Using high‐resolution isotope data and alternative calibration strategies for a tracer‐aided runoff model in a nested catchment

Using high‐resolution isotope data and alternative calibration strategies for a tracer‐aided runoff model in a nested catchment

Testing hydrological models over different spatio‐temporal scales is important for both evaluating diagnostics and aiding process understanding. High‐frequency (6‐hr) stable isotope sampling of rainfall and runoff was undertaken during 3‐week periods in summer and winter within 12 months of daily sa...

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Veröffentlicht in:Hydrological processes 2017-10, Vol.31 (22), p.3962-3978
Hauptverfasser: Tunaley, Claire, Tetzlaff, Doerthe, Birkel, Christian, Soulsby, Chris
Format: Artikel
Sprache:eng
Schlagworte:
Age
Calibration
Catchment area
Catchment areas
catchment storage
Catchments
Computer simulation
Data
Data processing
Dynamics
Evaluation
High resolution
Highlands
high‐resolution isotopes
Hydrologic models
Hydrology
Isotopes
Learning behaviour
Mixing
Mixing processes
Modelling
parameter transferability
Parameterization
Rain
Rainfall
Resolution
Riparian environments
Runoff
runoff processes
Sampling
Spatial discrimination learning
Stable isotopes
Storage
Temporal resolution
Testing
Tracers
tracer‐aided modelling
water age
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Zusammenfassung:Testing hydrological models over different spatio‐temporal scales is important for both evaluating diagnostics and aiding process understanding. High‐frequency (6‐hr) stable isotope sampling of rainfall and runoff was undertaken during 3‐week periods in summer and winter within 12 months of daily sampling in a 3.2‐km2 catchment in the Scottish Highlands. This was used to calibrate and test a tracer‐aided model to assess the (a) information content of high‐resolution data, (b) effect of different calibration strategies on simulations and inferred processes, and (c) model transferability to
ISSN:0885-6087
1099-1085
DOI:10.1002/hyp.11313