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Transient Storage Reader 1
The Transient Storage Concept --
Readings on Applications for Stream Solute Transport in the Context of
Stream-Catchment Connections
Compilation by
Ken Bencala
<kbencala@usgs.gov>
original: November 1997
revised: 15-Feb-1999, 15-Sep-1999, 23-Feb-2000,
23-Aug-2000, 18-Feb-2001, 7-Nov-2001
last update: 29-Mar-2005
This reading list also may be downloaded as a
Word document [27 kB].
Transient Storage Reader 1 presents the essential references for
starting an application of the transient storage concept, specifically
as implemented in the OTIS
model package. For any application, the USGS Fact Sheet on
Using OTIS illustrates the
concepts of the transport model. Comprehensive chapters in Streams and
Ground Waters include thoughtful discussions relating the idealized
transient storage concept to the complex hydrogeobiochemical processes
of streams. The September 2003 Special Issue, Modeling Hyporheic Zone
Processes, of Advances in Water Resources provides several examples
of the new directions in which the transient storage concept is being
developed.
The Transient Storage Model
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Simulation of solute transport in a mountain pool-and-riffle stream - a
transient storage model. KE Bencala, RA Walters, Water Resources
Research, 19(3), 718, 1983.
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Using OTIS to model solute transport in streams and rivers. RL Runkel,
USGS Fact Sheet 138-99, 4 p., 2000.
[Online at
http://pubs.water.usgs.gov/fac138-99].
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One-dimensional transport with inflow and storage (OTIS): a solute transport
model for streams and rivers. RL Runkel, USGS WRIR 98-4018, 1998.
[Online at
http://co.water.usgs.gov/otis/].
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Quantifying hydrologic interactions between streams and their subsurface
hyporheic zones. JW Harvey, BJ Wagner, in Streams and Ground Waters,
JB Jones, PJ Mulholland, Eds., Academic Press, 3, 2000.
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Modeling hyporheic zone processes. RL Runkel, DM McKnight, and H Rajaram,
Advances in Water Resources, 26, 901, 2003.
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Interpretation of Estimated Parameters
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A new metric for determining the importance of transient storage. RL Runkel,
J. North American Benthological Society, 21, 529, 2002.
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Predicting changes in hydrologic retention in an evolving semi-arid alluvial
stream. JW Harvey, MH Conklin, RS Koelsch, Advances in Water Resources,
26, 939, 2003.
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Evaluating the reliability of the stream tracer approach to characterize
surface-subsurface water exchange. JW Harvey, BJ Wagner, KE Bencala, Water
Resources Research, 32(8), 2441, 1996.
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Automated calibration of a stream solute transport model: Implications
for interpretation of biogeochemical parameters. DT Scott, MN Gooseff,
KE Bencala, RL Runkel, Journal of the North American Benthological
Society, 22, 492, 2003.
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Sensitivity analysis of conservative and reactive transient storage models
applied to field. MN Gooseff, KE Bencala, DT Scott, RL Runkel, DM McKnight,
Advances in Water Resources, 28, 479, 2005.
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Experimental design for estimating parameters of rate-limited mass transfer:
Analysis of stream tracer studies. BJ Wagner, JW Harvey, Water Resources
Research, 33(7), 1731, 1997.
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A stream tracer technique employing ionic tracers and specific conductance
data applied to the Maimai catchment, New Zealand. MN Gooseff, BL McGlynn,
Hydrological Processes, in press/on-line doi:10.1002/hyp.5685, 2005.
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Simulation Investigations -- Applications
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Interactions of solutes and streambed sediments - Part 2: A dynamic analysis
of coupled hydrologic and chemical processes that determine solute transport.
KE Bencala, Water Resources Research, 20(12), 1804, 1984.
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Characterization of transport in an acidic and metal-rich mountain stream
based on a lithium tracer injection and simulations of transient storage. KE
Bencala, DM McKnight, GW Zellweger, Water Resources Research,
26(5), 989, 1990.
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Tracer-dilution experiments and solute-transport simulations for a mountain
stream, Saint Kevin Gulch, Colorado. RE Broshears, KE Bencala, BA Kimball, DM
McKnight, USGS WRIR 92-4081, 1993.
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Alluvial characteristics, groundwater-surface water exchange, and hydrologic
retention in headwater streams. JA Morrice, HM Valett, CN Dahm, ME Campana,
Hydrological Processes, 11, 253, 1997.
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Transient storage assessments of dye-tracer injections in rivers of the
Willamette Basin, Oregon. A Laenen, KE Bencala, J. American Water
Resources Association, 37(2), 367, 2001.
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Transient storage and hyporheic flow along the Willamette River, Oregon:
Field measurements and model estimates. AG Fernald, PJ Wigington, DH Landers,
Water Resources Research, 37(6), 1681, 2001.
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The hydraulic characteristics and geochemistry of hyporheic and parafluvial
zones in Arctic tundra streams, north slope. KJ Edwardson, WB Bowden,
C Dahm, J Morrice, Advances in Water Resources, 26, 907, 2003.
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Conservative and reactive solute transport in constructed wetlands. SH
Keefe, LB Barber, RL Runkel, JN Ryan, DM McKnight, RD Wass, Water
Resources Research, 40, doi:10.1029/2003WR002130, 2004.
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Estimation of solute transport and staorage parameters in a stream with
anthropogenically produced unsteady flow and industrial bromide input. RJ
Ryan, AI Packman, C Welty, Water Resources Research, 40,
doi:10.1029/2003WR002458, 2004.
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Comparative Approaches
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On the relationship of transient-storage and aggregated dead zone models to
solute transport in streams. MJ Lees, LA Camacho, S Chapra, Water
Resources Research, 36(1), 213, 2000.
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Comparing transient storage modeling and residence time distribution (RTD)
analysis in geomorphically varied reaches in the Lookout Creek basin,
Oregon, USA. MN Gooseff, SM Wondzell, R Haggerty, J Anderson, Advances
in Water Resources, 26, 925, 2003.
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Temporal moments routing in streams and rivers with transient storage. BH
Schmid, Advances in Water Resources, 26, 1021, 2003.
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Application of the transient storage model to analyze advective hyporheic
exchange with deep and shallow sediment beds. M Zaramella, AI Packman, A
Marion, Water Resources Research, 39, doi:10.1029/2002WR001344,
2003.
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Characterizing multiple timescales of stream and storage zone interaction
that affect solute fate and transport in streams. J Choi, JW Harvey,
MH Conklin, Water Resources Research, 36(6), 1511, 2000.
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Environmental Context
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Surface-subsurface exchange and nutrient spiraling. PJ Mulholland, DL
DeAngelis, in Streams and Ground Waters, JB Jones, PJ Mulholland, Eds.,
Academic Press, 149, 2000.
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Surface-subsurface interactions: past, present, and future. EH Stanley,
JB Jones, in Streams and Ground Waters, JB Jones, PJ Mulholland,
Eds., Academic Press, 405, 2000.
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A perspective on stream-catchment connections. KE Bencala, J. North
American Benthological Society, 12(1), 44, 1993.
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Hyporheic zone hydrological processes. KE Bencala, Hydrological
Processes, 14, 2797, 2000.
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Further Reading
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Transient
Storage Reader 2 presents an extensive reference list of
development, analysis, and application of the transient storage concept,
specifically as implemented in the OTIS/OTEQ model packages. The list
additionally includes references on the hyporheic zone and reactive solute
transport in streams, specifically as such references provide insights
to implementation and interpretation of OTIS/OTEQ applications.
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Stewart Rounds, SMIG coordinator
<sarounds@usgs.gov>
U.S. Geological Survey
http://smig.usgs.gov/SMIG/transtor_reader1.html
Last modified Wednesday, 21-Nov-2007 12:58:36 EST
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