Hydrologic Modeling Tools for Cumulative Hydrologic Impact Assessment L.pdf
Hydrologic Modeling in the Far North: n eeds, challenges, and progress
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Hydrologic Modeling in the Far North: needs, challenges, and progress
Hydrologic Modeling in the Far North: needs, challenges, and progress
Jessica CherryInternational Arctic Research Center (IARC) and Institute of Northern Engineering,
University of Alaska Fairbanks (UAF) & Northern Science Services
Bob Bolton, IARC and Scenarios Network for Alaska Planning (SNAP) at UAF
Katrina Bennett, IARC
Stephanie McAfee, SNAP
Support Acknowledged from the JAMSTEC-IARC Cooperative Agreement, the U.S. Department of Energy, the Alaska Climate Science
Center, and the National Science Foundation
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Needs for Hydrologic Projection in AlaskaNeeds for Hydrologic Projection in Alaska
Communities: many Alaskans live in environmentally sensitive communities, with tenuous water supplies, near rivers that are subject to flooding
J. Cherry
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Needs for Hydrologic Projection in AlaskaNeeds for Hydrologic Projection in Alaska
Municipal, Rural, and Resource Land Managers: many agencies are increasingly accountable for anticipating future changes to their management areas. May or may not have the staff expertise to interpret and make use of projections.
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Needs for Hydrologic Projection in AlaskaNeeds for Hydrologic Projection in Alaska
Technical experts: such as engineers, scientists (including NOAA’s WFO/RFC) are potentially most aware of the model shortcomings, but are obligated to provide best available information for their end-users.
J. Cherry
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Challenges for Hydrologic Projection in AlaskaChallenges for Hydrologic Projection in Alaska
• Climate Change is most amplified in the Arctic
• Climate Models do a poor job of representing many cryospheric processes such as permafrost dynamics, glacial change, river ice, changes in subsurface water storage, etc
• The historical observations in this region are particularly sparse and short
• Our technology for measuring solid precipitation works poorly and changes are difficult to detect
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Challenges for Hydrologic Projection in AlaskaChallenges for Hydrologic Projection in Alaska
Roles of Empirical and Process-based Models:
•The latter may be particularly important for getting the mechanisms correct, i.e. getting projections right for the right reasons•‘Tipping points’ are significant in the Arctic•The former may provide better short-term projections, as measured by prediction of historical events, because historical record may inadequately sample key mechanisms•Doing both gives credibility to projections, esp. when true uncertainties are difficult to quantify
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Progress in Hydrologic Projection in AlaskaProgress in Hydrologic Projection in Alaska
Three approaches highlighted here:
•Downscaled climate products and derived hydrologic fields
•Improvement of cryospheric components of process-based, empirical, and complex models
•Reducing uncertainty in observational record
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Progress in Hydrologic Projection in Alaska: downscaled climate products and derived hydrologic fieldsProgress in Hydrologic Projection in Alaska: downscaled climate products and derived hydrologic fields
Scenarios Network for Alaska and Arctic Planning:
•Statistically downscaled projections of temperature and precipitation for 5 IPCC models that perform best in Alaska available (AR4 done, AR5 in the works), 2km, 800 m, scenarios: B1, A1B, A2, Method: Delta using PRISM •Gridded, downscaled historical data available, 2 km, 800 m •Additional model parameters are being downscaled (wind)•Parameters that are not directly (or poorly) represented in the climate models are being derived (PET, snowfall, vegetation, permafrost distributions, growing season, etc.)•Selected periods of dynamical downscaling available from WRF runs
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MODEL Δ(2080-2099 minus1980-1999)
OBS PET(Hamon)
ENSEMBLE
Figure: S. McAfee
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MODEL Δ(2080-2099 minus1980-1999)
OBS P-PET(Hamon)
ENSEMBLE
Figure: S. McAfee
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Progress in Hydrologic Projection in Alaska:improvement of cryospheric components
Progress in Hydrologic Projection in Alaska:improvement of cryospheric components
Slide: B. Bolton
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Slide: B. Bolton
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Springsnow melt period
Growing season
Autumn
Timing, Magnitude and Pathways
Slide: B. Bolton & J. Cable
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Slide: B. Bolton & J. Cable
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NWS River Forecast Center Hydrologic Modeling Framework: Flood Early Warning System/ Community Hydrologic Prediction System
Progress in Hydrologic Projection in Alaska:Reducing uncertainty in observational record
Progress in Hydrologic Projection in Alaska:Reducing uncertainty in observational record
Slide: K. Bennett
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MODIS Snow Cover ExtentApril 1st, 2011
Slide: K. Bennett
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MODIS Snow Cover ExtentMay 23rd, 2011
Slide: K. Bennett
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SNOW-17/ SAC-SMA - RFC
• SNOW-17, snow air temperature index model• SACramento Soil Moisture Accounting model,
medium complexity, conceptual water balance model, run in lumped mode
Anderson, 2006
Burnash et al. 1973Burnash, 1976Slide: K. Bennett
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UAF-managed Total Precipitation ‘Hot Plate’ Sensor Network: alternative for environments where gauges perform poorly
= potential future hot plate installations
Bar
Atq Olik
TlkUmt
Fox
ATQASUK
BARROW Used for in situ studies and validation of models
J. Cherry
WRF model comparison
= other IARC snow research sites w/o TPS
Poker FlatKougarok
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~5 m/s
~10 m/s
Images: J. Cherry, M. Itomlenskis (ARSC summer intern)
X & Y Velocity fields
MIT wind tunnel testing of ‘Hot Plate’, IR measurement, algorithm development, CFD modeling
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J. Cherry
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Digital Surface Models from Structure from Motion Algorithms
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RECAP:Needs, Challenges, Progress in Hydrologic Projection in Alaska
RECAP:Needs, Challenges, Progress in Hydrologic Projection in Alaska
Progress highlighted here:•Downscaled climate products and derived hydrologic fields•Improvement of cryospheric components of process-based, empirical, and complex models •Reducing uncertainty in observational record
Challenges:•Climate Change is most amplified in the Arctic•Climate Models do a poor job of representing many cryospheric processes such as permafrost dynamics, glacial change, river ice, changes in subsurface water storage, etc•The historical observations in this region are particularly sparse and short•Our technology for measuring solid precipitation works poorly and changes are difficult to detect
Needs highlighted here:•Communities•Municipal, Rural, and Resource Land Managers•Technological Experts
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SPRING (April-May)
SUMMER (June-July)
AUTUMN (Aug-Sept)
Priestley-Taylor ( __ ) Hamon (…)
Figure: S. McAfee