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To support the development of a total maximum daily load (TMDL) for
water temperature in the Willamette Basin, the laterally averaged,
two-dimensional model CE-QUAL-W2 was used to construct a water
temperature and streamflow model of the Santiam and North Santiam
Rivers. The rivers were simulated from downstream of Detroit and
Big Cliff dams to the confluence with the Willamette River. Inputs
to the model included bathymetric data, flow and temperature from
dam releases, tributary flow and temperature, and meteorologic
data. The model was calibrated for the period July 1 through
November 21, 2001, and confirmed with data from April 1 through
October 31, 2002. Flow calibration made use of data from two
streamflow gages and travel-time and river-width data. Temperature
calibration used data from 16 temperature monitoring locations in
2001 and 5 locations in 2002. A sensitivity analysis was completed
by independently varying input parameters, including point-source
flow, air temperature, flow and water temperature from dam
releases, and riparian shading. Scenario analyses considered
hypothetical river conditions without anthropogenic heat inputs,
with restored riparian vegetation, with minimum streamflow from the
dams, and with a more-natural seasonal water temperature regime
from dam releases.
The United States Geological Survey (USGS) is a scientific
organization created in 1879, and is part of the U.S. government.
Their scientists explore our environment and ecosystems, to
determine the natural dangers we are facing. The agency has over
10,000 employees that collect, monitor, and analyze data so that
they have a better understanding of our problems. The USGS is
dedicated to provide reliable, investigated information to enhance
and protect our quality of life. This is one of their circulars.
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