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SOLUBLE PHOSPHATES IN FARMYARD MANURE.
There is one thing in these experiments of Dr. Vlcker's which deserves special attention, and that is the comparatively large amount of _soluble phosphate of lime_ in the ash of farm-yard manure. I do not think the fact is generally known. In estimating the value of animal manures, as compared with artificial manures, it is usually a.s.sumed that the phosphates in the former are insoluble, and, therefore, of less value than the soluble phosphates in superphosphate of lime and other artificial manures.
Dr. Vlcker found in the ash of _fresh_ farm-yard manure, phosphoric acid equal to 12.23 per cent of phosphate of lime, and of this 5.35 was _soluble_ phosphate of lime.
In the ash of well-rotted manure, he found phosphoric acid equal to 12.11 per cent of phosphate of lime, and of this, 4.75 was soluble phosphate of lime.
"That is, indeed, an important fact," said the Doctor, "but I thought Professor Vlcker claimed that 'during the fermentation of dung, the phosphate of lime which it contains is rendered more soluble than in fresh manure.'"
"He did say so," I replied, "and it may be true, but the above figures do not seem to prove it. When he wrote the sentence you have quoted, he probably had reference to the fact that he found more soluble phosphate of lime in rotted manure than in fresh manure. Thus, he found in 5 tons of fresh and 5 tons of rotted, manure, the following ingredients:
SP: Soluble Phosphate of Lime.
IP: Insoluble phosphates.
TP: Total Phosphates.
TSA: Total Soluble Ash.
TIA: Total Insoluble Ash.
TA: Total Ash.
--------------+-----+-----+-----+-------------+-----+-----+----- Potash 5 Tons. SP IP TP +------+------+ TSA TIA TA (10,000 LBS.) Sol. Insol. --------------+-----+-----+-----+------+------+-----+-----+----- Fresh manure 29.9 38.6 68.5 57.3 9.9 154 405 559 Rotted manure 38.2 57.3 95.5 44.6 4.5 147 658 805 --------------+-----+-----+-----+------+------+-----+-----+-----
"It will be seen from the above figures that _rotted manure contains more soluble phosphate of lime than fresh manure_.
"But it does not follow from this fact that any of the insoluble phosphates in fresh manure have been rendered soluble during the fermentation of the manure.
"There are more insoluble phosphates in the rotted manure than in the fresh, but we do not conclude from this fact that any of the phosphates have been rendered insoluble during the process of fermentation--neither are we warranted in concluding that any of them have been rendered soluble, simply because we find more soluble phosphates in the rotted manure."
"Very true," said the Doctor, "but it has been shown that _in the heap_ of manure, during fermentation, there was an _actual increase_ of soluble mineral matter during the first six months, and, to say the least, it is highly probable that some of this increase of soluble mineral matter contained more or less soluble phosphates, and perhaps Dr. Vlcker had some facts to show that such was the case, although he may not have published them. At any rate, he evidently thinks that the phosphates in manure are rendered more soluble by fermentation."
"Perhaps," said I, "we can not do better than to let the matter rest in that form. I am merely anxious not to draw definite conclusions from the facts which the facts do not positively prove. I am strongly in favor of fermenting manure, and should be glad to have it shown that fermentation does actually convert insoluble phosphates into a soluble form."
There is one thing, however, that these experiments clearly prove, and that is, that there is a far larger quant.i.ty of _soluble_ phosphates in manure than is generally supposed. Of the total phosphoric acid in the fresh manure, 43 per cent is in a soluble condition; and in the rotted manure, 40 per cent is soluble.
This is an important fact, and one which is generally overlooked. It enhances the value of farm-yard or stable manure, as compared with artificial manures. But of this we may have more to say when we come to that part of the subject. I want to make one remark. I think there can be little doubt that the proportion of soluble phosphates is greater in rich manure, made from grain-fed animals, than in poor manure made princ.i.p.ally from straw. In other words, of 100 lbs. of total phosphoric acid, more of it would be in a soluble condition in the rich than in the poor manure.
CHAPTER XVIII.
HOW THE DEACON MAKES MANURE.
"I think," said the Deacon, "you are talking too much about the science of manure making. Science is all well enough, but practice is better."
"That depends," said I, "on the practice. Suppose you tell us how you manage your manure."
"Well," said the Deacon, "I do not know much about plant-food, and nitrogen, and phosphoric acid, but I think manure is a good thing, and the more you have of it the better. I do not believe in your practice of spreading manure on the land and letting it lie exposed to the sun and winds. I want to draw it out in the spring and plow it under for corn.
I think this long, coa.r.s.e manure loosens the soil and makes it light, and warm, and porous. And then my plan saves labor. More than half of my manure is handled but once. It is made in the yard and sheds, and lies there until it is drawn to the field in the spring. The manure from the cow and horse stables, and from the pig-pens, is thrown into the yard, and nothing is done to it except to level it down occasionally. In proportion to the stock kept, I think I make twice as much manure as you do."
"Yes," said I, "twice as much _in bulk_, but one load of my manure is worth four loads of your long, coa.r.s.e manure, composed princ.i.p.ally of corn-stalks, straw, and water. I think you are wise in not spending much time in piling and working over such manure."
The Deacon and I have a standing quarrel about manure. We differ on all points. He is a good man, but not what we call a good farmer. He cleared up his farm from the original forest, and he has always been content to receive what his land would give him. If he gets good crops, well, if not, his expenses are moderate, and he manages to make both ends meet.
I tell him he could double his crops, and quadruple his profits, by better farming--but though he cannot disprove the facts, he is unwilling to make any change in his system of farming. And so he continues to make just as much manure as the crops he is obliged to feed out leave in his yards, and no more. He does not, in fact, _make_ any manure. He takes what comes, and gets it on to his land with as little labor as possible.
It is no use arguing with such a man. And it certainly will not do to contend that his method of _managing_ manure is all wrong. His error is in making such poor manure. But with such poor stuff as he has in his yard, I believe he is right to get rid of it with the least expense possible.
I presume, too, that the Deacon is not altogether wrong in regard to the good mechanical effects of manure on undrained and indifferently cultivated land. I have no doubt that he bases his opinion on experience. The good effects of such manure as he makes must be largely due to its mechanical action--it can do little towards supplying the more important and valuable elements of plant-food.
I commend the Deacon's system of managing manure to all such as make a similar article. But I think there is a more excellent way. Feed the stock better, make richer manure, and then it will pay to bestow a little labor in taking care of it.
CHAPTER XIX.
HOW JOHN JOHNSTON MANAGES HIS MANURE.
One of the oldest and most successful farmers, in the State of New York, is John Johnston, of Geneva. He has a farm on the borders of Seneca Lake. It is high, rolling land, but needed underdraining. This has been thoroughly done--and done with great profit and advantage. The soil is a heavy clay loam. Mr. Johnston has been in the habit of summer-fallowing largely for wheat, generally plowing three, and sometimes four times. He has been a very successful wheat-grower, almost invariably obtaining large crops of wheat, both of grain and straw. The straw he feeds to sheep in winter, putting more straw in the racks than the sheep can eat up clean, and using what they leave for bedding. The sheep run in yards enclosed with tight board fences, and have sheds under the barn to lie in at pleasure.
Although the soil is rather heavy for Indian corn, Mr. Johnston succeeds in growing large crops of this great American cereal. Corn and stalks are both fed out on the farm. Mr. J. has not yet practised cutting up his straw and stalks into chaff.
The land is admirably adapted to the growth of red clover, and great crops of clover and timothy-hay are raised, and fed out on the farm.
Gypsum, or plaster, is sown quite freely on the clover in the spring.
Comparatively few roots are raised--not to exceed an acre--and these only quite recently. The main crops are winter wheat, spring barley, Indian corn, clover, and timothy-hay, and clover-seed.
The materials for making manure, then, are wheat and barley straw, Indian corn, corn-stalks, clover, and timothy-hay. These are all raised on the farm. But Mr. Johnston has for many years purchased linseed-oil cake, to feed to his sheep and cattle.
This last fact must not be overlooked. Mr. J. commenced to feed oil-cake when its value was little known here, and when he bought it for, I think, seven or eight dollars a ton. He continued to use it even when he had to pay fifty dollars per ton. Mr. J. has great faith in manure--and it is a faith resting on good evidence and long experience.
If he had not fed out so much oil-cake and clover-hay, he would not have found his manure so valuable.
"How much oil-cake does he use?" asked the Deacon.
"He gives his sheep, on the average, about 1 lb. each per day."
If he feeds out a ton of clover-hay, two tons of straw, (for feed and bedding,) and one ton of oil-cake, the manure obtained from this quant.i.ty of food and litter, would be worth, according to Mr. Lawes'
table, given on page 45, $34.72.
On the other hand, if he fed out one ton of corn, one ton of clover-hay, and two tons of straw, for feed and bedding, the manure would be worth $21.65.
If he fed one ton of corn, and three tons of straw, the manure would be worth only $14.69.
He would get _as much manure_ from the three tons of straw and one ton of corn, as from the two tons of straw, one ton of clover-hay, and one ton of oil-cake, while, as before said, the manure in the one case would be worth $14.69, and in the other $34.72.
In other words, a load of the good manure would be worth, when spread out on the land in the field or garden, more than two loads of the straw and corn manure.
To get the same amount of nitrogen, phosphoric acid, and potash, you have to spend more than twice the labor in cleaning out the stables or yards, more than twice the labor of throwing or wheeling it to the manure pile, more than twice the labor of turning the manure in the pile, more than twice the labor of loading it on the carts or wagons, more than twice the labor of drawing it to the field, more than twice the labor of unloading it into heaps, and more than twice the labor of spreading it in the one case than in the other, and, after all, twenty tons of this poor manure would not produce as good an effect the first season as ten tons of the richer manure.