View
45
Download
0
Category
Tags:
Preview:
DESCRIPTION
Hydrologic Implications of Climate Change for the Western U.S. Alan F. Hamlet, Philip W. Mote, Dennis P. Lettenmaier JISAO/CSES Climate Impacts Group Dept. of Civil and Environmental Engineering University of Washington. Recession of the Muir Glacier. Aug, 13, 1941. Aug, 31, 2004. - PowerPoint PPT Presentation
Citation preview
Alan F. Hamlet, Philip W. Mote, Dennis P. Lettenmaier
•JISAO/CSES Climate Impacts Group•Dept. of Civil and Environmental Engineering
University of Washington
Hydrologic Implications of Climate Change for the Western U.S.
Image Credit: National Snow and Ice Data Center, W. O. Field, B. F. Molniahttp://nsidc.org/data/glacier_photo/special_high_res.html
Aug, 13, 1941 Aug, 31, 2004
Recession of the Muir Glacier
DJF Temp (°C) NDJFM Precip (mm)
PNW
CA CRB
GB
Cool Season Climate of the Western U.S.
Global Climate Change Scenarios and Hydrologic Impacts for the PNW
Consensus Forecasts of Temperature and Precipitation Changes from IPCC AR4 GCMs
Pacific Northwest
°C
0.4-1.0°C0.9-2.4°C 1.2-5.5°C
Obse
rved 2
0th
centu
ry v
ari
abili
ty
+1.7°C+0.7°C
+3.2°C
Pacific Northwest
% -1 to +3%
-1 to +9% -2 to +21%
Obse
rved 2
0th
centu
ry v
ari
abili
ty
+1% +2%
+6%
Will Global Warming be “Warm and Wet” or “Warm and Dry”?
Answer: Probably BOTH!
150000
200000
250000
300000
350000
400000
45000019
00
1910
1920
1930
1940
1950
1960
1970
1980
1990
2000
Ap
r-S
ept F
low
(cfs
)
Natural Flow Columbia River at The Dalles
-3
-2
-1
0
1
2
3
419
16
1920
1924
1928
1932
1936
1940
1944
1948
1952
1956
1960
1964
1968
1972
1976
1980
1984
1988
1992
1996
2000
Std
An
om
alie
s R
elat
ive
to 1
961-
1990
PNW
CA
CRB
GB
Regionally Averaged Cool Season Precipitation Anomalies
PRECIP
Snow Model
Schematic of VIC Hydrologic Model and Energy Balance Snow Model
The warmer locations are most sensitive to warming
+2.3C,+6.8% winter precip
2060s
April 1 SWE (mm)
20th Century Climate “2040s” (+1.7 C) “2060s” (+ 2.25 C)
-3.6% -11.5%
Changes in Simulated April 1 Snowpack for the Canadian and U.S. portions of the Columbia River basin(% change relative to current climate)
-21.4% -34.8%
Mote P.W.,Hamlet A.F., Clark M.P., Lettenmaier D.P., 2005, Declining mountain snowpack in western North America, BAMS, 86 (1): 39-49
Trends in April 1 SWE 1950-1997
Trend %/yr
DJF
avg
T (
C)
Trend %/yr
Overall Trends in April 1 SWE from 1947-2003
Trend %/yr
DJF
avg
T (
C)
Trend %/yr
Temperature Related Trends in April 1 SWE from 1947-2003
Trend %/yr
DJF
avg
T (
C)
Trend %/yr
Precipitation Related Trends in April 1 SWE from 1947-2003
0
20
40
60
80
100
120
oct nov dec jan feb mar apr may jun jul aug sep
Sim
ula
ted
Bas
in A
vg R
un
off
(m
m)
1950
plus2c
Simulated Changes in Natural Runoff Timing in the Naches River Basin Associated with 2 C Warming
Impacts:•Increased winter flow•Earlier and reduced peak flows•Reduced summer flow volume•Reduced late summer low flow
0
50
100
150
200
250
oct nov dec jan feb mar apr may jun jul aug sep
Sim
ula
ted
Bas
in A
vg R
un
off
(m
m)
1950
plus2c
Chehalis River
0
50
100
150
200
250
300
350
400
450
500
oct nov dec jan feb mar apr may jun jul aug sep
Sim
ula
ted
Bas
in A
vg R
un
off
(m
m)
1950
plus2c
Hoh River
0
20
40
60
80
100
120
140
160
180
200
oct nov dec jan feb mar apr may jun jul aug sep
Sim
ula
ted
Bas
in A
vg R
un
off
(m
m)
1950
plus2c
NooksackRiver
Mapping of Sensitive Areas in the PNW by Fraction of Precipitation Stored as Peak Snowpack
HUC 4 Scale Watersheds in the PNW
Changes in Flood Risk in the Western U.S.
-1.00
-0.50
0.00
0.50
1.00
1.50
2.00
2.50
3.00
oct nov dec jan feb mar apr may jun jul aug sepL
inea
r T
ren
d (
Deg
. C p
er c
entu
ry)
CA
CRB
GBAS
PNW
0.00
0.50
1.00
1.50
2.00
2.50
3.00
3.50
4.00
oct nov dec jan feb mar apr may jun jul aug sep
Lin
ear
Tre
nd
(D
eg. C
per
cen
tury
)
CA
CRB
GBAS
PNWTmin
Tmax
PNW
CA CRB
GB
Regionally Averaged Temperature Trends Over the Western U.S. 1916-2003
X20 2003 / X20 1915
DJF
Avg
Tem
p (
C)
DJF
Avg
Tem
p (
C)
Simulated Changes in the 20-year Flood Associated with 20th Century Warming
X20 2003 / X20 1915 X20 2003 / X20 1915
-3
-2
-1
0
1
2
3
419
16
1920
1924
1928
1932
1936
1940
1944
1948
1952
1956
1960
1964
1968
1972
1976
1980
1984
1988
1992
1996
2000
Std
An
om
alie
s R
elat
ive
to 1
961-
1990
PNW
CA
CRB
GB
Regionally Averaged Cool Season Precipitation Anomalies
PRECIP
DJF
Avg
Tem
p (
C)
20-year Flood for “1973-2003” Compared to “1916-2003” for a Constant Late 20th Century Temperature Regime
X20 ’73-’03 / X20 ’16-’03
X20 ’73-’03 / X20 ’16-’03
150000
200000
250000
300000
350000
400000
450000
1900
1910
1920
1930
1940
1950
1960
1970
1980
1990
2000
Ap
r-S
ept F
low
(cfs
)Natural Flow Columbia River at The Dalles, OR
Effects of ENSO on Cool Season Climate in the PNW
Red = warm ENSO, Green = ENSO neutral, Blue = cool ENSO
DJF
Avg
Tem
p (
C)
DJF
Avg
Tem
p (
C)
DJF
Avg
Tem
p (
C)
X100 nENSO / X100 2003 X100 cENSO / X100 2003X100 wENSO / X100 2003
X100 nENSO / X100 2003 X100 cENSO / X100 2003X100 wENSO / X100 2003
Summary of Flooding Impacts
Rain Dominant Basins:Possible increases in flooding due to increased precipitation variability, but no significant change from warming alone.
Mixed Rain and Snow Basins Along the Coast:Strong increases due to warming and increased precipitation variability (both effects increase flood risk)
Inland Snowmelt Dominant Basins:Relatively small overall changes because effects of warming (decreased risks) and increased precipitation variability (increased risks) are in the opposite directions.
Landscape Scale Ecosystem Impacts
19101910 19301930 19501950 19701970 19901990 2010201000
1.01.0
2.02.0
3.03.0
4.04.0
5.05.0
6.06.0
YearYear
8.08.0
7.07.0
19991999
20012001
20002000
20032003
20022002
Ann
ual a
rea
(ha
× 1
06 ) a
ffect
ed b
y M
PB
in B
CA
nnua
l are
a (h
a ×
106 )
affe
cted
by
MP
B in
BC
200520059.09.0
20042004
Bark Beetle Outbreak in British Columbia
(Figure courtesy Allen Carroll)
Temperature thresholds for coldwater fish in freshwater
+1.7 °C+1.7 °C +2.3 °C+2.3 °C
• Warming temperatures will increasingly stress coldwater fish in the warmest parts of our region– A monthly average temperature of 68ºF (20ºC) has been used as an upper
limit for resident cold water fish habitat, and is known to stress Pacific salmon during periods of freshwater migration, spawning, and rearing
•Changes in water quantity and timingReductions in summer flow and water supplyIncreases in drought frequency and severityChanges in hydrologic extremes
Changing flood risk (up or down) Summer low flows
Changes in groundwater supplies•Changes in water quality
Increasing water temperatureChanges in sediment loading (up or down)Changes in nutrient loadings (up or down)
•Changes in land cover via disturbanceForest fireInsectsDiseaseInvasive species
•Changes in wildlife habitat and behaviorFood availability in mountain environmentsChanges in migratory behavior
Impact Pathways Associated with Climate
•Changes in water management practiceHydropower production (energy demand)Flood control operations (changing flood risk and refill
statistics)Instream flow augmentationUse of storage to control water temperature
•Changes in Ecosystem Protection and Recovery PlanningDesign of fish and wildlife recovery plansHabitat restoration efforts ESA listings (as a process)Monitoring programs
•Changes in outdoor recreationTourismSkiingCampingBoatingFishingHuntingORV use
Impact Pathways Associated with Climate
•Anticipate changes. Accept that the future climate will be substantially different than the past.
•Use scenario based planning to evaluate options rather than the historic record.
•Expect surprises and plan for flexibility and robustness in the face of uncertain changes rather than counting on one approach.
•Plan for the long haul. Where possible, make adaptive responses and agreements “self tending” to avoid repetitive costs of intervention as impacts increase over time.
Approaches to Adaptation and Planning
http://www.cses.washington.edu/cig/fpt/guidebook.shtml
Recommended