HOW TO COMBINE INDUCTIVE AND DEDUCTIVE APPROACHES … · Inductive Approach –Top Down •Analyses...
Transcript of HOW TO COMBINE INDUCTIVE AND DEDUCTIVE APPROACHES … · Inductive Approach –Top Down •Analyses...
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IAHS - P3: Putting PUB into PracticeCanmore, AB, Canada
11-13 May 2011
HOW TO COMBINE INDUCTIVE AND DEDUCTIVE APPROACHES
TO PREDICTION IN UNGAUGED BASINS
Pablo F. DornesFacultad Ciencias Exactas y NaturalesUniversidad Nacional de La Pampa, [email protected]
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PHILOSOPHIES OF MODELLING
Inductive Approach – Top Down• Analyses processes based on data (e.g. dominant responses) at larger scales (e.g. basin) and then, if needed, make inferences about processes at smaller scales.
Deductive Approach – Bottom-Up• Analyses processes at smaller scales using physical laws, and then extrapolates the process at larger scales using aggregation techniques.
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PHILOSOPHIES OF MODELLINGInductive Approach – Top Down• Model structure is defined at the level of interest and it is inferred from data.• Representation of basin processes finding the simplest descriptions of the dominant responses of the system that are supported by both the available data and physical understanding. • Used to describe the hydrological response at long temporal scale and large spatial scale (e.g. annual time and basin scale) and progressively narrowing down to processes at smaller scales.• Reduce data requirements and limit model complexity• Simple ‘parsimonious’ models Lumped & Conceptual• Difficulties in capturing all important processes • Too “parsimonious” to properly describe heterogeneity
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PHILOSOPHIES OF MODELLING
Deductive Approach – Bottom Up• Model structure is preconceived• Based on deterministic mathematical equations founded on scientific laws• Assumes that conceptualisations of individual processes are equivalent for the overall model domain.
• More realistic physically based structure• More complex models able to describe different processes at different scales in time and space. • Problems with parameter identifiability and with the different sources of uncertainties• Too complex to support engineering and management decisions.
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HYDROLOGICAL MODELS• Plethora of models
• Lumped or Distributed• Deterministic or Stochastic
• Nonlinearity• Some Processes still inadequately parameterised• Some Parameters still conceptual
• Scaling• Lack of a scale consistent process descriptions
• Uniqueness – Equifinality• Identifiability problems. Different parameter sets similar performance
• Uncertainty • Predictions constrained by data, model structure, and parameters
• Conceptual• Empirical• Statistical• Physically Based
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MODEL COMPLEXITY – DATA - MODEL PERFORMANCE
Grayson and Blöschl (2001)
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Sensitivity analysis
WATCLASS parameters
Trail Valley Creek
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SCALING ISSUES• Hydrological process at a range of scales
- Small length scales area associated with short times
- Large length scales area associated with long times
Not always happensInfiltration excess Point scale phenomenaSaturation excess Lateral flow Area associated with the process
• Mismatch between scales:• Observation scales• Process scales• Modelling scales
• Scaling is limited by spatial heterogeneity and variability in hydrological process environments
Effective parameters
Scaling (up-down)Transference of information
Definition
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PREDICTIVE UNCERTAINTY
Inputs uncertainty
Model structure
uncertainty
Parameter uncertainty
Landscape heterogeneity
Process heterogeneity
Observationsand Initial Conditions
Scaling Issues
•This situation becomes even more important in cold regions areas due the ungauged nature of arctic and subarctic environments.• New strategies that combine detailed process understanding with an overall knowledge of the system are needed.
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STUDY AREA
Wolf Creek Research Basin
60° 31’N, 135° 07’W
Area: 195 km2
Granger Basin
60° 31’N, 135° 07’W
Area: 8 km2
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ISSUES IN SUBARCTIC ENVIRONMENTS
Permafrost• Affects snowmelt runoff generation
• Soil energy and mass balance
Snow :• Reflects solar radiation
• Insulates the ground
• Stores water and nutrients
• Has high temporal and spatial variability
Vegetation :• Traps falling and wind-blown snow
• Masks underlying snow
Topography• Exerts a control in snowpack and soil
energy balances due to the spatially
varying incoming solar radiation and
temperature.
• Control snow redistribution processes
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SCALING ISSUES IN SUBARCTIC ENVIRONMENTS
SWE
Melt
Small scale
SWE
Melt
Medium (Landscape) scale
SWE
Melt
Negative association Melt-SWE
Negative association Melt-SWE
SWE
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Large (basin) scalePositive association M-SWE
Pomeroy, Essery, and Toth (2004)
A. of Glaciol.,38,195-201.Underestimation of melt duration 4%
Overestimation of
melt duration 0.5-45%
Underestimation of melt duration 14%
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MODELLING OBJECTIVES
• Definition of an appropriate modelling strategy in complex subarctic environments.
1. Definition of an optimum representation of the spatial heterogeneity that would allow the scaling from point scale observations to catchment scale models in complex subarctic environments.
2. Effects of spatially distributed solar forcing and initial snow conditions.
3. Identification of stable model parameterisations using a landscape-based approach.
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MODELLING METHODOLOGY
Inductive Approach
Deductive Approach
• Distributed and Physically Based capture processes dynamics • Link mass and energy balances dominant structures in each of these different contexts are different
Combination of Top-Down and Bottom-Up Approaches
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MODELLING METHODOLOGY
Inductive Approach
Deductive Approach
basin segmentation process descriptions
Landscape based Topography – vegetation• Snow accumulation regimes• Blowing snow transport• Snowmelt energetics• Snow interception• Runoff generation/response
Detail process understandingIn cold regions research basins(e.g. WC, TVC, prairies)
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MODELLING METHODOLOGY
Three models:• Small-scale physically based Hydrological Model (CRHM)• Land Surface Scheme (CLASS)• Land Surface Hydrological Model (MESH)
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LAND SURFACE HYDROLOGICAL MODELS
CLASS
WATFLOOD
MESH
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LANDSCAPE HETEROGENETY
Granger Basin
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SNOWCOVER ABLATION AND SNOWMELT RUNOFF USING CRHM
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LAND SURFACE SIMULATIONSSnowcover ablation using 1D landscape based CLASS simulations
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SNOW COVER ABLATION USING CLASS
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INITIAL CONDITIONS AND SOLAR FORCINGS
North facing slope
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HYDROLOGICAL LAND SURFACE SIMULATIONSSnowcover ablation and Snowmelt runoff using MESH Spatial representation based on the GRU approach• Definition of GRU based on:
•Topography and vegetation cover
Grid size 3 km x 3 km
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BASIN STREAMFLOW SIMULATIONS
Wolf Creek Reserach Basin
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BASIN STREAMFLOW SIMULATIONS
Wolf Creek Reserach Basin
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DISTRIBUTED VALIDATIONS OF STREAMFLOW SIMULATIONS
Wolf Creek Reserach BasinGranger Basin (8 km2)
Upper Wolf Creek (15 km2)
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DISTRIBUTED VALIDATIONS OF SNOWCOVER ABLATION
Wolf Creek Reserach Basin
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PREDICTIVE UNCERTAINTY
Granger Basin
60° 31’N, 135° 07’W
Area: 8 km2
Trail Valley Creek
TVC Basin
68° 45’N, 133° 30’W
Area: 63 km2
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LANDSCAPE BASED APPROACH TO REGIONALISATION
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LANDSCAPE BASED APPROACH TO REGIONALISATION
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CONCLUSIONS• The combination of deductive (BU) and inductive (TD) modelling
approaches is an useful methodology for effectively representing and conceptualising landscape heterogeneity in sub-arctic environments.
• It is an modelling approach that learn from the capabilities of the BU in describing detail processes to somehow simplify landscape heterogeneity using an holistic TD approach.
• Landscape-based parameter can be transferred to similar landscapes in regional basins if physically based models are used, therefore reducing the predictive uncertainty of hydrological and LSS models in ungauged basins.
• Explicit landscape representations improve model predictions. • Inadequate or unrepresentative initial snowcover conditions and
forcing data caused unsatisfactory model predictions.
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CONTRIBUTIONS• Research implications:
• Development of a new modelling strategy for simulating snowcover ablation and snowmelt runoff in subarctic mountainous environments.
• Verification that the representation of melt based on average energy flux, snow state, and flat-plane conceptualisation is not always appropriate.
• Practical Implications:• The need for incorporation of blowing snow process to
properly set the initial snow cover conditions. • The need for incorporation of differential forcing• Landscape basin segmentation / landcover based
parameterisation necessary to reduce predictive uncertainty
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MODELLING PHILOSOPHY
Two
irreconcilable
approaches
Two
complementary
approaches
Two
approaches
working together
Two
approaches in
fully harmony
© 2009 Vincenzo Arrichiello
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Thank you