328 EVOLTJTION, GENETICS, AND EUGENICS 



two sets of determining causes acting simultaneously. First, there 

 are the specific hereditary determiners or genetic factors, which react 

 with the other elements of the protoplasm and, under favorable 

 circumstances, condition normal development. Second, there are all 

 the conditions external to the cell which stimulate or inhibit proto- 

 plasmic activity. These "developmental stimuU" are chemical and 

 physical changes wrought by energy from without the organism or 

 caused by its own physiological activities. Chemical stLmuh are 

 exerted mainly through the medium of the circulating Hquid which 

 surrounds each living cell. Normally this fluid contains the elements 

 essential for maintenance of life as well as various waste products. 

 It may also bear toxic substances that suppress or inhibit the cell 

 functions and in higher animals it contains the secretions of the duct- 

 less, sexual and other glands that profoundly affect development. 

 Physical stimuli are exerted chiefly from without and upon the organ- 

 ism as a whole. They include changes in temperature, light and 

 density of medium, the effects of electric and radiant energy, force of 

 gravity, etc. Obviously, so many interrelated causes acting simulta- 

 neously, each being independently capable of inducing a change in the 

 end product, may cause an infinite number of differences in substance 

 and in degree of development. 



Variation and environment. — External stimuli affect the develop- 

 ment of characters in three ways: (i) they modify the development 

 of inherited characters; (2) they actually condition the production of 

 characters whose hereditary determiners are present in the germ- 

 plasm; (3) they may cause germinal variations which result in the 

 appearance of new heritable characters. The following are illustra- 

 tions of these effects with reference to particular environmental 

 factors. 



I. Environment modifies development of inherited characters. — 

 (a) Light and Function. Klebs reports the result of growing the 

 Sho'w'y Sedum (Sedum spectabile) in white, red, and blue light. The 

 diverse effects of the three kinds of light are clearly shown in Fig. 51. 

 Although the visible differences between the three plants were very 

 pronounced the experiment was carried much farther. During 1905-6 

 observations were made on the numbers of stamens in the flowers 

 of plants similarly propagated under white, red, and blue light and 

 under variations, conditions of temperature, moisture, and food. 

 About 20,000 flowers were examined and six distinct types were found, 

 according to the variation in number of stamens. These had the 



