1 seasonal streamflow forecasting – current practice, challenges and opportunities hydrologic...
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Seasonal Streamflow Forecasting – Current Practice, Challenges and Opportunities
Hydrologic Sciences & Water Resources Engineering Seminar SeriesBoulder, CO, Sep 30, 2014
Andy WoodNCAR Research Applications Laboratory
Boulder, Colorado
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Outline
Operational Forecasting – western USobjectivesprocesses
Predictability ResearchOpportunities for Improvement
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The Arid Lands
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Many droughts will occur; many seasons in a long series will be fruitless; and it may be doubted whether, on the whole, agriculture will prove remunerative. John Wesley Powell, 1879
Report on the lands of the arid region of the United States
Precipitation, 1971-2000
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Seasonal streamflow prediction is critical
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One example: Met. Water Dist. of S. California (MWD)
MWD gets:1.25 MAF OR
0.55 MAF
from B. Hazencamp, MWD
?+$150M gap
Surplus
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How are forecasts created?
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Water Supply Forecast Methods
Statistical Forecasting Statistical Regression Equations
Primary NOAA/RFC forecast method from 1940’s to mid 1990’s.
Primary NRCS/NWCC forecast method
Historical Relationships between flow, snow, & precipitation (1971-2000)
Tied to a fixed runoff period (inflexible)
Ensemble Simulation Model Forecasting A component of a continuous conceptual model (NWSRFS)
Continuous real time inputs (temperature, precipitation, forecasts)
Accounts for soil moisture states (SAC-SMA) - drives runoff efficiency
Builds and melts snowpack (Snow-17) – output feeds SAC-SMA
Flexible run date, forecast period, forecast parameters.
Evolving toward ESP as primary forecast tool at NOAA/RFCs
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Statistical Forecast Equations:Predictor variables must make senseChallenge when few observation sites exist within river basinChallenge when measurement sites are relatively youngFall & Spring precipitation is frequently used (why?)
Source: NRCS
Sample Equation for April 1:
April-July volume Weber @ Oakley = + 3.50 * Apr 1st Smith & Morehouse (SMMU1) Snow Water Equivalent + 1.66 * Apr 1st Trial Lake (TRLU1) Snow Water Equivalent + 2.40 * Apr 1st Chalk Creek #1 (CHCU1) Snow Water Equivalent - 28.27
Trial Lake SNOTEL
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NWS Community Hydrologic Prediction System
New modeling structure at all RFCs• New wrapper for old models…but...• Facilitates research to operations• gives more insight into the model used
Transition completed in 2011
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Sno
w
Time
ESP example -- Feb 1 forecast
Future
Feb 1
Past
Low chance of this level snow or higher
High chance of this level snow or higher
Medium chance of this level snow or higher
©The COMET Program
• ESP forecasts based on • (1) initial conditions (e.g. snow pack, base flow, etc)• (2) historical meteorological scenarios
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Sno
w
Time
Mar 1 forecast
Future
Mar 1
Past
Low chance of this level flow or higher
High chance of this level flow or higher
Medium chance of this level flow or higher
©The COMET Program
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Sno
w
Time
Apr 1 forecast
FutureApr 1
Past
Low chance of this level snow or higher
High chance of this level snow or higher
Medium chance of this level snow or higher
©The COMET Program
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Story line of an extreme year
Each hydrologic anomaly has a story line. As water year progresses:• past wx/climate (hydrologic initial conditions) are an increasing
part of the plot• future climate is a diminishing part of the plot• extremes often involve pattern persistence …
but can be more complicated
Flo
w
Time
Future
Feb 1
Past
IC signal
Wx/Climate signal
e.g., Wood & Lettenmaier, 2008 GRL
e.g., storyline:• big storm in Feb• very wet April• cool May/June
IC
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Forecastprecip / temp
Wea
ther
and
Clim
ate
For
ecas
ts RiverForecastModelingSystem
parameters
Observed Data
Analysis &Quality Control
Calibration
modelguidance
Hydrologic Model Analysis
hydrologicexpertise &judgment
OutputsGraphics
River Forecasts
Decisions
Rules, values, other factors, politics
NWS River Forecast Process
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Observed and Simulated not Tracking
Result: Improved observed period simulation
Runtime Modifications River Forecast Centers• MOD capability has been available in the NWS >30
years• Generic MOD capability implemented within FEWS• Extend capability to other users outside of OHD-
core models
MOD Interface
Calibration Climatology
Hydrologist render a Run-Timemodification to the SACSMA Modeland increases the lower zone primary and supplemental states
CHPS
Slide by H. Opitz, NWRFC
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Examples: Nooksack RTypical situation during snowmelt: the simulation goes awry What can a hydrologist deduce from this simulation? As it is, blending simulation and obs gives an ‘unrealistic’ forecast
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Examples: Nooksack ROne Solution -- Double the snowpack (WECHNG) Other approaches may also have been tried: lower temperatures, raise soil moisture, etc.
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Examples: Nooksack RThe resulting simulation is better, hence the forecast is more confident Flows stay elevated, have diurnal signal of continued melt.
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A manual, subjective process
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WFO+HPC met. forecast
Hydrologic simulation and flood
forecasting
Long-lead forecasting
Coordination with USDA/NRCS
Meteorological analysis
Quality control of station dataQuality control of radar and radar parameters
Manual elements
WFO forecast itself (though based on models)RFC merge with HPC forecast (similar to WFO)
Sac./Snow17 model states and parametersBias-adjustment relative to obs. FlowInput forcings (2nd chance at adjustment)
Model states as adjusted for flood forecastingChoice of models (statistical / ESP )Blend of modelsChoice of meteorology: QPF, ENSO, None?
Merging with NRCS statistical forecastsmeans, confidence limits (“10-90s”)
Dai
ly F
lood
For
ecas
t
Wat
er S
uppl
yF
orec
ast
Process
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Forecasts and Water Management
Average contribution to Lake Powell Apr-Jul inflow:
Green River 34%Colorado River 50%San Juan River 13%
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ReclamationMidterm-Probabilistic Model
StakeholderAllocations
Graphic from Dr. Katrina Grantz, Bureau of Reclamation
CBRFC ensemble flow forecasts for Reclamation water management
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Forecast impacts, e.g.:if WY12 is wet enough, Lake Mead hits surplus levels, MWD gets water ~ $150M
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Water supply forecasting
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Runoff forecast for this period
Example flow volume prediction
increasing watershed moisture reduces prediction spread
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Both frameworks can be skillful
ESP – model-based
PCR - statistical
Yet both have drawbacks• raw ESP: fails to account fully for
hydrologic uncertainty• may have bias• overconfident
• PCR, ie, flow = f(SWE, acc. PCP)• cannot provide confidence
bounds (heteroskedastic error) in many places
• small samples• used since mid-1990s
• Ad-hoc combination
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Premise: We can improve short-term water decisions and increase long-term adaptation capacity under climate change by
improving monitoring & forecasting
Improving how we use this information
Report summarizes needs monitoring
forecasting
information use
http://www.ccawwg.us/docs/Short-Term_Water_Management_Decisions_Final_3_Jan_2013.pdf
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‘ST Doc’ user needs
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Other Categories
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What are the sources of seasonal streamflow predictability?
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A western US water cyclew
ater
dep
th
water year
Runoff = Precip – ET – ΔSM - ΔSWE
October SeptemberApril
SM
Evap Runoff
SWE
Precip
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Seasonal Variation in Predictor Importance
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Opportunities for prediction
Hydrological Prediction: How well can we estimate the amount of water stored?
Accuracy in precipitation estimates
Fidelity of hydro model simulations
Effectiveness of hydrologic data assimilation methods
hydrological predictability
Water Cycle (from NASA)
Meteorological predictability: How well can we forecast the weather?
Opportunities: Which area has most potential for different applications?
meteorological predictability
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Data & Methods• automated system, large number of gages• Basin Selection: Used GAGES-II, Hydro-climatic data
network (HCDN)-2009– minimal human influence, long period of record– large diversity of landscapes, energy- to water-limited
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Calibration Results
• Areas with seasonal snow perform best (using NSE benchmark)– More arid regions,
high plains perform worst
– Need in-depth examination of poor performing basins
– Forcing data issues?
• ~670 basins included in initial calibration
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Assessing the sources of flow forecast skill
w=0.5w=0.5
http://www.ral.ucar.edu/staff/wood/weights/
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Snow-Driven Basin in the Western US
• Wide seasonal variations in influence of different skill sources
• cold and dry forecast period forecast skill depends strongly on initial condition influences
• warm and wet forecast period forecast skill depends strongly on met. forecast skill
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Rain-Driven Basin in the Southeastern US
• For 6-month forecast, seasonal variation in flow forecast skill sensitivities (met. forecast or IC) is minimal
• Effectiveness of skillful met. forecasts diminishes if initial conditions are not well-captured
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Flow Forecast Skill SensitivitiesA Snowmelt Basin
• Wide seasonal variations in influence of different skill sources
• Cold/Warm and Dry/Wet patterns are clear
• Skill increases in meteorology produce non-linear skill changes in flow
Assuming no skill in one source (model accuracy for watershed states, or forecasts)…what are the benefits of adding skill in the other source?
Results are preliminary and subject to change
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Flow Forecast Skill Elasticities• The % change in flow
forecast skill versus per % change in predictor source skill
• Can help estimate the benefits of effort to improve forecasts in each area
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opportunities for improvement
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Improved IHCs through modeling
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Snow Distribution – corroborates presence
of lower elevation snow in 2010 at start
of melt
2006 Snowbird SNOTEL trace almost identical to 2010 trace from June 1-10
However, NOHRSC indicates south facing slopes had already melted out in 2006
2010 June 1
2006 June 1
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SNOW17 SWE
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Distributed SWE(eg SNODAS, use of MODIS SCA)
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Improved SCFs through Climate Prediction
Conditioned on IRI seasonal forecast
Get the prediction (A:N:B=40:35:25)
Divide historical (seasonal) total into 3 tercile categories
Bootstrap 40, 35 and 25 sample of historical years from wet, normal and dry categories
Apply the ensembles in ESP instead of historical weather sequences
(from Balaji Rajagopalan)
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Short-Range
Medium-Range
Merging Joining Blending
Input forcing uncertainty via generated ensembles
Under development / MMEFS
Planned
Long-Range
Calibrated and seamless short- to long-termforcing input ensembles
Day 1-5 ensembles
Day 1-14 ensembles
Day 15+ ensembles
Day 15+ ensembles
HPC/RFC single-valued forecast
GFS/GEFS ens. mean
CFS/CFSv2forecast
Other ensembles(SREF, NAEFS…)
Other info(climate indices…)
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April 28, 2010 43
Precipitation Skill, CD 48
Satish Regonda, OHD
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• For seasonal time scales, skill is lower
• some seasons may have better skill, varying little across leads
East R at Almont, Co, precip
CFSv2 precipitation forecast skill
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Improved post-processing
• Statistical post-processing of forecasts can correct systematic bias and spread problems (particularly ESP overconfidence and bias).
• Require long track record of consistent forecasts for training• Would need to change the current operational ESP approach
• Is
April 1 Forecast of April-July streamflow volume, North Fork Gunnison (SOMC2)
90th
50th 10th
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Improved Human Resources
The forecasting and water management enterprise needs people with a strengths in:• watershed science• land surface modeling• atmospheric and/or climate science• probability and statistics• objective analysis (time-series, spatial)• programming (UNIX, R, Python, ‘traditional’, web,
database)• technical communication• systems engineering• water resources planning, management and policy
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Questions?
Dr. Andy Wood
CBRFC Development and Operations
Questions?
http://en.wikipedia.org/wiki/Lake_Powell
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MPEMulti-Precip Estimator
MMMountain Mapper Daily QC
End-to-End Operational Forecast Process
Data Processing• Model simulations• Hydrologic analysis• Hydraulic analysis• Bias & error adjustments• Regulation Integration• Collaboration
• Forecast generation• Quality assurance• Dissemination• Web services• Coordination & collaboration• Basin monitoring & review
Modeling Dissemination• Data collection• collation• Data assimilation• Quality control• Forcing construction (HAS)• Forecast Review
GFEGridded Forecast Editor
Observed forcingsPrecipitation + Temperature
+ Freezing level + ET• Process methods vary • Interactive Processes• Threshold and spatial comparisons• Systematic estimation• Manual forcing and over-rides• Hourly and max/min data (temperature)
Quality Control (QC) and processing procedures vary by region and RFCInteractive methodsOutput qualified for model use
Slide by H. Opitz, NWRFC
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NationalModel
Guidance
National Model guidance available to WFO & RFC
WFO & RFC directly share gridded forecasts via GFE exchange
Grids at 4km or 2.5km
RFCs employ grid and point forcings to hydrologic model
Point or gridded data converted to mean areal forcings
GFEGridded Forecast Editor
National Center SupportForecast Forcings
WFO Weather Forecast Office
RFC River Forecast Center
Slide by H. Opitz, NWRFC
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End-to-End Operational Forecast Process
Data Assimilation• Data collation• Data assimilation• Quality control• Forcing construction (HAS)• Forecast Review
Modeling Dissemination• Model simulations• Hydrologic analysis• Hydraulic analysis• Bias & error adjustments• Regulation Integration• Collaboration
• Forecast generation• Quality assurance• Dissemination• Web services• Coordination & collaboration• Basin monitoring & review
Sacramento Soil MoistureAccounting Model
Data Assimilation Dissemination
Observed Hydrology
Simulation and Analysis
NWS: Streamflow Forecasting is an iterative & interactive processAnalysis & Assessment
Bias adjustments and error corrections Also: SNOW-17 Temperature index model for simulating snowpack accumulation and melt
Slide by H. Opitz, NWRFC
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Historical Simulation
Q
SWESM
Historical Data ForecastsPast Future
e.g., SNOW-17 / SAC
Fig. M. Clark (NCAR)
Streamflow Prediction Challenges:forecast future weather (hours to seasons)
SNOW-17 / SAC
General State of Practice• conduct ensemble simulation at fine-time step (e.g., sub-daily); aggregate to client needs
(e.g., daily to seasonal information)• adjust results to compensate for known model biases (practice varies)
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Assessing regional variations
– Based on ~420 watersheds, 30 year hindcasts
Motivation Development & Performance Predictability SummaryEnsemble Forcing
Results are preliminary and subject to change
![Page 53: 1 Seasonal Streamflow Forecasting – Current Practice, Challenges and Opportunities Hydrologic Sciences & Water Resources Engineering Seminar Series Boulder,](https://reader036.vdocuments.site/reader036/viewer/2022081519/56649dac5503460f94a9be08/html5/thumbnails/53.jpg)
Assessing regional variations
– Based on ~420 watersheds, 30 year hindcasts
Motivation Development & Performance Predictability SummaryEnsemble Forcing
Results are preliminary and subject to change
![Page 54: 1 Seasonal Streamflow Forecasting – Current Practice, Challenges and Opportunities Hydrologic Sciences & Water Resources Engineering Seminar Series Boulder,](https://reader036.vdocuments.site/reader036/viewer/2022081519/56649dac5503460f94a9be08/html5/thumbnails/54.jpg)
Assessing regional variations
– Based on ~420 watersheds, 30 year hindcasts
Motivation Development & Performance Predictability SummaryEnsemble Forcing
Results are preliminary and subject to change
![Page 55: 1 Seasonal Streamflow Forecasting – Current Practice, Challenges and Opportunities Hydrologic Sciences & Water Resources Engineering Seminar Series Boulder,](https://reader036.vdocuments.site/reader036/viewer/2022081519/56649dac5503460f94a9be08/html5/thumbnails/55.jpg)
Flow Forecast Skill Sensitivities
A Rain-Driven Basin
• IC skill matters most for 1 month forecasts
• For longer forecasts, met forecast skill dominates
Assuming no skill in one source (model accuracy for watershed states, or forecasts)…what are the benefits of adding skill in the other source?
Results are preliminary and subject to change
![Page 56: 1 Seasonal Streamflow Forecasting – Current Practice, Challenges and Opportunities Hydrologic Sciences & Water Resources Engineering Seminar Series Boulder,](https://reader036.vdocuments.site/reader036/viewer/2022081519/56649dac5503460f94a9be08/html5/thumbnails/56.jpg)
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Atmospheric Pre-Processor: calibrationOff line, model joint distribution between single-valued forecast and
verifying observation for each lead time
X
Y
Forecast
Obs
erve
d
0
Joint distributionSample Space
PDF of Observed PDF of Obs. STD Normal
NQT
Schaake et al. (2007), Wu et al. (2011)
ForecastO
bser
ved
Joint distributionModel Space
X
YCorrelation (X,Y)
Archive of observed-forecast pairs
PDF of Forecast PDF of Fcst STD Normal
NQT
NQT: Normal Quantile Transform
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Atmospheric Pre-Processor: ensemble generation (1)
In real-time, given single-valued forecast, generate ensemble traces from the conditional distribution for each lead time
Forecast
Obs
erve
d
Joint distributionModel Space
xfcst X
Y
Given single-valued forecast,obtain conditional distribution
xi xn
Conditional distribution given xfcst
Ensemble forecast
Prob
abili
ty
0
1
x1
Schaake et al. (2007), Wu et al. (2011)
…
Ensemble members for that
particular time step
x1
xn
NQT-1
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Abstract
Seasonal Streamflow Forecasting - Current Practice, Challenges and Opportunities
Several US agencies are charged with operationally producing seasonal streamflow forecasts, which are a critical input to water management throughout the US, and particularly in the western US, where flood-prone winters and dry summers necessitate careful decision-making over water allocation and use. Water supply forecasts (WSFs) that predict the volume of snowmelt-driven runoff in the spring and early summer, for example, are a critical product informing theregulation of major storage projects such as Lakes Powell and Mead. This presentation focuses on the tradition of water supply forecasting and describes an approach for diagnosing the sources ofprediction skill. The talk will also highlight strengths and weaknesses of the current practice and suggest potential methodological opportunities for WSF improvement.