Institute for Energy, Environment and Sustainable Communities (IEESC) University of Regina
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Transcript of Institute for Energy, Environment and Sustainable Communities (IEESC) University of Regina
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Institute for Energy, Environment and Sustainable Communities (IEESC)University of Regina
Regina, Saskatchewan, Canada
Development of Climate Change Projections for Prairie Hydrological
and Water Quality Modeling(funded by the Canadian Water Network)
*Hua Zhang and Gordon Huang
The 4th NARCCAP Users’ Meeting, April 10-11, 2012, Boulder, CO.
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The Canadian Prairies520,000 km2
Breadbasket of CanadaCritical
ecosystem services
<100 km2
Semi-arid climateSnow-dominated
hydrologyAgricultureSensitive to
climate change
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Projection of Climate ChangeTrends in impacts studies in prairie region…
GCM Single RCM RCM ensemble
Challenge #1How to evaluate and combine RCMs? Different time scales Different statistical features Precipitation occurrence
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Projection of Climate ChangeTrends in impacts studies in prairie region…
GCM Single RCM RCM ensemble
Challenge #2How to fit small prairie watersheds? 2500-km2 grid vs 100-km2 watershed Statistical downscaling Multiple weather series
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Framework
WeatherGenerator
Site-scale validation/projection Monthly shifts Multiple weather series
WeightedEnsemble
Multiple RCMs Evaluation metrics Weighting and projection
Watershed Simulation
Integrated simulation system Uncertainty analysis Risk analysis
Coupled Downscaling
Integrated Watershed Modeling
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Metrics for RCM Evaluation
M1
M2
M3
M4
M5
Metrics
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Metrics for RCM Evaluation
M1
M2
M3
M4
M5
Metrics
Interannual circulation pattern
• Variability of annual temperature (SD):
• Variability of annual precipitation (CV):
• Linear trend of annual temperature (regression coefficient)
• Linear trend of annual precipitation (regression coefficient)
1 var( )( )
T
RCM OBS
M Tabs STD STD
1 var( )( )
P
RCM OBS
M Pabs CV CV
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Metrics for RCM Evaluation
M1
M2
M3
M4
M5
Metrics
Seasonal circulation pattern• Correlation of seasonal temperature
• Correlation of seasonal precipitation
• Interconnection of seasonal temperature and precipitation
2( ( , ) ( , ))
( , ) 12
OBS RCMabs R P T R P TM P T
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Metrics for RCM Evaluation
M1
M2
M3
M4
M5
Metrics
PDFs of daily variables• Overlap of daily minimum
temperature PDFs
• Overlap of daily maximum temperature PDFs
• Overlap of daily precipitation PDFs
(Perkins et al. 2007)
31
( ) min( ( ), ( ))N
OBS RCMM P Z P Z P
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Metrics for RCM Evaluation
M1
M2
M3
M4
M5
Metrics Extreme events• 99.7th of daily precipitation
• 0.03rd of daily minimum temperature
• 99.7th of daily maximum temperature
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Metrics for RCM Evaluation
M1
M2
M3
M4
M5
Precipitation Occurrence• Length of wet and dry spells
• Occurrence of wet day (wet-wet: probability of a wet day following a wet day; wet-dry: probability of wet day following a dry day)
Metrics
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Combination of Metrics
Weights of RCMs:5
,1
iki i j
j
W M
??? Precipitation:1
n
ENS i ii
P W P
Ensemble-based projection:
Temperature:1
n
ENS i ii
T WT
Day RCM1(w=0.3)
RCM2(w=0.4)
RCM3(w=0.3) ENS
D1 3 0 0 0.9
D2 0 5 3 2.9
D3 0 0 2 0.6
D4 3 4 0 2.1
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Combination of Metrics
Weights of RCMs:5
,1
iki i j
j
W M
Precipitation:
Day RCM1(w=0.3)
RCM2(w=0.3)
RCM3(w=0.4) ENS
D1 3 0 0 0
D2 0 5 3 2.9
D3 0 0 2 0
D4 3 4 0 2.1
For example, W* = 0.5
Ensemble-based projection:
Temperature:1
n
ENS i ii
T WT
*
1 1
*
1
,
0,
1 0, 0 0.
n n
i i i i ii i
ENS n
i ii
i i i
W P if W WP
if W W
where for P or for P
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LARS-WG Developed by Semenov and Barrow (1997) Alternate wet/dry series by monthly semi-empirical distributions Daily values calculated by Fourier series and normal distribution Using monthly shifts to reflect climate change (from the ensemble)
Stochastic Weather Generator (SWG)
SWG: reproduce observed climate normals, but not the actual sequences of single events
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New Willows
Old Willows
New Willows
Old Willows
New Willows
Old Willows
Study Area
The Assiniboia WatershedArea: 49.7 km2
Elevation: 693 -773 mLand use: farmingSoil: ChenozemicsAnnual T: 3.9 ゚ CAnnual P: 393 mmAnnual PET: 1135 mm
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Data CollectionRCMs CRCM, OURANOS, Canada (DAI & NARCCAP) HRM3, Hadley Centre, UK (NARCCAP) RCM3, UC Santa Cruz, US (NARCCAP) WRFG, PNNL, US (NARCCAP)
Projection Baseline: 1971–2000 Future: 2041–2070 (A2) Models: CGCM3/CRCM, HadCM3/HRM3,
CCSM/WRFG, GFDL/RCM3
Validation Driving data: NCEP II (1974-2003) Observation data: Canada 10-km
gridded dataset (1961–2003), produced by AAFC & NRC
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Results: Evaluation of RCMs and Ensemble
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Projection of Climate Change (by ensemble)Climate Change Predicted
Month Tmin* Tmax
* Tstd** Precip** Wet Spell** Dry Spell**
Jan 4.91 3.88 0.15 0.36 0.27 -0.27Feb 2.66 2.06 -0.06 0.24 -0.05 -0.09Mar 2.32 2.15 -0.20 -0.15 0.09 0.23Apr 2.31 2.58 -0.35 0.22 0.00 -0.04May 1.90 1.40 -0.38 0.20 0.21 0.01Jun 3.29 1.69 -0.08 -0.01 -0.04 0.28Jul 3.66 1.73 -0.20 0.03 -0.07 -0.17Aug 4.04 1.30 0.01 0.79 0.04 -0.19Sep 3.09 2.88 -0.26 -0.29 -0.11 0.02Oct 2.88 2.60 -0.25 -0.08 0.02 0.01Nov 3.47 3.12 0.27 -0.24 -0.01 0.26Dec 2.36 1.53 0.02 -0.04 -0.04 0.13Annual 3.07 2.24 -0.11 0.09 0.03 0.01
Note: * absolute change; ** relative change.
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Results: Validation of LARS-WGClimate Change Predicted
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Results: Projection of Climate ChangeClimate Change Predicted
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RCM performance Warm bias in winter temperature Dry bias in summer rainfall Misinterpretation of prairie landscape (small wetlands)
Further improvement Weighting scheme (threshold of precipitation
occurrence; multicriteria assessment) Sample size (models and scenarios) Multi-site weather generator
Discussion
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Surface data (topography, bathymetry, soil, land use, etc.)
Hydrological module
Biochemical module
N Cycle
P Cycle DO Balance
Phyto. Kinetics
Hydrodynamic module
Thermal module
OverlandFlow (Q, T)
LateralFlow (Q, T)
ChannelFlow (Q, T)
Point Loading (N, P, DO, BOD)
Diffusive Loading (N, P, DO, BOD)
Vel, Depth Water T
Meteorological data (Tmp, Wind, Hum, Rad, Precip, Cloud, etc.)
Water Use
Watershed Model
Hydrodynamic Model
Eutrophication Model
Multi-level Watershed-reservoir Modeling System (MWRMS)
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Metereological Data
49.61° N, 105.87° W, Vantage Pro2-6162
Temperature, precipitation,wind direction & speed, humidity, radiation, pressure(Daily or 30-min)
2009-2010
49.73° N, 105.95° W, STN# 4020286
1960-2010
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Hydrolocial Data
Assiniboia water plant station: weekly water level, 1978 - 2010 PFRA station: daily inflow rate, 1976 – 2003
Automatic water logger (WL16) Water level & temperature (30-min) 2009 - 2011
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Water Quality Data
Automatic monitoring DO, turbidity, BGA, Chlα, pH,
temperature, water depth per 30-min, 2009 – 2010Sampling & lab analysis NO3-N, NH4-N, TKN, SP, TP,
BOD, Chlα, Ortho-P wkly/mthly, 2008 – 2010
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Calibration Results: Watershed HydrologyCalibration
ValidationCalibration:NS = 0.83PBIAS = 0.41Validation:NS =0.95 PBIAS = 10.83
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Calibration Results: Reservoir Water Quality
0.0
1.0
2.0
3.0
4.0
5.0
121
142
163
184
205
226
247
268
289
340
361
137
158
179
200
221
242
263
284
TN (mg/L)
0.0
0.2
0.4
0.6
0.8
1.0
121
142
163
184
205
226
247
268
289
340
361
137
158
179
200
221
242
263
284
NO3 (mg/L)
0.0
0.3
0.6
0.9
1.2
1.5
121
142
163
184
205
226
247
268
289
340
361
137
158
179
200
221
242
263
284
NH4 (mg/L)
0.0
0.5
1.0
1.5
2.0
121
142
163
184
205
226
247
268
289
340
361
137
158
179
200
221
242
263
284
TP (mg/L)
0.0
0.4
0.8
1.2
1.6
2.0
121
142
163
184
205
226
247
268
289
340
361
137
158
179
200
221
242
263
284
Ortho-P (mg/L)
0.0
5.0
10.0
15.0
20.0
25.0
121
142
163
184
205
226
247
268
289
340
361
137
158
179
200
221
242
263
284
DO (mg/L)
0
50
100
150
200
121
142
163
184
205
226
247
268
289
340
361
137
158
179
200
221
242
263
284
Chla (μg/L)
Site: OWR-S5 Depth: 0.5 m Time: 2009 – 2010
0.0
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
4.5
121
134
147
160
173
186
199
212
225
238
251
264
277
290
303
346
359
127
140
153
166
179
192
205
218
231
244
257
270
283
296
TN (mg/L)
Simulation
ObservationSimulationObservation
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0.0
0.2
0.4
0.6
0.8
1.0
Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec
Snow
/Rai
n Future
Baseline
Hydrological Response to Climate Change ChangeHydrometeorological Changes
0.0
2.0
4.0
6.0
8.0
Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec
Wat
er Y
ield
(mm
)
Future
Baseline
0
20
40
60
80
100
Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec
ET (m
m)
Future
Baseline
0.0
0.1
0.2
0.3
0.4
0.5
Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec
ET/P
ET
Future
BaselineSnow/Total P
ET
ET/PET
Water Yield
Less snow; increased ET; decreased water yield
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Biogeochemical Responses to Climate Change More nutrient loss; degraded water quality (eutrophication)
0.0
1.0
2.0
3.0
4.0
5.0
May Jun Jul Aug Sep Oct
TN (m
g/L)
TNFuture Baseline
0.0
0.4
0.8
1.2
1.6
2.0
May Jun Jul Aug Sep Oct
TP (m
g/L)
TPFuture Baseline
0
4
8
12
16
20
May Jun Jul Aug Sep Oct
DO (m
g/L)
DOFuture Baseline
0
20
40
60
80
100
May Jun Jul Aug Sep Oct
Chl-a
(µg/
L)
ChlαFuture Baseline
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Related PublicationsClimate Change Predicted
Zhang, H., Huang, G.H., Wang, D.L., et al.. An integrated multi-level watershed-reservoir modeling system for examining hydrological and biogeochemical processes in small prairie watersheds. Water Research, 46(4): 1207-1224.Zhang, H. and Huang, G.H. (2009). Building channel networks for flat regions in digital elevation models. Hydrological Processes, 23(20): 2879-2887.Zhang, H., Huang, G.H., Wang, D.L. and Zhang, X.D. (2011). Uncertainty assessment of climate change impacts on the hydrology of small prairie wetlands. Journal of Hydrology, 396(1-2): 94-103.Zhang, H., Huang, G.H., Wang, D.L. and Zhang, X.D. (2011). Multi-period calibration of a semi-distributed hydrological model based on hydroclimatic clustering. Advances in Water Resources, 34: 1293-1303.
Zhang, H. and Huang, G.H. Development of climate change projections for small prairie watersheds using a weighted multi-RCM ensemble and a stochastic weather generator. Climate Dynamics. Zhang, H. and Huang, G.H. An integrated stochastic-fuzzy modeling approach for risk assessment of soil water deficit and reservoir water quality degradation under climate change. Science of the Total Environment.
Published:
Under Review:
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Coupled downscaling: Ensemble + SWG Enhanced confidence Increased resolution Improved efficiency
Better connection with watershed hydrological and biogeochemical modeling
Better support for impact studies in small prairie watersheds
Summary
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Recommendations to NARCCAPClimate Change Predicted
Distribute biweekly or monthly newsletters
Provide online training courses for data analysis and management
Organize online meetings (skype) for small group discussions
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Thank You Very Much