10 BULLETIN 953, U. S. DEPARTMENT OF AGRICULTURE. 
TEMPERATURE AND COLOR CHANGES. 
The changes that occur in corn during fermentation in the silo have 
been the subject of much study by numerous investigators, both in 
this country and in Europe. First, there is a more or less rapid rise 
in temperature of the silage mass, the degree of which depends 
somewhat upon the temperature of the outside air and more perhaps 
upon the state of maturity of the corn and the degree of fineness to 
which it is cut. This is followed by a gradual decline in temperature 
of the silage and a change of color from the green of the fresh-cut 
corn to a greenish-brown. These changes in physical appearance are 
accompanied by a copious evolution of carbon dioxid and the forma- 
tion of volatile and nonvolatile acids, which have been shown to con- 
sist largely of acetic and lactic acids. The sugars both of the reduc- 
ing and nonreclucing type which are present in green corn disappear 
almost completely during the fermentation process. A large part 
of the albuminoid nitrogen disappears, and there is a great increase 
in the amount of nonprotein nitrogen, some of which appears as 
amino acids. 
The causes which produce these profound changes have been the 
subject of considerable dispute, some writers taking the ground that 
bacterial action is entirely responsible, others that bacteria have little 
if anything to do with them, and still others contend that the changes 
are due in part to bacterial and in part to enzymatic action. 
DOWNWASH OF SOLUBLE MATERIAL. 
The results of the chemical analyses as given in the tables show 
many evidences of a downwash of soluble material, the upper part of 
the silo losing and the lower part gaining. In 1914—15 about 2,600 
pounds of juice were collected, and in 1915-16 about 10,000 pounds. 
Doubtless had this juice not been allowed to escape, the analytical re- 
sults for the bags in the lower part of the silo would have shown a 
greater loading up with soluble constituents, or at least smaller losses. 
Especially is it believed that this would have been true in 1915-16 
when the loss in juice rose to almost 5 tons. A difficulty in controlling 
conditions is the impossibility of removing the bags simultaneously so 
that they would all have been in the silo the same length of time. 
This factor might be quite important in the 1915-16 work, when 
from 1 to nearly 3 months elapsed between the recovery of several of 
the bags. 
The tables showing losses and gains of green matter and of moisture 
during ensiling show by comparison the marked effect of adding water 
when filling the silo. Indeed, the tendency of certain soluble con- 
stituents to wash downward in the silo, which was probably obscured 
the second season by the excessive outflow of juice, may have been 
