Iowa State University
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Brian Hornbuckle

professor of agronomy (Environmental sciences)

Ames, IA USA

Publications

  • From field observations to temporally dynamic soil surface roughness retrievals in the U.S. Corn Belt
  • Analyzing Effects of Crops on SMAP Satellite-Based Soil Moisture Using a Rainfall–Runoff Model in the U.S. Corn Belt
  • Seasonal Evaluation of SMAP Soil Moisture in the U.S. Corn Belt
  • Modeling the Microwave Transmissivity of Row Crops
  • Ecosystem-scale measurements of biomass water using cosmic ray neutrons
  • Diurnal Variation of Vertical Temperature Gradients Within a Field of Maize: Implications for Satellite Microwave Radiometry
  • Effect of dew on aircraft-based passive microwave observations over an agricultural domain
  • Initial Validation of SMOS Vegetation Optical Thickness in Iowa
  • Comparisons of Evening and Morning SMOS Passes Over the Midwest United States
  • L-band Microwave Emission of the Biosphere (L-MEB) Model: Description and calibration against experimental data sets over crop fields
  • Estimating vegetation water content during the Soil Moisture Active Passive Validation Experiment 2016
  • Dew frequency, duration, amount, and distribution in corn and soybean during SMEX05
  • Soil Moisture Measurement for Ecological and Hydrological Watershed-Scale Observatories: A Review
  • Satellite L–band vegetation optical depth is directly proportional to crop water in the US Corn Belt
  • Reconsidering Leaf Wetness Duration Determination for Plant Disease Management
  • How Many Measurements of Soil Moisture within the Footprint of a Ground-Based Microwave Radiometer Are Required to Account for Meter-Scale Spatial Variability?
  • Different Rates of Soil Drying after Rainfall Are Observed by the SMOS Satellite and the South Fork in situ Soil Moisture Network
  • Observations of dew amount using in situ and satellite measurements in an agricultural landscape
  • SMOS optical thickness changes in response to the growth and development of crops, crop management, and weather
  • A non-linear relationship between terrestrial microwave emission at 1.4 GHz and soil moisture caused by ponding of water
  • The Effect of Intercepted Precipitation on the Microwave Emission of Maize at 1.4 GHz
  • The effect of free water in a maize canopy on microwave emission at 1.4GHz
  • Vegetation canopy anisotropy at 1.4 GHz
  • A remote sensing observatory for hydrologic sciences: A genesis for scaling to continental hydrology
  • Radiometric sensitivity to soil moisture at 1.4 GHz through a corn crop at maximum biomass
  • A growing season land surface process/radiobrightness model for wheat-stubble in the Southern Great Plains
  • A Parametric Approach to Unmixing Remote Sensing Crop Growth Signatures
  • Modeling Crop Phenology in the US Corn Belt Using Spatially Referenced SMOS Satellite Data
  • A Five-Year Evaluation of SMOS Level 2 Soil Moisture in the Corn Belt of the United States
  • Extracting Agronomic Information from SMOS Vegetation Optical Depth in the US Corn Belt Using a Nonlinear Hierarchical Model
  • Quantitative Assessment of Satellite L-Band Vegetation Optical Depth in the U.S. Corn Belt
  • A spatial and temporal evaluation of the SMAP cropland b-parameter across the U.S. Corn Belt
  • All Students Can Benefit from a Personal Response System Pedagogy that Encourages Active Engagement Yet Lowers Barriers to Implementation

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Co-workers & collaborators

Richard Cirone

Research Assistant - Ames, IA

Richard Cirone

Brian Hornbuckle's public data