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duction of carbon dioxide and alcohol; (2) the production of soluble carbohydrates, as dextrin, from insoluble forms, as starch; (3) the production of lactic and other acids; (4) the formation of other volatile carbon compounds; (5) a change in the solubility of the proteid compounds; (6) the formation of amine and ammonium compounds from soluble proteids and (7) the partial oxidation of the fat. In addition to these changes there are undoubtedly many others which take place. Inasmuch as many of the compounds formed during the fermentation process are either gases or are volatile at the temperature of baking, appreciable losses of dry matter must necessarily take place in bread making. These losses are usually considered as amounting to about 2 per cent of the flour used. In exceptional cases, as in prolonged fermentation, under favorable conditions, the losses may amount to 8 per cent or more. It is claimed that the losses need not exceed 2 per cent and that they may be reduced to 1.1 per cent. Liebig calculated that in Germany the yeast plant consumed as much food daily as would supply 400,000 persons with bread.
On account of this consumption of nutritive elements by yeasts, and on account of the uncertainty of their working, chemical substitutes were sought 50 years ago in the United States and Germany. The substitutes for yeast are easily adulterated, they must be prepared with great care in order that they may not be inefficient or harmful, and even when successful the bread is usually rather tasteless. As a consequence, they have not met with success. Another loss occurs when the bread is baked. The carbon dioxide is largely retained in the dough, but the alcohol passes off. In 1858 it was estimated that 300,000 gallons of spirits were lost annually in London from baking bread, a loss of over a million dollars. Over $95,000 were spent in an effort to devise means to save these fumes. It was given up, not on account of failure to secure the alcohol, but because the bread baked in the process was dry, unpalatable and unsalable.
In baking, the starch is rendered soluble by the heat, the fermenting growth is killed, and the gluten is solidified, so that the cavities formed by the carbonic gas retain their figure.
1 U. S. Dept. Agr., Off. Exp. Sta., Bul. 67, p. 11.
The crust and the crumb of the bread differ physically and chemically. This is due to the sudden and intense heat to which the crust is subjected. In the crust the starch is rapidly decomposed into dextrine and maltose, which are caramelized by the heat, making the crust darker and sweeter than the crumb. When bread grows stale, the moisture passes from the damper crumb to the drier crust, and it is supposed that the starch undergoes a chemical change. “The whole question of staleness is one about which little has been absolutely proved."
Cost of Baking.—A barrel of flour will make nearly 300 loaves of bread as ordinarily baked. A 10-cent loaf weighs about 114 pounds. The consumer thus pays 8 cents a pound for bread. A pound of bread can be made from about threequarters pound of flour. At 2 cents per pound for flour, it is estimated that the cost of a pound of bread, exclusive of fuel and labor, is about 2 cents, which allows a half cent for shortening and yeast. While the fuel and labor add materially to the cost, these figures verify the statement that all the combined operations of raising wheat in Dakota, transporting it to Minneapolis, grinding it, and shipping the flour to Boston or New York cost less than to bake the flour into bread and carry it from the bakery to the home.
Macaroni in its numerous forms is a palatable and nutritious food. It is comparatively inexpensive, and is largely replacing meat dishes, which are continually becoming more costly. In food value and in use in the dietary, macaroni is
similar to bread. As a rule, the harder the wheat, that is, the more gluten it contains, the better it is suited to the manufacture of macaroni. Many wheats are used, however, which are not real macaroni wheats. The true varieties are quite widely grown, and have long figured in commerce. Algerian durum wheats are exported for this purpose, and form a standard type. Not a little macaroni wheat is grown and used in South Argentina. The wild goose wheat of Canada, rejected as a bread wheat, now finds use as a macaroni wheat, especially in France. The Japanese use home-grown wheat. The metadiné wheat of France is a half-hard wheat that is being largely used, but with a mixture of durum wheat. Indian and Turkish wheats are often mixed with such wheat as the Algerian. Russia grows some of the finest macaroni wheats, chiefly known in France as Taganrog, because Taganrog is the principal point of export. Some of the wheats of Italy, the native land of macaroni, are second to none. One of the best varieties is Saragolla wheat. Even the common bread wheats have been quite extensively used, especially in the United States. Such wheat, however, does not produce a high grade macaroni, and this is one of the reasons why the quality of American macaroni has generally been below that of the imported product. Austria has also manufactured a low grade product from bread wheats.
The Macaroni Industry had its birth in Naples, and before 1875 the Italian product had not yet been equaled in any other country. The Neapolitan manufacturers gained their fame on account of the excellent quality of the native wheat. The cultivation of this has long been neglected. In the main, the spread of the macaroni industry seems to have taken place during the last quarter of a century. It developed a great wheat growing industry in Algeria and Tunis. “Semolina'' or “Semoule," the coarse flour from which macaroni is manufactured, has become an article of commerce beyond mere local trade. Not only has the macaroni industry developed greatly in France and Italy during recent years, but also in the Levant and in many other foreign lands. In 1903 France produced about 330,000 pounds of pastes per day, onethird of which was exported, chiefly to the United States, but also to Austria, Germany and Belgium. Italian exports go principally to the South American nations, and to a limited extent to England and the United States. . In Japan, macaroni is extensively manufactured and consumed.
In the United States, the macaroni industry began with the use of bread wheats. During 1900, it became established on a durum wheat basis in North Dakota. From 1896 to 1901, about 15 to 20 million pounds of macaroni, vermicelli and similar preparations were annually imported by the United States. These imports amounted to nearly 30,000,000 pounds and were valued at over $1,000,000 during the fiscal year of 1902-3. The very finest quality of Italian macaroni is rarely exported to America, because it retains its quality only a few months, “while the commonly exported article remains good for a year. The high quality of the best Italian macaroni is doubtless largely due to the wheat from which it is made, but it may also be due to the action of bacteria.
Process of Manufacture of Macaroni-In the manufacture of semolina, the wheat is first cleaned, which includes washing by water. Sometimes it is then dried, and moistened a second time. The water is considered essential to the cleaning, and it also aids in decortication. Special machinery has been devised for cleaning and dampening the wheat. It is milled in much the same way that soft wheat is ground into flour. In the best quality of semolina the resultant product is from 60 to 65 per cent of semolina, from 12 to 15 per cent of flour, and from 18 to 20 per cent of bran. Some of the lower grade wheats yield only from 30 to 40 per cent of semolina of an inferior quality. The miller's object is to get as much semolina and as little flour as possible. A special machine known as a “Sausseur" is used in grading the products. Semolina is not flour, but a much coarser product. As a rule, the manufacturers of macaroni do not grind their own wheat, but obtain their semolina from millers of that prodact. The semolina must be mixed in order to maintain a certain standard, the same as wheat is mixed in order to obtain a uniform flour. The product which goes into the macaroni should have from 45 to 50 per cent of gluten.
Before mechanical methods came in vogue, macaroni was kneaded by means of a wooden pole, or by piling up the dough and treading it out with the feet, after which it was rolled with a heavy rolling pin. By having a fire under the vessel, it was partially baked while being reduced to tubes and strips. “Modern mechanical methods are simply enlargements of the old family process by which the housewife mixed flour and water, kneaded the batch, rolled it into sheets, cut it into strips and hung it out to dry. In the modern factory the semolina is measured into a steel pan about 8 feet in diameter, within which travels a stone wheel. Water is added, the machine is put in motion, the wheel moves slowly around the pan, thus kneading the batch until it attains proper consistency. Just ahead of the wheel is set a small steel plow, to gather and turn over the mass,