Physical Controls of Soil Moisture and Vadose Zone Fluxes Across Space-Time Scales Under Different Hydro-Climatic Conditions
Funding Agency:
NASA – Terrestrial Hydrology Program
Project Duration:
04/2007-03/2010
Funding Amount:
$ 597,185
Project Abstract:
Das, N. N., and B. P. Mohanty, Temporal Dynamics of PSR-Based Soil Moisture Across Spatial Scales in an Agricultural Landscape During SMEX02: A Wavelet Approach, Remote Sensing of Environment, 112: 522-534, 2008.
Das, N. N., B. P. Mohanty, M. H. Cosh, and T. J. Jackson, Modeling and Assimilation of Root Zone Soil Moisture Using Remote Sensing Observations in Walnut Gulch Watershed During SMEX04, Remote Sensing of Environment, 112: 415-429, 2008.
Ines A. V. M., and B. P. Mohanty, Near-Surface Soil Moisture Assimilation for Quantifying Effective Soil Hydraulic Properties Using Genetic Algorithm: 1. Conceptual modeling, Water Resour. Res., 44, W06422, doi:10.1029/2007WR005990, 2008.
Jana R. B., B. P. Mohanty, and E. P. Springer, Multiscale Bayesian Neural Networks for Soil Water Content Estimation, Water Resour. Res., 44, W08408, doi: 10.1029/2008WR006879, 2008.
Ines A. V. M., and B. P. Mohanty, Parameter Conditioning With a Noisy Monte Carlo Genetic Algorithm for Estimating Effective Soil Hydraulic Properties From Space, Water Resour. Res., doi: 10.1029/2007WR006125, in press 2008.
Ines A. V. M., and B. P. Mohanty, Near-Surface Soil Moisture Assimilation for Quantifying Effective Soil Hydraulic Properties Using Genetic Algorithm: 2. With Air-borne Remote Sensing During SGP97 and SMEX02, Water Resour. Res., Accepted 2008.
