2014
DOI: 10.1002/rra.2781
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Characterizing Sub‐Daily Flow Regimes: Implications of Hydrologic Resolution on Ecohydrology Studies

Abstract: Natural variability in flow is a primary factor controlling geomorphic and ecological processes in riverine ecosystems. Within the hydropower industry, there is growing pressure from environmental groups and natural resource managers to change reservoir releases from daily peaking to run‐of‐river operations on the basis of the assumption that downstream biological communities will improve under a more natural flow regime. In this paper, we discuss the importance of assessing sub‐daily flows for understanding t… Show more

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Cited by 89 publications
(95 citation statements)
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References 59 publications
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“…For some sites, finer time resolution than one day could be important information related to environmental effects, e.g., Stickler et al [36] and Alfredsen et al [37] showed sub-daily responses in Atlantic salmon during several ice formation and release events in the river Orkla. The loss of detail in the daily ice data is, in many ways, similar to the loss of accuracy experienced when analyzing hydro-peaking flow data, e.g., Bevelhimer et al [38] found that a sub-daily time step is necessary to capture the dynamics of a peaking flow regime. As discussed, it is a drawback that the assessment of hourly peaking relies on daily ice-corrected data.…”
Section: Discussionmentioning
confidence: 91%
“…For some sites, finer time resolution than one day could be important information related to environmental effects, e.g., Stickler et al [36] and Alfredsen et al [37] showed sub-daily responses in Atlantic salmon during several ice formation and release events in the river Orkla. The loss of detail in the daily ice data is, in many ways, similar to the loss of accuracy experienced when analyzing hydro-peaking flow data, e.g., Bevelhimer et al [38] found that a sub-daily time step is necessary to capture the dynamics of a peaking flow regime. As discussed, it is a drawback that the assessment of hourly peaking relies on daily ice-corrected data.…”
Section: Discussionmentioning
confidence: 91%
“…However, with the privatization of the power sector and the introduction of renewables, the operational scheme of hydropower plants has intensified its flashiness, especially in the intra-daily time horizon [5,33]. These fluctuations are hardly captured in the original indicators [34]. In response, several indexes for measuring the hourly fluctuation have been proposed in the last decade [35][36][37].…”
Section: Sub-daily Hydrologic Alterationmentioning
confidence: 99%
“…However, hydroelectric facilities in drier areas and (especially) large hydroelectric dams do store water and disrupt hydrological regimes. Hydroelectric dams may also have specifi c, short-term impacts on river fl ow related to the variability in electricity demand (Bevelhimer et al 2015 ). The daily demand fl uctuations can be translated into large, completely unnatural daily variations in fl ow below hydroelectric dams, with strong negative impacts on the aquatic biota (Cushman 1985 ).…”
Section: Flow Regulation and Ecosystem-level Impactsmentioning
confidence: 99%