“Another advantage of a drainage system is that it prevents that cooling of the soil which would result from prolonged evaporation. In taking the form of vapor water chills the objects that help to promote the evaporation. For this reason we feel a decided chill on emerging from a bath; the film of moisture that covered us is passing off in vaporous form. Similarly a constant evaporation at the surface of a water-soaked tract of land chills the ground and we have a cold soil. But if the water is carried off by proper drainage, evaporation ceases and there is no further chilling of the surface soil. Now, a high temperature is always favorable to vegetation.
“Draining is so beneficial that it is not confined to marshy ground, which without it would be quite unproductive, but is applied also to ordinary arable [[218]]land. Wherever the soil is too clayey, or even where the surface soil is good but the subsoil clayey, rain-water cannot drain off readily and the ground remains soggy and cold. Eventually, however, it dries up, but there being no way for the air to permeate the soil, the latter is left hard and unyielding, so that the roots are by turns drowned in liquid mud and held fast in a tenacious paste that has been baked by the sun. Drainage overcomes these difficulties, and consequently all rich soils that hold rain-water for some time before infiltration are much improved by being properly drained.” [[219]]
CHAPTER XLIII
PARING AND BURNING
“You see that man over there on the hillside,” said Uncle Paul, pointing to a laborer who, with a large hoe, was paring the ground, so to speak, by shaving off great squares of earth covered with grass and weeds and shrubs. “You see how he stands those pieces up, either in pairs, back to back, or one at a time, so bent or vaulted that they will stay upright by themselves. Thus the air is allowed to circulate and dry them rapidly. If we come back in a few days, after sun and air have done their work and the drying process is complete, we shall find our man there again at his work; and we shall see how he piles up the turf with the earthy side upward and outward. In the middle of the pile he leaves a cavity which he fills with brushwood and dry leaves. Then he sets fire to the whole. A second pile is constructed in the same manner and likewise set on fire. Soon the entire hillside is covered with a great number of these small furnaces, burning slowly and sending out long trails of smoke. In a few days, three or four at most, the fires burn themselves out, and then, as soon as all the piles are cold, the mixture of ashes and calcined earth is spread over the ground with a shovel. This agricultural [[220]]operation is known as paring and burning, and is carried out for the purpose of rendering arable a tract of land not yet under cultivation and still covered with wild vegetation.
“The operation of paring and burning produces two effects, one with reference to the clay in the soil, the other having to do with the ashes left from the burning of the weeds. Clay, as you know, is a tenacious, binding substance, impervious to both air and water. Consequently a soil that is too clayey is unfavorable for vegetation, furnishing the roots with insufficient air and moisture. Now, when clay is heated to a high temperature, it acquires very different properties: it no longer makes paste by the addition of water, but is porous, permeable, and readily admits air and water. The paring-and-burning process, therefore, improves an argillaceous soil by calcining the clay and rendering it permeable. That is as much as to say that if paring and burning are beneficial to heavy or clayey soils, they are, on the other hand, harmful to those that are light or sandy.
“Finally, the operation just described affects the soil through the ashes of the burnt weeds. After the combustion of all vegetable matter there remains an earthy powder or ash comprising the mineral substances contained in that vegetable matter, substances unchanged by combustion because of their great resistance to heat. The most important of these is potash. All the ingredients that once belonged to the burnt plants are evidently adapted to [[221]]the formation of new plants. The ashes, then, of the weeds consumed in the process of paring and burning will be very useful to the plants about to be raised on the land that has been burnt over. By the burning, however, it is impossible to turn to account all that the weeds contained: what escapes in the form of smoke is so much lost. Hence care should be taken not to carry combustion too far. In this connection the calcined clay renders still another service. By becoming porous through calcination its nature is altered so that it can absorb and retain the gaseous products of combustion and thus save just so much waste. But if a soil lacks clay, paring and burning are harmful, and it is better simply to turn the weeds under, whereupon they will be converted into mold instead of being dissipated in the atmosphere as smoke.
“Ashes other than those resulting from paring and burning are also used as an agricultural fertilizer, though they are rarely put to this use just as they are, because the contained potash, a highly valuable substance, is first extracted by leaching. After this process the ashes are called buck-ashes. They contain silica and also carbonate and phosphate of lime, all in a condition most favorable for assimilation by plants. Of less strength than ordinary ashes, leached ashes nevertheless produce good results, especially on clayey soil. Coal ashes, too, it should be added, serve to lighten a heavy soil since they contain a large proportion of calcined clay. [[222]]
“The subject of ashes leads us naturally to that of soot, a substance composed of vegetable matter incompletely decomposed by heat and containing ammonia, which renders it highly efficacious as a fertilizer. It is applied to young plants, giving them an increased vigor of growth. By its acrid quality, moreover, it is excellent as a protection against insects that attack vegetation.” [[223]]