Comparison of instantaneous and constant-rate stream tracer experiments through non-parametric analysis of residence time distributions

Artificial tracers are frequently employed to characterize solute residence times in stream systems and infer the nature of water retention. When the duration of tracer application is different between experiments, tracer breakthrough curves at downstream locations are difficult to compare directly....

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Veröffentlicht in:	Water resources research 2008-06, Vol.44 (6), p.n/a
Hauptverfasser:	Payn, Robert A, Gooseff, Michael N, Benson, David A, Cirpka, Olaf A, Zarnetske, Jay P, Bowden, W. Breck, McNamara, James P, Bradford, John H
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Sprache:	eng
Schlagworte:	field experimentation geomorphology geostatistics hydrologic models labeling techniques Residence time distribution shape soil transport processes stream channels stream hydrology streams tracer experiments
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container_title	Water resources research
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creator	Payn, Robert A Gooseff, Michael N Benson, David A Cirpka, Olaf A Zarnetske, Jay P Bowden, W. Breck McNamara, James P Bradford, John H
description	Artificial tracers are frequently employed to characterize solute residence times in stream systems and infer the nature of water retention. When the duration of tracer application is different between experiments, tracer breakthrough curves at downstream locations are difficult to compare directly. We explore methods for deriving stream solute residence time distributions (RTD) from tracer test data, allowing direct, non-parametric comparison of results from experiments of different durations. Paired short- and long-duration field experiments were performed using instantaneous and constant-rate tracer releases, respectively. The experiments were conducted in two study reaches that were morphologically distinct in channel structure and substrate size. Frequency- and time domain deconvolution techniques were used to derive RTDs from the resulting tracer concentrations. Comparisons of results between experiments of different duration demonstrated few differences in hydrologic retention characteristics inferred from short- and long-term tracer tests. Because non-parametric RTD analysis does not presume any shape of the distribution, it is useful for comparisons across tracer experiments with variable inputs and for validations of fundamental transport model assumptions.
doi_str_mv	10.1029/2007WR006274
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subjects	field experimentation geomorphology geostatistics hydrologic models labeling techniques Residence time distribution shape soil transport processes stream channels stream hydrology streams tracer experiments
title	Comparison of instantaneous and constant-rate stream tracer experiments through non-parametric analysis of residence time distributions
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