Hydropedology and Hydrologic Connectivity of an Oak-woodland Hillslope in the Northern Sierra Foothills of California
- ISBN-10
- 1321361971
- ISBN-13
- 9781321361971
- Language
- English
- Published
- 2014
- Author
- Katelin Alldritt
Description
Hydropedology is the study of how soil morphology and stratigraphy influence hydrologic processes, which is particularly relevant at the hillslope scale, where soil stratigraphy and spatial variability can exert first-order control on the hydrologic flowpaths. Understanding soil stratigraphy and its influence on hydrologic connectivity and streamflow generation has implications for water resource sustainability, water quality and other ecosystem services. An oak-woodland research catchment in the Sierra Foothills provided a unique opportunity to investigate the relationships between soil stratigraphy and hydrologic connectivity. Within the research catchment a hillslope was instrumented for hydrologic monitoring between February and June in 2012. Once dry, the hillslope was trenched, surveyed and sampled. The hydrologic monitoring data and soil characterization data from the trench were combined to constrain a 2D hydrologic model of the hillslope. The objectives of the hillslope study were to 1) identify and characterize hydrologically significant soil properties; 2) explore how soil stratigraphy and morphology influence hydrologic connectivity; and 3) examine potential causes for connection and disconnection of hydrologic flowpaths during and between rain storm events. What we found was a very complex story. The hillslope stratigraphy consisted of a homogeneous and continuous permeable surface horizon, a continuous but variable subsurface transition soil zone, and a discontinuous impermeable claypan. The trench also revealed highly variable weathered bedrock and irregular surface topography of the hard bedrock. Our field measurements and model results were consistent in demonstrating that both the claypan and bedrock topography are important factors in hillslope hydrology and hydrologic connectivity with respect to streamflow dynamics. The primary hydrologic flowpath feeding peak streamflows was found to be rapid subsurface lateral flow in the permeable surface horizon. Further investigation on the hydrologic role of the varied weathered bedrock would greatly improve our understanding of hillslope and catchment scale hydrology in the Northern Sierra Foothills.
