loading page

Storage variability controls seasonal runoff generation in catchments at the threshold between energy and water limitation
  • Emilio Grande,
  • Margaret Zimmer,
  • John Mallard
Emilio Grande
University of California Santa Cruz Department of Earth and Planetary Sciences

Corresponding Author:emgrande@ucsc.edu

Author Profile
Margaret Zimmer
University of California Santa Cruz Department of Earth and Planetary Sciences
Author Profile
John Mallard
University of North Carolina at Chapel Hill Marine Sciences
Author Profile

Abstract

Using annual water balance analyses may mask intra-annual variability in runoff generation, which could limit our understanding of the similarities and differences between water- and energy-limited catchments. This may be especially limiting in comparisons between catchments close to the threshold between water- and energy-limitation. For this study, we examined runoff generation as a function of catchment storage in four watersheds, with focus on two that exist close to these thresholds to identify how year-to-year variability in storage resulted in intra-annual variations of runoff generation efficiency. Specifically, we focused on one energy-limited catchment in the humid subtropics and one water-limited in a Mediterranean climate. We used measured and calculated daily water balance components to calculate variations in the relative magnitude of daily storage. We isolated precipitation events to draw connections between storage and runoff generation at intra-annual scales and compared our findings to the same metrics in two intensely energy-limited landscapes. We observed distinct stages in daily storage across water years in watersheds at the threshold, where systems experienced wet-up, plateau, and dry-down stages. During the wet-up, precipitation was partitioned to storage, and runoff ratios ( RR) were low. In the plateau, storage was filled, precipitation was partitioned to runoff, causing high RRs. During the dry-down, storage decreased as precipitation was partitioned to evapotranspiration and runoff, causing low RRs. The critical role of evapotranspiration during the growing season resulted in relatively higher RRs during the wet-up than during the dry-down for a given storage value. Thus the same storage amount was partitioned to evapotranspiration or runoff differently throughout the year, depending on the storage stage. Despite their different positions on opposite sides of the threshold, the similarity between the two focus catchments suggests a potential characteristic behavior of systems at the threshold common to both humid and semi-arid landscapes.
11 May 2022Submitted to Hydrological Processes
12 May 2022Submission Checks Completed
12 May 2022Assigned to Editor
12 May 2022Reviewer(s) Assigned
29 Jun 2022Review(s) Completed, Editorial Evaluation Pending
29 Jun 2022Editorial Decision: Revise Major
30 Aug 20221st Revision Received
30 Aug 2022Submission Checks Completed
30 Aug 2022Assigned to Editor
30 Aug 2022Reviewer(s) Assigned
07 Sep 2022Review(s) Completed, Editorial Evaluation Pending
07 Sep 2022Editorial Decision: Accept
Oct 2022Published in Hydrological Processes volume 36 issue 10. 10.1002/hyp.14697