RESEARCH METHODS IN STUDY OF FOREST ENVIRONMENT. 43 



urable. As M. Radau (72) says: "The red rays and the yellow rays in certain ca 

 continue the work commenced by the violet rays, and in others undo what the Lasl 

 have accomplished. Thus, chloride of silver, slightly impressed by the violel ra; 

 is then blackened under the action of all of the visible rays; and guaiacum, turned 

 blue by the violet rays, is bleached by the more luminous rays, h follows thai the 

 chemical action of light is, in general, very complex, and that it can be used for 

 measuring the energy of solar rays only with much circumspection." 



The inevitable conclusion is that direct photochemical methods can 

 not be made to solve the problems of ecology, but this does qoI elimi- 

 nate spectrophotochemical measurements, which may, in fact, give 

 the best possible criteria as to the variations in the differenl spectral 

 regions and the effect of such variations on plants. 



4. The fourth point to be considered in approaching the study 

 of possible methods for radiation measurements is the difficulty of 

 securing complete absorption of sunlight. While lampblack is popu- 

 larly conceived to absorb rays of all wave lengths and to transform 

 them into-measureable heat, recent investigations have proved that 

 this is only approximately true, and have shown the existence of 

 an infra-red spectrum of extreme wave length to which Lampblack 

 is partially transparent. Fortunately, this region is relatively unim- 

 portant as a source of energy and may be, for biological purposes, 

 almost wholly unimportant. 



A greater source of error than that arising from the failure of 

 lampblack to absorb the radiation is undoubtedly the loss, as beat 

 radiation, and by conduction and convection, before the heal can be 

 properly measured. It must, of course, be borne in mind that tem- 

 perature is not a measure of heat, and that the indications of a ther- 

 mometer can not be used except as the radiation rate of the thermom- 

 eter itself has been thoroughly studied. 



With this conception of the nature of sunlight and the difficulties 

 in the way of its proper measurement, it is perfectly evidenl that 

 the primitive methods that have been employed in measuring lighj 

 in the forest do not give satisfactory results. Two distinct but sup- 

 plemental lines of attack suggest themselves as being profitable: 



1. The growing of trees under controlled conditions of light, using 

 both artificial lights of known composition and monochromatic and 

 other screens which will transmit to the plants only certain wave 

 lengths, as suggested in the work which has been started by Mac- 

 Dougal (68): The physiological action of each wave length must, "1 

 course, be studied. Through such study it is hoped that the require- 

 ments for light may be determined, any actual deficiency in sun- 

 light which exists in the forest recognized, and the effective supply 



measured. 



2. In studying either the light conditions as they exist id the 

 forest or the effective supply suggested by the preceding line oi 



