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I <br />zso ~ <br />zzs ~ <br />zao "`24 ~ -~-- <br />i <br />~"5 ;,- _- <br />'~ 1so <br />'I <br />1zs _ •~ I <br />_ I <br />U 100 ~• I <br />I <br />0 75 ~ <br />• ~ I <br />so I <br />zs I <br />o I <br />APML MAV JUNE JULY <br />MONTH <br />1s ~U <br />10 ~ <br />Fig. 8. Relation between average discharge, temperature, <br />and initiation of spawning migration for Colorado <br />squawfish, Yampa River, 19813 and 1988 combined. <br />Solid vertical lines = average dates first and last <br />radio-tagged fish exhibited movement to spawning ground; <br />dashed vertical line =average date all radio-tagged fish <br />exhibited migratory movements; n = number of <br />radio-tagged fish. <br />certain times due to intrinsic biological rhythms, as <br />discussed by McKeown (1984). <br />Homing behavior in Colorado squawfish is indicated <br />by long-distance movement patterns and repeated <br />recaptures of the same fish on the Yampa River <br />spawning grounds in subsequent years (Wick et a1.1983; <br />Tyus 1985). Of four fish radio-tracked to the Yampa <br />River spawning reach for more than 1 year, two <br />migrated to the same location in consecutive years, <br />indicating a fidelity to this spawning site. Recaptures of <br />fish on the Yampa River spawning grounds also support <br />the concept of fidelity in Colorado squawfish. Five <br />Colorado squawfish in breeding condition were tagged <br />and recaptured in the Yampa River between RK 17.6 <br />and 28.8 for intervals of 1 + years (three fish for <br />2 consecutive years, one fish after a 2-year interval, and <br />one fish after a 3-year interval). Adult Colorado <br />squawfish using the Yampa River spawning grounds <br />have not been found to use any other spawning site in <br />the Green River system. This suggests that these <br />spawning areas are unique and critical to the <br />conservation of the species. <br />The Groundwater Seepage Hypothesis, proposed for <br />other species by Harden-Jones (1981), may be <br />implicated as a possible homing mechanism for <br />Colorado squawfish (Tyus 1985). Migrating adult <br />Colorado squawfish pass through miles of potentially <br />good spawning habitat (i.e., canyon-bound cobble bars <br />in Split and Whirlpool canyons in the Green River for <br />downstream fish; upper Yampa Canyon, Cross <br />Mountain Canyon, and Juniper Mountain Canyon in the <br />upper Yampa River for upstream fish) to reach specific <br />spawning grounds in the Yampa Canyon. Although no <br />experimental evidence to date confirms or disproves the <br />existence of an olfactory imprinting mechanism for <br />Colorado squawfish, observations at the two confirmed <br />spawning grounds in upper Green River basin indicated <br />that Colorado squawfish that migrate to these areas may <br />be orienting to them because of freshwater inflow from <br />spring-fed tributaries (e.g., Florence Creek, Green <br />River; Warm Springs Creek, Yampa River) and <br />sandstone-limestone seeps (e.g., at Coal Creek, Green <br />River; at Cleopatra's Couch, Yampa River). <br />There is good agreement between the arrival of <br />migrating fish on spawning grounds, collections of ripe <br />fish, and estimated dates of egg deposition (Fig. 9). <br />These data were used to estimate total and optimal <br />spawning periods (Table 2). Total spawning period <br />included widest range of activities associated with <br />YAMPA RIVER <br />1979 <br />1980 <br />1981 _ <br />~_ <br />1982 <br />r--~ <br />1988 <br />~-~ <br />1984 <br />r-~ <br />1986 <br />1986 <br />~~ <br />1987 <br />1988 ~ <br />I ~ I ~ I ~ I ~ I ~ I <br />APR MAY JUN JUL AUG SEP OCT <br />Fig. 9. Migration of radio-tagged Colorado squawfish (-); <br />collections of ripe Colorado squawfish ( ); and dates of <br />estimated egg deposition (- -), Yampa River, 1981-88. ^ <br />indicates presence of radio-tagged fish on spawning <br />grounds. <br />