Present address: Department of Earth and Planetary Science, University of California, Berkeley, CA 94720, USA.
Testing the influence of topography and material properties on catchment-scale soil moisture patterns using remotely sensed vegetation patterns in a humid temperate catchment, northern Britain
Version of Record online: 17 APR 2012
Copyright © 2012 John Wiley & Sons, Ltd.
Volume 27, Issue 8, pages 1223–1237, 15 April 2013
How to Cite
Graham Milledge, D., Warburton, J., N. Lane, S. and J. Stevens, C. (2013), Testing the influence of topography and material properties on catchment-scale soil moisture patterns using remotely sensed vegetation patterns in a humid temperate catchment, northern Britain. Hydrol. Process., 27: 1223–1237. doi: 10.1002/hyp.9292
- Issue online: 1 APR 2013
- Version of Record online: 17 APR 2012
- Accepted manuscript online: 8 MAR 2012 04:18AM EST
- Manuscript Accepted: 9 FEB 2012
- Manuscript Received: 12 MAR 2011
- soil moisture;
- remote sensing;
- catchment scale;
- depth to water table
In order to evaluate the relationship between the apparent complexity of hillslope soil moisture and the emergent patterns of catchment hydrological behaviour and water quality, we need fine-resolution catchment-wide data on soil moisture characteristics. This study proposes a methodology whereby vegetation patterns obtained from high-resolution orthorectified aerial photographs are used as an indicator of soil moisture characteristics. This enables us to examine a set of hypotheses regarding what drives the spatial patterns of soil moisture at the catchment scale (material properties or topography). We find that the pattern of Juncus effusus vegetation is controlled largely by topography and mediated by the catchment's material properties. Characterizing topography using the topographic index adds value to the soil moisture predictions relative to slope or upslope contributing area (UCA). However, these predictions depart from the observed soil moisture patterns at very steep slopes or low UCAs. Copyright © 2012 John Wiley & Sons, Ltd.