Challenges for determining frequency of high flow spells for varying thresholds in environmental flows programmes release_roiwp6fjvnfu7iuuq27cxxcw7y

by Simranjit Kaur, Avril Horne, Michael J. Stewardson, Rory Nathan, Alysson M. Costa, Joanna M. Szemis, J. Angus Webb

Published by Figshare.

2017  

Abstract

High flow spells (or "pulses") are important flow components providing ecological triggers and connectivity in rivers. While the ecological importance of flow spells is well-recognized, the link between ecosystem processes and statistical methods used to define flow spells occurrence has received little attention. Commonly, a spell is defined as an event that exceeds a threshold for a minimum number of consecutive days; however, such arbitrary metrics may be ecologically irrelevant. For example, the ecological value of a sustained high flow spell may be unaffected by a brief period in which flows fall just below the nominated threshold. The inclusion of an independence criterion has the potential to better characterize the ecological relevance of spell metrics, but it introduces the additional problem of how best to define "independence". Existing techniques present inconsistencies in the number of spells identified as the thresholds vary, and this becomes more apparent when characterizing streamflow behaviour over shorter planning periods. This paper presents a new spell metric that resolves the identified inconsistencies and ensures that the number of high flow spells of varying duration varies in a monotonic manner with the threshold. We retain the usual conceptual basis of high flow spells, but adopt an independence criterion that facilitates their characterization for operational purposes, which is more relevant to ecological functions. The simplicity of the approach allows easy incorporation in decision support tools where identifying high flow spells plays a critical role in making important decisions.
In text/plain format

Archived Files and Locations

application/pdf   238.4 kB
file_n6sgo573ajcmbib7dcxss4tkr4
s3-eu-west-1.amazonaws.com (publisher)
web.archive.org (webarchive)
Read Archived PDF
Preserved and Accessible
Type  article-journal
Stage   published
Date   2017-03-09
Work Entity
access all versions, variants, and formats of this works (eg, pre-prints)
Catalog Record
Revision: 674bd2cb-c30c-4b81-8a70-234b7bf8b9a6
API URL: JSON