The
latest reconstructions (2006-2007)
Through the
1990s, streamflow reconstructions in the Colorado River basin
had been limited by the tree-ring data available, much of which
was collected in the 1960s and 1970s. In 2000, a concerted effort
to update the old tree-ring chronologies and sample new sites
was undertaken by Connie Woodhouse and colleagues at the National
Climatic Data Center's Paleoclimatology Branch and the University
of Colorado's Institute of Arctic and Alpine Research. By 2004,
they had developed some 60 chronologies in Colorado, Utah, New
Mexico, and Wyoming, within the upper Colorado River basin and
adjacent basins. During this period, Stephen Gray of the University
of Wyoming had also developed several new chronologies in northeastern
Utah and southwestern Wyoming. (See the map below for locations
of these chronologies.)
In the meantime,
the mostly wet conditions in the Colorado River Basin in the 1990s
had given way to drought that began in late 1999. Natural flows
at Lees Ferry in 2000 and 2001 were only 74% and 73% of the long-term
average, respectively. Then the drought worsened markedly in 2002,
with 41% of the average flow, the second-worst year on record
after 1977. The drought continued in 2003 and 2004, with flows
at Lees Ferry still well below average. With lower basin demand
exceeding inflows for five straight years, Lake Powell dropped
to only 33% of capacity in April 2005. The drought raised concerns
for the sustainability of water supplies in the basin, and revived
interest in the longer-term perspective on streamflow variability
provided by tree rings.
Map
showing the locations (green triangles) of tree-ring chronologies
collected after 1997 and used to generate the Woodhouse
et al. (2006) streamflow reconstructions for the Colorado
River basin.
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In 2005, Woodhouse,
Gray, and David Meko of the University of Arizona's Laboratory
of Tree-Ring Research (LTRR) used the network of new tree-ring
chronologies to generate updated reconstructions of streamflow
for the Colorado River. They reconstructed the natural flows at
10 main gages in the basin, including Lees Ferry. Recognizing
the sensitivity of the final output to modeling choices, they
generated multiple reconstructions for each gage using different
techniques to process and calibrate the tree-ring data. The four
reconstructions generated for Lees Ferry were all quite similar,
demonstrating the robustness of the reconstruction result. The
reconstruction below ("Lees-A') was one of the more conservative
models.
.
The
Woodhouse et al. (2006) "Lees-A" reconstruction of
annual streamflow for the Colorado River at Lees Ferry, 1490-1997,
with annual values in green and the 10-year running mean in
black.
The Woodhouse
et al. reconstruction confirmed some of the major findings from
the previous reconstructions: that the early 1900s was anomalously
wet relative to the preceding centuries, and there were numerous
droughts more sustained and/or severe than those of the 20th century.
The reconstructed long-term average annual flow was 14.7 MAF/year
(for the Lees-A model), which is higher than Stockton and Jacoby's
results (13.5 MAF/year) but still lower than the long-term (1906-2004)
observed mean annual flow (15.1 MAF/year).
For
more information about the Woodhouse, Gray and Meko reconstructions
and access to the reconstruction data, see this
webpage at the NOAA Paleoclimatology Branch. |
While the
analyses for the Woodhouse, Gray, and Meko reconstructions were
being completed, new field collections were being made to push
the tree-ring record further back into the past. These new collections
targeted "remnants" from trees that had died long ago,
the wood having been protected from decay by high resin content
and the semi-arid climate. These remnants could then be linked
through cross-dating with the records from living trees, extending
the chronologies past the limit imposed by the maximum ages (about
800 years) of the living trees.
In summer
2005, Woodhouse and Meko directed separate fieldwork in the upper
Colorado River basin to collect remnant wood. Both teams returned
with spectacularly old wood, and several chronologies were extended
back to around AD 400. Meko then used these remnant-extended chronologies
to generate a longer reconstruction of Colorado River streamflow
at Lees Ferry, for the California Department of Water Resources.
This reconstruction used a novel methodology and a set of "nested"
models to take advantage of all of the tree-ring data available
for different periods of time.
 |
Climatologist
Mark Losleben prepares to cut a cross-section from an ancient
log at Green Mountain Reservoir in central Colorado. The
date of the inside ring of this log was 677, and the outside
ring was 1064. Taking into account the erosion of the outermost
wood, this tree has been dead for 600-800 years.
The
ring-width record from this log and other remnant wood from
this site was used in the Meko et al. (2007) reconstruction
of Lees Ferry streamflow back to 762.
(Photo
by Kurt Chowanski) |
The final
reconstruction (figure below) extended over 1200 years (762-2005),
or over twice the length of any previous reconstruction. With
this much longer window into the past, one might expect to see
variability and events not seen in the post-1500 period, and this
was the case. The most extraordinary feature of the reconstruction
was a multi-decade drought in the mid-1100s; during a 57-year
period (1121-1177) only 9 years had reconstructed flow higher
than the gage record mean. An extended drought like this would
provide an enormous challenge to present-day water management
of the Colorado River. Two extended drought periods are also seen
in the 800s; in the second of these, 860-884, 21 of 25 years have
reconstructed flows below the gage record mean. A number of other
proxy records show generally drier conditions in the western U.S.
during the period from about 800 to 1300--often called the Medieval
Warm Period (Cook et al. 2004).
Meko
et al. (2007) reconstruction of annual streamflow for the Colorado
River at Lees Ferry, 762-2005, 20-year running mean in black
(annual values not shown). The yellow bar highlights the severe
and sustained mid-1100s drought.
The
implications for water managers of the two most recent reconstructions
are much the same as those from previous tree-ring work in the
Colorado River basin. First, severe and sustained droughts are
a defining feature of the hydroclimatic regime of the basin. Second,
the observed flows of the last century probably overrepresent
the true long-term yield of the river. The extended Meko et al.
(2007) reconstruction is the first to represent streamflows in
the basin during the Medieval Warm Period, and shows that this
period was marked by several impressive drought events.
For
more information about the Meko et al. reconstruction and
access to the reconstruction data, see this
webpage at the NOAA Paleoclimatology Branch. |
On
to...How the different reconstructions
compare
