NATURAL IMMUNITY 265 



The action of snake venom, especially that of Cobra, is quite powerful upon 

 different species of non-poisonous snakes. The bite of Cobra was fatal 

 within 30 minutes to several hours to the following snakes: Passerita mycteri- 

 zans (green whip-snake), Tropidonotus quincunciatus (grass-snake), Den- 

 drophis pida (tree-snake), and Dryophis (green tree-snake). Ptyas mucosus 

 is much more resistant to cobra venom and often escapes death from several 

 successive bites. If death occurs it usually comes over 24 hours after the 

 infliction of the venomous bite. 



EXPLANATION OF THE MECHANISM OF NATURAL IMMUNITY. 



On what does the relatively high natural immunity of venomous snakes 

 depend ? "Why are the venomous species of snakes more resistant to venom 

 than their innocuous congeners, and why do the latter possess a greater resist- 

 ance than various mammals and birds? Bearing on these interesting ques- 

 tions numerous experiments were performed. 



The work of Leydig, Phisalix and Bertrand, Jourdain, and other anato- 

 mists and physiologists established in the non-venomous snakes the existence 

 of poison-secreting glands and made the differences in the non-venomous and 

 venomous snakes appear as a matter of grade in the evolutional phase. (See 

 Phylogeny of snakes.) The physiological analogies between the venomous 

 and innocuous species have been shown by the toxic properties of the parotid 

 glands of the latter to be somewhat comparable to the poisonous action of 

 venom (Alcock and Rogers). Again, the poisonous properties of the blood 

 serum of various poisonous snakes, as well as those of the innocuous kinds, 

 came to light, and it was shown that these serums are rather powerfully 

 poisonous, being strongest in the serum of the snake with the most active 

 venom. 



These facts have formed the basis on which Phisalix and Bertrand built 

 their theory that the non-susceptibility of snakes, especially of the venomous 

 species, to venom is due to the constant internal secretion of venom. 



In 1893 Phisalix and Bertrand ^ studied the relation of the poisonous 

 properties of the blood of viper and its venom, and concluded that they are 

 identical in their physiological actions. The source of the toxic principle 

 in the blood was sought in the constant absorption of the venom. 



Calmette ^ found that the blood of Cobra is highly toxic for the rabbit. 



The fact that certain non-venomous snakes sometimes enjoy a compara- 

 tively high immunity to venom demands explanation. Phisahx and Bertrand ^ 

 investigated this point carefully and have shown that while adders have no 

 venom apparatus by which it is possible to produce a poisonous wound, the 

 secretion of the parotid glands resembles venom in the effects it produces 

 when artificially introduced into animals. Extracts of the various organs 



» Phisalix and Bertrand. Toxicite du sang de la vipfere. C. R. Soc. Biol., iSo'?, lo ser.. V. 007: and 

 C. R. Ac. Sci., 1893, CXVII, 1099. ' ' vy/, 



2 Calmette. Sur la toxicite du sang de cobra capel. C. R. Soc. Biol., 1S94, 10 sen, I, 11. 



3 Phisalix and Bertrand. Sur la presence de glandes venimeuses chez les couleuvres, et la toxicite du 



sang de ces animaux. C. R. Soc. Biol., 1894, 10 ser., I, 8. C. R. Acad. Sci., 1894, CXIII, 7. 



