The role of tributary relative timing and sequencing in controlling large floods

Details

Serval ID
serval:BIB_DA25E33A1267
Type
Article: article from journal or magazin.
Collection
Publications
Institution
Title
The role of tributary relative timing and sequencing in controlling large floods
Journal
Water Resources Research
Author(s)
Pattison I., Lane S.N., Hardy R.J., Reaney S.M.
ISSN-L
0043-1397
Publication state
Published
Issued date
2014
Peer-reviewed
Oui
Volume
50
Pages
5444-5458
Language
english
Notes
ISI:000342632000005
Abstract
Hydrograph convolution is a product of tributary inputs from across the watershed. The time-space distribution of precipitation, the biophysical processes that control the conversion of precipitation to runoff and channel flow conveyance processes, are heterogeneous and different areas respond to rainfall in different ways. We take a subwatershed approach to this and account for tributary flow magnitude, relative timing, and sequencing. We hypothesize that as the scale of the watershed increases so we may start to see systematic differences in subwatershed hydrological response. We test this hypothesis for a large flood (T >100 years) in a large watershed in northern England. We undertake a sensitivity analysis of the effects of changing subwatershed hydrological response using a hydraulic model. Delaying upstream tributary peak flow timing to make them asynchronous from downstream subwatersheds reduced flood magnitude. However, significant hydrograph adjustment in any one subwatershed was needed for meaningful reductions in stage downstream, although smaller adjustments in multiple tributaries resulted in comparable impacts. For larger hydrograph adjustments, the effect of changing the timing of two tributaries together was lower than the effect of changing each one separately. For smaller adjustments synergy between two subwatersheds meant the effect of changing them together could be greater than the sum of the parts. Thus, this work shows that while the effects of modifying biophysical catchment properties diminishes with scale due to dilution effects,
their impact on relative timing of tributaries may, if applied in the right locations, be an important element of flood management.
Create date
13/03/2015 13:48
Last modification date
20/08/2019 15:59
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