LIST OF ILLUSTRATIONS. 66 66 66 7. 4.-A map of land with swamps, rocks, springs and trees.. 66 rod... 8.-Map with contour lines. 9.-Wells' Clinometer.. 11.-Stone pit and tile-basin for same object.. 13.-Horse-shoe tile.. 14.-Sole-tile. 15.-Double-sole-tile. 13 13 14 50 51 52 53 54 56 59 60 65 78 80 80 18.-Three profiles of drains with different inclinations.. 92 22.-Set of tools, (from Drainage des Terres Arables).. .114 66 23.-Outlet secured with masonry and grating, (from the same). .118 30.-Position of workman, and use of scoop, (from Drainage des Terres 44.-Cheap wooden machine, (from Drainage des Terres Arables). .181 .182 .184 TABLE OF CONTENTS. HOW DRAINS ACT, AND HOW THEY AFFECT THE SOIL. Characteristics of a well laid tile-drain.-Surface-water and rain-water beneficial, springs and soakage-water injurious.-Cracking of stiff clays. Evaporation and filtration.-Rain-fall.-Evaporation.-Temperature.— Drought.-Porosity or mellowness.-Chemical action in the soil. HOW TO GO TO WORK TO LAY OUT A SYSTEM OF DRAINS. Amateur draining-Maps.-Levelling instruments.-Outlets and loca- tion of drains.-Main drains.-Spring water.-Fall.-Tiles.-Depth and distance apart.-Direction of laterals.-Collars.-Discharge of water Draining, expensive work.-Permanence and lasting effects.-Cheap- ness versus economy. Details of cost. (1. Engineering and Su- perintendence.-2. Digging the ditches.-3. Grading the bottoms.- 4. Tiles and tile laying.-5. Covering and filling.-6. Outlets and Silt- Increased crops required to pay cost of draining.-(Corn, Wheat, Rye, Materials. Preparation of earths.-Moulding tiles.-Machines.-Dry- THE RECLAIMING OF SALT MARSHES. Extent of marshes on the Atlantic Coast.-The English Fens.-Har- Fever-and-Ague.-Neuralgia.-Vicinity of New York.-Dr. Bartlett Sewerage. The use of pipes.-The new outfall sewers in London.- The use of steam-pumps to secure outlets.-Utilization of sewage matters in agriculture.-Effects of imperfect house drainage on health.- Typhoid fever.-The Westminster fever in London. -Epidemic at the Maplewood Young Ladies Institute, in Pittsfield, Mass.-Lambeth Square, London.-Back drainage.-Water supply.-General Board of CHAPTER I. LAND TO BE DRAINED AND THE REASONS WHY. Land which requires draining hangs out a sign of its condition, more or less clear, according to its circumstances, but always unmistakable to the practiced eye. Sometimes it is the broad banner of standing water, or dark, wet streaks in plowed land, when all should be dry and of even color; sometimes only a fluttering rag of distress in curling corn, or wide-cracking clay, or feeble, spindling, shivering grain, which has survived a precarious winter, on the ice-stilts that have stretched its crown above a wet soil; sometimes the quarantine flag of rank growth and dank miasmatic fogs. To recognize these indications is the first office of the drainer; the second, to remove the causes from which they arise. If a rule could be adopted which would cover the varied circumstances of different soils, it would be somewhat as follows: All lands, of whatever texture or kind, in which the spaces between the particles of soil are filled with water, (whether from rain or from springs,) within less than four feet of the surface of the ground, except during and immediately after heavy rains, require draining. Of course, the particles of the soil cannot be made dry, nor should they be; but, although they should be moist themselves, they should be surrounded with air, not with water. To illustrate this: suppose that water be poured into a barrel filled with chips of wood until it runs over at the top. The spaces between the chips will be filled with water, and the chips themselves will absorb enough to become thoroughly wet;—this represents the worst condition of a wet soil. If an opening be made at the bottom of the barrel, the water which fills the spaces between the chips will be drawn off, and its place will be taken by air, while the chips themselves will remain wet from the water which they hold by absorption. A drain at the bottom of a wet field draws away the water from the free spaces between its particles, and its place is taken by air, while the particles hold, by attraction, the moisture necessary to a healthy condition of the soil. There are vast areas of land in this country which do not need draining. The whole range of sands, gravels, light loams and moulds allow water to pass freely through them, and are sufficiently drained by nature, provided, they are as open at the bottom as throughout the mass. A sieve filled with gravel will drain perfectly; a basin filled with the same gravel will not drain at all. More than this, a sieve filled with the stiffest clay, if not "puddled,"* will drain completely, and so will heavy clay soils on porous and well drained subsoils. Money expended in draining such lands as do not require the operation is, of course, wasted; and when there is doubt as to the requirement, * Puddling is the kneading or rubbing of clay with water, a process by which it becomes almost impervious, retaining this property until thoroughly dried, when its close union is broken by the shrinking of its parts. Puddled clay remains impervious as long as it is saturated with water, and it does not entirely lose this quality until it has been pulverized in a dry state. A small proportion of clay is sufficient to injure the porousness of the soil by puddling.-A clay subsoil is puddled by being plowed over when too wet, and the injury is of considerable duration. Rain water collected in hollows of stiff land, by the simple movement given it by the wind, so puddles the surface that it holds the water while the adjacent soil is dry and porous. The term puddling will often be used in this work, and the reader will understand, from this explanation, the meaning with which it is cmployed. |