320 



PLANT LIFE. 



instead of the surfaces. (See ^j 285.) Others assume a 



profile position when the illu- 

 mination becomes too intense. 

 These positions, by placing the 

 leaf surface oblique to the di- 

 rection of the light rays, reduce 

 the amount of evaporation very 

 considerably. 



437. 4 Coverings, consist- 

 ing of living or dead scale- 

 leaves, stipules, leaf-bases or 

 entire leaves, reduce transpira- 

 tion by obstructing the free ex- 

 change of air, or by holding 

 water and so keeping moist the 

 surfaces they cover. 



438. 5. Structural modifi- 

 cations. These may occur 

 either in the epidermis or some 

 internal tissues. (<?) The epi- 

 dermis may greatly reduce evap- 

 oration by the formation of 

 hairs in such profusion as to 

 form a cover for the surface 



358. Shoot of larch, with ripe 

 cone; showing needle-shaped leaves (figs. 761-^64). Hairs 



nn Hwarr hranrhpc era p IpavPS on V O _> >J '/ 



on dwarf branches ; scale leaves on 



Ill- 



main axis ; carpellary scales just peep- tended to protect from evap- 

 ing from between placental scales or 



cone. Natural size. After Kemer. oration are usually dead and 

 filled with air. Reflecting light from many points, they look 

 white, and the surface seems hoary, or woolly, or silky. 

 Hairs in the form of scales which overlap reduce the rate of 

 evaporation by covering the stomata (fig. 365). Further 

 adaptations of the epidermis are to be found in the pres- 

 ence of a thick cuticle (fig. 367); the water-proofing of 

 the whole of the outer wall of the epidermis; the develop- 



