LILIUM. 



101 



Tahi.e A 29. 



there is, on the whole, distill Benflitivity than of 



mi \- i>f the four preceding groups, particularly as re- 

 garde the hybrid. A- a rule, however, ta are 

 imi of much usefuli pting in instances 

 for chart making. Gelatinization is nearly or practi- 

 cally complete in L5 to 30 •• with 

 nitric acid, sulphuric acid, hydrochloric acid, potassium 

 hydroxide, potassium iodide, potassium Bulphocya 



nun sulphide, sodium hydroxide, and solium sul- 

 phide. In the reactions with nitric acid, hydrochloric 

 acid, potassium iodide, potassium sulphocyanate, sodium 

 hydroxide, and sodium sulphide there arc distinct indi- 

 cations of lower reactivity of the hybrid than of the 

 parents. Gelatinization goes on very rapidly in all three 

 starches during the first 1 to 3 minutes in the other 



rea as, so thai in nearlj all (excepting those with 



chloral hydrate, chromic acid, sodium salicylate, and 

 cupric chloride) at least 90 per cent of the total starch 

 is broken down within this period. In occasional in- 

 stances the hybrid is comparatively resistant, as in the 

 reactions with chromic acid, uranium nitrate, strontium 

 nitrate, cobalt nitrate, copper nitrate, cupric chloride, 

 barium chloride, and mercuric chloride, in some of 

 which the resistance is quite marked or only noticeable 

 during the lirst minute. There arc also suggestions 

 of differences in the parents, L. pardalinum showing 

 generally a marked tendency to greater resistance than 

 L. parryi. In these reactions the hybrid is generally 

 distinctly closer to L. pardalinum than to the other 

 parent, this being in accord with the findings in the 

 histologic and quantitative peculiarities, and in the 

 color, and temperature reactions. Referring to the charts, 

 it will be seen that all three curves in each reaction 

 to be from close to very close, the parental curves run- 

 ning together in five out of the six reactions, and the 

 hybrid with the curves of L. parryi in the sodium-sali- 

 cylate reactions. In all six charts the curves of L. parryi 

 are higher than the curves of /.. parryi in the reactions 

 with chromic acid, cobalt nitrate, barium chloride, and 

 mercuric chloride, keeping very close together, yet show- 

 ing quite definite differences in the reactions. The h 

 curve is intermediate in the chloral-hydrate reaction; 

 distinctly the lowest in those with chromic acid, pyro- 

 gallic acid, cobalt nitrate, barium chloride, and mercuric 

 chloride; and nearly the same as L. parryi (at first inter- 

 mediate) with sodium salicylate. There is in general a 

 tendency to less reactivity of the hybrid than of the 

 parents. 



Reaction-intensities of the Hybrid. 



This section treats of the reaction-intensities of the 

 hybrid as regards sameness, intermediateness, exci ss, and 

 deficit in relation to the parents. (Table A 29 and 

 Charts D373 to D 378.) 



The reactivities of the hybrid arc the same as tin 

 the seed parent in the iodine and calcium-nitrate reac- 

 tions ; the same as those of the pollen parent in the 

 polarization reaction; the same as those of both parents 

 in the potassium hydroxide reaction, in which the reac- 

 tions occur too rapidly for differentiation; intermt 

 in the reactions with gentian violet, safranin, chloral hy- 

 drate, sulphuric acid, sodium salicylate, and barium chlo- 

 ride (in four being closer to those of the pollen parent, 

 and in two closer to those of the see,! parent) ; highest 

 in none; and lowest in those with temperature, chromic 

 acid, pvrogallic acid, nitric acid, byd c acid, po- 



i,i mi lide, potassium sulphocyanate, potassium sul- 

 phide, sodium hydroxide, sodium sulphide, uranium 

 nitrate, strontium nitrate, cobalt nitrate, copper nitrate, 

 cupric chloride, and mercuric chloride (in nine being 



