Title of article
TREX: Spatially distributed model to assess watershed contaminant transport and fate
Author/Authors
Mark L. Velleuxa، نويسنده , , ?، نويسنده , , 1، نويسنده , , John F. England Jr.b، نويسنده , , Pierre Y. Julienc، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2008
Pages
16
From page
113
To page
128
Abstract
Contaminant releases from upland areas can have adverse water quality and stream
ecology impacts. TREX (Two-dimensional, Runoff, Erosion, and Export) is a spatially
distributed, physically-based model to simulate chemical transport and fate at the
watershed scale. TREX combines surface hydrology and sediment transport features from
the CASC2D watershed model with chemical transport features from the WASP/IPX series of
water quality models. In addition to surface runoff and sediment transport, TREX simulates:
(1) chemical erosion, advection, and deposition; (2) chemical partitioning and phase
distribution; and (3) chemical infiltration and redistribution. Floodplain interactions for
water, sediment, and chemicals are also simulated. To demonstrate the potential for using
TREX to simulate chemical transport at the watershed scale, a screening-level application
was developed for the California Gulch watershed mine-waste site in Colorado. Runoff,
sediment transport, and metals (Cu, Cd, Zn) transport were simulated for a calibration event
and a validation event. The model reproduced measured peak flows, and times to peak at
the watershed outlet and three internal locations. Simulated flow volumes were within
approximately 10% of measured conditions. Model results were also generally within
measured ranges of total suspended solid and metal concentrations. TREX is an appropriate
tool for investigating multimedia environmental problems that involve water, soils, and
chemical interactions in a spatially distributed manner within a watershed.
Keywords
HydrologyWatershedModelRunoffSediment transportContaminantsMetalsMine waste
Journal title
Science of the Total Environment
Serial Year
2008
Journal title
Science of the Total Environment
Record number
986377
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