In the beginning, all crops for the sustenance of mankind were produced and prepared by the power of human muscles. Many centuries passed before the power of animal muscles was used to relieve that of the human being. With the discovery of iron, tools were fashioned that further relieved the labor of human muscles. The transition from hand farming to this modern power-farming age was at first slow, but with the development of the steel plow, the internal-combustion engine, the farm tractor, and other modern farm machines, the movement has accelerated beyond the wildest dreams of our forefathers. The changes which occurred during the past decade have so tremendously affected human values that one wonders what effect farm machines of the future will have on our welfare. In fact, there has been more farming progress in the last hundred years than in all the previous history of the world.¹

Progress of Farm Mechanization. In 1855, practically 80 per cent of the population of the United States lived on farms, while in 1955, more than 85 per cent live in towns and cities.

Figure 1–1 shows that

The number of tractors on farms increased from a few giant tractors in 1910 to 4.5 million in 1955. As the number of tractors have increased, the number of horses and mules on farms have decreased to around 4.5 million in 1955. It is obvious that as the number of tractors increased there was also a corresponding increase in farm power machines.

In explaining the chart shown in Fig. 1–2, the Bureau of Agricultural Economics states that

Power Equipment Cuts Production Man-hours. The effect of the mechanization of agriculture is shown in the number of man-hours required to grow and harvest an acre of wheat yielding 20 bushels. In 1830, when the grain was sown by hand and harvested by hand with a cradle, 55.7 man-hours were required. In 1896, with the use of a horse-drawn drill and binder, 8.8 man-hours were required, while in 1930, with the tractor-drawn drill and combine, only 3.3 man-hours were necessary.² Newer machines and improved practices in producing spring wheat reduced the required man-hours in 1950 to 1.4 in South Dakota, and to 1.8 in northeastern Montana and southwestern North Dakota. Where summer fallow was practiced, the man-hour requirement per acre was 1.9 in western South Dakota and 2.6 in the central areas of the Dakotas. The per-acre tractor-hours for these areas was 0.8, 1.4, 1.5, and 1.8, respectively.³ The difference in man- and tractor-hours results from the use of self-propelled combines and hauling where no tractors were used. Improved machines and practices have brought about similar reductions in man-hour requirement in the production and harvesting of most field crops, in the relation of farm output to labor input (Fig. 1–3).

There has been more progress in the reduction of man-hours required to grow and harvest an acre of cotton from 1930 to 1955 than in all the previous history of the crop. This resulted from farm-mechanization practices.

Equipment Must Suit the Crops and the Types of Farming. The two major crop systems in the United States are row crops and broadcast crops. The principal row crops are corn, cotton, potatoes, tobacco, and truck crops. Hay, rice, wheat, and the small grains are broadcast crops. Farm machinery can be profitably used with both systems, but the more uses to which a machine can be adapted the less the initial investment in equipment. Certain types of plows and harrows for seedbed preparation have a wide application. Grain drills and combines are adapted for seeding and harvesting of wheat and the small grains, and the combine can also be used for harvesting some row crops, such as sorghum grain and soybeans. With slight modifications, many other types of farm equipment can be used on more than one crop. On the other hand, there are some machines, such as beet and cotton harvesters, that are suitable for one crop only.

Breeding Crops to Suit Machinery. Certain field crops do not readily lend themselves to machine harvesting. The drooping heads of some varieties of grain sorghum make it difficult to head them without cutting excessively long stems. Plant breeders have now developed varieties of sorghum with straight, erect heads of uniform height that are well adapted to combining. As cotton matures, it produces long vegetative and fruiting branches with an abundance of foliage, which make it difficult to harvest the cotton bolls with machinery. Plant breeders, however, have recently developed types of cotton plants that are more suitable to machine harvesting. Fluffy types are suitable for the picker, and nonfluffy or stormproof types are best harvested by the stripper.

Trend toward Tractor-mounted, Pick-up, and Quick-change Units. When the tractor was first used for the operation of field equipment, all machines were pulled behind the tractor. Specially designed planters and cultivators were mounted on row-crop tractors about 1930. With the development of the power-take-off, other machines, such as mowers and corn pickers, were fitted to and mounted on the tractor. These first tractor-mounted units required considerable labor and time to mount and dismount. They were put together practically piece by piece and taken off in a similar manner. All lifting and adjusting were done by hand levers. Later, units were developed that could be attached as assembled units and lifted with mechanical power lifts. Two- and three-bottom plows were at first considered too heavy to be picked up or lifted as units. In 1955, however, three-bottom moldboard plows, tandem disk harrows, and many other formerly trailing machines are now picked up, while making turns, by means of hydraulic power. Consequently, most farm equipment for cultural purposes is now designed for tractor attachment. The exceptions are self-propelled combines, corn pickers, and cotton pickers.

Farm Management. Farm machines designed for higher speeds, constructed of heat-treated steels, and equipped with more durable bearings will lessen operating time and will lower costs. Terracing and contouring of fields will cause changes in farming practices, both in the types of machinery used and in cropping systems. These and various other factors will materially affect the management of farm labor and equipment.

Rubber Tires for Farm Equipment. When the first edition of Farm Machinery and Equipment was published, in 1929, there were no farm machines equipped with rubber tires. In the second edition, in 1937, only a few machines equipped with rubber tires were shown. The third edition, in 1948, showed rubber tires on most equipment. Now, in 1955, it is fairly rare to see a new farm machine that is not equipped with rubber tires.

The various factors related to the types and use of rubber tires are given in C...