Modeling Bankfull Channel Geometry Based on Watershed and Precipitation Characteristics Using Dimensionless Parameters

Modeling Bankfull Channel Geometry Based on Watershed and Precipitation Characteristics Using Dimensionless Parameters

Regression models have consistently identified discharge as a suitable variable for capturing the systematic trends in channel geometry. Using a discharge‐based relation, however, does not reflect the more fundamental dependence of channel geometry on basic watershed properties and precipitation cha...

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Bibliographic Details
Published in:Water resources research 2023-06, Vol.59 (6), p.n/a
Main Authors: Bastola, Hridaya, Diplas, Panayiotis
Format: Article
Language:eng
Subjects:
Annual precipitation
average annual precipitation
Channel morphology
Climate change
Dependent variables
Discharge
Drainage area
Drainage channels
Geometry
Grain size
Gravel
Independent variables
Modelling
multiple linear regression
Parameter identification
Parameters
Physiographic provinces
Precipitation
Regression analysis
Regression models
stream morphology
Streams
Watersheds
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Summary:Regression models have consistently identified discharge as a suitable variable for capturing the systematic trends in channel geometry. Using a discharge‐based relation, however, does not reflect the more fundamental dependence of channel geometry on basic watershed properties and precipitation characteristics. To explore relations between bankfull channel geometry and watershed properties, we consider two sets of dimensionless regression models: (a) with bankfull discharge as an independent variable, and (b) with bankfull discharge as a dependent variable. While bankfull discharge is used as an input variable in the first set of regression analyses, average annual precipitation has been used in the second set. Other watershed and channel variables considered include drainage area, median sediment grain size, and valley slope. A data set of 538 sandy and gravel channel reaches from UK, and various physiographic provinces of the USA is considered. By representing bankfull discharge, width, depth and watershed variables in the form of dimensionless parameters, we specify the relationship between channel morphology and watershed and precipitation characteristics using an approach that is applicable to sandy and gravel streams from a range of climatic and physiographic regions. The formulation presented here is an effort toward the development of models that will be capable of predicting bankfull channel dimensions and discharge under modified average annual precipitation due to change in climate. Key Points Regression analyses of bankfull hydraulic geometry (BHG) for both gravel and sandy streams and conducted using watershed variables and precipitation Evaluation of bankfull discharge indicates dependence on watershed and climatic characteristics The formulation presented here allows for the prediction of BHG subject to changes in average annual precipitation
ISSN:0043-1397
1944-7973