Water runoff predictions scaled back
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January 26, 2013 |
The bad news is that, after a mostly dry late
December and first three weeks of January,
forecasts of available water runoff volumes
during this coming spring and summer in the
Columbia River basin have been trending
downward.
The good news is that a wet late fall and early
winter provided a snowpack cushion for fish,
irrigators, hydro producers and other water
users, and the near-term forecast looks a bit
wetter than the near-term past.
According to data posted online by the National
Weather Service’s Northwest River Forecast
Center, precipitations across the Columbia-Snake
river basin have been well below average so far
in January. That’s a month that is normally one
of the region’s wettest.
Kootenai River snowpacks in Montana have dropped
from 116 percent of average January 1 to 97
percent of average January 22, according to data
posted online by the Natural Resources
Conservation Service from its SNOTEL automated
measuring stations.
Drainages in the Idaho panhandle now are
estimated to be stocked with snowpacks at 89
percent of average (through January 22)
“snow-water equivalents,” which is down from 109
percent of average readings through January 1.
In the part of the basin upstream of the lower
Columbia River’s The Dalles Dam, precipitation
from Jan. 1 through Jan. 21, has totaled only 53
percent of the 30-year average (1971-2000).
The Dalles, straddling the river on the
Oregon-Washington border, is located about 192
river miles from the mouth of Columbia at the
Pacific Ocean and is the second dam salmon and
steelhead must pass on their way upstream to
spawn in the Columbia, Snake and their
tributaries. Runoff from the mid- and upper
Columbia and the Snake River pass by the dam.
The January precipitation above The Dalles
brought down the seasonal number (Oct. 1-Jan.21)
to 103 percent of average. Early rain and snow
had pushed precipitation totals well above
average.
The latest water volume forecast from the NWRFC
pegs runoff from April-September past The Dalles
to be 95 percent of the 30-year average
(1981-2010), about 87.8 million acre feet. The
average is 92.7 MAF. That forecast is down from
a Jan. 4 forecast -- based on information
collected through Jan. 1 -- that estimated the
most likely April-September runoff volume would
be 101 percent of normal.
The forecasts are based on an “ensemble
streamflow prediction” technique that uses a
conceptually based modeling system to simulate
soil moisture, snowpack, dam regulation, and
streamflow. ESP then accesses the current
hydrologic model states, and uses historical
meteorological data to create equally likely
sequences of future hydrological conditions,
each starting with the current hydrological
conditions. Statistical analysis is performed on
these sequences to generate probabilistic
forecasts of seasonal water supply.
The totals reported here are based on an ESP
forecast issued Tuesday, based on data collected
through Monday. The runoff forecasts use the
latest 10-day weather forecasts for the region,
which predict for the most part a return to
rainy and snowy conditions.
The April-September forecast for the
mid-Columbia’s Grand Coulee Dam was, as of
Wednesday’s forecast, 96 percent of the 30-year
average – 57.7 MAF as compared to the 60.1 MAF
average. That Jan. 22 forecast is down slightly
from a 97 percent forecast issued Jan. 4.
Rainfall in the Columbia River basin above Grand
Coulee in Idaho, Montana and Washington and
British Columbia was 63 percent of average Jan.
1-21, though still 115 percent of average for
the water year so far (Oct. 1-Jan. 21).
The forecast runoff volume past the lower Snake
River’s Lower Granite Dam April-September is 94
percent of average, 20.9 MAF as compared to the
22.3 MAF average. That’s down from a 103 percent
of average forecast issued Jan. 4. The Jan. 1-21
precipitation above the lower Snake’s Ice Harbor
Dam in Idaho and Oregon and parts of Nevada,
Utah and Wyoming was 43 percent of average,
according to the NWRFC.
The Snake starts in Wyoming, runs across
southern Idaho and along the Idaho-Oregon
border, and then feeds into the Columbia in
southeast Washington. Both Ice Harbor and Lower
Granite are in southeast Washington.
The NWRFC forecast estimates that the most
likely runoff past northwest Montana’s Libby Dam
will be 96 percent of average or 5.8 MAF. The
runoff forecast for west-central Idaho’s North
Fork of the Clearwater River, as measured at
Dworshak Dam, is 99 percent of average.
Snowpacks across the Columbia/Snake river basin
in the United States have also slipped over the
past several weeks.
The Big and Little Lost river drainages had
snowpack snow-water equivalents at 130 percent
of average through Jan. 22, which has decreased
from 155 percent of average Jan. 1. Most other
drainages in southern Idaho have lesser
snowpacks in place, as a percent of average,
than earlier in the season.
The Deschutes, John Day and Crooked river
drainages in north-central Oregon now have 84
percent of average SWE in snowpacks, which is
down from 107 percent Jan. 1.
The Chelan, Entiat and Wenachtee subbasins in
central Washington had 105 percent of average
snowpack SWE through Jan. 22, down from 124
percent on New Year’s Day. And the nearby Yakima
and Ahtanum subbasins are now at 108 percent of
average, down from 147 percent three weeks
earlier, according to the NRCS.
A major climate dynamic– the El Nino-Southern
Oscillation – that can influence Northwest
weather, has taken a rest.
“Tropical Pacific observations and model
outlooks suggest the current neutral El
Niño-Southern Oscillation (ENSO) state will
continue into the southern hemisphere autumn,”
according to a Jan. 15 ENSO update posted online
by the Australian Government Bureau of
Meteorology.
“All indicators of ENSO are currently within the
neutral range. The tropical Pacific Ocean has
cooled over recent months after
warmer-than-normal waters were present during
mid to late 2012. Despite cooling, tropical
ocean temperatures remain within the neutral
range.”
“As expected, the Southern Oscillation Index (SOI)
has returned to near-zero values as the
influence of local tropical weather systems
dissipated. Other atmospheric indicators of ENSO
such as the trade winds and tropical cloud
patterns also remain within the neutral range,”
the Bureau of Meteorology update says.
Likewise NOAA’s Climate Prediction Center says
ENSO-neutral is favored through the Northern
Hemisphere’s spring 2013.
“… it is considered unlikely that an El Niño or
La Niña will develop during the next several
months,” according to a Jan. 10 Climate
Prediction diagnostic discussion.
ENSO is a source of inter-annual climate
variability in the Pacific Northwest, and
elsewhere, according to the Climate Impacts
Group at the University of Washington. ENSO
variations are known as El Niño (the warm phase)
or La Niña (the cool phase). A cool phase – La
Nina – generally tilts the odds in favor of
cooler, wetter fall-winter seasons in the
Northwest.
An El Niño is characterized by stronger than
average sea surface temperatures in the central
and eastern equatorial Pacific Ocean, reduced
strength of the easterly trade winds in the
Tropical Pacific, and an eastward shift in the
region of intense tropical rainfall, the CIG
says. La Niña features the opposite conditions.
“Average years, i.e., years where there is no
statistically significant deviation from average
conditions at the equator, are called
ENSO-neutral. Each ENSO phase typically lasts 6
to 18 months,” according to information posted
on CIG’s web page,
http://cses.washington.edu/cig/.
The past two years largely featured La Nina
conditions and the previous year El Nino. |
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