nioiuuuuiw rnurji,iviii,a AINU ItJLACliUAft. 



Table A 8. 



C hloral hydrate: 



um 



i '. longifolium 







i I, plan- acid: 



C. zeylanicum 



C. longifolium 



C. kircape 



Pyrogallic acid: 



( '. zeylanicum 



C. longifolium 



C. kircape 



Nitric acid: 



i zeylanicum 



C. longifolium 



C. kircape 



Sulphuric acid: 



C. zeylanicum 



( . longifolium 



( '. kircape 



Hydrochloric acid: 



i . zeylanicum 



c !. longifolium 



C. kircape 



Potassium hydroxide: 



C. zeylanicum 



i '. longifolium 



C. kircape 



Potassium iodide: 



C. zeylanicum 



C. longifolium 



C. kircape 



Potassium sulphocyanate: 



C. zeylanicum 



C. longifolium 



C. kircape 



Potassium sulphide: 



C. zeylanicum 



('. longifolium 



I '. kircape 



Sodium hydroxide: 



( . zeylanicum 



C. longifolium 



( '. kircape 



Sodium sulphide: 



( . zeylanicum 



c . longifolium 



C. kin ape 



Sodium salicylate; 



ii um 



C. longifolium 



C. kircape 



Calcium nitrate: 



C. zeylanicum 



■ longifolium 



<_'. kircape 



Uranium nitrate: 



( !. zeylanicum 



( '. longifolium 



C. kircape 



Strontium nitrate: 



( '. zeylanicum 



C. longifolium 



('. kircape 



Col ill oitrati 



( '. zej lanicum 



C. longifolium 



('. kircape 



Copper nitrate: 



C. zeylanicum 



C. longifolium 



C. kircape 



Cupric chloride: 



t '. ze3 lanicum 



C. Longifolium 



('. kircape 



Barium chloride: 



( '. zeylanicum 



C. longifolium 



('. kircape 



Mercuric chloride: 



C. zeylanicum 



C. longifolium 



('. kircape 



..H 



75 



VI 



I,.', 



88 



85 



v.) 



70 



'.10 



5 



37 



3 



0.5 



65 



2 



0.5 



I,', 

 0.5 



0.5 

 09 

 0.5 



0.5 

 34 

 0.5 



0.5 



:.t 

 0.5 



0.5 



Is 



0.5 



0.5 

 3 



ii;, 



1.5 

 96 

 30 



62 



100 

 87 



6 



65 



5 

 97 



5-' 



83 



54 



56 



16 



70 



t>;, 



19 



5 



68 



4 



99 



100 



92 



lis 



4 



73 



99 



99 

 33 



4 

 91 



■12 



98 



78 



1 

 81 

 20 



1 



N7 

 10 



3.5 

 98 

 32 



1 

 70 



0.5 



81 



S 



0.5 



t;i 



8 



1 



0.5 



0.5 



77 



4 



hybrid are noted especially in the reactions with potas- 

 sium iodide, potassium sulphide, and sodium sulphide. 



Reaoticm-inteneitiea Expressed by Light, Color, and Tempera- 

 lure Reactions. 

 Polarization: 



C. zeylanicum, very high, value 93. 



C. longifolium, high to very high, much lower than C. zeylanicum, 



value s::. 

 C. kircape, high, slightly higher than C. zeylanicum, value 95. 

 Iodine: 

 C. zeylanicum, light to moderate, ralui 

 C. longifolium, light to moderate, deeper than C. zeylanicum, 



value Hi. 

 C. kircape, light to moderate, slightly lighter than C. longifolium- 

 value 38. 

 Gentian violet: 



C. zeylanicum, moderately deep to deep, value G7. 

 C. longifolium, moderate, lighter than C. zeylanicum, value 60. 

 C. kircape, moderate, the same as C. longifolium, value 60. 

 Safranin: 



C. zeylanicum, moderately deep to deep, value 67. 

 (.'. longifolium, moderate, lighter than C. zeylanicum, value 60. 

 C. kircape, moderately deep to deep, deeper than either parent, 

 value 70. 

 Temperature: 



C. zeylanicum, majority at 77 to 78°, all but rare grains at 79 to 80°, 



mean 79.5°. 

 C. longifolium, majority at 70 to 71°, all at 74 to 75°, mean 74.5°. 

 C. kircape, majority at 75 to 70°, all but rare grains at 77 to 79°, 

 mean 78°. 



The reactivities of C. zeylanicum are higher than 

 those of G. longifolium in the polarization, gentian-violet, 

 and safranin reactions, and lower in the iodine and tem- 

 perature reactions. 



Interesting differences are noted in these reactions 

 in the relations between those of the hybrid to one or the 

 other parent. In the polarization and safranin reactions 

 the hybrid reactions are higher than those of either 

 parent, in both instances being nearer those of C. zey- 

 lanicum, the seed parent; in the iodine reaction it stands 

 intermediate, but somewhat closer to C. longifolium; 

 while in the gentian-violet reaction it is lower than in 

 C. zeylanicum and the same as in C. longifolium. The 

 temperature reaction is intermediate, yet distinctly closer 

 to that of C. zeylanicum, the mean being 1.5° lower than 

 in C. zeylanicum and 3.5° higher than in C. longifolium. 

 The reactions, on the whole, are closer to C. zeylanicum. 



Table A 8 shows the reaction intensities in percent- 

 ages of total starch gelatinized at definite intervals (min- 

 utes). 



Velocity-reaction Curves. 



This section treats of the velocity-reaction curves of 

 the starches of Crinum zeylanicum, ('. longifolium, and 

 C. kircape, showing the qualitative differences in the 

 behavior toward different reagents at definite time-inter- 

 vals. (Charts D 148 t<> D L68.) 



The must striking features of this group of curves are : 

 (1) The immediate ami relative!] verj marked 

 reactivity of Crinum longifolium with all of the reag- 

 ent- excepting barium chloride. With 7 of the 01 reag- 

 ents, 90 per cent or over of the total starch was gelatinized 

 in 5 minutes; with 3 reagents, GO per cent or over; the 

 lowest percentage being 34 ; the average gelatinization lor 

 all of the reagents, excepting barium chloride, being 

 nearly 70 per cent in 5 minutes, as compared with 

 usually an average of 0.5 to 3 per cent in case of C. zey- 

 lanicum anil the hybrid. Willi the latter, in only the 

 reactions with pyrogallic acid, sulphuric acid, and hy- 

 drochloric ami was (here any marked effect during this 

 time-interval, these reactions in case of the hybrid rang- 

 ing from 33 lo -in per cent, while with C. zeylanicum 

 with the same reagents there was a gelatinization of 

 4 per cent or less, thus showing a remarkable approach 

 in the properties of the starch in relation to these three 

 reagents to the properties of C. longifolium. In the 



