USGS Fact Sheet 037–03
April 2003
By Chris D. Wilkowske, David V. Allen, and Jeff V. Phillips
Download a PDF version of this document (840 KB).You will need Adobe Acrobat Reader. Download for free.
“When the well is dry, we learn the worth of water” - Ben Franklin, from Poor Richard’s Almanac, 1733
Utah’s weather is prone to extremes—from severe flooding to multiyear
droughts. Five major floods occurred during 1952, 1965, 1966, 1983, and 1984,
and six multiyear droughts occurred during 1896-1905, 1930-36, 1953-65, 1974-78
(U.S. Geological Survey, 1991), and more recently during 1988-93 and 1999-2002.
The areal extent of floods generally is limited in size from one to several
watersheds, whereas droughts generally affect most or all of the state. Southern
Utah, in
particular the Virgin River drainage basin, began experiencing drought conditions
during the winter of 1998-99. By 2000, drought conditions were evident throughout
all of Utah. The current drought (1999-2002) is comparable in length and magnitude
to previous droughts; however, with population growth and increased demand
for water in Utah, the general effect is more severe.
During
2002, the fourth straight year of nearly statewide drought conditions, some areas
of Utah experienced record-low streamflows. Several record-low
streamflows occurred in streams with records dating back to the 1900s. The
U.S. Geological
Survey (USGS) uses streamflow data from eight long-term streamflow-gaging
stations for comparison of hydrologic conditions in Utah (fig. 1).
Figure 1. Location map of selected streamflow-gaging stations in Utah and Wyoming.
Three
of these gages
registered new record-low annual streamflows for water year 2002 (October
1, 2001, to September 30, 2002): Colorado River near Cisco, San Juan River
near
Bluff, and Virgin River at Virgin. At two other gages in eastern Utah, Whiterocks
River near Whiterocks and Green River near Green River, 2002 was the second
driest year on record. Streamflow in the Upper Colorado River Basin has been
so low
that the water surface of Lake Powell is predicted to be 80 feet below the
fill level by January 2003 (Bureau of Reclamation, 2002). The water level
of Lake
Powell is currently (2003) low enough near Hite Marina (at the upstream end
of the lake) that much of the riverbed of the Colorado and Dirty Devil Rivers
is
exposed, as are the deltaic sediments that have been deposited since the
lake began filling in 1963 (fig. 2).
The adjacent states of Colorado, Arizona, and New
Mexico also have been experiencing extreme drought conditions and the negative
impacts that result. Record-sized forest fires during the summer of 2002 in
Arizona and Colorado were directly related to the extremely dry conditions.
Figure 2. Lake Powell near Hite, Utah. showing exposed channel of the Colorado and Dirty Devil Rivers, which are normally flooded by the lake, as well as the deltaic sediments that are deposited at the upper end of the lake; view to the east in October 2002.
Figure 3. Palmer Drought Severity Index for Utah, 1895-2002.
Data from eight long-term streamflow-gaging stations maintained by the USGS Utah District were used to assess historic and current drought conditions. The stations (fig. 1) were selected from a network of more than 150 stations in Utah and are considered index sites because they generally reflect streamflow conditions in their local area. Major dams have regulated flow on the Colorado, Green, and San Juan Rivers upstream from the index sites since the early 1960s. The Beaver, Virgin, and Weber Rivers are lightly regulated by small headwater reservoirs or power generating facilities. Smiths Fork and the Whiterocks River have small diversions in upper watershed areas but are not regulated upstream from the gages. Despite these modifications to the drainages, these index sites are considered to generally reflect hydrologic conditions in their respective watersheds, including snowpack and the amount of water stored in reservoirs.
A chronology of significant floods and droughts in Utah from 1884 to 2002 and a summary of their effects on infrastructure, population, and the environment is presented in table 1. Prior to current drought conditions, Utah experienced drought on a regional scale most recently in the late 1980s to early 1990s. Other major droughts occurred during 1896-1905, 1930-36, 1953-65, and 1974-78. The average length of these droughts is about 5 years and they recur about every 10 to 20 years.
Flood or Drought |
Date | Area affected | Remarks |
---|---|---|---|
Flood | July 4, 1884 | Colorado River |
Probably snowmelt combined with rainfall. |
Drought | 1896-1907 | Statewide |
Regional. |
Flood | Aug. 13, 1923 | Tributaries to Great Salt Lake between Ogden and Salt Lake City |
Locally intense thunderstorms. Deaths, 7; damage, $300,000. |
Drought | 1930-36 | Statewide |
Regional. |
Flood | Apr. 28-June 11, 1952 | Strawberry, upper Price, upper San Rafael, Ogden, Weber, Provo, and Jordan
Rivers; Blacksmith and Spanish Fork; upper Muddy and Chalk Creeks |
Melting of snowpack having maximum-of-record water content for Apr. 1.
Disaster declared. Deaths, 2; damage, $8.4 million. |
Drought | 1953-65 | Statewide |
Regional. |
Flood | June 16, 1963 | Duchesne River |
Dam failure. |
Flood | June 10-11, 1965 | Ashley Creek and other streams between Manila and Vernal, and west of
Manila |
Three days of intense rainfall on thick snowpack above altitude of 9,200 feet. Deaths, 7; damage, $814,000. |
Flood | Dec. 6-7, 1966 | Virgin and Santa Clara Rivers | Four days of light to intense rainfall of as much as 12 inches. Damage, $1.4 million. |
Flood | Aug. 1-2, 1968 | Cottonwood Wash and other nearby tributaries to
San Juan River |
Locally intense thunderstorms following 11 days of rainfall. Damage, $34,000. |
Flood | Sept. 5-7, 1970 | San Juan River and tributaries from McElmo Creek to Chinle Creek |
Record-breaking rainfall. Deaths, 2; damage, $700,000. |
Flood | Aug. 27, 1972 | Vernon Creek |
Locally intense thunderstorms. |
Drought | 1974-78 | Statewide |
Regional. |
Flood | Apr. 10-June 25, 1983 | Lower Duchesne and Jordan Rivers and tributaries (including Spanish Fork);
upper Price, Bear, Sevier, and San Pitch Rivers; Chalk, East Canyon, Trout,
and George Creeks; Great Salt Lake and tributaries between Ogden and Salt
Lake City |
Rapid melting of snowpack having maximum-of-record water content for June 1. Result of large El Niño event. Disaster declared by President. Damage, $621 million. |
Flood | Apr. 17-June 20, 1984 | White, upper Price, and Fremont Rivers; lower Bear and Sevier Rivers
and tributaries;
Beaver River; Red Butte Creek; Spanish Fork; Jordan River |
Runoff from greater-than-average snowpack for Apr. 1 and spring precipitation. Result of large El Niño event. |
Flood | May 22, 1984 | Sevier Lake | Runoff in Sevier River from Nov. 1982 through June 1984 exceeded upstream
reservoir capacity; about 1.5 million acre-feet of water conveyed to
Sevier Lake. On May 22, 1984, lake reported to be as deep as 35 feet
deep after being dry or nearly dry since about 1880. |
Flood | June 15, 1984 | Utah Lake |
Runoff from greater-than-normal precipitation since Sept. 1982 increased lake level to 101-year record of 5.46 feet above compromise level on June 15, 1984. Mainly a result of large El Niño event of 1983-84. Damage, $5.9 million. |
Flood | June 3, 1986 | Great Salt Lake |
High runoff from greater-than-normal precipitation since Sept., 1982
increased lake level to 140-year record altitude of 4,211.85 feet on June
3, 1986. Partially a result of large El Niño event of 1983-84. Damage,
$268 million. |
Flood | June 7, 1986 | Provo River |
Trial Lake dam failure. Slope-area measurement. |
Drought | 1988-93 | Statewide |
Regional. |
Flood | Jan. 1, 1989 | Quail Creek, lower Virgin River |
Quail Creek Reservoir dike failed on Jan. 1, 1989, releasing about 25,000 acre-feet of water to the Virgin River near Hurricane. Damage, $12 million. |
Flood | Feb.-Mar. 1995 |
Santa Clara River |
|
Flood | May 1997 | South Fork Ogden River, Logan River, Blacksmith Fork | Greater-than-normal snowpack in the Bear and Weber River drainage basins caused minor flooding. Minor damage occurred to cabins and campgrounds in the area. |
Drought | 1999-present | Statewide | Regional. |
A hydrologic drought is defined as “a period of below average water content
in streams, reservoirs, ground-water aquifers, lakes and soils” (Yevjevich
and others, 1977). The relation of annual streamflow to average annual
streamflow for the period of record for the eight index sites (fig. 4)
shows the cyclical
nature of wet and dry conditions in Utah.
Figure 4. Relation of annual streamflow to average annual streamflow for the period of record.
The end-of-season snowpack, as measured by the Natural Resources Conservation
Service SNOTEL system on April 1, 2002, was below average statewide. The
snowpack, and therefore the relative amount of water available for runoff,
was about 78 percent of average in northern Utah drainages and ranged from
24 percent to 54 percent of average in the southern part of the State.
In eastern and southeastern Utah, the end-of-season snowpack was the lowest
since 1977 and 1999 (Natural Resources Conservation Service, 2002).
The percentage of average flow for the eight index
sites for 1999-2002 is shown in table 2. In 1999, streamflow was near or below
average for the
Colorado River,
Beaver River, and Virgin River. These streamflow-gaging stations are all
located in southern Utah. By 2000, all of the index sites indicated below-average
flow.
This trend has continued through 2002 with the exception of the Whiterocks
River, which had slightly higher-than-average flow in 2001. The Whiterocks
River flows down the southern slope of the Uinta Mountains in northeastern
Utah (fig. 1). This area accumulated average snowpack during the winter of
2001 (Natural Resources Conservation Service, 2002); however, on average,
the larger Green River basin accumulated a substantially lower-than-average
snowpack
for the same period as evidenced by the Green River near Green River, UT,
station (fig. 4 and table 2). Total annual flow for water year 2002 is
ranked in table
2.
Station Name | Period of record | Average total annual flow for period of record (kac-ft)
|
1999 | 2000 | 2001 | 2002 | Rank of lowest total annual flow, 2002 |
||||
---|---|---|---|---|---|---|---|---|---|---|---|
Total annual flow (kac-ft) |
Percent of average |
Total annual flow (kac-ft) |
Percent of average |
Total annual flow (kac-ft) |
Percent of average |
Total annual flow (kac-ft) |
Percent of average |
||||
Colorado River near Cisco, UT |
1914-2002 |
5,297 |
4,807 |
90 |
3,856 |
72 |
3,003 |
56 |
1,856 |
35 |
1 |
Whiterocks River near Whiterocks,
UT |
1930-2002 |
82 |
116 |
140 |
62 |
75 |
87 |
106 |
33 |
40 |
2 |
Green River near Green River, UT |
1906-2002 |
4,463 |
5,392 |
120 |
3,206 |
71 |
2,464 |
55 |
1,591 |
36 |
2 |
San Juan River near Bluff, UT |
1916, 1928, 1930-2002 |
1,638 |
1,837 |
111 |
838 |
51 |
1,161 |
70 |
538 |
33 |
1 |
Virgin River near Virgin, UT |
1910-2002 |
1,44 |
102 |
70 |
90 |
62 |
100 |
69 |
61 |
43 |
1 |
Smiths Fork near Border, WY |
1943-2002 |
139 |
179 |
127 |
107 |
76 |
72 |
51 |
74 |
53 |
4 |
Weber River near Oakley, UT |
1905-2002 |
158 |
184 |
116 |
109 |
69 |
100 |
63 |
93 |
59 |
8 |
Beaver River near Beaver, UT | 1915-2002 | 38 | 37 | 97 | 25 | 65 | 29 | 77 | 16 | 41 | 3 |
The lowest total annual flow on record at the Colorado River near Cisco, San Juan River near Bluff, and Virgin River at Virgin stations occurred during 2002, as did the second lowest total annual flow on record at the Whiterocks River and Green River stations. The 2002 drought was not as severe at the northern stations; however, 2002 was still one of the 10 driest years on record for Smiths Fork and the Weber and Beaver Rivers.
The compounded effects of 3 years of less-than-normal
precipitation include lowered water levels of most major reservoirs in Utah.
Releases from
dams on these reservoirs have been, and most likely will continue to
be, the
minimum releases required for downstream water users. The level of
Flaming Gorge
Reservoir
has dropped by about 18 feet from its level during years with average
runoff. Recovery from this deficit is expected to take about 2 years,
assuming that inflows return to normal by spring 2003 (Bureau of Reclamation,
2002).
According to the Bureau of Reclamation, unregulated inflow to Lake Powell
during water year 2002 was only 3.06 million acre-feet, or 25 percent
of the 30-year
average, which is the least amount of inflow to Lake Powell since
the completion of Glen Canyon Dam in 1963 (Bureau of Reclamation, 2002).
Average streamflow
conditions during the past 4 years in relation to historic maximum
and minimum flows at the Colorado River, Green River, and San Juan River
gaging stations
are shown in figure 5.
Figure 6. Comparison of satellite images of Great Salt Lake, 1988-89 and 2002.
Prolonged droughts have a primary and secondary effect on ground-water resources.
First, decreased precipitation leads to decreased recharge to aquifers. Second,
decreased surface-water resources generally lead to increased ground-water
withdrawals, as well as to increased requests for water-well construction
permits (Gates and Allen, 1996).
Aquifers in arid to semiarid regions are typically recharged from higher-altitude
areas that receive more precipitation. Decreased precipitation and snowpack
runoff in these areas leads to a decrease in aquifer recharge. In addition,
dry conditions deplete soil moisture. This moisture needs to be replaced
before recharge conditions can return to normal. Aquifers also can be recharged
by
seepage from lakes and streams. As these surface-water sources of recharge
dry up during a drought, recharge to aquifers is again decreased.
As surface-water sources diminish during a drought, irrigators and public-supply
systems withdraw more ground water. During the droughts of 1974-77 and 1988-93,
the number of well permits granted rose sharply (Gates and Allen, 1996).
This increased demand for ground water increased the stress on an already
depleted
aquifer. In general, ground-water levels in Utah have declined during the
current drought years (Burden and others, 2002). The correlation between
droughts and
low water levels is shown in a well in Cedar Valley, near Cedar City, Utah
(fig. 7). Lower ground-water levels are the result of both decreased recharge
and increased withdrawals; however, it is difficult to determine which causes
the greater effect.
Figure 7. Water levels in a well near Cedar City, Utah.
Utah has experienced drought conditions statewide for the past 3 water years,
and in the southern part of the state for the past 4 water years. In general,
the drought has been more severe in the southern parts of the state. Total
annual flow during water year 2002 at the Colorado River near Cisco, Green
River near Green River, Virgin River near Virgin, and the San Juan River
near Bluff, was the lowest recorded during approximately the past 100 years
of record.
During water year 2002, streamflow conditions at streamflow-gaging stations
in southern Utah showed little to no effect from spring runoff and approached
or exceeded the historic minimum flows. Decreased flow from major rivers
in Utah has led to a decline in most reservoir levels and in Great Salt
Lake.
Drought conditions in Utah are common and normally last an average of about
4 years. The current drought is not unusual for its length but rather for
its severity, as water year 2002 will be recorded as one of the driest
years on
record for many parts of Utah.
For more than 100 years, the USGS has been collecting water data in Utah
with support from Federal, State, and local cooperators. The USGS investigates
the
occurrence, quantity, quality, and movement of surface and ground water
and disseminates the data to the public and to Federal, State, and local
agencies
and governments involved with managing the water resources of Utah. In
cooperation with the State of Utah, the USGS measures water levels on a
yearly basis
in more than 1,000 water wells throughout Utah. The USGS also operates
more than
150 streamflow-gaging stations in Utah. Real-time data from most of these
stations are available on the Utah District website at http://ut.water.usgs.gov
or from
the National USGS website at http://waterdata.usgs.gov/ut/nwis.
U.S. Geological Survey
2329 West Orton Circle
Salt Lake City, UT 84119
801.908.5000
http://ut.water.usgs.gov
Burden, C.B., and others, 2002, Ground-water conditions in
Utah, Spring of 2002: Utah Division of Water Resources Cooperative Investigations
Report No. 43, 120 p.
Bureau of Reclamation, 2002, Upper Colorado Region
Water Resources Information
Center, accessed November 27, 2002, at http://www.uc.usbr.gov/wrg/index.html
Butler, E., and Marsell, R.E., 1972, Cloudburst floods
in Utah, 1939-69: Utah Division of Water Resources Cooperative Investigations
Report
11, 103 p.
Gates, J.S., and Allen, D.V., 1996, Ground-water development
in Utah and effects on ground-water levels and chemical quality,
Utah Department
of
Natural Resources
Cooperative Investigations Report 37, 19 p.
Hayes, M.J., 2002, Drought indices, in What is Drought?:
National Drought Mitigation Center, University of Nebraska, Lincoln, accessed
September
26, 2002, at http://www.drought.uni.edu/whatis/indices.html
Herbert, L.R., Wilberg, D.E., and Tibbetts, J.R.,
2001, Water resources data, Utah, water year 2001, U.S. Geological Survey
Water-Data Report
UT-01-1, 440 p.
Natural Resources Conservation Service, 2002, National Water
and Climate Center SNOTEL data, accessed January 2, 2003, at http://www.wcc.nrcs.usda.gov/water/
w_data.html
U.S. Geological Survey, 1991, National water summary, 1988-89: U.S. Geological
Survey Water-Supply Paper 2375, 591 p.
Yevjevich V., Hall, W.A., and Salas, J.D., eds., 1977,
Drought research needs, in Proceedings of the Conference on Drought
Research Needs, December 12-15, 1977: Colorado State University, Fort Collins,
Colorado, 276 p., accessed
January 17, 2003, at http://md.usgs.gov/drought/define.html
|Fact Sheet Home Page| |
|Environment| | |Hazards| | |Information Management| |
|Resources| | |State| |
U.S. Department of the Interior, U.S. Geological Survey
Maintainer: Fact Sheet Team Last update: 11:31:11 Fri 11 Apr 2003 Privacy Statement || Disclaimer || Accessibility URL: http://pubs.water.usgs.gov/fs-037-03 |