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Immediate Mortality and Survival for <br />Raln64MrrroutEgs at 6877 Elea (-72 psi) . <br />o <br />VA." <br />P3i � �JL � � � ■ � � � <br />1 1 3 i 5 6 7 . 9 16 <br />W R-w <br />96 Hr Mortality and Survival for <br />Rainbow7tout Es at 6677- Mv.,(-n psi) <br />1 3 3 i 5 6 7 Y 9 ]0 <br />TM N.m <br />Figures 50. Immediate mortality and survival at 0 hrs after <br />for each replicate at 6877 ft reservoir elevation. <br />Figures 51. Mortality and survival at 96 hrs after sleeve Na <br />replicate at 6877 ft reservoir elevation. <br />Contents <br />(e valve passage for RBT eggs <br />for RBT eggs for each <br />elation mead (}i) is not different from zero using a <br />are the null hypothesis is equal to zero, HO: µ = 0 <br />fi'�potheses that the population mean (g) is not <br />or riot,rejl✓ct the null hypotheses. <br />4 days (96 hrs) after sleeve valve <br />Passage, is not egU411tp zero ({l) <br />The alten*ive hypotheses are:-.. <br />HIA: Immediate ;$urvival (0 hrsj of nonnative test fish and embryos passed through the sleeve <br />valve is equal tb.zero (0) <br />H2A: Survival of nonnative ,test nonnative fish and embryos, up to 4 days (96 hrs) after sleeve <br />valve passage, is equal to (0) <br />For HIA, the proportion of live fish and embryos is determined for each test group immediately <br />after sleeve valve passage. The proportion of the sample alive immediately after sleeve valve <br />passage is called 0 hr survival and is determined by the number of specimens alive immediately <br />after sleeve valve passage divided by the number of live specimens inserted (Pe): <br />PI = Lp/Tp <br />Page 55 <br />