“What you should do,” said the Doctor, “is to commence at the creek, and straighten it. Take a gang of men, and be with them with yourself, or get a good foreman to direct operations. Commence at a, and straighten the creek to b, and from b to c (see map on next page). Throw all the rich, black muck in a heap by itself, separate from the sand. You, or your foreman, must be there, or you will not get this done. A good ditcher will throw out a great mass of this loose muck and sand in a day; and you want him to dig, not think. You must do the thinking, and tell him which is muck, and which is only sand and dirt. When thrown up, this muck, in our dry, hot climate, will, in the course of a few months, part with a large amount of water, and it can then be drawn to the barns and stables, and used for bedding, or for composting with manure. Or if you do not want to draw it to the barn, get some refuse lime from the lime-kiln, and mix it with the muck after it has been thrown up a few weeks, and is partially dry. Turn over the heap, and put a few bushels of lime to every cord of the muck, mixing the lime and muck together, leaving the heap in a compact form, and in good shape, to shed the rain.
“When you have straightened, and cleaned out, and deepened the creek,” continued the Doctor, “commence at z on the new creek, and cut a ditch through the swamp to y. Throw the muck on one side, and the sand on the other. This will give you some good, rich muck, and at the same time drain your swamp. Then cut some under-drains from y towards the higher land at w, v, and h, and from f to x. These will drain your land, and set free the inert plant-food, and such crops of timothy as you will get from this swamp will astonish the natives, and your bill for medical attendance and quinine will sink to zero.”
MAP OF CREEK.
The Doctor is right. There is money and health in the plan.
Prof. S. W. Johnson, as chemist to the Conn. State Ag. Society, made accurate analyses of 33 samples of peat and muck sent him by gentlemen from different parts of the State. The amount of potential ammonia in the chemically dry peat was found to vary from 0.58 in the poorest, to 4.06 per cent in the richest samples. In other words, one deposit of muck may contain seven times as much nitrogen as another, and it would be well before spending much money in drawing out muck for manure to send a sample of it to some good chemist. A bed of swamp-muck, easily accessible, and containing 3 per cent of nitrogen, would be a mine of wealth to any farmer. One ton of such muck, dry, would contain more nitrogen than 7 tons of straw.
“It would be capital stuff,” said the Deacon, “to put in your pig-pens to absorb the urine. It would make rich manure.”
“That is so,” said I, “and the weak point in my pig-breeding is the want of sufficient straw. Pigs use up more bedding than any other animals. I have over 200 pigs, and I could use a ton of dry muck to each pig every winter to great advantage. The pens would be drier, the pigs healthier, and the manure richer.”
The Doctor here interrupted us. “I see,” said he, “that the average amount of ammonia in the 33 samples of dry peat analyzed by Professor Johnson is 2.07 per cent. I had no idea that muck was so rich. Barn-yard manure, or the manure from the horse stables in the cities, contains only half a per cent (0.5) of ammonia, and it is an unusually rich manure that contains one per cent. We are safe in saying that a ton of dry muck, on the average, contains at least twice as much potential ammonia as the average of our best and richest stable-manure.”