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<br />Page 16
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<br />PART 2: BACKGROUND
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<br />Geographic, Hydrologic, and Biological Setting
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<br />Utah's major streams and rivers are identified in Figure 2-1. One or more of the three species are
<br />found in the Green River and its tributaries such as the Duchesne in the Division's Northeastern
<br />Region; the Price, San Rafael, Escalante, Dolores, and San Juan rivers and Muddy Creek in the
<br />Division's Southeastern Region; the Escalante, Fremont, and Virgin rivers in the Division's Southern
<br />Region; and the Weber, Ogden, and Bear rivers in the Division's Northern Region. Each of the three
<br />species is also found in the mainstem Colorado River, though roundtail chub is currently considered
<br />rare in most mainstem locations. Only flannelmouth sucker are found in the Virgin River Basin,
<br />which is located within the Lower Colorado River Basin. Only bluehead sucker are found in the
<br />Bonneville Basin. Occurrences in these locations are historical only except for the Weber River
<br />where they are considered quite rare. Geographic, hydrologic, and biological characteristics of these
<br />basins are briefly described in the following sections as well as in the Range-wide Conservation
<br />Agreement and Strategy.
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<br />Altered hydrologic systems
<br />Historically, flows, temperatures, and sediment loads of these systems varied widely on both intra-
<br />and inter-annual time scales in relation to wet and dry climatic regimes. These variable
<br />characteristics remain today only in the remote locations such as the Escalante and Paria rivers that
<br />lack water development structures such as power, storage, and diversion dams.
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<br />Today, water development in high desert tributary streams in Utah is extensive (Cavalli 1999;
<br />Walker and Hudson 2004) (see Figure 2-2) and has likely lead to severe habitat fragmentation,
<br />disruption of native fish metapopulation dynamics, and has led to population declines due to extreme
<br />habitat degradation. While negative effects of dams on mainstem native fish communities are well
<br />documented (Berry 1988, Berry and Pimentel 1985, Childs and Clarkson 1996, Clarkson and Childs
<br />2000, Collier et al. 1996, Haines et al. 1998, Kaeding and Osmundson 1988, Robinson et al. 1998a,
<br />Robinson et al. 1998b), lack of water in high desert tributary drainages resulting from water
<br />development for municipal, agricultural, and industrial purposes is perhaps the most severe threat to
<br />persistence of three species populations in Utah (Cavalli 1999, Walker and Hudson 2004). A large
<br />number of studies have linked habitat fragmentation or the fragmented distribution of species to
<br />declines in population size and/or increases in extinction risk (Cox et al. 2004, Davies et al. 2000,
<br />Fagan et al. 2005, Jager et al. 2001, Knapp et al. 2003, Morita and Yamamoto 2002, Robinson et al.
<br />1995). Currently, the presence of diversions and dams limits fish movement either by creating an
<br />obstruction to passage between reaches or by dewatering tributary reaches entirely. Impacts of
<br />disrupted movement on the three species, particularly flannelmouth sucker and roundtail chub,
<br />include inability to escape the harsh environmental conditions brought on by dewatering itself (loss
<br />of water, high temperatures, low oxygen; Walker and Hudson 2004) and blocked seasonal
<br />movements to habitats important to various life stages of the species (Chart 1987, McKinney et al.
<br />1999).
<br />
<br />Like many states in the west, all surface flows are diverted at some point, and in the state of Utah,
<br />these surface water diversions are plentiful. Figure 2-2 shows all point-to-'point and surface water
<br />diversions within 10 feet of streams or springs within the range of the three species. This map does
<br />not display the entire extent of diversions within the state. The Utah Division of Water Rights' GIS
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