P. Thompson,et al. Getting Ahead of the Wildfire Problem: Quantifying and Mapping Management Challenges and Opportunities , 2016 .
[59] H. M. Rauscher,et al. The Interagency Fuels Treatment Decision Support System: Functionality for Fuels Treatment Planning , 2016 .
[60] Matthew P. Thompson,et al. Application of Wildfire Risk Assessment Results to Wildfire Response Planning in the Southern Sierra Nevada, California, USA , 2016 .
[61] Matthew P. Thompson,et al. Quantifying the influence of previously burned areas on suppression effectiveness and avoided exposure: A case study of the Las Conchas Fire , 2016 .
[62] C. Wyborn. Connectivity conservation: Boundary objects, science narratives and the co-production of science and practice , 2015 .
[63] Alan A Ager,et al. Coupling the Biophysical and Social Dimensions of Wildfire Risk to Improve Wildfire Mitigation Planning , 2015, Risk analysis : an official publication of the Society for Risk Analysis.
[64] Cassandra Moseley,et al. Striking the balance between budgetary discretion and performance accountability: the case of the US Forest Service’s approach to integrated restoration , 2015 .
[65] Matthew P. Thompson,et al. A Wildfire Risk Assessment Framework for Land and Resource Management , 2013 .
[66] Matthew P. Thompson,et al. A real-time risk assessment tool supporting wildland fire decisionmaking , 2011 .
[67] Lisa M. Elenz,et al. Developing the US Wildland Fire Decision Support System , 2011 .
[68] Sue B. Silver,et al. Frontiers in Ecology and the Environment , 2006 .
[69] David E. Calkin,et al. Engaging the fire before it starts: A case study from the 2017 Pinal Fire (Arizona) , 2019 .
[70] Matthew P. Thompson,et al. Risk management: Core principles and practices, and their relevance to wildland fire , 2016 .
[71] Matthew P. Thompson,et al. Development and application of a geospatial wildfire exposure and risk calculation tool , 2015, Environ. Model. Softw..
[72] Klaus H. Barber,et al. Stewardship and fireshed assessment: a process for designing a landscape fuel treatment strategy. , 2007 .
[73] K. Ikemura. Development and application , 1971 .