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D’Evelyn SM, Jung J, Alvarado E, et al. Wildfire, Smoke Exposure, Human Health, and Environmental Justice Need to be Integrated into Forest Restoration and Management. Current Environmental Health Reports. 2022;Online.PDF icon DEvelyn et al_2022_Wildfire Smoke Exposure Human Health and Enviro Justice Integration Needs.pdf (3.04 MB)
Dye AW, Kim JB, McEvoy A, Fang F, Riley KL. Evaluating rural Pacific Northwest towns for wildfire evacuation vulnerability. Natural Hazards. 2021. Available at: https://link.springer.com/article/10.1007/s11069-021-04615-x.PDF icon Dye2021_Article_EvaluatingRuralPacificNorthwes.pdf (4.71 MB)
Dwire KA. Riparian fuel treatments in the western USA: Challenges and considerations. (Meyer KE, ed.). Fort Collins: US Department of Agriculture, Forest Service, Rocky Mountain Research Station; 2016:156 p. Available at: http://www.treesearch.fs.fed.us/pubs/52630.
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.
Dunn CJ. Wildfire risk science facilitates adaptation of fire-prone social-ecological systems to the new fire reality O'Connor CD, ed. Environmental Research Letters. 2020;15(2). Available at: https://iopscience.iop.org/article/10.1088/1748-9326/ab6498.
Dunn CJ. Towards enhanced risk management: planning, decision making and monitoring of US wildfire response Calkin DE, ed. International Journal of Wildland Fire. 2017;26(7).
Dunn CJ. Modeling the direct effect of salvage logging on long-term temporal fuel dynamics in dry-mixed conifer forests Bailey JD, ed. Forest Ecology and Management. 2015;341.
Dunn CJ. How does tree regeneration respond to mixed‐severity fire in the western Oregon Cascades, USA? Johnston JD, ed. Ecosphere. 2020;11(1).
Dunn CJ. Tree mortality and structural change following mixed-severity fire in Pseudotsuga forests of Oregon’s western Cascades, USA Bailey JD, ed. Forest Ecology and Management. 2016;365.
Dunn CJ, Bailey JD. Temporal dynamics and decay of coarse wood in early seral habitats of dry-mixed conifer forests in Oregon’s Eastern Cascades. Forest Ecology and Management. 2012;276:11. Available at: http://www.sciencedirect.com/science/article/pii/S0378112712001545.
Dunn CJ. Spatial and temporal assessment of responder exposure to snag hazards in post-fire environments O'Connor CD, ed. Forest Ecology and Management. 2019;441.PDF icon rmrs_2019_dunn_c001.pdf (1.81 MB)
Dunn CJ. Temporal fuel dynamics following high-severity fire in dry mixed conifer forests of the eastern Cascades, Oregon, USA Bailey JD, ed. International Journal of Wildland Fire. 2015;Online early.
Dunn CJ. A framework for developing safe and effective large-fire response in a new fire management paradigm Thompson MP, ed. Forest Ecology and Management. 2017;404.
Duff TJ, Tolhurst KG. Operational wildfire suppression modelling: a review evaluating development, state of the art and future directions. International Journal of Wildland Fire. 2015;24(6).
Drury SA. The interagency fuels treatment decision support system: Functionality for fuels treatment planning Rauscher M, ed. Fire Ecology. 2016;12(1). Available at: http://fireecologyjournal.org/journal/abstract/?abstract=272.
Downing WM, Johnston JD, Krawchuk MA, Merschel AG, Rausch JH. Disjunct and decoupled? The persistence of a fire-sensitive conifer soecies in a historically frequent-fire landscape. Journal for Nature Conservation. 2020;55.PDF icon Downing article.pdf (6.76 MB)
Downing WM. Influence of fire refugia spatial pattern on post-fire forest recovery in Oregon’s Blue Mountains Krawchuk MA, ed. Landscape Ecology. 2019. Available at: https://link.springer.com/article/10.1007%2Fs10980-019-00802-1.
Downing WM, Dunn CJ, Thompson MP, Caggiano MD, Short KC. Human ignitions on private lands drive USFS cross‑boundary wildfire transmission and community impacts in the western US. Scientific Reports. 2022;12(2624).PDF icon Downing et al_2022_Human ignitions on private lands drive USFS cross-boundary transmission.pdf (5.32 MB)
Downing WM, Meigs GW, Gregory MJ, Krawchuk MA. Where and why do conifer forests persist in refugia through multiple fire events?. Global Change Biology. 2021;27(15).PDF icon Downingetal_2021_RefugiaMultipleFireEvents.pdf (2.14 MB)
Dove NC. High‐severity wildfire leads to multi‐decadal impacts on soil biogeochemistry in mixed‐conifer forests Safford HD, ed. Ecological Applications. 2020;e02072.
Donley EE, Naiman RJ, Marineau MD. Strategic planning for instream flow restoration: a case study of potential climate change impacts in the central Columbia River basin. Global Change Biology. 2012;18:16. Available at: http://onlinelibrary.wiley.com/doi/10.1111/j.1365-2486.2012.02773.x/abstract.
Donato DC. Burning the legacy? Influence of wildfire reburn on dead wood dynamics in a temperate conifer forest Fontaine JB, ed. Ecosphere. 2016;7(5).
Donato DC, Campbell JL, Franklin JF. Multiple successional pathways and precocity in forest development: can some forests be born complex?. Journal of Vegetation Science. 2012;23:9. Available at: http://onlinelibrary.wiley.com/doi/10.1111/j.1654-1103.2011.01362.x/pdf.
Doerr SH. Global trends in wildfire and its impacts: perceptions versus realities in a changing world Santin C, ed. Philosophical Transactions of the Royal Society B. 2016;371(1696).
Dodson EK. Conifer regeneration following stand-replacing wildfires varies along an elevation gradient in a ponderosa pine forest, Oregon, USA Root HT, ed. Forest Ecology and Management. 2013;302.

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