B. MlVAZAWA 



79 



two original |)arentR. The resulta of thone ex|K»riinent8 are shewn in 



the Table XXIII. 



TABLE XXIII. 



KlowcTHSolottr 



I atUtnpUd 

 (10— l)x(ie— 9) 



(17— 7) X (17-18) 



(W- 8) X (M- 4) 



(«— 3) X (22-11) 



(81— l)x(31— 5) 



(31—10) X (31— 9) 



(44— 2) X (44—10) 



(55— 15) X (38— 1) 



(56— l)x(38— 1) 



(59—10) x (16— 9) 



^ X ( 9— 4) 



A X (16— 9) 



Jx(38— 1) 



(32— 5) X n 



J grwn 

 ) yellow 



( Rreen 

 J yellow 



i green 

 ) yellow 



j green 

 ) yellow 



( green 

 f yellow 



green 

 yellow 



( green 

 i yellow 



j green 

 } yellow 



( green 

 \ yellow 

 ( green 

 I yellow 

 ( green 

 ( yellow 



{ green 

 ) yellow 



j green 

 / yellow 

 j preen 

 } yellow 



Red 



:»o 











04 



18 



27 



7 







29 



22 



24 







26 



44 



4 











27 







39 



10 











9 







8 





 



liarkrwl WhiU 



TuUJs 

 60i 



o( 



0^ 

 64 ( 



21 

 30 



9 







29 



22 

 49^ 



Oi 

 26 i 



44 ( 



"I 





 39 

 10 







:i 







14 



11 







(innd toUla 



50 



64 



61 



51 



49 



70 



11 



48 



39 



10 



14 



11 



From what was above described about the results of self-fertilisation 

 of /^, plants it is clear that the genotypic constitutions of F3 plants and 

 the relative number of various kinds of the offspring as the results of 

 their crosses are as follows : 



Let us see whether the results of these experiments and <Mir expec- 

 tation are in agreement with each other. 



(10 — 1) X (16 — 9): All the hybrids have the genotypic constitution 

 GgDd and should be green-red. 



(17 — 7) X (17 — 1): All the hybrids have the genotvpic constitution 

 ggDd and should be yellow-red. 



