subject area of
- An Investigation of Crop Senescence Patterns Observed in Palouse Region Fields Using Satellite Remote Sensing and Hydrologic Modeling Thesis
- Applying Lidar and High-Resolution Multispectral Imagery for Improved Quantification and Mapping of Tundra Vegetation Structure and Distribution in the Alaskan Arctic Thesis
- Assessing the Spatial and Temporal Controls on Plant Function Using Ground Based Remote Sensing Thesis
- Assessment of crop foliar nitrogen using a novel dual-wavelength laser system and implications for conducting laser-based plant physiology Academic Article
- Burn Severity and Areas of Daily Fire Growth For 42 Forest Fires in Idaho and Montana, 2005 - 2011 Thesis
- Characterizing Biomass Burning in Shrub-steppe: Burned Area and Seasonal Trace Gas Emission Factors Thesis
- Developing Marine Habitat Suitability Models in the Arctic from Remotely-sensed Data and Traditional Ecological Knowledge Thesis
- Development of Multi-year Land Cover Data to Assess Impacts to Coastal Watersheds and the Nearshore Environment Thesis
- ESTIMATING FIRE RADIATIVE POWER OBSCURATION BY TREE CANOPIES THROUGH LABORATORY EXPERIMENTS: ESTIMATING FIRE RADIATIVE ENERGY IN A LONGLEAF PINE FOREST FROM AIRBORNE THERMAL IMAGERY Thesis
- Estimating Nitrogen Content of Dryland Wheat Fields Using Landsat Imagery Thesis
- Forest Recovery after Four Wildfires in Western Montana Thesis
- Geospatial Analysis and Seasonal Changes in Water-Equivalent Hydrogen in Eastern Equatorial Mars Thesis
- Hyperspectral Remote Sensing in Mineral Exploration: Ammonium-illite as a Pathfinder For Gold Thesis
- Revealing Livestock Effects on Bunchgrass Vegetation with Landsat Etm+ Data Across a Grazing Season Thesis
- SYSTEMATIC CONSERVATION PLANNING FOR ECOSYSTEM SERVICES: OPPORTUNITIES FOR IMPROVING SPATIAL TARGETING OF ECOSYSTEM SERVICE PAYMENTS IN COSTA RICA Thesis
- Spectral Characterization of Agricultural Burned Areas for Satellite Mapping Thesis
- Using Logging Residues as Biofuel Feedstocks in the Pacific Northwest: Estimating Slash Pile Volumes with Low-cost, Lightweight Terrestrial LiDAR Thesis