NUTRITION 375 



duced them. In addition to the staple crops just named, whose aggregate value 

 in 1909 was about $^,000,000,000, other farm crops add nearly as much more, 

 being estimated at Sj, 700,000,000. Su< li are the values that plants annually pro- 

 duce in this country, chiefly from the air and water, by photosynthesis. 



Process. — The process of photosynthesis is not certainly known; 

 but all the evidence points Strongly in one direction; so that the hypoth- 

 esis of von Baeyer may be considered as highly probable. It appears 

 that the carbonic acid (C0 2 + H^O ^OHCOOH) is by some means 

 reduced, perhaps first to formic acid (HCOOH), and later to the sim- 

 plest carbohydrate, formaldehyde (H-COH). In the course of this 

 reduction a molecule of oxygen, O,, is set free and appears as a by- 

 product. 



The reduction of KfoCOs to formaldehyde lias lately been accomplished artifi- 

 cially, though much less efficiently than in plants. A thin layer of chlorophyll on 

 gelatin or floating on the surface of water (to which has been added an enzyme that 

 will break up hydrogen peroxid, EI3O2, into water and oxygen), when supplied with 

 CO2 in light permits the accumulation of formaldehyde and oxygen to a measurable 

 extent in the apparatus, The formaldehyde molecule so quickly combines with 

 others of its kind thai it has been difficult to prove its formation in leaves. Free, 

 it is a powerful poison, even in dilute solution (1 : 20,000); but its prompt conden- 

 sation into some hexose sugar prevents accumulation to a harmful extent. The 



/H 

 details are probably as follows: six molecules of formaldehyde, II— C^. , unite 



into a chain. This union engages two of the four bonds of each C atom, except at 

 the ends, where only one is concerned. This consequently either releases one of 

 the twoO bonds or leaves one H atom free, or does both. The free II immediately 

 joins its neighboring half-free O, and together they form < >II, bound t<> C by only 

 one bond. At one end no II is freed ; but the half-freed ( ) takes up H and the group 

 becomes CH2OH, characteristic of an alcohol. At the other end, the loss of one 



II leaves the aldehyde group C^ as in formaldehyde. In glucose a further 



% 



O 



transposition occurs in group 4, II and OH exchanging places. 



H H H OH H 

 I I I I I /H 

 H— C— C— C-C- C C< = ./-glucose (p. 159), 



OHOHOH II OH 



Glucose and starch. — Glucose probably represents the first stable 

 carbohydrate formed in most plants; yet there i^ some variation in this 

 respect in different plants, and there is evidence thai in some cases cane 

 sugar, saccharose, is the thief product. It is quite possible, moreover, 



