Pages that link to "Item:Q54879"

The following pages link to Todd Hawbaker (Q54879):

Displayed 50 items.

• Mountain pine beetle impacts on vegetation and carbon stocks (Q60666) ‎ (← links)
• Wyoming Basin Ecoregion: Chapter 25 in Status and trends of land change in the Western United States--1973 to 2000 (Q61637) ‎ (← links)
• Effects of contemporary land-use and land-cover change on the carbon balance of terrestrial ecosystems in the United States (Q145060) ‎ (← links)
• Rapid growth of the US wildland-urban interface raises wildfire risk (Q145123) ‎ (← links)
• Using the landsat burned area products to derive fire history relevant for fire management and conservation in the state of Florida, southeastern USA (Q145801) ‎ (← links)
• The changes in species composition mediate direct effects of climate change on future fire regimes of boreal forests in northeastern China (Q146102) ‎ (← links)
• Evaluating k-nearest neighbor (kNN) imputation models for species-level aboveground forest biomass mapping in northeast China (Q149204) ‎ (← links)
• Contemporary (1984–2020) fire history metrics for the conterminous United States and ecoregional differences by land ownership (Q150453) ‎ (← links)
• Total belowground carbon flux in subalpine forests is related to leaf area index, soil nitrogen, and tree height (Q151284) ‎ (← links)
• High resolution mapping of development in the wildland-urban interface using object based image extraction (Q153259) ‎ (← links)
• Climate, wildfire, and erosion ensemble foretells more sediment in western USA watersheds (Q156151) ‎ (← links)
• Tracking rates of postfire conifer regeneration vs. deciduous vegetation recovery across the western United States (Q156480) ‎ (← links)
• The wildland-urban interface in the United States based on 125 million building locations (Q156509) ‎ (← links)
• Changes in wildfire occurrence and risk to homes from 1990 through 2019 in the Southern Rocky Mountains, USA (Q157300) ‎ (← links)
• Drought and Disturbances as Drivers of Long-Term Ecological Transformation and Risk (Q160356) ‎ (← links)
• Changes to Watershed Vulnerability under Future Climates, Fire Regimes, and Population Pressures (Q160555) ‎ (← links)
• Quantifying soil carbon loss and uncertainty from a peatland wildfire using multi-temporal LiDAR (Q234333) ‎ (← links)
• Climate change and wildfire risk in an expanding wildland–urban interface: a case study from the Colorado Front Range Corridor (Q234740) ‎ (← links)
• Resilience of ponderosa and lodgepole pine forests to mountain pine beetle disturbance and limited regeneration (Q234868) ‎ (← links)
• Projecting the spatiotemporal carbon dynamics of the Greater Yellowstone Ecosystem from 2006 to 2050 (Q234899) ‎ (← links)
• Mapping mountain pine beetle mortality through growth trend analysis of time-series landsat data (Q236400) ‎ (← links)
• Characterizing recent and projecting future potential patterns of mountain pine beetle outbreaks in the Southern Rocky Mountains (Q236528) ‎ (← links)
• Forest disturbance interactions and successional pathways in the Southern Rocky Mountains (Q238323) ‎ (← links)
• Oil and gas development influences big-game hunting in Wyoming (Q238848) ‎ (← links)
• A carbon balance model for the great dismal swamp ecosystem (Q238953) ‎ (← links)
• Evaluation of the U.S. Geological Survey Landsat burned area essential climate variable across the conterminous U.S. using commercial high-resolution imagery (Q239554) ‎ (← links)
• Prediction of forest canopy and surface fuels from Lidar and satellite time series data in a bark beetle-affected forest (Q239717) ‎ (← links)
• Validation of the USGS Landsat Burned Area Essential Climate Variable (BAECV) across the conterminous United States (Q239741) ‎ (← links)
• Mapping burned areas using dense time-series of Landsat data (Q240376) ‎ (← links)
• Simulated impacts of mountain pine beetle and wildfire disturbances on forest vegetation composition and carbon stocks in the Southern Rocky Mountains (Q243327) ‎ (← links)
• Human and biophysical influences on fire occurrence in the United States (Q243721) ‎ (← links)
• Effects of ignition location models on the burn patterns of simulated wildfires (Q250550) ‎ (← links)
• Assessment of fire fuel load dynamics in shrubland ecosystems in the western United States using MODIS products (Q253269) ‎ (← links)
• The Landsat Burned Area algorithm and products for the conterminous United States (Q256003) ‎ (← links)
• Effects of roads, topography, and land use on forest cover dynamics in the Brazilian Atlantic Forest (Q257258) ‎ (← links)
• New operational national satellite burned area product (Q257351) ‎ (← links)
• Estimating soil respiration in a subalpine landscape using point, terrain, climate and greenness data (Q264093) ‎ (← links)
• Critical land change information enhances the understanding of carbon balance in the United States (Q272103) ‎ (← links)
• Determination of optimal set of spatio-temporal features for predicting burn probability in the state of California, USA (Q274621) ‎ (← links)
• Large fires or small fires, will they differ in affecting shifts in species composition and distributions under climate change? (Q280135) ‎ (← links)
• Long-term effects of fire and harvest on carbon stocks of boreal forests in northeastern China (Q280457) ‎ (← links)
• Building loss in WUI disasters: Evaluating the core components of the wildland-urban interface definition (Q283166) ‎ (← links)
• Growth of the wildland-urban interface within and around U.S. National Forests and Grasslands, 1990-2010 (Q283838) ‎ (← links)
• Detecting subtle change from dense landsat time series: Case studies of mountain pine beetle and spruce beetle disturbance (Q284918) ‎ (← links)
• Estimating burn severity and carbon emissions from a megafire in boreal forests of China (Q286812) ‎ (← links)
• Predicting burn severity for integration with post-fire debris-flow hazard assessment: A case study from the Upper Colorado River Basin, USA (Q287101) ‎ (← links)
• The global wildland-urban interface (Q291435) ‎ (← links)
• Historical background and current developments for mapping burned area from satellite Earth observation (Q293022) ‎ (← links)
• Identifying building locations in the wildland–urban interface before and after fires with convolutional neural networks (Q293148) ‎ (← links)
• It matters when you measure it: Using snow-cover Normalised Difference Vegetation Index (NDVI) to isolate post-fire conifer regeneration (Q293167) ‎ (← links)