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<br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br /> <br />Figure <br /> <br />1 <br /> <br />2 <br /> <br />3 <br /> <br />4 <br /> <br />5 <br /> <br />6 <br /> <br />7 <br /> <br />8 <br /> <br />FIGURES <br /> <br />National weather service rawinsonde sites and <br />border-point interpolations used in this <br />study (Adapted from. Rhea, 1978). <br /> <br />General location of snow courses and drainage <br />basins. <br /> <br />North sub-region. Number of storms and seedable <br />events each winter. Winters are ranked from <br />driest to wettest. <br /> <br />South sub-region. Number of storms and seedable <br />events each winter. Winters are ranked from <br />driest to wettest. <br /> <br />East Central sub-re\3ion. Number 'of storms and <br />seedable events each winter. Winters are ranked <br />from driest to wett.~st. <br /> <br />West Central sub-reqion. Number of storms and <br />seedable events each winter. Winters are ranked <br />from driest to wettE~st. <br /> <br />Combi~ Mountain A1:ea. Number of storms and <br />seedable events each winter. Winters are ranked <br />from driest to wettE~st. <br /> <br />N:>rth sub-region. l!Xpected percentage increase in <br />maximum sprirg sno~:ourse water content in each <br />basin if all eligible storms are seeded. Winters <br />are ranked from driE!st to wettest. <br /> <br />ii <br /> <br />Page <br /> <br />9 <br /> <br />12 <br /> <br />19 <br /> <br />19 <br /> <br />20 <br /> <br />20 <br /> <br />21 <br /> <br />30 <br />