288 ENTOMOLOGY 



range of intensity." This attunement is used by Davenport to explain 

 apparent anomalies between the response to light of a butterfly and 

 that of a moth. Butterflies are positively phototropic to sunlight and 

 most moths are negatively so. Why, then, do moths fly toward a lamp 

 or an electric light? The answer is given that the moth is positively 

 phototropic up to a certain intensity of light, at which it becomes nega- 

 tively ph6totropic. " Butterflies are attuned to a high intensity of 

 light, moths to a low intensity; so that bright sunlight, which calls 

 forth the one, causes the other to retreat. On the other hand, a light 

 like that of a candle, so weak as not to stimulate a butterfly, produces a 

 marked response in the moth." (Davenport.) 



The circling of moths and other insects about a light is a matter of 

 common observation, an explanation for which has been given by Loeb. 

 Loeb says, "If a moth be struck by the light on one side, those muscles 

 which turn the head toward the light become more active than those of 

 the opposite side, and correspondingly the head of the animal is turned 

 toward the source of light. As soon as the head of the animal has this 

 orientation and the median-plane (or plane of symmetry) comes into the 

 direction of the rays of light, the symmetrical points of the surface of the 

 body are struck by the rays of light at the same angle. The intensity of 

 light is the same on both sides, and there is no reason why the animal 

 should turn to the right or left, away from the direction of the rays of 

 light. Thus it is led to the source of the light. Animals that move 

 rapidly (like the moth) get into the flame before the heat of the flame has 

 time to check them in their flight. Animals that move slowly are af- 

 fected by the increasing heat as they approach the flame; the high tem- 

 perature checks their progressive movement and they walk or fly slowly 

 about the flame." As Loeb insists, the moth "does not fly into the flame 

 out of 'curiosity,' neither is it 'attracted' by the light; it is only oriented 

 by it and in such a manner that its median-plane is brought into the 

 direction of the rays and its head directed toward the source of light. 

 In consequence of this orientation its progressive movements must lead 

 it to the source of light." 



Factors Influencing Phototropism. The response of an organism 

 to light is influenced by previous exposure to light, by temperature, 

 moisture, nutrition and other factors, all of which have to be taken into 

 account in experiments on phototropism. 



Loeb found that larvae of the moth Euproctis chrysorrhosa, driven by 

 the warm sunshine out of the nest in which they have hibernated, crawl 

 upward to the tips of branches and feed upon the buds and new leaves. 



