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<br />National Water Summary 1988-89--.,Floods and Droughts: COLORADO 207
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<br />Colorado's mountainous terrain and midlatitude interior-
<br />continental location result in a diverse and complex climate. Mois-
<br />ture for precipitation comes from the Pacific Ocean, the Atlantic
<br />Ocean, and the Gulf of Mexico. Fluctuations in the dominant pre-
<br />cipitation patterns have resulted in severe floods and long-duration
<br />droughts. Annual property damage from flood losses in Colorado
<br />averages about $14 million. Cumulative flood losses since statehood
<br />in 1876 are estimated to be about $1.7 billion. The most devastating
<br />floods of this century in tenns of tot a! damage were the June 1965
<br />floods in the South Platte and Arkansas River basins. These floods
<br />were the result of intense rainfall for several 'days fonowing a wet
<br />spring. Many of the measured peak discharges had recurrence in-
<br />tervals that exceeded 100 years. The most severe flood in Colorado
<br />since about 1900, in terms of loss of life, 'was that of July 31-
<br />August I, 1976, on the Big Thompson River. This flood was caused
<br />by an intense, localized thunderstonn that lasted a few hours and re-
<br />sulted in 144 deaths and $39 million in total damage,
<br />The four major Colorado droughts of this century, as deter-
<br />mined from periods of generally less than average streamflow vol-
<br />umes, occurred during 193()..42. 1949-57, 1958-70, and 1976--82.
<br />These droughts were statewide and had recurrence intervals greater
<br />than 25 years.
<br />Floods and droughts directly affect surface-water quality be-
<br />cause of the flushing of contaminants into the streams during floods
<br />and the lack of dilution during droughts. Also, the traveltime for
<br />contaminants is considerably decreased during periods of high flow.
<br />As a result of these effects, sport fisheries generally are adversely
<br />affected, which in turn affects rourism, an important industry in
<br />Colorado.
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<br />The Colorado Water Conservation Board, by State statute, is
<br />responsible for f1ood-plaiI1 management, including coordination of
<br />the National Flood Insurance Program, The Office of the State
<br />Engineer and the National Weather Service operate a statewide flood-
<br />warning system consisting of a network of 78 satellite-linked
<br />streamflow-gaging stations. This system automatically alerts key
<br />personnel if flooding is probable.
<br />The Colorado Drought Response Plan, which was created in
<br />1981 in response to signs of drought, consists of an assessment phase
<br />and a response phase. In the assessment phase, various water-
<br />availability indicators are reviewed monthly. If drought conditions
<br />are indicated, the response phase is activated to evaluate the drought
<br />in greater detail.
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<br />Colorado's midlatitude interior.continentallocation and high-
<br />altitude mountainous terrain combine to produce a complex and di-
<br />verse climate. Annual precipitation ranges from about 7 inches in
<br />south-central Colorado to about 60 inches in the mountains east of
<br />Steamboat Springs (Doesken and others, 1984, p. 1).
<br />Seasonal, large-scale atmospheric circulation interacts with
<br />the mountainous topography to produce three major precipitation
<br />patterns in the State (fig. I). The most important of these, in terms
<br />of water resources, is the midwinter pattern. Throughout the winter,
<br />the primary sources of moisture are frontal systems from the Pacific
<br />Ocean that are directed by the polar jetstream into Colorado from
<br />the northwest, west, and southwest. These airmasses alternately
<br />collide with, replace, or are re-
<br />placed by drier, continental
<br />airmasses. In Colorado, the major
<br />ranges of the Rocky Mountains,
<br />which are oriented primarily north-
<br />south, present a formidable ob-
<br />stacle to eastward-moving mois-
<br />ture. As the air is forced to rise over
<br />the mountains, a substantial oro-
<br />graphic component is added to the
<br />winter precipitation pattern. In
<br />general, winter precipitation in-
<br />creases steadily with altitude west
<br />of the Continental Divide and de-
<br />creases sharply east of the divide.
<br />For most of the higher mountains
<br />and for parts of Colorado's western
<br />valleys, winter is the wettest part of
<br />the year, whereas east of the
<br />mountains, areas receive very little
<br />precipitation in winter. Most of the
<br />winter precipitation in the moun-
<br />tains remains as accumulated
<br />snowpack until melting begins in
<br />the spring. The winter pattern con-
<br />tributes most to statewide runoff
<br />and surface-water supplies, even
<br />though substantial snowfall is
<br />limited to high-altitude areas that
<br />constitute less than 15 percent of
<br />the State's land area.
<br />
<br />GENERAL CLIMATOLOGY
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<br />NEBRASKA
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<br />KANSAS,
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<br />Figure 1. Principal sources and patterns of delivery of moisture into Colorado. Size of arrow
<br />implies relative contribution of moisture from source shown. (Source: Data from Douglas A. Clark and
<br />Andrea Lage, Wisconsin Geological and Natural History Survey.)
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