Run-off processes from mountains to foothills: The role of soil stratigraphy and structure in influencing run-off characteristics across high to low relief landscapes
Author:
Affiliation:
1. Department of Earth and Planetary Sciences; University of California; Santa Cruz CA USA
2. Department of Geosciences and Natural Resources; Western Carolina University; Cullowhee NC USA
Publisher
Wiley
Subject
Water Science and Technology
Reference61 articles.
1. The exponential decline in saturated hydraulic conductivity with depth: A novel method for exploring its effect on water flow paths and transit time distribution;Ameli;Hydrological Processes,2016
2. Source areas of storm runoff;Betson;Water Resources Research,1969
3. Resilience of river flow regimes;Botter;Proceedings of the National Academy of Sciences,2013
4. Concepts of hydrological connectivity: Research approaches, pathways and future agendas;Bracken;Earth-Science Reviews,2013
5. An evolving perceptual model of hillslope flow at the Maimai catchment;Brammer;Advances in hillslope processes,1996
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