Publications Library
A Conceptual Framework for Knowledge Exchange in a Wildland Fire Research and Practice Context. Applied Data Science. 2023. Available at: https://link.springer.com/chapter/10.1007/978-3-031-29937-7_12.
. A data‐driven analysis and optimization of the impact of prescribed fire programs on wildfire risk in different regions of the USA. Natural Hazards. 2023.
A data-driven analysis and optimization of the impact of prescribed fire programs on wildfire risk in different regions of the USA.pdf (2.13 MB)
A data-driven analysis and optimization of the impact of prescribed fire programs on wildfire risk in different regions of the USA.pdf (2.13 MB) DUET - Distribution of Understory using Elliptical Transport: A mechanistic model of leaf litter and herbaceous spatial distribution based on tree canopy structure. Ecological Modelling. 2023;483.
Exploring and Testing Wildfire Risk Decision-Making in the Face of Deep Uncertainty. Fire. 2023;6(7). fire-06-00276-v3.pdf (6.02 MB)
fire-06-00276-v3.pdf (6.02 MB) Exploring the impact of airtanker drops on in-stand temperature and relative humidity. International Journal of Wildland Fire. 2023. Exploring the impact of airtanker drops on in-stand temperature and relative humidity.pdf (2.74 MB)
Exploring the impact of airtanker drops on in-stand temperature and relative humidity.pdf (2.74 MB). Fuel treatment effectiveness at the landscape scale: a systematic review of simulation studies comparing treatment scenarios in North America. Fire Ecology. 2023;19. Available at: https://fireecology.springeropen.com/articles/10.1186/s42408-022-00163-2. Fuel treatment effectiveness at the landscape scale: a systematic review of simulation studies comparing treatment scenarios in North America.pdf (5.01 MB)
Fuel treatment effectiveness at the landscape scale: a systematic review of simulation studies comparing treatment scenarios in North America.pdf (5.01 MB). Landscape‑scale fuel treatment effectiveness: lessons learned from wildland fire case studies in forests of the western United States and Great Lakes region. Fire Ecology. 2023;19(1). Urza et al_2023_FireEcol_Landscape‑scale fuel treatment effectiveness- lessons learned from wildland fire case studies in forests of the western United States and Great Lakes region.pdf (1.27 MB)
Urza et al_2023_FireEcol_Landscape‑scale fuel treatment effectiveness- lessons learned from wildland fire case studies in forests of the western United States and Great Lakes region.pdf (1.27 MB) The Marshall Fire: Scientific and policy needs for water system disaster response. AWWA Water Science. 2023;5(1). AWWA_2023_Whelton_Marshall_Fire.pdf (2.23 MB)
AWWA_2023_Whelton_Marshall_Fire.pdf (2.23 MB) Mesic mixed-conifer forests are resilient to both historical high-severity fire and contemporary reburns in the US Northern Rocky Mountains. Forest Ecology and Management. 2023;545.
Too hot, too cold, or just right: Can wildfire restore dry forests of the interior Pacific Northwest?. Plos One. 2023;18(2). journal.pone_.0281927.pdf (3.46 MB)
journal.pone_.0281927.pdf (3.46 MB) Topographic information improves simulated patterns of post-fire conifer regeneration in the southwest United States. Global Change Biology . 2023.
