18 Gen. Sub . 
GENERAL SUBJECTS. 
Boschetti, F. [See Evolution.] 
Dupuy, E. De la Transmission Hdrdditaire de L6sions Acquises. Bull. 
Sci. Fr. Belg. xxii, pp. 445-448. 
Gadow, H. [See Evolution.] 
Grigg, W. C. Heredity as to Triplets. Brit. Med. J. 1890, p. 541. 
^'Hutchinson, J. Notes on Heredity. Arch. Surgery, i, pp. 242-244. 
Israel, O. Angeborne Spalten des Ohrlappchens. Ein Beitrag zur 
Yererbungslehre. Arch. path. Anat. cxix, pp. 241-253, 7 figs. 
Lankester, E. Ray. [See General.] A Theory of Heredity. 
. [Inheritance of Acquired Characters, Panmixia, &c.] Letters to 
Nature, xli, pp. 415, 416, 486-488, 558, & 559. 
Mitchell, P. C. Dr. Collier’s Objections to Weismann’s Theory of 
Heredity. Mid. Nat. xiii, pp. 92-94. 
Morgan, C. Lloyd. [See General.] 
Osborn, H. F. The Palaeontological Evidence for the Transmission of 
Acquired Characters. Nature, xli, pp. 227 & 228. 
There is sufficient palaeontological evidence that acquired characters 
are transmitted. 
Ritter, R. [See Reproduction.] 
Early separation of pole-cells — destined to form the reproductive 
organs — in Chironomus. 
Spencer, H. The Inheritance of Acquired Characters. Letter to Nature, 
xli, pp. 414 & 415. 
. On Panmixia. Letter to Nature, xli, p. 511. 
Stone, H. On Weismann’s Theory of the Continuity of the Germ- 
plasm. Mid. Nat. xiii, pp. 174-178 & 205-210. 
Turner, W. L’Her6dit6. Rev. Sci. xlv, pp. 129-138. Trans, address 
Brit. Ass. 1889. 
Weismann, A. [Prof. Weismann’s Theory of Heredity.] Nature, xli, 
pp. 317-322. 
[See Evolution.] 
Windle, B. C. A. Teratological Evidence as to the Heredity of Acquired 
Conditions. J. L. S. xxiii, pp. 448-502. 
Blastogenic malformations are most distinctly hereditary. Undoubt- 
edly somatogenic malformations are non-hereditary. There are some 
doubtful cases. There are certain malformations which suggest the 
possibility that they may have been gradually acquired, and subsequently 
transmitted to descendants. 
. Investigations in Artificial Teratogeny. P. Birmingh. Phil. Soc. 
vii, pp. 220-232. 
