TH E Devoted to Agriculture, Horticulture, and the Household Arts • Agriculture is the ours ing mother of the Arts. [Xeropbton. 1 Tillage and Pasturage are the two the State. — Sully. treaal s of J. E. WILLIAMS, Editor. AUGUST & WILLIAMS, Prop'rs. Vol. XX. RICHMOND, VA , MARCH, 1860. No. 3. From Josiah Parked Essays on the Philosophy and Art of Land-Drainage. Physical Properties of Earthy Matter. [CONTINUED FROM THE FEBRUARY NUMBER OF THE SOUTHERN PLANTER.] Section II. The influence of drainage and pulveriza- tion on the temperature of soils, is neces- sarily, dependent on the habits and consti- tution of the solid as well as the fluid matter composing or mixed with the soil. The variety of substances which enter into its composition; their peculiar structure; the state of division or size of their parti- cles; their colour ; their respective powers of absorbing, conducting, and radiating heat; their bibulousncss — all these proper- ties conspire to the determination of the temperature of a given soil : and these properties are irrespective of latitude or lo- cality. Chemists have informed us of the specific heat, of the absorbing and radia- ting energy of various earths, and of many soluble and insoluble bodies when submit- ted separately to investigation ; but we pos- sess little or no knowledge of these relations when such various substances are blended together, as we find them to exist in the ag- ricultural bed. It is there we should seek 9 for information ; — it is on the mass of # thc soil itself practical men should experiment, to ascertain the facts in question. Never- theless, the labours of the laboratory arc not to be rejected ; it is by their agency, chiefly, that we have acquired our complete knowledge of the phenomena of water; and investigations conducted in the closet may materially aid the experimentalist in the field. I have extracted the following opin- ions and researches from the works of two distinguished British philosophers, as they relate to the affinity to moisture and heat of many bodies found in soil, and illustrate this division of the subject. Professor Leslie, who added largely to our knowledge of the phenomena that heat and moisture, thus introduces the mention of his experiments on the hygromctric pow- ers of some of the earths, which, for the sake of brevity and perspicuity, arc col- lected in the following table : — k - Absorbent substances, besides assimi- lating to their essence a portion of the liquid which touches them, are likewise dis- posed to attract, though with various en- ergy, the humidity of the atmosphere. The more solid as well as the softer, materials exert this power, and which is csaptly analagous to that of the concentrated acids and the diliqucscent sajts, In their several 130 THE SOUTHERN PLANTER. [March affinities to moisture the earthy bodies dis- cover the most essential differences of con- stitution. To examine those properties, let the substance be dried thoroughly, and almost roasted before a strong fire, and introduced immediately into a phial with a close stopper; the powder having undergone that sort of preparation is, -at any time af- terwa ds, thrown partially into a very large wide-shaped bottle, and shut up till it has attracted its share of humidity from the con- fined air; and the delicate hygrometer be- ing now let into the bottle indicates the measure of the* effect produced by absorp- tion." DEGREES OF MOISTURE ABSORBED FROM AIR AT ABOUT 60°. Clay, very highly torrefied. . . . 8 Silica, do 19 Whinstone, do 23 Carbonate of strontites 23 Carbonate of barytes, 32 Clay, strongly roasted, 35 Silica, soaked in water, and dried after high torrefaction, , 35 Silica in its natural state, 40 Carbonate of lime, 70 Sh'elly sea-sand, .• 70 Carbonate of magnesia, c 75 Sea-sand, from a sheep-walk, 78 Whinstone, in its natural state, 80 Alumina, . . . , , 84 Pipe-clay, 85 Sea-sand, cultivated, 85 Whinstone, in a crumbling state, ... 86 Do, reduced to mould, . 92 Garden mould, 95 Leslie remarks that " the absorbent power of earths depends as much on their mechanical condition as on the species of matter of which they are composed. What- ever tends to harden them diminishes^ the measure of their effect; and hence, appa- rently, the reason why the action of fire impairs their desiccating quality.* Useful as is this contribution to the phi- losophy of soils, it must be deemed very remarkable that, the ingenious author al- together omitted to investigate the relation of the same substances to the absorption of heat, as well as moisture. The importance of ascertaining this double relation did not, however, escape the sagacity of Davy, who preceded Leslie in this research, and whose remarks are so pertinent, and possess such intrinsic worth, that I trust the citation of them will not be thought tedious : — * Leslie on Heat and Moisture, p. 96. 1818. " Many soils are popularly distinguished as cold ; and the distinction, though at first view it may appear to be founded on preju- dice is really just. " Some soils are much more heated by the rays of the sun, all other circumstances be- ing equal, than others; and soils brought to the same degree of heat, cool in differ- ent times, i. wers.f The soils were first dried * A remarkable confirmation of what has been before stated of the chilling effect of evap- oration. J. P, fSchubler has criticised this opinion of Davy's, (Journal, vol. i., p. 197.) lie ob- serves: "The assumption of Davy, that this capacity of absorption \ by a soil was to be received as a conclusive proof of its ferriliiy. is liable, therefore, to many exceptions j and, if applied without modification, might easily mislead.*' Excepting in one instance Si bidder's experiments appear to confirm, very y, Davy's observation, — '• I have compared the absorbent power.- of many soils with r< to atmospheric moisture, and I have always found it greatest in the most fertile soil* : so that it atfords one method of judging of the productiveness of land."' I have not noticed that Davy has anywhere spoken of it as a conclusive at a temperature . and then exposed to air saturated with moisture at i.)'2° : — GAIN ()F MOISTURE I \ AN HOTJB. Grains. " 1000 grains <,f ;l celebrated soil from Ormistown in Easl Lothian, 18 .ains of a very fertile soil from the banks of the river farrett in Somerset- shire,. 10 1000 grains of a soil from Mersea in Essex, 13 1000 grains of a line sand from Essex.. . 11 -rains of a coarse sand. 8 1000 grains of a soil from Bagshot Heath, 3" In reflecting on the results of these iso- lated experiments, and on the conclusions drawn from the consideration of some sin- gle property of soils (whether they be just or otherwise,) the philosophic mind cannot fail to perceive how infinitely more valua- ble such experiments would be to the agri- culturist were they combined with direct in- dications of the actual constitution of the same soils in their natural state, and under culture, as regards their attraction for heat and moisture. May it not be reasonably expected that a well-conducted scries of experiments on these phenomena would il- lustrate some of the causes which conduce to render certain soils in a higher latitude more productive than others in a more Southern one ? Might they not serve to detect fallacies in reasoning or practice — to show, possibly, that effects have been at- tributed to wrong causes — and to unfold to our perception a clearer and more correct knowledge of the workings of nature ? From the foregoing review of the physi- cal properties of soils in relation to heat and moisture, and of the action of water in warming or cooling them, it will be seen that a very remarkable difference obtains between the properties of the fluid and method. Paw. Leslie, and Schubler all agree oil the fart of garden-mould being the mosi ab- sorbent of all .-oil.-. Davy special J] the case of a pure clay ; an 1 Sehubler also in- - that earth, as an exception to die gen- eral law deduced by both philosophers, that the fertility of soils is pretty much in 4 the ratio of their powers of absorbing and retaining mois- Schubler has made one step in a Ivance V. by his elaborate experiments tending iMi-h the fact that moisture in tin- earth is a preparation for its absorption of ox and consequently that the attraction of >oils for moisture is a property of first-rate importance to agriculture. L, 132 THE SOUTHERN PLANTER. . [March solid . bodies. It appears that water ab- sorbs heat rapidly, but can only convey it downwards by itself descending into the earth j that the heat which it receives from the solar rays is again projected into the atmosphere by radiation, and in combination with vapour, when it remains stagnant on or near the surface ; whereas, solid substances impart the heat which they absorb to all surrounding matter, in all directions, (though with diiferent degrees of rapidi- ty,) as well as to the atmosphere. There is yet another important effect arising from the radiating force of solids to notice. As the sun verges towards the horizon, the superficial layer of the earth becomes colder than the atmosphere, causing the precipita- tion of dew, which the affinity of earthy matters to moisture enables them to absorb, and thereby to recruit in part, by night, the loss of moisture which has taken place during the day. Water also radiates heat powerfully but it does not attract moisture itself except under very'peculiar and rare circumstances; hence again the advantage of drainage. These important processes, viz : the absorption of moisture and the radiation of heat, will be carried on with more or less energy in proportion to the in- herent qualities of a soil, to its state of mechanical preparation, and to the proper adjustment of its supply of water. Section III. Cause and Physical Action of Dew. The quantity of moisture attracted from the atmosphere, in the form of dew, is un- known ; but the cause, and many of the laws of its formation, deposition, and physi- cal action, have been disclosed to us by the talents and labours of Dr. Wells, whose ex- periments and Essay on this subject stand almost unrivaled in the records of science as examples of skilful investigation and pro- found induction * Previously to the conclu- * The original 'Essay on Dew,' which appeared in 1814, is very scarce, but is republished in the works of Dr. Wells, containing a memoir of his life written- by himself. A distinguished living philosopher thus writes of this theory, after making a concise but search- ing analysis of it: '• We have purposely selected this theory of dew, first developed by the late Dr. Wells, as one of the most beautiful speci- mens of inductive experimental inquiry lying within a moderate compass. It is not possible in sive experiments of this admirable philoso- pher, the formation of dew was held to be the cause of the cold observed with it, and he originally entertained the same opinion. " But," he observes, " I began to see rea- son, not long after my regular course of exper- iments commenced, fc> doubt its truth, as I found that bodies would sometimes become colder than the air, without being dewed; and that, when dew was formed, if different times were compared, its quantity, and the degree of cold which appeared with it, were very far from being always in the same pro- portion to each other. The frequent recur- rence of such observations at length con- verted the doubt of the justness of my an- cient opinion into «a conviction of its error, and at the same time occasioned me to con- clude that dew is the production of a rjre- ceding cold in the substances on which it appears." Further — "that the cold which produces dew is itself produced by the ra- diation of heat from those bodies upon which dew is deposited." Thus it was discovered that an effect had heretofore been mistaken for a, cause; and the explanation of the various phenomena connected with the subject, afforded by this theory, has since remained unchallenged, and is admitted to be incontrovertible. Besides the determination of the imme- diate cause of dew, Dr. Wells ascertained, among other phenomena affecting the tem- perature of soils, that the attraction of sub- stances for water is not exactly proportional to their radiating energy; and that — "the formation of dew not only does not produce cold, but, like every precipitation of water from the atmosphere produces heat." As the earth becomes colder than the at- mosphere on dewy nights by reason of its radiating energy, and as the moisture sus- pended in the latter possesses the atmos- pheric temperature, dew, with respect to the surface of the earth, is warm. Were it not that this antagonist warming process coun- teracts, on cloudless and serene nights, the rapid escape of heat from the earth by ra- diation, it is probable that the temperature so brief a space to do it justice; but we earn- estly recommend his work (a short and entertain- ing one) for perusal to the student of natural philosophy, as a model with which he will do well to become familiar." Discourse on the stu- dy of Natural Philosophy, by Sir J. F. Herschel, 1832, p. 163. I860.] Til E SOUTH KRN I'LA NT Kit. i. ; of the Boil would 1 during the sun's absence, by a greater amount than it is elevated during its presenoej and that the extremes of heat and cold, or the vicis- situdes of temperature, during twenty-four hours, might b ' as to destroy table life in the summer season. The least experienced obserrer may easily satisfy him- Belf of the superior cold of the earth's sur- on clear nights, relatively to that of the sphere. Hoar-frost, which is frozen dew. frequently forms on grass when the ther- mometer in the air indicates a temperature Borne degrees higher than the freezing-point; a phenomenon showing that the earth, or the leaves of plants, were colder than the atmosphere, and below the freezing-point when the deposition took place, In Bengal, IS (or was) procured artificially, on a scale, or for profit, by exposing water to the sky in porous earthen pans placed in shallow pits. The difference of tempera- ture between the air and the water, at the time of its congelation, has often been ob- served, on clear, serene nights, to amount to 14° and 16°. The air near the ground must then have had a temperature of about 46° or 48°. The genius of Davy would appear to have almost divined the mystery of dew-making, even before the complete revelation of its true and only cause by Dr. Wells, as may be gathered from the following profound re- mark : — " The power of soils to absorb water from air is much connected with fertility. When this power is great, the plant is supplied with moisture in dry seasons ; and the effect of evaporation in the day is counteracted by tin' absorption of aqueous vapour from the atmosphere, by the interior parts of the soil during the day. and by both the ea and interior during the night." — Agricultu- ral Cfu mis try. If a soil be sufficiently permeable to air, and not saturated with water, it is in a state is of moisture, which is a constant and inexhaustible vehicle of hu- midity ; and if the temperature of a suffi- ciently porous subsoil be at or below the dew-point, as will frequently be tie during Bome portion of the day, in the sum- mer season, tie P depositing dew will take place in " the interior parts of the soil during the day," at the same time that the exterior, or surface of the ground, may be projecting both heat and moisture into the atmosphere. This proc< dently de- pendent on the relative temperatures and ea of aqueous repletion of the air and subsoil at a given time; and independent of the hygrometrio power of the latter, which is, however, a potent auxiliary to the acqui- sition and retention of atmospheric mo; by soil, particularly in it interior parts. Thus, it is apparent that the acquisition I 1' moisture by soils in the form of dew i limited to the period of the night only, nor to the surface of the earth ; and it has been shown that the precipitation of dew can not take place without the communication of heat to the recipient substance : hence the importance of sufficient pulverization to per- mit access and change 01 air to the interior parts of the soil. One of the most benefi- cial effects of drainage may be also safely presumed to arise from its facilitating the access, and change of air to the very bottom of the bed ; as, in proportion to the escape of water, so will be the entrance of the air, which will, pari passu, occupy the place va- cated by the water. Every observant farmer must have re- marked, that the amount of dew precipi- tated during the same night varies greatly on different soils in fallow, and still more on the leaves of different plants. Well-pulver- ized soils attract much more dew than those which are close and compact, as the radia- tion of heat is effected from many more points in highly comminuted than plane sur- faces. Sands appear to be powerful attrac- tors, and in some countries to depend al- together on the nightly deposition of mois- ture for the support of vegetation. An ex- treme example of the derivation of the aqueous clement from dew alone, and of its highly fertilizing qualities, is afforded by the fact that, on the sandy plains of Chili, rain is scarcely ever known to fall; yet that soil, which under other circumstances would be sterile, is maintained in a productive state by the active forces of radiation and absorption. The temperature of the soil is moderated during the period of the sun's action by the large amount of heat ci off combined with vapour; whilst the ex- hausted humidity is re] dew, de- sd during the resplendent nights of 'that tropical region. Instai n !so on record of the flourishing growth i I Africa on sandy distrid in or s] .rings, nor by artificial supplies of water: whilst soils of another nature, in 134 THE SOUTHERN PLANTER. [March the same latitude, and not far distant, re- quire irrigation to enable them to sustain vegetable life. It is to the copious dews of our own coun- try that we have in great measure to attri- bute the productiveness of the meadows bordering streams and rivers. The atmos- phere, in the neighborhood of currents of water, becomes more highly charged with, aqueous vapour than that of the uplands ; and as the air transports and disperses this moisture over the adjoining fields, it*is con- densed and precipitated during the night by the process discovered by Dr. Wells * The finely-divided and filamentous structure of the grasses render them, in addition to their demand for aqueous nutriment, peculiarly suitable for culture in these localities. It is worthy of notice that the leaves of differ- ent plants appear to act in somewhat differ- ent ways as to their mode of receiving and disposing of dew. A blade of gra*s is some- times spangled over with dew-drops, but it usually becomes wetted throughout its whole surface by the running together of the drops, and thus conducts the water to the earth in minute streamlets ; whereas, the leaves of the clover, cabbage, nasturtium, and many other plants, will be found to collect it in distinct globules, which may be rolled about on the leaf without appearing to moisten it. These drops, in fact, do not touch the leaf, but rest and roll upon a pillow of air inter- posed between them and the substance of the leaf. I have not unfrequently procured a tea-cup full of dew, early in the morning, from the leaves of a single cabbage plant; and, on very translucent nights, I have seen, whilst watching this elegant and interesting process, the tender clover-leaf bend beneath the weight of its crystal load, discharge it on the ground, and immediately begin to accumulate another globule. . In the course The French expression, that a river bedews, (ariose) a country, is more correct than the Eng- lish one, that it waters it. The watering of land is, properly, an artificial, the bedewing it, a nat- ural, process. The distance from its banks to which a river can saturate soil with water is rarely great; though it is in this acceptation that I have known many persons and authors to understand and use the phrase watering. A river deep within its banks, will bedew a coun- try as well as one bank-full ; but the former acts as a drain to the land, and therefore does not directly moisten the surface of the soil. The term watering, in agriculture should be limited to what we understand by irrigation. of three or four hours I have observed as many collections and discharges of dew by the same leaf. The gradual diminution of the size of these drops of water, by evapo- ration, as the sun exerts its influence, has often struck me to be the means provided by nature for preparing plants to sustain his increasingly-ardent rays without injury; and it is generally after nights of copious deposition of dew that the mornings are the brightest, and the sun's heat the most pow- erful. Cup-formed and horizontal leaves and flowers seem to retain all, or nearly all, their collected dew for their special use, as if it were more beneficial to them when so applied than to their roots. • Popular belief is often founded on correct observation, and sound practice is not un- frequently in advance of science. It also not uncommonly happens that the evidence of practical truths is received with scepti- cism, because we are unable, immediately to " interpret nature" and frame a satisfactory theory or explanation of the origin of par- ticular phenomena. Hence the discovery of causes is of the highest importance to the arts, and a correct theory of any action so rapidly accelerates, extends, and perfects sound practice, that we cannot too highly prize its possession. This admitted truth, together with the rarity of Dr. Wells' 'Es- say/ will, I trust, form a sufficient excuse for introducing the mention of phenomena explained by his theory of dew, which though not directly affecting the soil itself, are of no slight consequence to the cultiva- tors of the soil: — " The bare mention of this article," Dr. Wells observes, " will be apt to excite ridi- cule; it being an attempt to show in what way the exposure of animal substances to the moon's light promotes their putrefaction. " I have no certain knowledge that such an opinion prevails any where at present, ex- cept in the West Indies; but I conclude from various circumstances, that it exists also in Africa, and that it was carried thence by negro slaves to America. It was enter- tained, however, by persons of considerable rank and intelligence among the ancients, for Pliny affirms it to be true, and Plutarch, after making it a subject of discussion in one of his Symposia, admits it to be well founded. " As moonbeams communicate no sensi- ble heat to the bodies on which they fall, it seems impossible that they can, directly pro- I860.] THE SOUTHERN PLANTER. 135 motj putrefaction. But still a reason for ascribing such a power to them may be de- rived from their being received by animal substances at the very time that a real but generally unnoticed cause of putrefaction in warm climates (and it is in these alone the opinion I am treating of has ever prevailed) is taking place, which ceases to act as soon as the moon's light is excluded. " The nights on which a steady moon- shine occurs, mus-t necessarily be clear, and nights which arc clear are almost always calm. A moon-shiny night, therefore, is one on which dew forms plentifully; hence the expressions 'roscida' and ' rorifera luna' em- ployed by Virgil and Statius; and hence also an opinion, held, as appears from Plu- tarch, even by philosophers among the an- cients, that the moon communicates moisture to the bodies which are exposed to its light. " Animal substances are among those which acquire dew in the greatest quantity. To do this, indeed, they must previously be- come colder than the atmosphere ; but, hav- ing acquired the moisture of dew, in addi- tion to their own, they will, on the follow- ing day, be in that condition which is known by experience to favor putrefaction most powerfully in hot climates. " The immediate cause assigned here for the putrefaction of animal substances which have been exposed to the moon's rays in a hot country, is the same as that given by Pliny and Plutarch ; but they attributed the ori- gin of this immediate cause, the additional numerous peasant fanners near Paris. Dur- ing a residence of several years in that coun- try, my house being surrounded by small, uninclosed and variously cropped plots of ground, with a heap of night-soil or dung con- tiguous to each, the sense of smell somewhat too frequently informed me of the extreme activity in the putrefactive process. On en- quiring of the peasants how it happened that, on certain mornings, the odour was so pungent, they commonly replied, " It is ow- ing to the dew of last night, Sir," but I do not recollect that any one of them imputed the effect to the moonbeams. A knowledge of all that is requisite for the perfect preparation and management of dung, is yet a desideratum in agriculture. Means of accelerating and retarding, at will, the putrefactive process are much needed. The study of this art is certainly worthy of closer attention, and more exact experiment, than it has yet received. A moveable roof- shelter might be a useful adjunct to the sun- ken pit, or raised mass, in order to obtain command over the meteorological agents — air, heat, and water ; each of which per- forms a part in the process; and more fre- quently to the injury than to the benefit of that species of manure which is home-made, and the most natural, if not the most bene- ficial to the farmer. "I .had often," says Dr. Wells, "in the pride of half-knowledge, smiled at the means frequently employed by gardeners to protect tender plants under cold, as it appeared to r me impossible Ajit a thin mat, or any such moisture, to the peculiar humefying quality ! fl mlsy substan^Mould prevent them from which they supposed the luminary to possess. \ attaining the temperature of the atmosphere, This false theory has probably contributed by which alone I thought them liable to be to discredit, with the moderns the circum- j n j ure d. But when I had learned that bo- stance which it was employed to explain."— dies on the surface of the earth become, Essay on Dew. during a still and serene night, colder than The belief that moon-shiny or clear and (the atmosphere, by radiating their heat to dewy nights advance the process of putre- the heavens, I perceived immediately a just faction, is not altogether confined to the an- reason for the practice which I had before cients as was supposed by Dr. Wells. I had personally noticed the phenomenon of an increased putrefactive vigour in dung-heaps, after nights of a copious precipitation of deemed useless. He then ascertained by experiment that : " A difference in temperature of some mag- nitude was always observed, on still and se- dew, succeeded by hot days, some years be-irene nights, between bodies sheltered from fore I was acquainted with Dr. Wells' ' Es- the sky by substances touching them, and say ;' and I frequently conversed on this sub-' similar bodies which were sheltered by a ject with an intelligent and observant farmer substance a little above them." " Possibly," near Warwick, who corroborated my idea he continues, "experience has long ago that such was the fact. Several farmers taught gardeners the superior advantage of have recently confirmed this early opinion ;i defending tender vegetables from the cold and it is very common in France among the) of clear and calm nights, by means of sub- 136 THE SOUTHERN PLANTER [March stances not directly touching them, though I do not recollect ever having seen any con- trivance for keeping mats, or such like bo- dies, at a distance from the plants which they were meant to protect." It is a common practice in France to cover transplanted vegetables by linen sheets pla- ced over sticks about two feet high. All the spare linen of my own house has been occasionally borrowed for this purpose; and I have laid my friends equally under con- tribution, until tender plants were sufficient- ly rooted and strong enough to bear com- plete exposure to the heat of the sun and cold of the night. May it not* possibly be of advantage to the agriculturist, to protect his potatoes, tur- nips, or other stored roots, from frost, by means of impermeable, portable cloths stretched at a convenient height, instead of with earth, straw, &c, placed upon them ? "When substances touch each other, heat is conducted from the mass, and finally radia- ted away into space ; cold results, and the roots are frost-bitten. The experiment may be worth a trial. Mr. Graham has communicated to me a remarkable phenomenon connected with hoar-frost, which is, perhaps, generally known to farmers, but, if not, the mention of it will convey a useful warning. He has re- marked that the passage of a flock of sheep across a clover-field covered with hoar-frost, particularly young spring aM^er, is certainly followed by the destructiQfcof every leaf over which the animals mwe passed. He further aptly observes, " you might detect the footsteps of a thief across a clover-field covered with hoar-frost, at noon the day fol- lowing, by the withering of the grass in his track." Knowing as we do that hoar-frost is a great protection to the leaf against fur- ther accession of cold, we might be disposed to attribute the death of the leaf, indirectly, to the shaking off of the frozen dew ; but it is possible that the proximate cause is purely mechanical, and the withering the direct effect of injury from the tread, when the leaves are so» crisp as to be in a state to be bruised by a sufficient weight pressing on them. The cause would be manifested by ascertaining whether the leaf, under the circumstances, would perish if the hoar- frost were carefully brushed off of it and not trampled. Section IV. £ Experiments in the Temperature of soils. Schubler's Experiments. — The subject ap- pears to have attracted the attention of several G-erman philosophers, who have in- vestigated it with their habitual minuteness of research. The excellent translation of Professor Schiibler's learned work, in Vol. I. of our Journal, (The Journal- of the Royal Agricultural Society of England,) renders it necessary to do little more than refer those persons to it who would pursue the same track of investigation. The infer- ences drawn by him from experiments j in the laboratory, confirm, generally, those of Davy and Leslie. They are, however, chiefly of an elementary nature, and, though more comprehensive and precise, perhaps even more accurate, than those of British chemists, this valuable treatise seems to pre- sent nearly the same blanks, as respects use- ful practical experiments on the bed of the soil as the labours* of our own countrymen. We shall all agree in the truth of the Pro- fessor's concluding paragraph ; viz., that : — " Those very soils may be fertile for one country which become no longer so for another, under a change of external circum- stances." It is the difference in these external, i. e., in the meteorological conditions of the sur- face of our globe, which evidently renders identical systems of cropping, husbandry, and management inapplicable to all climes. It is this difference, also, which most clearly points out to the agriculturist that, if he would draw any useful deductions from ex- periments on the temperature of soils, they must be made on his own soil, or on like soils similarly circumstanced. In Brittain we have, generally speaking, to combat ex- cess of moisture, accompanied by a low and inconstant solar heat. It is one of my ob- jects to show that, by establishing a free passage for water through the soil, the greater heat of the surface may be carried downwards, and the mean annual tempera- ture of the mass of the soil thereby perma- nently raised. This position, as well as the effect of removing excess of water, is well illustrated by Schiibler in the section where- in he treats of the " Influence of Moisture on the warming of soils. v He states " the depression of temperature arising from the evaporation of their ivater amounts to 11£° or lBi° Farh.;" though the method by I860.] THE SOUTHERN PLANTER 137 which he obtained this thennometric quan- tity is not mentioned, which is to be regret- ted. In the tenth section, however, wherein he treats of the " Capacity of soils to de- velop Heat within themselves on being moist- ened" the .following passage occurs : — " The falling rain, in warm seasons, is many degrees colder than the lower stratum of the atmosphere, and the upper surface of the earth which it moistens; so that the earth, in hot weather, becomes rather cooled than otherwise." This remark might seem to militate against the doctrine herein advanced, that the mass of the soil is warmed by rain when suffered to permeate it ; but such opinion will, I think, vanish on further consideration, and by reference to Schiibler's own experiments on the temperature of soils at Tubingen and Geneva. At Tubingen his experiments were di- rected to the ascertainment of the mean highest temperature of the earth by a ther- mometer placed on its surface, — " the bulb being covered only 1-1 2 th of an inch high with earth. The observations were re-, corded in perfectly fine weather, between noon and one o'clock, whenever the weather happened to be perfectly fine at that part of the day." It appeared that during the six hottest months, from April to September, inclusive, the mean temperature of the surface was 131°.4. Now it is evident, that, if rain fell upon the earth when it was so highly heated, the surface must have been cooled by it; but it ?s equally evident that the substrata would be warmed ; for the temperature of the at- mosphere in th« shade, which was also re- corded at the same hour, was 70°.4 : and that of rain, had it then fallen, would have been much the same. Thus the rain, on reach-' the earth, would acquire a temperature of about 100°, and communicate 'heat, as it de- scended, to the underlying portions of soil possessing a lower temperature. His experiments at Geneva, in 1796, give the mean heat of the soil on its surface — at three inches — and at four feet below it. The observations were taken every day, in all weathers, and therefore, as described by the Professor, " in variable weather." The mean temperature denoted during the correspond- ing six months of the year before mentioned was — DEGREES. On the surface, ... 86.7 At three inches below, - - 69.8 At four feet below, 60 Temperature of air in the shade, 59.7 On these results the author observes, — " The elevation of temperature by the rays of the sun was, therefore, considerably less," (than at Tubingen), " according to the average results of these observations, be- cause the temperature of the upper surface of the earth, on cloudy and rainy days, often accords exactly with that of -the air ; but, on the other hand, they give us more ac- curately the mean temperature of the ground at some depth." These experiments denote, that if the mean temperature of the rain, during the six months, accorded with that of the air, it would receive, on reaching the earth, an augmentation of thirteen and a half degrees of heat, and sink downwards at a tempera- ture of 3°.4 higher than that of the soil at three inches deep, and of 13. °2 higher than that of the soil at four feet below the sur- face ; thus supplying at the same time heat and moisture to the underlying soil. His table also shows, that on the mean of the whole year, the increase of temperature im- parted to the soil by the rain would have been 2°.4 at three inches, and 6°.l at 4 feet. Schiibler's remark, therefore, "that the earth, in hot weather, becomes rather cooled than otherwise," by rain, is only applicable to the effect produced on the superficies, which is there beneficial. The section of this author's Treatise on the " Influence of Moisture on the Warming of Soils," must be deemed incomplete, by reason of the absence of all reference to the warming effect of dew : which — whether it be considered as directly communicating heat to the surface of soil necessarily colder than itself at the time of its precipitation, or as diminishing, to a great extent, the radiation of heat from the earth to the heavens — is an agent which performs an energetic part in maintaining a sufficiency both of heat and moisture in the mass of soil. Leslie's Experiments. — In the Supple- ment to the " Encyclopedia Britannica," Art. Climate, written by Professor Leslie, will be found a table of experiments on the temperature of the earth, for each month of the year 1816 and 1817, at four different 138 THE SOUTHERN PLANTER. [March depths, viz : 1, 2, 4 and '8 feet below the surface. They were made at the instance of Mr. Ferguson, of Raith. It is stated that the instruments were sunk "in a soft gravelly soil, which turns, at 4 feet below the surface, into quicksand, or a bed of sand and water." As it does not appear that these experiments were conducted with any other intent than to assist Leslie in some deductions relative to isothermal lines, and to the correspondence which might sub- sist between the mean annual atmospheric temperature of a given parallel of latitude, with that of springs and of the earth at certain depths, I have thought it unneces- sary to extract the Table. Such deductions are, at best, very vague, nor are they calcu- lated, in the slightest degree, to illustrate the physical properties of the various soils which form the crust of our globe, and which come within the province of the far- mer; neither can they serve to assist his judgment in the management of them. The mere determination of heat to the earth, " at depths accessible to the cultivator," is useless, unless the observations be so con- ducted and recorded as to lead to the dis- covery of the circumstances which influence its temperature. I had the advantage of passing several days, about twenty years since, in company with Leslie, at the house of the late Lord Rosslyn, in Fifeshire, and he took me to Mr. Ferguson's, of Raith, to show me the thermometers in the ground. They were then, if I recollect right, two in number, and sunk in grass-land, the one de- scending 12 inches, the other 36 inches be- low the surface. Leslie's mind was, at that time, so pre-occupied with his newly-in- vented instruments, the photometer, differ- ential thermometer, hygrometer, &c. — with which his hands and his pockets were rilled — that I was unable to engage his attention, I seriously, as to the practical use which I submitted to him might be made of obser- vations on the temperature of soils. It was at this period 1 resolved to commence some experiments on the subject, but a fitting op- portunity did not occur until 1837. My own Experiments. — The site of the few experiments which I have now to de- scribe as made by myself, was a peat-bog, called Red Moss,* near Bolton-le-Moors, in * It was on this moss that the writer under- took the construction and conduct of Mr. Heath- coat's patent machinery for cultivating bogs by- steam-power. Lancastershire, in its nature identical with Chat Moss, and approaching, in many parts of it, to that consistence which would cause it, in Scotland, to be designated as flow- moss, from its semi-fluid character. The depth of the bog, at the spot where the thermometers were inserted, was nearly 30 feet; and its temperature from .12 inches beneath the surface, downwards to the bot- tom, was uniformly 48°. I never found any variation to occur in the results afforded by thermometers placed at various depths dur- ing nearly three years' observations; except- ing in the winter of 1836, when the ther- mometer nearest the surface fell to 44° for a few days. To this uniformity of temperature through- out the mass of the natural bog, I shall, subse- quently, have to call attention very particu- larly, as it seems to stamp with certainty the fact, that the more elevated tempera- tures marked by the thermometers in the cultivated bog soil, were solely due to the change effected in the mechanical condition, and to the removal of stagnant water. There were no springs, so far as I could ascertain, in this bog, nor could I even per- ceive that water rose from the bottom of any drain cut in it. The substratum, on which the bog had accumulated and reposed, consisted of a retentive white marl, abund- antly mixed with limestone gravel. The temperature of the water drawn from the bottom of a coal-pit contiguous to the bog, and 300 feet deep, was 54°; and that from a bore, or Artesian well, near my house, and 160 feet deep, was invariably 52°. The exposure of the bed in which £he thermometers were sunk was perfect. There existed no bush higher than a tuft of hea- ther -within a radius of half a mile: not a ray, therefore,- of the sun's light and heat could be intercepted (except by clouds) be- tween his rising and setting. The preparation of the bed was as fol- lows : The surface had been ploughed in 1836 by the steam-plough, to a depth of nine inches, and was well pulverized. A plot of about 216 square yards area, clear of the drains, was divided into twelve beds, intended for experimental culture. Each bed was six yards in length by three yards in breadth; and each was insulated from its neighbor, and from the surrounding bog, by an open drain, 24 inches broad at top, 12 inches at bottom, and 36 inches deep. Previously to opening these drains the plot I860.] THE SOUTHERN PLANTER 139 had been surrounded by a catch-water drain, 38 inches deep, communicating with the main drain, 40 inches deep. The pul- verized surface was thus drawn to a heap, the inclosed plot dug 3 feet deep, the inter- mediate drains opened out, and the superfi- cial soil replaced. In this state it remained through the winters of 1836 and 1837. Had the thermometers been ready, they would have been sunk in the bed as soon as prepared, but I could not obtain them from the maker, and plant them, till June 1st, 1837. The thermometers were five in number, each being enclosed, throughout its length inserted in the ground, in an iron tube, open at the bottom, with holes perfo- rated round the bulb. They were firmly connected together by iron clamps, and the whole formed a stiff portable frame. The glass stems rose ten inches above the ground. These were sustained against the wind or accident, by a skeleton framing of metal, carrying the scales divided into de- grees and tenths. A hole being dug in the centre of one of the plots, the frame was let into it, and set in the line of the me- ridian, so that the stems above-ground might cast the least possible shadow on it at noon. The soil was carefully replaced about the thermometers, so as to preserve, as nearly as might be, the order of its tex- ture and consistence throughout the mass of the bed. At the same time a naked ther- mometer was inserted \o the depth of 7 inches in the natural bog adjoining. I did not commence any regular register of the indications until June 7th, being desirous that the thermometers should first become well settled in the soil, and arrive at what may be called a true working state. It is necessary to state, that on the bed in question there was no kind of seed sown, nor a plant of any kind growing • my pur- pose having been to ascertain, in the first instance, the influence of the sun's rays, of rain, dew, and other atmospheric agents, upon the naked • natural soil ; and subse- quently, with other sets of thermometers, to acquire some knowledge of the effect which might be produced on the temperature of sucn soil by the admixture of manure and foreign substances. Whether this be the proper mode of proceeding, abler judges will decide ; but it would appear to be diffi- cult to detect the true physical characteris- tics of a soil by apparatus applied in the mid- dle of a corn-field ; and I thought it desira- ble to attempt to discover the properties of the natural soil first, and then of mixed soil, before proceeding to investigate similar phe- nomena on similar soils under crop. An industrious experimenter might carry on all these separate investigations at the same time ; since after his sets of thermometers are placed, he has only to observe and record. [see table on next page. J Note. — As there is so intimate a relation be- tween the temperature of soils and that of plants, we have thought it would prove highly- acceptable to our readers if we should present them with a connected view of some of the re- sults of thermometrical observations on the tem- perature of plants. We, therefore, extract from the Encyclopaedia Metropolitana the following paragraph : " Hunter examined the heat of the internal' parts of the trunks of trees by boring holes of different depths in them, and inserting ther- mometers; and similar experiments were made by Schubler at Tubingen. The results of these experiments were, 1st, that the temperature of trees is higher than that of the air in winter and lower in summer; 2d, that the temperature corresponds to the depth in the soil to which the roots penetrate ; and 3d, that it depends on the temperature of the fluid matters taken up by the roots as well as the bad conducting power of the wood of trees. Dutrochet in stituted a series of experiments to determine the temperature of the growing parts of plants. He found by means of a thermom- etric apparatus, that this varied from two or three-tenths of a degree to one degree above that of the air. This generation of heat only takes place when the plant is active and vigorous, and seems to be connected with pro- cesses going on in the interior of the cells. It reaches a daily maximum, the period of which varies in different plants, according to their vigour. 'Rameaux has confirmed Dutro- chet's observations. There appears, therefore, to be two sources of heat in plants, one de- pending on organic actions carried on in the growing parts, and the other on meteorological influences, which either act directly through the air, or indirectly through the fluid matters brought up from a certain depth in the earth." — [Editor. 140 THE SOUTHERN PLANTER. [March [observations on temperature of soils under different circumstances.] 00 00 Depth of the thermometer bulbs below the surface. > S3 to c o . II o S * ft Temperature of the air, 4 ft. from gro'd and in shade. Remarks. 6 Inches 31 Inches 25 Inches 19 Inches 13 Inches 7 7 Temp, o 46 Temp. 47 Temp. . o 48.4 Temp, o 50 50.5 Temp. O 52 55 Hour. 9 A. M. 2 P. M. S.W.by S. W. o 8 50 51 52.5 9 A. M. 2 P. M, S. E. Cold day. 9 46.1 47.2 48.5 49 49.5 49 52 8 9« A. M. 2 P. M. E. W.S.W. Cold and hazy. Clear and warm. 10 46.2 48.6 50 50.5 53 54 9 A. M. 2 P. M. s. Rain during the previous night; splendid sun all day. 11 46.3 46.4 47.4 47.5 48.7 48.8 51 52 52^5 52v3 52 51.5 51.3 51.2 55 56 57 57.5 58 59 . 1 59 57.5 57 56 55.5 55 55 9 A.M. 10 " 11 " Noon. 1 P.M. 2 « 3 " 4 " 5 " 6 il 7 " 8 « 9 " 65 68 Throughout the day no visible cloud. Much hot- ter than the 10th, but, un- fortunately, the air ther- mometer was broken after 10 A. M. The surface of standing water was 60° at that hour, and the surface of. the bed 75°. 12 46.5 47.4 51 55 9 A.M. W.S.W. •• Warm showers. 13 46 8 48 48.8 52 59 2 P.M. Hot ; a shower at 11 A. M. 14 47.2 48.4 50.4 53 60.4 Noon. s. Hot and dry. 15 47.25 48.6 50.8 57.6 9 A.M. s. w. Very hot ; cloudless. 16 47.6 47.8 47.9 49 49.6 49.8 49.9 51.4 52 51.8 51.9 52 52.5 54.2 55 54 55 57 55.5 60 63 64 62.5 65 66 63 9 A.M. 1 P.M. 2 " 3 " 3i « 3| " 4 " s.w. w. s. 69 72 74 ■ 78 76 72 68 Sultry ; cloudless. Light high clouds. Dark cloud to windward. ( Heavy thunder storm, with ( lightning half an hour. ( Temperature of rain ( 78°. 1 Bright sun ; visible vapour ( from pools and ditches. 17 18 48 48.2 50 50.1 52.8 55.6 55.8 58 60.4 9 A.M. 3 P.M. s. 67 74 Brilliant morning. Cloudless and hot. 48.25 50.2 55 56 10 A.M. E.byS. 64 Hazy. I860.] THE SOUTHERN PLANTER. 141 I have now to invite your attention to a few deductions from the tabulated results which we may be authorized to draw, not- withstanding the restriction of the observa- tions to the short space of twelve days. Firstly. — The constant temperatuie of the ■natural bog, from 12 inches to 30 feet deep, was 46° ; and the thermometer, planted in the same substance, at 7 inches deep, con- stantly indicated 47° during the term of the experiments. Now, the thermometer at 31 inches deep in the icovked *bed exhibited a maximum heat of 48}°, having gradually gained 2i°; and it was, apparently, still rising. The thermometer at 7 inches below the surface reached 66° after a thunderstorm, showing a maximum increase of 19°, and on a mean of the thirty-five observations, of 10° over its fellow, at the same depth, in the natural bog. We have here satisfactory evidence that the accession of heat was solely derived from meterological agency, i. e. from action on the surface, and not from the substratum, as the latter possessed, invariably, a lower temperature, which must have tended to diminish, rather than to increase*, the heat finally acquired by the worked bed. And we may safely deduce from these facts, that the origin of the increased temperature is attributable to the change induced on the mechanical condition of the soil by drain- age and pulverization, as no other changes were effected in it than those of comminu- tion of its texture, and the withdrawal of free water. Secondly. — The inference may be per- mitted, even from these experiments, that, in the month of June, rain-water carries down heat, and raises the temperature of the sub-soil; whilst the loss of heat by the strata nearer the surface is quickly restored by the sun's rays. By an inspection of the Table, no doubt will be left on the mind as to the truth of these inferences. It ap- pears that at seven inches deep, the tem- perature of the soil was subject to consider- able diurnal increase and decrease, as well as from day to day, according to the state of the weather; that these variations became of less amount at lower depths; and that, at 31 inches, increase alone, for the time, was felt. Heat is conducted downwards so slowly by all bodies, and by moist substances particularly, that rain-water would appear, when allowed to permeate the bed, to be the most active agent in the propagation of heat to the soil. Accordingly, we find the lower thermometers to indicate accession of heat more quickly after rain than in dry weather; and had a rain of a longer continuance fallen, instead of short showers, it is proba- ble that the lower thermometers would have been affected much more rapidly, and have indicated higher temperatures, as no water was observed to have passed through the soil in the drain. On the 11th of June, I was able to de- vote an entire day to the observation of the thermometers. The results are interesting, by showing the steadiness of the increments and decrements of heat during a cloudless day, and by denoting the period of maxi- mum temperature attained by the ther- mometer at 7 inches, which was about 2 P. M. On the 16th, I had foreseen the proba- bility of a thunder-storm, and hastened to my thermometers to observe its effect. It is well worthy of remark, that, after the temperature of the soil at 7 inches deep had attained its maximum under the previ- ous circumstances of the day, it was subse- quently raised 3|° by the descent of the rain. It is also notable, that in half an hour after the cessation of the storm, the sun again shining brightly, and evaporation being visibly great from the surface, the earth at the same depth had lost 3° of. its highest temperature, showing the rapidity with which heat is carried off by water in its transformation into vapour. It would have been highly interesting to have known, by other thermometers, the temperature of the surface when the storm fell, as the trans- ition was almost instantaneous from bright sunshine to heavy rain ; but I was unpro- vided with a sufficiency of these instru- ments. An effect of importance — which might be predicated of all soils properly prepared to receive heat and water and permit their descent — is traceable to the preparation of the bed : viz. — that the transmission of ac- cessions of heat downwards continues during the afternoon of the day, and throughout the night, whilst the superstrata (but chiefly from 7 inches upwards) are losing some amount of their heat by conduction upwards and radiation into space. The reverse may be expected to occur during the cold seasons of the year, when the heat accumulated and stored up in the sub-soil will be drawn as 142 THE SOUTHERN PLANTER. [March from a reservoir, and supply part of the loss then taking place more freely near the surface. As I have criticised the labours and ex- periments of others in this branch of science, it is right I should point out the deficiencies of my own, which are also numerous. The experiments related can, indeed, only be regarded as a slight contribution to our stock of knowledge on the subject — the in- vestigation of which deserves to be com- menced- de novo; to be carried on simul- taneously, if possible, by different observers, and with appliances of all the instrumental means which the existing state of science can furnish. The enumeration of the phe- nomena which demand attention — of the methods we possess, and still need, for ascer- taining their force, and measuring their amount — will, perhaps, be the simplest and most useful form in which the criiicism can be conveyed. We require to know: — 1. The temperature of soils at depths ac- cessible and profitable to the agriculturist. The thermometer is all sufficient for indi- cating temperatures. It would be highly instructive and interesting to ascertain, by thermometers sunk in the earth, the tempe- rature of a mass of drained and undrained soil at different depths, down to the extreme would open a new chapter of the book of naTure to our view. All that has been writ- ten as to the quantity of water dismissed from the earth, is too speculative and base- less to merit more than a passing notice ; and no inquiry into these phenomena has, I believe, been made with the end of mak- ing them subservient to the practice or science of agriculture. 7. The dew-point; to be determined at frequent periods of the day and night. The best-known hygrometer is Professor Daniell's, but though simple and true, it has the disadvantage of requiring a manual ex- periment for every determination. 8. The quantity of dew deposited. Of the amount of this item in the stock of Nature's fertilizing laboratory, we are wholly ignorant ; and though aware, as we must be, of the difficulty of ascertaining the fact required, there is no reason to dispair of overcoming it if the attention of many gifted men, now attached to the science of meteorology, could be brought to bear on the construction of a sufficient instrument. 9. The hygrometric condition of the soil. By this term is meant the amount of moisture which a soil may at any time con- tain. This quantity will depend, in a well- ; drained soil, on its bibulousness, or hygro- | metric energy. If an instrument could be depth of six feet. Self-registering ther- contrived to indicate, by simple insertion mometers would give the maxima and mini ma temperatures, but these instruments con- duce to laziness in the observer; they give no information of the periods of the twenty- four hours, when the maxima and minima occur, nor register the continually varying increments and decrements of heat at dif- ferent depths, as they are affected by sun- shine or cloud, by rain, wind, and other at- mospheric changes, which should be dili- gently and faithfully recorded. 2. The temperature of the air, in the shade near the earth. 3. The pressure of the air: for which the barometer suffices. 4. The temperature of the rain. 5. The quantity of rain } ascertained by the rain-gauge. 6. The quantity of water passed by drain- age from a measured extent of land, in order to compare it with the ascertained fall of rain on its surface. There are many situations in which this and inspection, the humid condition of the . earth between the extremes of perfect dry- ness and of aqueous satuiati.on, as the ther- | mometer discloses heat of temperature, we should, indeed, become possessed of two ready and sufficient means of quickly ascer- taining the principal phenomena on which the temperature of soils depends ; we should be provided with tests, which would go far I towards explaining certain causes and de- igrees of fertility, and possibly find our- selves armed with an expeditious- method of | deciding on the aids which a given soil might require for increasing its fructifying properties and power. The mention of a desideratum is occasionally half way towards its fulfilment; and we may hope that the resources of science will avail for the sup- ply of an instrument which would be so precious to the enlightened agriculturist. (To be Continued.) Fashion is the race of the rich to get away from the poor, who follow as fast as expense and the knowledge of such facts they can. object could be accomplished at a trifling I860.] THE SOUTHERN PLANTER. 143 From the American Farmer. "Humbug"— A Prevalent Disease with Agriculturists and its Remedy. BY PATUXENT PLANTER. Mr. Editor : — No class of men are more easily humbugged than farmers and planters. We are a confiding, trusting class, because we are honest and guileless ourselves ; we judge others as we are proud to be judged — by that fair justice which springs from the purity of motive and honesty of intention. We are liable to be deceived, because, I am sorry to confess we are, as a class, lamenta- bly ignorant of all science in regard to our profession. In the truth of this dictum lies shel of damaged chaff, hard to winnow, and disagreeably filthy. It shows the reverend orator to have been used to very low society, and proves that the followers and associates of the early life of this Prince of Aboli- tionists were very dirty people, like all Yan- kee abolitionists, fit for " stratagem and mur- der/' as one or two quotations will show. It is true he condemns such practices, but leads one to . infer that they are quite com- mon in the circles of his former adherents. " It is a dirty trick to make bread without washing one's hands after cleanir.g fish or chickens; to wash dishes and baby linen in the same tub alternately or altogether. We have a distinct remembrance of a cud of to- the all-powerful necessity that we should j bacco in a dish of hashed pork. A lady of provide an Agricultural College for our sons,! our acquaintance, at a boarding house, * and give them the opportunity, at least, of j* * * found herself blessed with a acquiring such kn< dge as will protect | mouthful of hard soap, which only lathered them from those abuses that their fathers 'the more, the more she washed at it. It is now daily have to submit to as a penality of od-natured ignorance. In agricultural literature, the articles in journals and the books that are published, a a filthy thing to comb one's hair in a small kitchen in the intervals of' cooking the breakfast; to use the bread trough for a cradle — a thing which we have undoubtedly farmer is often sadly deceived, cheated out seen; to put trunks,, boxes, baskets, with of his money and his time. Interested jour- 1 sundry other utensils, under the bed where nalists or their correspondents are too often you keep the cake for company; w T e have found blazoning forth, in bright colors, the; seen the dexterous housewife whip the bed- pretended merits of books, seeds, machinery ; spread aside, and bring forth, not what we or fertilizers, which are worse than worth- j feared, but a loaf-cake! It is a dirty trick less. This is practical fraud. Any man to wash children's eyes in the pudding-dish; who has a pecuniary interest in any of these j not the sore eyes, but the subsequent pud- things he puffs, should be honest enough to! dings will not be benefitted ; to make bread declare his name, and frankly state that lie on a table innocent of washing for weeks; is interested, wliejther to a large or small ex- to use dirty tablecloths for sheets, a practice tent, and then his reader could have a basis of which we have experimental knowledge, on which to found a proper estimate to be | It is a filthy trick to borrow or lend for placed on the statements made. Editorial ; other's use a tooth-brush or tooth-pick." reviews of books and articles of sale, should ; (See pages 34-5 and 6.) Beside many other be frank, and not only praise the worthy, dirtier u tricks" and habits which he advises but guard the public against the worthless, | his people to abandon, and which are too whether book, manure, mechanical inven- disgusting for insertion in our chaste pages, tion, seeds, or anything likely to affect the Such being the worse than Esquimaux hab- pockets of unsuspicious planters or tillers of its and customs of these people, it is no the soil. You editors should be the doctors wonder that they are envious of the refine- to apply the preventives against humbug j men ts and comforts and elegant surround- books. You should make it your business to review each book as issued from the press, and point out its defects and merits, and boldly recommend it or denounce it, so that your readers might not be deceived. One of these worthless productions is H. W. Beecher's h^gh-sounding and clap-trap titled- book — " Plain and Pleasant Talk about Fruits, Flowers and Farming," 420 pages — one grain of wheat, poor at that, to one bu- ings of the home of a Southron, whose dir- tiest negro child, six years old, would not be guilty of like " filthy tricks." The au- thor, having a wide-spread reputation as an eloquent, classic orator of God's Holy Word, and the b ok, gotten up in fine style, what may not be the number of -dollars spent in its purchase, by our blooming Southern girls, whose refined manners, chaste and highly cultivated minds so beautifully harmonize 144 THE SOUTHERN PLANTER. [March with their surpassingly lovely personal at- tractions, captivated by the thought of hav- ing a " Pleasant Talk about Fruits, Flowers and Farming" — all attractive, delightful subjects — with so eloquent a Divine, only to be deceived and disgusted by rabald jests, low wit and dirty u hints" as to what should be avoided — conduct of which an idiotic negro would not be guilty. Is not this a gross fraud ? And such like " tricks " of the trade are daily performed *and go unre- buked by the press— the would-be, and ought to be, regulator to a great extent of public sentiment and action. Another disease with which we are afflict- ed is the " Travelling Agency " for the sale of trees, seeds, flowers, and machinery, and Bommer's Patent Manure. The highest prices are paid by our farmers for the roots, trees, &c, that are the refuse of the nurse- ries, or the worthless collections of unknown growers of seedlings, which have never been tested. I was myself seduced in buying from a glib-tongued vender, an apple corer and parer, at a high price, and the thing never could be made^to work — it suited nei- ther little, big nor * medium-sized apples. The remedy for this disease is like that of* | another well-known bad habit — " touch not — taste not — handle not the unclean thing' — and you will be sure to buy not. Another cancer on the diseased body of our brotherhood is the General Agency and Commission Business — these " go-betweens" the seller and buyer — the producer and con- sumer. The seller has to lose and the buyer feel that they had a guaranty of the correct- ness of his statement, and regulate his offers accordingly. Every tub would then- stand on its own bottom, or soon burst its hoops; short hair would not be so often found among the " F. F. Vs." At present, I shall not pur- sue this subject, lest I weary your reader, but hope to be heard next month on the. most important of all the humbugs — " Fer- tilizers" — and to suggest what I humbly deem would prove a remedial check, if not a cure. to pay, to raise a fund for the support of this worthy class. In many cases it is very necessary and proper, but it is growing to too great an excess — it is becoming so that nothing can be bought and sold except through an agent, who often acts as agent for both parties, and thus it becomes doubt- ful which party gets his full due. I do not know how humanity is effected in the case of such agencies, but it has been ascertained of old, that Judges who receive fees from both sides, usually found law and facts to incline their decisions on the side of the party that handed over the heavier purse. The remedy here is for the producer to sell in person all that he can — and by furnish- ing good, reliable articles, inspire confidence in the purchaser or consumer. Those who have improved stock sloild advertise over their own names, and then purchasers would look to the character of the advertiser, and Facts for Farmers. " If you invest money in tools, and then leave them exposed to the weather, it is the same as loaning money to a spendthrift with- out security — a dead loss in both cases." If you invest money in books, and never read them, it is the same as putting your money into a bank, but never drawiug either prin- cipal or interest. If you invest money in fine stock, and do not, feed and protect them, and properly care for them, it is the same as dressing your wife in silk to do kitchen work. If you invest money in choice fruits, and do not guard and give them a chance to grow and prove their value, it is the same as putting a good hand into the field, with poor tools to work with. If you invest your money in a good farm, and do not cultivate it well, it is the same as marrying a good wife, and so abusing and enslaving her as to crush her energies and break her heart. If you invest your money in. a fine house, and do not so cultivate your mind and taste as to adorn it. with intelligence and refinement, it is as if you were to wear broadcloth and a silk hat to mill. If you invest your money in fine clothes, and do not wear them with dignity and ease, it is as if a plowman were to sit at a jeweler's table to make and adjust hair-springs. If you invest your money in strong drink, it is the same as turning hun- gry hogs into a growing corn-field — ruin will follow in both cases. If you invest your money in every new wonder that flam- ing circulars proclaim, it is the same as buy- ing tickets at a lottery office, where there are ten blanks to one prize. If you invest your money in the "last novel," it is the same as employing a tailor's dandy to dig your potatoes. — Valley Farmer. A covetous man is his own tormentor. I860.] THE SOUTHERN PLANTER, 145 Industry and Economy. . There is nothing more necessary than these to success in farming. Without them no farmer should expect to succeed. His lands may be rich and fertile, he may understand the theory of cultivation ; he may have hands sufficient and implements, and all the means necessary for carrying on his business successfully, but he tails simply for the want of industry and economy if he either neglects his business or is extrava- gant in his expenditures. Every farmer who has the means, ought to do a thriving business; and it he does not, the fault is in himself, There are few occupations that are more profitable than farming, if it is properly managed. It is true, a man may sometimes accumulate more rapidly for a time, at some other business; but the farmer's progress, if slow, is sure, and steadily increasing, and in the errd is, perhaps, the surest means of attaining to wealth and prosperity. The merchant, the manufacturer, and the wealthy speculator may fail, but the industrious and economi- cal farmer will have enough and to spare. When banks fail, and those engaged in the most thriving business, are obliged to suspend operations, the farmer is secure ; the soil he cultivates is his bank; there he has his money deposited; and it never fails, under ordinary circumstances, to yield him a rich per cent, per annum. These are not visionary phantoms; facts abundantly de- monstrate that the farmer is the most happy, prosperous, and independent man. If his coffers are not always filled with gold and silver, yet his table is richly furnished with the choicest and most substantial pro isions; he has enough to eat and to wear, and what more should a man desire in this world ! But, although the farmer has it in his power to be prosperous, yet we find that all are not. so. In order to succeed, he must have judgment to plan, and a will to exe- cute whatever is necessary to be done on the farm. No man should enini Whom premature death prevented from being an ox." A very common thing in the 16th and 17th century was punning on names. For exam- ple, the following, written in 1589 on Sir Richard Worme : " Does worm eat worm ? Knight Worme this truth confirms, For here with worms lies Worme, a dish of worms. 154 THE SOUTHERN PLANTER [March Does worm eat Worme? Sure Worme will this deny. For Worme with worm a dish of worms don't lie; ? Tis so, and 'tis not so, for free from worms 'Tis certain Worme is blest without his worms." Another was on Mr. Cave, in Leicester : " Here in this grave there lies a Cave— We call a Cave a grave, If Cave be grave and Grave be cave, Then, reader, judge, I crave, Or grave lie here in Cave. If grave in Cave here buried lie, Then, grave, where is thy victory * Go, reader, and report here lies a Cave, Who conquers death and buries his own grave." In this category he would quote an inscrip- tion which Dr. Fuller left to be placed on his tomb — an extraordinary thing for such a man : 11 Here lies Fuller's earth." Another : " Here lies one blossom out of breath, Who lived a happy life and died a happy death.'' It was also very much the practice to pun on professional callings and trades, (ex- amples of which were given.) Among the metaphors the Doctor quoted the following : "Here lies the dust of Margaret Gwin, Who was so very pure within, That she chipp'd the shell of her earthly skin, And hatched herself a cherubim." In this matter the lecturer remarked, there ought certainly to be no levity as to the vices of the deceased, especially as to those which were the cau^e of their death. But such they found to be the case. For exam- ple, the following is to be found in Win- chester: "Here lies in peace a Hampshire grenadier, Who caught his death by drinking cold small beer, Soldiers ! take heed from his untimely fall, And when you're hot, drink strong, or not at. all." The last point he would refer to was with regard to ludicrous incongruities, putting things together that had no sort of affinity. He remembered, wlien a young man, seeing the following notice in a steamboat, which plied between England and Ireland : " No dogs, luggage or smoking allowed." It was very good, but the mixture of words and ideas was extraordinary. But perhaps the most extraordinary incongruity of the kind was the following at Pewsey, in Weltshire: "Here lies the body of Lady O'Looney, great niece to Burke, commonly called the sublime. She was bland, passionate, and deeply religious; also she painted in water colours, and sent several pictures to the ex- hibition. She was first cousin to Lady Jones — and of such is the Kingdom of "Heaven." Another characteristic of inscriptions was that they should be correct, .both in syntax and in sense. Look at the following to be founcl at Montrose: " Here lies the bodies of George Young and Isabella Guthrie, and all their posterity for more than fifty years backwards." Another more ludicrous, when the posi- tion of the deceased was considered, was this at Plymouth : " Here lies the bodj of James Vernon, esq., the only surviving son of Admiral Vernon." Here the lecturer referred to the practice of the Romans in placing admonitory in- scriptions on their tomb-stones, such as " Mors janua vita" and then cited the fol- lowing epitaph on the Earl of Devonshire, as showing how truly the scripture sajing in regard to laying in store in Heaven by giv- ing to the poor on earth, was recognized : "Hoe! hoe! who lie here? I the good earl of Devonshire, With Maud, my wife." Premium Cheese Making in Ohio. At the Ohio State Fair the first premiums were taken by Messrs. B. Andrews aud H. F. Giddings, of Ashtabula county. These gentlemen have furnished the following statement to the Conneaut Reporter : STATEMENT OF H. F. GIDDINGS. I have a barn 48 feet long, with a stable on each side, which holds 15 cows ; it is 32 feet wide on the ground, and 44 feet wide above the stables j this projection affords ad- ditional room for hay, and shelter for the manure that is thrown from the stables. This barn will hold 30 cows and hay enough to winter them ; we use it for milking at all j seasons of the year, and probably save half an hour at each milking, besides the comfort j in comparison with milking in the yard — es- , pecially in cold or rainy weather. After the cows are milked, the milk is carried from the j barn to th e room where the cheese is made, I860.] THE SOUTHERN PLANTER 155 which is a few rods distant. I his room run- tains all the apparatus used in making — vat, presses, hoops, salt, shelves Pot pails, etc. The presses operate on the self-acting principle: the vat is one of Roe's Patent, which are in such general use that a de- scription is probably unnecessary. rroce * of Makmg Chtme. — The night's milk is strained into the vat and well cooled by turning cold water into the space be- tween the water and milk vat; in hot weather the water is changed once or twice; that which remains over night in the vat is used for heating in the morning. The cream which rises over night is taken otl', and the morn- ing's milk strained in with the night's; the milk is then warmed to 84 or 85 degrees, and rennet enough added to curdle the milk in 40 or 45 minutes. As soon as the curd is well formed it is thoroughly broken with a wire cutter, which is used carefully at first to avoid starting the white whey; the curd is next allowed to settle a few minutes, after which part of the whey is dipped off. The temperature is thenogradually raised and the curd well stirred and broken with the hands during the first part of the heating process; the heat is raised in the course of an hour to about 90 degrees, when it is checked by the damper so as not ta raise beyond that point; it is allowed to remain at this temperature about half an hour, stirring occasionally to prevent the curd from packing together. The water is next drawn from the vat and afterwards the whey; the whey runs in long spouts to a trough near the pig-pen. After the whey has drained off, the curd is salted witli ground solar salt at the rate of a tea- cupfull to 14 pounds of pressed cheese. Af- ter the curd is well cooled it is dipped into the hoop and put into the press; the cheese is pressed firmly two days, and is turned once each day, when taken from the press, it is carried to the curing room adjoining, where it is bandaged and dressed with warm whey oil. The curing room is in a cool place, and is kept at a temperature 70 or 75 degrees as near as can be. Here the cheese is put upon a shelf and turned once a day while new, and afterwards once- in two or three days according to circumstances. It is impossible to have a rule for making cheese which will always produce the same quality, as much depends on the quantity and quality of the milk, state of the weather etc., and the process must be varied accord- ingly. When and how to" do this can only be learned by experience and careful < vation. STATEMENT OF MR. E. ANDREWS. My dairy fixtures consist, 1st of a cow-barn for storing hay, and milking) it is $5 by §4 feet on the ground, and 44 by 54 over the cows, leaving a projection of six feet on each side to cover manure; it takes in 40 cows at a time, and when we milk more than forty, we milk a few, turn them out, and drive in those that were left out. 2d. A room for making cheese, which contains the necessary implements. 3d. The pressing room, which contains the presses, dressing table and other fixings pertaining to the business. 4th. The curing room, where the cheese are cured and fitted for market. I claim superiority of management, 1st, for care and attention to ail the minutiae of the business. 2d, uniformity of manufac- ture. 3d, skill in the after care of the cheese; and lastly, I am able to procure better prices for my cheese, which is the best evidence of superiority of manage- ment. Process of Manufacture. — I use a wooden vat lined with tin, and a single coil tin worm for cooling and warming the milk. The worm is placed in the vat and the evening's milk strained in ; when we are about half done milking, I commence pouring cold water into the worm, from which it runs directly into, an iron kettle that stands in an arch at the end of the vat; continue passing cold water through the worm at short intervals until the animal heat is entirely expelled from the milk. The first pailful of water that is poured into the worm, remains in it until expelled by the second, and so on. The temperature of the milk is reduced to 70 degrees or lower, thus preventing the sugar of milk from changing to a lactic acid, for a long time, and consequently preventing the cheese cracking. In the morning the cream is removed for family use, a fire built in the arch, the morning's milk straind into the vat, and the temperature raised to 86 or 88 degrees in warm, and 00 degrees in cool weather, by dipping water at about 150 degrees from the kettle into the worm, and stirring the milk gently while warming. A sufficient quantity of rennet is then added to coagulate the milk and form a perfect curd in 40 or 50 minutes. The curd is cut into about half inch blocks with a wire screen, then allowed to stand until 156 THE SOUTHERN PLANTER. [March H has settled 1£ inches; stir the curd gent- ly with the hand 15 or 20 minutes, to keep it from packing, then let it settle a few min- utes. Set a common stove boiler into the kettle at the end of the vat, fill the boiler with the whey, and then commence warming the curd moderately by dipping whey from the boiler to* the vat and from vat to boiler, sthiing the curd gently till the tempera- ture is raised 109 degrees. Keep it. at about 100 degrees until the curd is properly cooked; this should not be determined by the indication of the mercury, but by the judgment of the operator. It is sometimes necessary to raise the temperature to 102 and even 104 degrees, for instance when the weather is cold, or the curd has been too long coming, and is consequently in a soft, pulpy state. When the curd is thoroughly cooked and worked fine, draw off the whey and salt it with * round solar salt, one tea- cupful to 15 to 18 pounds of cheese when it comes from the hoop; if the curd is well drained, less salt is needed. The quantity of salt necessary depends on the condition of the curd when salted; mix the salt well with the curd, then let it stand and cool. After it is properly cooled, press two days in Parker's self-press, turning the cheese each day into a clean, dry sack. After pressing, the cheese goes to the dressing table, where it is bandaged, and each is slightly stained with a preparation of annate; it then goes to the curing room ; and when the surface becomes a little dry, it is well rubbed with warm whey oil. Turn and rub once a day while it is new; when partially cured turn once in two days and when well cured, turn them off to market. of the and when the _ process; ana wnen tne pressure is rightly applied, that is graduated by a steady 'increase from fifty to ten thousand pounds during the first twelve hours, and afterward increased to twenty thousand or thirty thou- sand poum the cheese will be found to Cheese Making. In the Ohio Farmer of Dec. 24th, 1859, you published a communication from " In- quirer/' on the subject of cheese making. I can "post" him, and other of your read- ers, on one of the important mechanical points in the art, and assure them that it is of much more importance than is generally imagined by those who engage in the man- ufacture. I allude to the pressing. I have had large opportunities to witness the re- sults of the various modes of pressing cheese, and have seldom seen presses that were at all suited to the work. It requires a pres- sure of full ten tons applied to a twenty-two or twenty-four inch cheese, at the last part cure in one-fourth the time, and with one- fourth the handling necessary, where but a few hundred pounds of pressure are applied, leaving the whey to be dried out or leak out, as is frequently the ease — the cheese thus treated being, of a porous or honey-comb texture, strong and even sour from the fer- menting whey, before it leaves the cheese. It may be adopted for a rule among cheese- men, that they cannot press their cheese too much, while the hoop and cheese cloth re- main around it, and the pressure is gradual- ly increased. Cheese, well pressed, will not shrink much, are little liable to crack or to be affected by the skippers, while the rind is thinner and more palatable than where the whey is dried out, instead of being press- ed out. Cheese-makers, to avf>id spending $35 or $40 for a good ten ton iron press, spend nearly that extra in labor each year in cur- ing cheeses, and sell at 10 to 20 per cent. less than a first rate article brings, on ac- count of inferiority. Few persons are skilled in the rules for ascertaining the power of the presses they use, and buy a press from the commenda- tion of some " Pair Committee," just as ig- norant ; and having bought it, keep trying a complicated mystery, that does not press harder than if used for the sitting chair of a bouncing house-wife. Farmers and dairy- men must come up to the scratch, and pay the price of good implements, and they will find mechanics ready to respond with all the needed tools of the farni and the dairy One simple rule will enable all to deter- mine the pressue they apply to their cheese. Multiply the weight or power used in press- ing by the number of inches the weight or applied power moves, as compared with the distance the follower passes in the same time. For instance, if we use a weight of fifty pounds on a lever, and the weight passes | through twenty-four inches of space while the follower or cheese passes one inch ; then if the weight has acted at right angles with the fulcrum, we multiply the fifty pounds by twenty-four, and find the pressure twelve 'hundred pounds,' about what the ordinary I860.] THE SOUTHERN PLANTKI!. 167 bale of cotton, and the yearly product (nit coif in cheese equivalent, are alike in weight. As to pliers, the winter'* die average of the Inst seven jean are nine and tme third cents at the home delivery within fifteen miles of the farm, and this is by no means the highest range of el sales which might be quoted. The cotton balea reported in census of 18.')0, were, 2/M'> : 793 Tin- ccftos of .'SI Slates and District of Columbia, were, 6,31 Stating the home price of cheese and cotton as six to ten, which doubtless £>ives to the fibrous staple great advantage in the comparison, and we have a result of c -ti- I mated cheese value of $1 53,^42,250 per ■ annum, and of cotton 897,831,720, while the total domesic exports were less than ^ne hundred and thirty-seven millions. The four special crops, tobacco, rice, sugar and cott^A, (only two of whieh are food crops,) aggregate 1,630,0(0,000 I pounds, while the milk (cheese equivalent) aggregates 7,554,000,000 pounds. Referring again to the census statistics of 1850, the total number of pounds of butter, in round numbers, is 319,000,000, and multiplying it by three as a cheese equivalent, gives 940,000,000 pounds, to which add the cheese reported, 105,000,- 000 pounds, and this makes an actual cheese product of one thousand fortjj-f'vc \ million pounds, exel sive of the vast amount of milk consumed in its primitive state, by ! families in country and cities* and also by animals, to produce other forms of fond substances as veal meat and raising young stock. New York farmers may smile at the very modest calculation of twenty-four dollars product per cow in the above estimate. If so, they can take an enterprising dairy- man's standard of money product, and double the figures, thus showing an c of one hundred and si.rf/j-fhrer mi/lion dol- lars, yearly product from this humble branch of husbandry, over the entire ag- gregate of donirstir exports; and of sixty- four million dollars over the aggregate of the far-famed and universal corn crop of this country, estimating the price at forty cents per bushel. The area of Indian corn is given at thirty-one million acres, while that of hay | roducea, but not one-eighth the pres- sure tliat should lie give li, I will very wil- lingly give a design for a press that will meet the wants of dairymen, if desired, though I am not now a manufacturer. A. E. HOLMSS. Xncark, 0.,Jau.9, 1860. From the Country Ccnthman and Cultivator. Estimate of the Value of our Dairy Pro- ducts. Messrs. Tucker & Son : I have not the egotism to suppose that I shall do justice to the subject on which you have requested me to furnish some papers for publication in your journal. The subject is too extensive, the facts are varied, the conditions involved are in part obvious, but in very essential and im- portant particulars recondite, and besides my knowledge and experience are deficient. Milk of standard quality rapidly decom- poses. Curd, the product of u ilk, includ- ing both casein and butter, becomes almost as speedily putrescent and disgusting. It is nevertheless true that this animal pro- duet, milk — subtle, sensitive, perishable — is the basis of a department of husbandry, inferior to no other in importance, viewed in its present condition or future promise. No doubt there has been much slovenly practice, and perhaps in many cases want of success in the absence of system, method and management, while prejudice has whilom elbowed it out of genteel society. AYhen I asked the question, " Is Cotton king ?" the reply would be, " No ; but Milk is;" and to justify this answer a few particulars shall suffice. It is a trueism that a judiciously selected herd of dairy cows, well cared for and thoroughly bandit d, will, on an average of a series of years, in lots of thirty to eighty, more or less, produce annually from each cow 4. r »0 to 550 pounds of cheese. Allow- ing something for smaller product of cows under four years of age, uot usually em- braced in such a selection, and also for the fact that the entire number of cows will probably fall before the average quality of dairy herds, and the minimum average ought to be stated at no less than 400 pounds, of cheese as the product per cow. The standard estimate of cotton bales an- swers in weight to this number, so that one 158 THE SOUTHERN PLANTER. [March and pasture is put down at thirty-three mil- lion acres. It may be safely estimated that more than one million persons are more or less employed daily in this department of pro- duction for at least two-thirds of each year. Jonathan E. Pettit. Onondaga Co., JSf. Y. From the Indiana Farmer. The Short Horns for the Dairy. For the last fifty years the Short Horns have been bred mainly for breeding cattle, and the demand being so great, and prices so high, that with but few exceptions, all that would breed, good, bad and indifferent, were appropriated to this purpose. In fact, thousands of grade Durhams, within the last seven years, have been pedigreed after fashion, and sold for breeding cattle to the farmers of Indiana and Illinois, who were unacquainted with pedigrees. A large ma- jority of the Short Horn breeders proper, in making their selections of breeding cat- tle have had 'but little, if any, regard what- ever, for their dairy qualities ; beef, beef, beef, has been their motto ; they seem to have lost sight of everything else. Indeed many of them seem to believe it impos- sible to combine the capacities of taking on flesh rapidly and producing large quan- tities of superior milk in the same animal. I think, however, a careful investigation. of this subject will convince them that this may be done. Great milkers may be found of all shapes and forms, and be- longing to most, if not all, of the known breeds, from that of the homeliest ill-form- ed "scrub," to the handsomest and most valuable beef-producing Short-horn; and as a general rule, the ill-shaped cow re- quires a greater quantity of feed than the handsome one, to produce an equal quan- tity of milk as well as beef. By selecting cows of superior milking capacity, (such cows may be found in near- ly every herd of Short-horns of any noto- riety wherever they are bred pure,) and then breeding those cows to bulls not only descended from good milk cows, but from families or tribes of Short-horns most cele- brated for their dairy qualities, and such as have proved to get mostly, if not uniformly, good dairy stock, the writer believes a race of Short-horns might be raised surpassing, in intrinsic value, anything ever yet pro- duced. He would not, however, sacrifice every other good point for the sake of large messes of even the richest milk, neither does he think this necessary, in order to make the desired improvement, but on the • contrary, thinks it possible to retain, if not improve upon, their best capacities for beef ^ at the same time. Was I engaged in breed- ing Short-horns, I would never be satisfied until I produced a herd of cows, whose dairy qualities would surpass any other herd now in the State, maintaining at the same time that superiority for the sham- bles, which is characteristic of the breed. The breeder whose efforts at improve- ment are made in this direction will no doubt be amply remunerated, if he only starts right. Here is the great key-stone of success. For he who has that cor- rect taste, the sound judgment and sufficient experience to enable him to select the pro- per animals for the foundation of his herd, will know how to use those animals in es- tablishing that herd. Although it may require years of constant care and a persis- tent determination to overcome all obstacles, in establishing such a herd, success is sure to crown his labours if his selections are judiciously made. He who succeeds in establishing a herd of one hundred breeding animals possess- ing the superiority indicated above, and at the same time capable of transmitting those valuable qualities with unerring certainty, to their descendants, will add something to the wealth of his State, besides earning for himself an enviable name among that class who are everywhere among the most enter- prising and intelligent citizens. This im- provement be^ng made in the dairy quali- ties of the Short-horns, we would have at hand the very material requisite for trans- forming our common cattle into beasts of more value to the dairy farmer t)f Indiana than the best imported Ayrshires, and most of our farmers who seek to improve our common cattle would have recourse to such a herd, for their stock bulls, in order to ef- fect the desired improvement. Having given numerous instances of the superiority of the Short-horns for the dairy, in the preceding articles, I propose to close this with the history of a cow, good for the dairy and unsurpassed for the shambles. Many instances of superiority might be cited, and the living animals designated, Til E SOUTH BRN PLANTKK. 159 but I prefer givipg yen the paitioulai latin^ to this extraordinary cow, which may be found recorded in tin- fourth volume of "The America Short Horn 11ml Book/' commencing on the 8th V portrait of this cow faces page 249 of (he same volume. She was bred by Lewie P. Allen. of Blaok Bock, N. V., and by him called "Grace," Her history, as giren by Mr. Allen, in the Herd Book, is as follows, omitting her pedigree : race was the first calf of her dam, age was only two years and a half at the calving. She was calved in a cold winter night, and was found nearly dead in the morning, and for three days could not stand, and was with difficulty saved ; she however became a fine calf. At seven months of age, unfortunately, she got preg- nant by a bull that leaped from the road into the pasture, and produced, at sixteen months, a heifer calf. When about two years and a half old, her breeder sold her to Mr. Sheafe, of Duchess county, and at three years she dropped her second calf. Iu 1844, she was shown by Mr. Sheafe at the New York State Agricultural Show, at Poughkeepsie, and won the third prize, the minority of the committee thinking her the best, and that she should be placed first. In Mr. Sheafe's possession she bred four calves, all bulls, which her fine character readily sold. In 1847, Mr. Sheafe sold her to Ambrose Stevens. He showed her at the State Exhibition at Saratoga that year, and she was beaten as a breeding cow, but won the first prize as a milch cow. As a milch cow she was good, giving about 20 to 22 quarts of very rich milk, and made, at one time, on trial, as high as 16 pounds of butter per week on leas than 18 quarts of milk per day. After 1857, she did not breed, but was only fed on hay and grass for more than two years. In the winter of 1849-50, she got a little feed — about four quarts a day, of ground corn, oats and bran. In May, 1850, she was turned to pasture, and from ' thence on until September got only grass. In September, 1850, she was shown at the Show of the New York State Society at Albany, as a fat cow, and won the first prize from a committee of butchers, who gave her great praise. From September, 1850, to November, she had grass only ; after that she got hay and moderate feed until the middle of December, when she <1 all she would rat, the precise daily elloWinoe not being now recollected. She was fed until March, 1861, when she was taken to New York, and sold to James Irvine;, of Washington market, who slaugh- tered her. She had been permitted to run, in the summer of 1 s ."> ( ) , with a young hull, and on being killed was found to be for- ward in calf and quite six months gone. The live weight of this extraordinary cow was (with the calf in her) 1795 pounds. On being dressed the weight of the calf and its appendages was sixty pounds, leaving her live- weight 1735 pounds. After being killed her carcase hung four and twenty hours, when her quarters weighed 1210 pounds, her loose fat 153 pounds, and her hide 101 pounds; total 1464 pounds. Her dead weight was 83 pounds and 89-100 of a pound for every 100 pounds live weight; her shrink- age (which included heart, liver, tongue and tripe,) being thus, only a very small fraction more than 16 pounds to the hun- dred in the live weight, or 16 per cent. It is not now recollected that any animal on record ever dressed a greater dead weight for the live weight. On being cut up the beef of this cow showed superbly. The whole carcase was deeply covered over with fine, firm fat, the lean was beautifully marbled, the fat scattered throughout the entire lean fibre, and the whole remarkable for its great amount and depth of lean meat. She continued the property of Mr. Ste- vens until she was killed, but was fed by J. M. Sherwood, of Auburn, N. Y. Graee never produced a heifer calf except her first, which was a grade, and that one left no produce." T. E. T. Cedar Cottage, Jan., 1860. How to Catch Rats. — Rats are not only species of tenants that outwit their landlords; they will somtimes shun all baits and traps. As many modes of getting rid of them cause them to die on the premises, and taint the atmosphere, or are dangerous to human life, it may be well to remember that if the centre of a cage is sprinkled with a few drops of the "Oil of Rhodium," multitudes are irrcsistably attracted to the spot, to be disposed of at will. HalV» Journal of Health. 160 THE SOUTHERN PLANTER [March "My Wife's Hen Speculation." One morning, as " my wife" was read- ing the Grrocery-man's bill, she exclaimed in a most surprised tone : " Six dozen of eggs in one week at thirty cents a dozen !" (she drew a very long breath at this point, and I followed suit,) " comes to one dollar and eighty cents a week !" " Exactly/' I replied, rather sharp and prompt. " I'd like to know what we are coming to ?" inquired my " better half." " That's my sentiments," I remarked, in a low tone, and raising my voice and speak- ing to a younger S — th, who was eating breakfast with me : " John, see what y'er coming to when y'er get married !" He smiled, I tried to, but it was very hard work. " I don't believe," resumed my wife, "but what that Grocery-man tucks 6n a cent or two, just because he knows you (that's me, thought I,) won't say # a word. I don't see why eggs should be so high !" There was a dead calm for two minutes — my eyes were resting upon the last boiled egg on the table in profound meditation. Just as I was about to remark that we had better get along with less eggs, I caught a glance of my wife's eyes, and concluded that it would be well to let her do the talk- ing. " I don't see why," she again resumed, " that it should cost so much to live. We ought to raise all the eggs we want to use, ourselves." " G-ood business," I said, " that of rais- ing eggs." My »vife continued : " There's Mrs. G- — , she haves all the eggs she wants, and some to sell. She keeps hens, and her back yard is no bigger than ours. Now, less we keep hens, we can save a dollar a week." John smiled, my wife smiled, I smiled, in fact, the whole family, even down to the youngest S — th, smiled. "Good!" saidl. At this point my wife enlarged upon the merits of Chittagongs, Shanghais, Brahma Pootras, Chinas, Dunghills, and a host of other different kinds of hens. This sub- ject was the only one which was discussed at our meals for the next week. She bought all the different books relative to raising hens she could find in the book .stores, and on the seventh day, the entire family had an attack of the " Hen Fever." Even the youngest S — th's attack was so severe, that he rolled out of the cradle in attempting to clap his arms and crow. The building of a hen-coop was decided upon. My wife was the architect. It was built after an original design, and resem- bled a patent sausage-stuffer as much as a hen-coop. Her next proceeding was, to send me to Rocky Hill, among her agricul- tural acquaintances, afrer a peculiar breed of hens — they were duly purchased and in- stalled in our coop. So far, all right and successful. That night there was a procession of hens and chickens, headed by a dozen gi- gantic roosters, that reached the entire length of Main Street. They, of course, paid a visit to my wife, and, of course, I made a speech ; and they responded by such a tremendous crowing and cackling that it sounded as if Bedlam had broke loose. As each pullet passed my door, she made a most graceful courtesy and dropped an egg — the ground was covered, and look- ed as if -there had been a snow storm of eggs. I filled the buttery, cellar, garret, closets, and every possible nook and corner with eggs, and as I was about to put a two- bushel basket full of them in the parlor under the piano, I stumbled and upset the entire lot upon that instrument, breaking every single egg — the -yellow liquid run down through the keys of the piano, thence on to the nice Brussels carpet, all over my wife's dresses and furs, which had been brought out of the closet to make more room tor eggs. That moment was one of great despair ; clinching both hands into my hair, I screamed out one of the wildest and loudest shrieks that mortal ears ever heard. " Goodness !" shrieked my wife, jump- ing out of bed and landing in the middle of room, " are you crazy ?" " No, guess not," said I, waking up and collecting my scattered senses, " only an at- tack o f ' the hen fever." Since that memorable night, six mortal weeks have passed, during which time, I have watched, fed and taken the best care of those " Rocky Hill chickens," and in- stead of saving a dollar a week, they have increased my expenses. Like certain bank stocks, I had given up all hopes of a divi- dend. I had looked regularly every day into that hen-coop only to be disappointed 18G0.] THE SOUTHERN PLANTER. 161 — not a tingle egg had they seen fit to lay. As the holidays were coming, 1 suggested to my wife, M the old rooster seemed to be an almost M useless'' member of the coop, the propriety of ringing his neck. " Mr. S— th," said she, " I want you to know that that rooster belong* to me, and I intend to keep him whether the hens lay or not !" For the first time in my life, the green- eyed monster took possession of my breast. I vowed eternal vengeance upon that old rooster. Just think of it, for a moment, my wife snubbing my nose on account of an old Shanghai rooster. " You can't expect them to lay this cold weather," said she, breaking the silence; " it is so cold. If they had a dose of red pepper, it might do them good !" u Yes," said I, " red pepper might do them some good." Now's a good time to give that old roos- ter fits. Red pepper, thought I to myself. So I prepared a dose of red pepper for them, looking out to give my wile's old rooster a double dose. You can little im- agine, Mr. T., with what infinite satisfaction and delight I watched the progress of af- fairs in that coop. The next day I actually found an egg in the coop. I marked it. No one carried it in the house and request- ed my wife to save it till she got a dozen. I gave my wife's rooster another dose of red pepper. The next day I found the second egg in the coop, and was about to mark No. 2 on the end, when I discovered figure 1, the very mark I had made the day before ! I also noticed that the nest did not look much like a hen's nest. I remark- ed the same to my wife. She thought it was owing to the red pepper, too, and asked her to fetch the after that time, and save me the trouble The next day, egg No. 1 was in the box, I wrote upon it, " Laid hy Mrs. 8 — th, Dec. 21af, 1858." The next morning, I found that that egg had been taken away, also, that four out of seven hens were dead as a brick. For the first time in my life I was satisfied — that my wife's speculation was a failure — that she was a woman not to be trifled with. Whether the death of these " Rocky Hill chickens" was caused by the cold weather, or over doses of red pepper, or any " other cause," I am unable to state ; but I never mentioned my sus- picions to my wife. 11 I thought so eggs in, The next day, a military friend called upon me from Williamantic. (I forgot to state that I'm a military man.) 1 showed him the city. Said he to me, " S — th, you've got a new hat." I said, " Yes. Come over to the Clinton House." We went there, and our "labours" commenced and continued for an hour. My military friend invited me to the States, and again we renewed our labours. I then invited him to the Allyn House. There our la- bours became so great, our " hardships" so severe, and other circumstances so numer- ous came upon us, that we came to the con- clusion that we needed rest. He took pos- session of a lounge and rolled off on the floor; I followed suit. The next thing J remember, was my military friend whisper- ing in my ear, informing me that he was going home on the first train. " Come, S — th," said he, u you're a good fellow"— " I wish my wife thought so," said I, in- terrupting him. I saw my friend safely aboard the cars, and had some difficulty in getting home — though nothing to speak of, excepting the side-walks, they were rather slippery; there were, also, several individuals who tried to see how near they could come to me, and not run into me — I believe one or two in- experienced gentlemen did run into me. 1 excused them, and all went well till I arrived home. As I was going into the gate, I concluded I would see if I could'nt find my wife an egg, and as I came within a few .yards of the coop, my wife's old Shanghai rooster crowed out in the most insulting tone, "We-don't-belong-to-you!" Fired with indignation, I seized a clothes pole and made a furious charge upon the coop, de- termining to run the coop, rooster aDd all, through and through ; but I stepped on a rolling stone and landed sprawling upon the ground. And, to make tho scene more interesting, the wind carried my hat under the fence into Mrs. Bibbins's yard. There's not a family in the whole city, that 1 dis- like as much as the Bibbinses ; there are seven of 'em all told, girls — but this time there were fourteen, all laughing and gig- gling to see me attempting to climb their picket fence. My boots were so heavy that when I got one leg up the other would pull uie back, I was bound to. have my hat, and was about to pull off coat and 162 THE SOUTHERN PLANTER. [March boots and show the Bibbinses what I could do, when I heard a voice : " S — th, do, for heaven's sake, come into 1 the house, you'll disgrace the whole family !" That's from my wife, thought I. Out of' respect for my relatives, I postponed my feat of climbing Mrs. Bibbins's picket fence. Since that day T have become a different man, and through the influence of my .wife, agreed to become a member of the " To- tally Benevolent Moral Reform and Social Teetotal Abstenence Association," on con- dition that my wife would sell her " Rocky Hill chickens," donate the proceeds to the society, and get me elected treasurer of the association I append below the result of MY WIFE'S HEN SPECULATION. Hens. Dr. To 7 Hens, (a) 38c ^ bead, $2 1 Shanghai Rooster, (full blood.) . ... Coop, lumber, cost of making,. ....... > 5 Lost tyaie, hire of team, &c, 4 2 busflls of corn, 80c ty bushel,. . 1 Miscellaneous items of feed, Red pepper (to make 'em lay,). . . . Medicines, &c, (for myself, during my '•hardships" with milit'y friend, lost time, &c, the result of an at- tack of the hen fever,) 13 New hat, lost, 4 Total expenses. -$34 35 Inventory of the coop and contents, January 1st. 1859. Value of the coop,. . . 99 Decrease of value of three hens in coop, 25c ^ head, 39 Decrease of value of Rooster (not worth a cent,). . . . 00 Total value of my wife's hen property, $1 38 As there is nothing to carry to the credit of the Hen account, you will notice the total expenses which have occurred, the result of my wife trying to raise eggs, and save a dollar a week on the Grocery-man's bill. I am permanently yours, S — TH. Boiled Indian Meal Pudding. — Take •one quart of buttermilk, two eggs, one tea- spoonful of soda, add meal enough to make a thick batter, tie it tightly in a bag, drop it in a kettle of boiling water, and let it boil one hour. Eat it with sauce to suit the taste. from Evenings-in My Library. Birds and Acorns. BY CHARLES LANMAtf. On recently taking a walk through the Smithsonian Instution, my attention was called to the limb of a tree about four feet long and ten inches in diameter, which had the appearance of having been completely riddled by rifle balls. On inspecting it, I found that the holes were of a uniform size and depth, and that each one was then or had been the receptacle of an acorn. So closely fitted were the nuts to the hollow spaces, that it was almost impossible to pick them out with a pen-knife, and in this way is it that the California woodpecker packs away its winter store of provisions, in the dry branches of towering trees in the lonely woods. The specimen in question was brought from the Pacific coast, where the bird alluded to abounds, and as I never tire of looking at the wonders of natural histo- ry, I examined it with peculiar interest. On looking over some of the latter reports of our exploring naturalists, I find that there are two other members of the woodpecker fam- ily that possess a habit similar to the bird of California. One of them is the Red Shaft- ed Woodpecker of Mexico, which makes a hole in the cactus, and deposits the collected acorns in the hollow compartments of that plant. The other bird alluded to is the common Sap-Sucker of the United States, which is fond of acorns/ and hides them away for safe keeping in the crevices of the bark of certain trees. It is thought by some that these borers, when they bring their skill to bear upon trees, invariably com- mence operations upon a living tree — a maple, an elm, or an ash, — and that their original object is to get at the sweet sap which they contain. If so, how wonderful is it, that i hey should first use the life-blood of one tree for their spring beverage, and the fruit of another for their autumnal and winter store; and that, as in the case of the California bird, the hollow which it makes by way of reaching the sap should subse- quently become. a kind of garner for the products of its industry ! An English writer says, in his advice to young married women, that their mother, Eve, " married a gardener." It might be added, that the gardener, in consequence of his match, lost his situation. I860.] THE SOUTHERN PLANTER 1G3 Where to Feed Fruit Trees. The stones of the Held and trees of the forest are teachers, and what is more beau- tiful, they teach the truth. We planted a white oak, some years since, not in honor of any warrior or political race horse on the track for election, but to add one more va- riety to our pretty well duplicated grounds. After it had stood a year or two, we noticed in midsummer a circle around it, some five feet from the trunk, and some six inches wide, where the grass had died out. The next year, this circle was removed from its outer rim, still further from the tree, and of an increased width and so it has continued to travel for several years. The (act gave rise to many wonders as to the cause among observers, but the inference we draw from the fact was that the white oak was a great eater, that the mass of feeders lay under the circles where the grass was killed, and push- ed away from the tree in proportion as the circle enlarged. The native chestnut planted out gave the same illustration. In this case of both trees, the inner circle became sodden with grass as new circles were forming beyond, and the increased width of the circle from year to year showed us that the feeders were in- creasing to meet additional demands of the tree. To us it was a lesson without labor or cost. It taught us that the practice so universally adopted of manuring fruit trees for a little distance, just around the body of the tree, could never meet their demands for food. A few feeders may remain, to be sure, scat- tered along the roots which are yearly in- creasing in size, but the body of them are yearly pushing away in search of a greater amount of food. Fully to subserve the pur- pose then for which manure is applied to fruit trees, the mass of it must annually be placed further from the trunk of the tree for keeping up with the circle of feeders to gratify their demands. The observation teaches another fact. A preparation of ground to receive a tree, for a few feet square does not fully answer their demands. It may do well to give them a start, but when they get to the end of this starting point, disease and dwarn\hncss will follow. The man who plants an orchard of any kind of fruit, must give "// the soil an ample preparation, or his success cannot be complete. The root is the most important part of the tree. If they can spread and extend them- selves, the trunk and branches will follow of course, and in due time the fruit will ap- pear. Again, the power of a tree to resist wind,; depends much upon the strength and circuit of its roots. If they are fine and far spread- ing, but little danger will arise from stormy c:ales. — Horticulturist. House Plants. Many of our readers, especially among the ladies, are engaged in the cultivation of plants within-doors, and have, doubtless, ' suffered more or less of vexation of spirit from witnessing the depredations of insects, and will, we doubt not, thank us for a rem- edy. The London Floricultural Cabinet has found aud promulgated a remedy and pre- ventive for the geen-fly, mealy-bug, thrip and scale, creatures that infest house and green-house plants. The editor has tried it and pronounces it effectual. It is cheap, easily applied, and is as follows : A wash is made by dissolving half an ounce of bitter aloes in a gallon of water. With this wash, syringe your plants so as to wet them under and over the leaves. If the enemy be there he will be destroyed ; if he be not there he will not come. Whether it be the bitter on the surlace, or the smell, or both, we know not; but, so far as it has been tried, infected plants may be put all round one so treated, and there will be no sign of thrips, bugs or aphides, even if the others be covered. It is the only thing that destroyed the thrip for us; and we believe that, while the bitter reinains on the surface, nothing living will touch it. W r e i'eel great confidence th9t even snails and slugs will not meddle with it; and all we can say about its effects on eaterpillais, is, that they have not as yet attacked a plant so prepar- ed, and that they have committed depreda- tions on plants very close. We do hope that a remedy so simple, so easily tried, and so void of all humbug, will be adopted by eve- ry body who has plants to try it on. [Boston Cultivator. A man has no more right to say an un- civil thing than to act one ; no more right to say a rude thing to another, than to knock him down. 164 THE SOUTHERN PLANTER. [March Preserving Plants during Winter. On a recent visit to a friend, we observed an admirable arrangement for keeping plants Over winter. In digging a barn cellar, it was carried out about eight feet longer than the size of the frame. The wall of this extended portion is brought up to the same level as the rest of the basement, and cov- ered with glazed sashes, resting on the end of the barn elevation. It struck us as being at once the most complete and economical pit for keeping Orange and Lemon trees, Lagerstremias, Pittosporums, Aloes, and plants of similar nature, that we had seen. We have no doubt that even Camelias would flower well in it \ and for preserving Ver- benas, Geraniums, and other plants for the flower beds in summer, it is just as good as the most costly glass structure that could be contrived j of course we could not expect to cut many flowers from plants kept in this way, although we are not sure but that, by partitioning it off from the rest of the base- ment, so that the heat of the sun, striking through the glass would be concentrated into it, the temperature would be raised suf- ficient to flower many of the more hardy greenhouse plants, such as Chinese prim- roses, Pansies, various bulbous roots, &c. These small plants would require to be ele- vated near the glass, and in very severe weather a covering of loose straw or hay on the outside of the sashes would exclude frost. The greatest care should be exer- cised in watering; too much water would soon ruin plants, when the temperature is low. It is safe to keep all rather dry. We have seen Oleanders and Orange trees kept three months in a cellar without receiving a drop of water. No definite rule can be given for watering, but more danger is to be apprehended from an over supply, than from a deficiency, where no artificial heat is given.— PhiVa Farmer and Gardener. The Farmer's Wife. Is there any position a mother can covet for her daughter, more glorious than to be the wife of an honest, independent, happy farmer, in a country like this ? To be the wife of one who is looked up to by the neigh- bors as one whose example may be safely followed — one whose farm is noted far and near as a model of neatness and perfection of cultivation ? To be the mistress of a mansion of her own, that may be the envy of every passer-by, because it is neat and comfortable — a sweet and lovely cottage home. To be the angel that flits through the garden, bidding the flowers bloom, and twining roses and honey-suckles around the bed-room or sweetening their fragrance with her sweetest smiles ; or spreading the snow- cloth beneath the old-oak at the door to wel- come her husband as lie returns from his toil; or ever tipping the cradle with her foot as she plies the dasher with her hand, or busily moves the needle, at the same time humming a joyous song of praise that she is the happy and fondly-beloved wife of an American farmer — one of the true noble- men of this free country — one that should by rights, rank as the pride and glory of America. — Southern Rural Gentleman. Food for Cows. We find the following paragraph in an exchange, where it appears without credit. The statement appears rational, and suggests the economy of preparing food somewhat before giving it to stock : "M. Chabert, director of the Veternarian School at Alford, England, had a number of cows which yielded twelve gallons of milk each day. In his able publication on this subject, he observes that cows fed in winter on dry substance alone, yield less milk than those that are kept on a green diet, and also that their milk loses much of its good quality. He published the following recipe, by tne use of which his cows afforded him an equal quantity and quality of milk during the summer: Take a bushel of potatoes; break them whilst raw; place them in a barrel standing up, putting in successively a layer of bran, and a small quantity of yeast in the middle of the mass which is to be left there to ferment during a whole week, and when the vinous taste has pervaded the whole mixture, it is given to the cows, who eat it greedily/' Muffins. — Mix a quart of wheat flour smoothly with a pint and a half of luke- warm milk, half a tea-cup of yeast, a cou- ple of beaten eggs, a heaping teaspoonful of salt, and two tablespoonsful of lukewarm melted butter. When light, butter your muffin cups, turn in the mixture ; and bake the muffins light brown. I860.] THE SOUTHERN PLANTER. 165 Hay Crop — Good Cows — Feeding. I noticed in the last Ohio Farmer a state- ment in regard to premium hay crops. In 1855, I iaised from one acre, at o.ie cutting, 9,315 lbs. of hay, for which I received five dollars premium at the Fair in our county — the ground and crop being properly certified to. The grass was a mixture of timothy and red top. This statement can be found on the 208th page of the Ohio Agricultural Report, for 1855, with some mistakes in the spelling of my name. -Washington and Adams counties can try again. On the same page of the Farmer, I no- ticed an article on milk, and rules for select- ing a good cow. I have one that I purchas- ed a short time ago, with the intention of fattening her, which, although she does not fully answer the description given, never- theless gives rich milk. She had been near- ly dried, and gave but a small quantity of milk ; but having found it rich, we tried her for a week, setting the milk by itself and measuring it. She gave in seven days twen- ty-four quarts and one pint of milk, from which we made five pounds and ten ounces of butter. At the time of trial, she was fed on hay and corn stalks, with a peck of soft corn per day. The next week we tried her, weighing the milk, of which she gave in seven days fifty-six pounds and ten ounces, from which we made six pounds and four ounces of butter. This time she was fed on corn stalks, with four quarts of corn and cob meal each day. The butter was tho- roughly prepared for market before weigh- ing. Beat this who can. Dennis E. Fenn, Tallmadge, Summit Co., 0., Jan. 9th, 1860. Fattening Hogs, and their Manure. To give hogs a start, when first put up for fattening, there is in my opinion, no' better food than good ripe pumpkins, boiled and steamed with a moiety of potatoes, and the whole well seasoned with meal scalded in and mixed with milk. There is a sweet- ness in the boiled pumpkin, which is very attractive to his pigship. Indeed all the trouble with this kind of food is, that it is difficult to get enough to supply their wants. The writer has fed to a pen of twenty, two kettles, of sixty gallons, per day, for some two weeks. I '.think to commence on this is even preferable to hard corn. While upon this subject, allow me just to suggest how large an amount of good ferti- lizing matter is usually thrown away in feed- ing our pork. The common course is to have an enclosed pen for the swine to eat and sleep in, and all the immure made usu- ally goes into an uncovered back yard — probably a real mud hole, where the manure made from feeding a large quantity of grain, is allowed to go and be leached and evapo- rated by the rains and sun ; and when we come to get out this valuable compound the next season, to apply to our soil, we find it like the Irishman's flea — not theie. Now we will talk about the value of swine's ma- nure, and in truth, for it is indeed supposed to be more fertilizing than that of any other animal. This being so, why not endeavour to save it, and not actually throw it away in the manner described ! If no better remedy presents, just make a temporary cover to the hog-yard, of rough boards, or anything that will keep out water, and just supply the pigs with plenty of material to work up — muck, turf, straw, weeds, leaves, or in- deed almost anything of a decaying vegeta- ble nature, and the thing is done — when perchance the next season you will find that instead of five loads of leached manure, you will have just four times the amount, and a little better article at that. Now, brother farmers, is this mere the- ory, and as such, unworthy of trial — not worth the time and expense ? We all know " the more manure, the better crops/' and will not a course of this kind tend to en- hance the manure heap. — Country Gentle- From the N. E. Farmer. Foundering Horses. In your issue of August first, I noticed an article, purporting to have been penned by "a farmer of Niagara county, N. Y.," saying that " in his opinton, nine-tenths of the foundered horses are made so by the shoer." From this idea, I beer leave through the columns of your paper to express my entire dissent. I am not a shoer of horses, nor am I a justifier of the cruel acts of those who are. But for a farmer ot Niagara county, or any other county, to assert that a smith (or all of them) could if they tried " founder" a horse by shoeing,, is, in my opin- ion, asserting his entire ignorance of the pathology of the disease. The disease, founder, docs not lie in the feet of horses. That the feet contract, I 166 THE SOUTHERN PLANTER. [March will allow, but the contraction is the effect, and not the cause, of the disease. A foundered horse is in precisely the same pathological condition that a man is with a rheumatic fever ; experiences the secondary effects in like manner, from subsequent exposure. The cause of founder is attributed to a sudden cessation of the perspiratory action, while the horse is in a heated condition, re- sulting from too free use of water, standing in a cool current of air or any other cause briefly checking perspiration while the horse is in a heated condition; causing severe in- flammation of the parts of the system which have been recently arduously taxed — most frequently the muscles of the shoulders and the flexor tendons of the anterior limbs. These are more severely taxed in fast driv- ing in light vehicles than any other parts of the muscular proportions. Although a horse, from long and general fatigue, thus exposed, is quite as likely to have the entire system affected, as otherwise. But to the contraction of the feet. The inflammation of the tissues of the limbs of the horse cuts off the supply of nourish- ment, through the assimilative organs, to the horny texture, and consequently they be- come dry and brittle, contract upon the cof- fin-bone, diminishing the space and use of the sensitive laminae, between the crust of the hoof and the coffin-bone within, and if not soon relieved, ossification takes place, and the horse is permanently lame. The horse, losing the spring-like elasticity of the foot, (between the coffin bone and the crust,) consequently strikes a dead blow upon the distal end of the lower pastern-bone every time he puts his foot to the ground, causing pain and soreness and constant lameness. I would like much to treat your readers, especially your smiths, to a chapter on horse- shoeing and may do so at a future time, if you desire it. ♦ M. D. _ »■»«.-» — Vaccination of Cattle. The Medical Times says that in Holland there are assurance offices for cattle's lives One company has all its assured cattle vac- cinated as a preservation against contagious pneumonia. Another company innoculates only when the disease has invaded the ani mal's stalls. The third company does not vaccinate at all. It has been calculated that the first company has lost 6 per cent of cat- tle, the second 11 per cent, and- the third 40 per cent. From the Southern Rural Gentleman. Raising Pigs. Mr. Farmer: — I address myself to you, as I suppose the editor is now too busy in preparing that enlarged, splendid and inter--- esting Rural, for next year, to have time to think of piggy now. Besides, it is your business to think of and provide for your pigs; for you know that a poor stunted pig makes a poor hog. and that it is impossible to have good thrifty hogs, without good sows and good pigs, The first thing, then, is to have good sows and a good boar, if you want good pigs. The great law of nature, that like produces like, is as true in hog raising as in other things; and you cannot expect good pigs from a sorry sire and dam. There is good and bad stock among swine, as well as among horses and men ; and if you want good hogs, you must breed from good stock. Did you ever see a farmer have good hogs, raised from that little flee sort of breed that are so small and stunted that you cannot make your fence so close, but they will get through the cracks and eat up your corn ? Did you ever see a good stock raised from those slab sided and long-legged race of hogs, which,- in the woods, are always in a trot, and if around your fence, are in a per- petual race and squeal to get in ? Did you ever see a good stock raised from wild, ill- natured hogs, that no kind of treatment can render gentle and docile? Never — never. Then let all such breeds alone; pigs from such a stock will never pay. I do not regard the small or large breeds as the best for the farmer, but the medium size that will mature early and make hogs that will weigh from two to three hundred pounds. Hogs that breed well are easily kept, mature early and are hardy, and certainly the best breed for the farmer; and when you find such stock, select from them re- gardless of the name by which they may be called, or of the price necessary to ob- tain them. Select from this stock your boars and breeding sows with as much care as you would to raise fine horses. There are good and bad points in hogs as well as horses, and form and proportion is as neces- sary to hogs as to horses, and unless attended to, your stock will degenerate. Keep your boars up and in good condition in a lot from your other hogs; and your breeding sows I860.] THE SOUTHERN PLANTER. 107 Bhould not be permitted to breed until they are quite grown and all their animal powers fully developed — this is necessary to the perfection of their offspring. If* they do not suckle well, do not keep them; for you can never have fine pigs from such a sow. Do not keep more sows than you can feed well and keep in the very best condition for successful breeding. Ill-natured and vici- ous animals are generally hard to keep, and unprofitable — they seldom make good hogs, and are unsafe when you have children. When your sows are with pig, treat them kindly and keep them in good heart, so that when they have pigs, they may suckle well. Before they have pigs separate them from your sows and other hogs, and put them in a place where they can have plenty of. straw or leaves to make them a good bed. If it is winter, provide them a good shelter to protect them from the rain and snow, so that they can have a good dry bed to keep them and their pigs dry and warm during the cold weather. In warm weather they should have little or no bed. Hogs that sleep on the bare ground in summer seldom have the mange or any other cutaneous dis- eases. They should have access to plenty of good water, and should be liberally fed with slops, made of meal and the savings of the kitchen. To feed with corn, is to sub- ject yourself to a loss of about forty per cent., as experiments have proved. Meal will make the secretions of milk larger and richer than corn or any other food, and con- sequently your pigs will be better, and be- sides, your pigs will soon learn to eat, and this food will be far better for them than corn, which is much harder to digest. If the sow and pigs are thus well fed at seven or eight weeks old, they may be weaned. This is easily done by placing the sow in a close pen — by liberal feeding, she will soon forget her pigs,. and they her, and may be turned in to your boar as soon as in heat, which will be very soon. This is preferable to the plan of forcing the sow to wean them by fighting the pigs off. If your pigs are now well cared for and kindly treated, they will grow rapidly and make such hogs as any good farmer delights to see. I have seen pigs thus kindly treated and liberally fed, that averaged their pound of meat per day, and some even more. You may think this is too much trouble, but care and labor are necessary for success in farming or any- thing else. A good stock of pigs will pay you as well for kind treatment as any other animal, and at present prices of bacon, will pay quite as well as cotton or corn. If you will have clover, oats, rye or pea fields for them to run in, after they get large enough to be uninjured by the heavy dews, and the labors of getting about over the straw and stubble, they will appreciate them aright, and appropriate them so as to ac- celerate their rapid growth, and materially lessen the expenses of feeding. I think that fair experiments will establish the fact, that we can make our bacon cheaper than we can buy it, even at the present prices of corn and cotton. Pigs raised in the woods and range, and poorly fed, as most hogs are, make very costly meat. If they eat one ear of corn a day, and are kept until two 3 ears old, they eat at least six bushels of corn ; and then it takes at least seven bushels more to fatten them ; and the average weight does not exceed one hundred and fifty, making the cost $8 33 £ per hundred. Pigs, raised as we have suggested, will be fat all the time; and the extra cost of fattening will be so little that the pork will not cost more than six dollars per hundred. It will be hard to make many farmers believe this, but if they will select one or two good pigs, and measure the meal and weigh the pig when killed, we have no fears of the result. We earnestly ask our farmers to try the experiment fairly, with a few such pigs as we have recommended them to raise, and kill them at one year old. The experiment will not cost them much, and when they have made, it they will believe it. Give us the result in the Rural. Try it — a fair trial and the result is all we ask. J. From the Ohio Farmer. Feeding and Care of Sheep. During the pasturing season, sheep should frequently have a change of pasture, ex- cept they have an extensive range. Persons who confine them to small enclosures for a long time, sustain a greater loss than they arc frequently aware of . The sheep not only cease to thrive, but the pastures on which they run are much injured thereby. In my opinion, salt is indispensable to the health of sheep. They should have access to it at least once a week. It should be scattered a little on the ground, instead of being thrown down in piles. Some contend that daily access to salt is preferable to any other way 168 THE SOUTHERN PLANTER. [March that it can be given to sheep. My expe- rience disagrees with this mode. But they should have access to water at all times, un- less the pastures on which they run are fresh and succulent. Flock-masters, who furnish their sheep no other opportunity of quench- ing their thirst during winter, than what the snow affords, sustain a serious loss through such neglect. It is impossible for sheep to thrive under such circumstances. Flocks kept in this way are much more liable to disease than those are that have constant access to water. In my opinion, shade is beneficial to sheep during the h:t days of summer; it adds to their health and comfort. The remarks of William H. Ladd, in one of the December numbers of the Farmer, respecting all fall management of sheep, are very valuable; and if attended to, would add largely to the income of farmers. In our northern lati- tude, humanity as well as interest dictate the necessity of furnishing sheep with sheds to lie under at night, to which they should have access at all times. I have been in the habit of shutting my sheep in at night, for years, during the winter; by so doing they are kept out of the way of dogs, and escape many of the cold rains that our northern climate is subject to. Flocks that have no protection during winter, except what the wool affords, frequently become drenched with rain. If the weather should turn cold immediately after, they suffer very much from cold and wet. Whilst in this condition, they fill themselves imperfectly with food. The supply of animal heat being lessened thereby, they waste very fast. Many of the weaker ones become so hurt by such exposure, that it requires the best of nursing to carry them through the win- ter. Persons who keep large flocks would find their incomes largely increased, by erecting sheds for all their sheep, and suitable racks therein for feeding hay. If breeding ewes are in good order in the fall, it is not neces- sary that they Should be fed heavily on grain during the winter, provided they are given plenty of good light hay. I do not think it good economy to feed breeding ewes much grain during the winter. All that is neces- sary, is to keep them in good plump condi- tion. If they have access to good clover hay, or clover and timothy mixed, fed at regular hours, ten or twelve quarts of corn per day, for 100 head, is all that is necessa- ry. Lambs from very fat ewes, when first dropped, are generally smaller and weaker than those from ewes that have only been kept in fair condition. After they have dropped their lambs, the grain should be increased, except they have an abundance of pasture. It is very important to give' the lambs a good start. If the weather is cold and stormy, sheep sometimes refuse to go to water, except it is convenient. • During such times, the shepherd should -see that they do not suffer for the want of it. The flock-master who suffers his sheep to get poor in the winter, generally pays dear for his negligence. It is impossible to raise them up suddenly, as is the case with other stock. If flocks of this description are fed liberally on grain, they sometimes lose a portion of their wool, and fatal diarrhoea frequently ensues. Observation has fully convinced me that lambs are much more subject to this disease than older sheep. It is generally brought on through improper treatment, such as close confinement during thaws, in stables not well ventilated ; im- proper food, or improper quantities entering into the stomach. An over-feed of grain frequently produces it. I have lost many a lamb through kindness, that I might have saved, if I had known what experience has since taught me. To winter a lot of lambs successfully, the shepherd should be provi- ded with a plenty of good clover hay, if possible. If he has not that kind, the best that he has should be placed in the lamb-house. If the ground is covered with snow, so that the lambs cannot feed upon the- grass, he must mostly depend upon hay for the successful management of his lambs. In my opinion, a light feed of grain once a day is all that they should have ; say one gallon of oats to one gallon of wheat- bran for sixty head.' They should be taught to eat hay and grain, three or four weeks prior to the ground being covered with snow. During damp, warm weather, when they get a little off from their feed, I frequently mix a small portion of salt, amongst their grain, it being an inducement to the most delicate to eat. Care should be taken not to put in enough to scour them. During wet weather, if the shepherd is not careful to turn the troughs over, a portion of the lambs will re- fuse to eat. At such times, care should be taken that those that eat do not get more than an ordinary portion. It is better to drive them away after they have remained I860.] THE SOUTHERN PLANTER 169 at the trough long enough to consume the grain, if all have eaten, and permit older sheep to eat what is left. The troughs should be so arranged that a slight effort would be sufficient to turn them over, and in such a manner that they cannot get into them with their feet. Persons whose pas- tures will afford considerable picking during winter, would do well to permit their lambs to roam over their fields a few hours every day, in search of food. As long as they keep their stomachs well distended with food, they are doing well; when such is not the case, they cease to thrive, consequently when confined to the winter quarters, they should be fed with the greater care. Much grain not only destroys their appetite for hay, but frequently produces fatal diarrhoea. Some five or six years ago, I had the care of 200 head ; one hundred of them being- coarser than I wished to retain for stock, were confined to a stable and a small yard adjoining, in which there was plenty of run- ning water. In the commencement, they were given grain moderately; but as they became more accustomed to eating it, the amount was increased until they daily con- sumed from ten to twelve quarts of corn. They were in fine order during the fore part of winter, and remained so until the weath- er began to grow warmer towards spring, when they presented a very hollow appear- ance, not consuming more than one-half the usual amount of hay. To make up the loss of h^fy, the grain was to some extent in- creased, which caused them no doubt to eat less hay. They soon began to eat corn very irregularly, and to all appearance was losing flesh fast. Convinced that they must have a change of food, I turned them into excel- lent pasture. But their stomachs had be- come so completely deranged by eating so much strong food, that they would not eat anything in sufficient quantities for their subsistence. A number of them perished miserably amidst plenty. Two years ago this winter, I confined half a dozen late lambs in a small stable; they had daily ac- cess to water, and as much bright hay as they would eat; and as nearly as I recollect, from two to three pints of oats per day. They consumed very little hay, and con- stantly presented a hollow and dull appear- ance. Not knowing exactly what was the matter, the grain was increased ; instead of receiving two feeds of oats per day, they re- ceived three — morning, noon and evening. In a short time, they consumed scarcely any hay, and soon ate their grain very irregular- ly. They all perished except one, and that one probably would, if the same treatment had been continued. Instead of receiving oats three times a day, apples cut fine were given as a substitute. Convinced that there was something wrong in their treatment, I resolved to try it over again as soon as pos- sible. Having a flock of 120 or 130 lambs on hand last fall, I selected half a dozen out of them, inferior to those that I had experi- mented on the previous winter. They were placed in a similar pen, and fed a little bright clover hay, three times a day. In addition to this, they received a pint of oats and bran mixed, of equal portions. A little salt was constantly mixed with their grain. This experiment was perfectly successful. They not only lived through the winter, but five out of their number throve rapidly. The success attending these experiments, favors the opinion that much grain is inju- rious to lambs. If farmers were careful to provide plenty of good bright clover hay, they would find but little trouble in winter- ing their sheep. Stables in which sheep are fed should be littered frequently with refuse chaff or straw. It is not only conducive to the health of the sheep, but it adds largely to the productive resources of the farmer. Sheep are occasionally attacked with the colic, especially in the winter. Frequently lying down and rising suddenly; constantly stretching their fore and hind legs so far apart that their bellies almost touch the ground. A dose of epsoin salts, castor oil, or even hog's lard, will generally effect a cure. It should be repeated until it physics. The disease known by many persons by the name of stretches, is the effect of flatulence, or bilious colic. If not relieved soon, death follows in a few days. If given in time, a large dose of castor oil will generally give relief. A post mortem examination of a sheep that had died with this disease, re- vealed the fact that the intestines were firmly, closed, for a space six inches in length. Common diarrhoea, or scours, manifests it- self by frequent evacuations of a thin or watery discharge. Lambs are much more subject to this disease than older sheep. I am of opinion that more lambs die with this disease, during fall and winter, than from any other disease. If the purging is se- vere, the feculent matter should be removed from the bowels by gentle physic. From 170 THE SOUTHERN PLANTER [March repeated experiments, I am of the opinion that salts are equal, if not superior to any other medicine as a physic, in cases of diar- rhoea. The bowels being in a relaxed con- dition, a small dose is sufficient; — say a tea- spoonful, or but slightly rounded. It should at all times be followed by an astringent. I generally administer a table-spoon level full of wheat flour, added to one-fourth of an ounce of prepared chalk. It should be mixed with tepid water and poured slowly down the throat. In common cases, one dose per day is sufficient. In obstinate cases I prefer to give chalk twice, morning and evening. The bowels being in a weak and excited condition, all strong food should be withheld. The flour should not be added to the chalk, if given twice a day. It is very important that the patient should have plenty of good clover hay. A cup of strong tea is sometimes beneficial in this disease. I will here give the formula of a cordial that is perhaps equal, if not superior to any other remedy now in use. Take of pre- pared chalk one ounce; of catechu, half an ounce; of powdered ginger, two drachms, and powdered opium, half a drachm • mix with half a pint of peppermint water. Give two or three table-spoonfuls morning and evening. I have tried this remedy to some extent, and believe it to be very valuable. In very obstinate cases, an external applica- tion of turpentine will frequently give re- lief. It produces intense pain, and should not be applied except in desperate cases — weak and feeble lambs are not able to en- dure the pain. The application should be made to the hinder part of the abdomen, and well rubbed in. It would be well to repeat the operation, say three hours from the time the first application was made. There are other subjects connected with sheep husbandry, that I intended to have made mention of, but the length of my pres- ent article forbids. I am willing to inform the individual who criticised my last article that appeared in one of the November num- bers of the Farmer, who seems to think that the era for mutton eating is just com- mencing, that I am glad he has been so kind as to enlighten the public on that subject. It is well, if such a great change is about to take place, that. the people should have some time to prepare for it. He says : "If the price of mutton increases in the next ten years, in the saine proportion as it has done in the last ten, there will not be one fine sheep then, for every ten tkere is now." It is my opinion that there will be some inter- esting revelations on that subject, between this and spring. Nathan Cope, New Water ford, Columbiana Co., 1st mo. 5th, 1860. Feeding Farm Stock. We find the following interesting and able article in our excellent exchange, the j Genesee Farmer. Mr. Harris, the editor, is a chemist himself, and has, with much earnestness and ability, sustained the views of Lawes and Gilbert, as opposed to those of Liebig, in the great controversy on the mineral theory of the latter. While we do not agree with him as to the conclusiveness of their experiments, we present the follow- ing paper to our readers as containing very interesting views of the relation of carbon and nitrogen, or rather of carbonaceous and nitrogenous substances to the feeding of farm stock, and to the rotation of farm crops : " All know, in cleaning land, what a small amount of ash is left as the residum of the mighty forest. Carbon, or charcoal, exists in the vegetable kingdom in much larger proportion than any other element.. Nitrogen is found only in very small quan- tity, yet its presence is absolutely necessary. No vitality or organization is found without it. There are many substances in vegeta- bles that do not contain nitrogen, but they are not integral portions of the plant. They are merely vegetable deposits, correspond- ing with the deposits of fat in the animal organization. These deposits, such as starch, sugar, gum, etc., are destitute of nitrogen, and are composed of carbon and the ele- ments of water, They are substances which contain nitrogen — and every vital part of a plant and animal that does contain it — are called nitrogenous substances. They are composed of all the four organic elements — oxygen, hydrogen, nitrogen, and carbon — united in definite proportions in all plants and animals. " If we take a piece of carbon, or char- coal, and burn it in a stove, it gives out an amount of heat proportionate to the amount burned. The carbon of food, when taken into the animal system, is burnt in precisely the same way as that in the stove, and gives I860.] TIIK SOUTHERN PLANT E II. 171 out exactly the same amount of heat. It is well known, that when any heated hot]} is surrounded with colder substances, the boat will fly off tVoin the heated body, till all become of an equal temperature. And it is also well known, that more fuel would })v needed to keep a itote at a given heat, when exposed to a cold temperature, than when in a warm one. An animal is affect- ed in this respect in precisely the same manner as a stove. The temperature of the animal body is the same at the North pole as at the Equator, when at a blood- heat temperature, as when in an atmosphere 40° below zero. It must be, therefore, that this body is heated from within ; and that the colder the air, the more heat must there be produced, and consequently the more carbon must there be burned in the rungs to generate it. Hence it is that in cold weather we eat much more food than in hot weather. Warmth, to a certain point, is equivalent to an increase of car- bon in the food. " The nitrogenous substances of vege- tables are precisely the same in composition as the muscles or flesh of animals ; and it is supposed that the nitrogenous substances ous. This was invarhibly found to be the throughout a very i experiments. To give more for loo lbs. Of bran than for KM) lbs. of Hour. it contains more nitrogen would not Neither would it be economical to three times as much for a bushel of as for a bushel of corn, because it contains three times as much nitrogen ; for though the animal will increase somewhat more when fed on peas than on corn yet he will eat +ill he has obtained the nec< amount of carbonaceous matter, and of which corn contains much more than . The fact is, that nitrogenous substances are in excess of the available carbonaceous. Otherwise, why is it that we strip the ni- trogenous bran from the starch of wheat? Why is it that we churn so much milk for its carbonaceous compound — butter ; while its nitrogenous matter, casein or curd, is given to the hogs in the buttermilk ? Why is it that we eat so much fat meat and pork ? How is it that sugar has be- come a necessary to nine-tenths of the world, and that rice and tapioca are found in every household ? All these substances con- tain a large amount of available carbon, of vegetables are converted into flesh with- 1 and little or no nitrogen. For feeding pu r - out decomposition. Hence the assertion poses, a food is valuable in proportion to by many able chemists, that the nutritive! the amount of available carbon it contains; quality of a food is in direct proportion to yet the more nitrogen it has united with the amount of these nitrogenous or flesh- this carbon, the greater will be its fattening forming substances. Boussingault, the most j quality. reliable agricultural chemist in the world,] " A natural conclusion, from these facts, has given tables of equivalents, founded would be to grow those plants, as food for on this priuciple. According to them, peas animals, which contain the most available contain three times as much nitrogen as carbon ; or, in other words, the most starch, maize, and is consequently three times as sugar, oil, etc. nutritious. Bran, too, is much more nu- But agriculture is a complex art. We tritious than the finest wheat flour; while must be careful how we jump at conclusions, an immature corn stalk would be more nu- In Mr. Lawes' wheat experiments, systemat- tritious than one perfectly elaborated. The ically continued on the same soil for fifteen experiments of Lawes and Gilbert throw successive years, the most important fact much doubt on the correctness of this demonstrated is this: The wheal plant, theory. One thing at least is demonstra- during its growth, destroys ammonia. ted — that the amount of nitrogen a food That is to say, that much more ammonia is contains in no way regulates the amount required to produce a crop of wheat than consumed by the animal. Thus, a hog will the entire crop of grain and straw contains cat as much peas as corn ; while in the when fully matured. It was found, in one case he will eat three times as much eral hundred experiments, that an applica- nitrogen as in the other. ition of ammonia increased the crop up to u We arrive at the conclusion, that the a certain point, dependent on climate influ- amount of food an animal will consume, enccs, in proportion to the amount supplied; other things being equal, depends upon the but that about five times as much ammonia amount of avax irbonaeeems substan- is required to produce a given increase of ces it contains, irrespective of the nitrogen-; wheat than it contains when grown. 172 THE SOUTHERN PLANTER. [March " Mr. Lawes' experiments on turnips, peas, beans, clover, etc., show that these crops do not destroy ammonia during their growth • and that if sufficient available in- organic matter be present, they can obtain sufficient ammonia for an average crop, from the atmosphere. Whether corn, oats, bar- ley, timothy, and other cereals, destroy am- monia, is not yet proved, but it is highly probable. Let us admit that these cereals, like wheat, destroy ammonia during their growth, and that peas, beans, clover, lentils, etc., do not, and see how it affects the sub- ject of rotation. " On a farm, then, where wheat, maize, barley, and oats are grown, as well as tim- othy and other grasses, for feeding purposes, it must be evident that there is an immense destruction of ammonia ; and that if we are to obtain large crops, large quantities of ammonia must in one way or other be placed in the soil. The cheapest way un- der most circumstances, of increasing the ammonia on a farm is, by growing those crops which do not destroy it during their gro.-.th, but, on the other hand, retain that which is brought to them in rain from the atmosphere. " At least one-half the dry food given to an animal is consumed in the production of animail heat, and escapes as carbonic acid and water in breath and perspiration. The nitrogen of the food, however, is not given off in a gaseous state, but except a small portion, retained in the increase of animal, is all thrown out of the system in liquid and solid excrements, the former containing often six times as much as the latter. " A crop of clover, in root and branch, often contains 80 lbs. of nitrogen, the great- est part of which is probably derived from the atmosphere ; and this clover, plowed in or eaten on the farm by animals, would fur- nish 80 lbs. of ammonia for a wheat, corn, or timothy crop, which would be increased accordingly. This 80 lbs. of ammonia can- not be purchased in an artificial form for less than $12. A good average crop of peas contains about as much nitrogen as the clover, and, like it, obtains most of it from yet this nutritious quality is produced at such an expense of the ammonia of the soil, that it cannot be grown for feeding purposes, unless a high price is obtained for the meat. Peas, though in one sense less nutritious, have been produced at so little expense, as compared with corn, and besides contain so large a quantity of nitrogen, that their growth and consumption on the farm cannot fail to be comparatively profitable. The comparison between timo- thy grass and clover is equally, and for the same reasons, unfavourable to the growth of timothy for the purpose of feeding to ani- mals on the farm. Not only does it con- tain less nitrogen, but it has consumed less ammonia during its growth. If this is cor- rect in theory, it cannot be far wrong to say that the average yield of wheat, maize, barley, oats, and timothy, on any farm, will be in direct proportion to the quantity of clover, peas, turnips, etc., raised and con- sumed on the farm. Feeding and Care of Stock in Fall and Winter. A wise Providence has ordered that the autumn should be, the world over, the pe- riod of most convenient and rapid fatten- ing. The average temperature is indeed the same as in spring, and the food may be the same or nearly the same; and yet, the fattening process never does go on so well, except under the most artificial circumstan- ces. The weather has much to do with this. The gradually increasing cold gives an appetite and relish for food, while the increasing warmth of spring produces the opposite effect, which even the first taste of the fresh grass cannot counteract. The coat is shed and renewed in spring, so that the animal is keenly sensitive to changes of temperature. Grain well kept till spring is said to be more easily digested and more nutritious than when fed early in fall. This may be; and doubtless also, pound for pound, hay is better for being stored,, if well cured and well kept. Changes go on in various kinds of food, root crops as well as grains, by which some of the woody fibre the atmosphere. The same can be said of; becomes more readily digestible, and starch turnips, mangels, beets, carrots, beans, land gum are converted into sugar. Some tares, &c. I roots it is true, become, especially if they "It will be seen, then, that while maize in! sprout, more fibrous and corky, hence less one sense is much more nutritious than fattening. Autumnal grass, on the contra- peas — containing more available carbon — jry, is much more nourishing than 'the early I860.] THK SOUTHERN PLANT KK. lT-'i growths of spring and summer, when the plants arc doing their best t<> themselves in the best possible fading order, s<> that when in order t<> perfect the Beed, great demands are made upon root, and loaves and --talk, they may be in condition to moot it Af- ter 'this necessity is passed, anth, or 20th of July, after which ne lit of longer fighting the weeds will not more than counterbalance the injury to the roots of the corn. — Exchange. From the Boston Cultivator. Potato Culture. Mkssks. Editors: In the Country Gen- tieman of the 22nd of September, I notice some statements about potato culture, from the pen of Mr. Bartlett, that have the "ring of the true metal." He ridicules the idea of manure causing the potato rot, or that flowering is a sign of its degeneracy. Allow me to state some facts bearing upon this interesting question. The nine tubers which were raised from a worthless potato in 1858, [see (oiui/rty G( ntl man for October 14, J 858,] and raised in the same manner in 1859, in twelve hills, produced pot I had buds, blows and balls matured the second year, al- though no sign of a l»ud appeared the first year. Moat of the tub< sound when dug, on the 12th of September, but a few were not sound, as they were not dug or the tops cut or pulled as soon as ripe, as should become the practice in all ca The nine tubers, the first year's product, it is certain were not matured or ripe ; but they were perfectly sound, and remain until I planted them the next spring. But the product of the same this year are fully ripe, but not all sound wheu dug. I have laid by twelve to be planted in 1860, to be •, and will re- port the result. It is certain that the ripe potato if miteli more tin- subject of , ban th< unripe or thrifty growing potato. Nor do I . with Dr. Manby, that it is at all a sign of degeneracy, or oi' "growing out" in the flowering or ripening oi' the potato. II' a plant is in a thriving condition, it it not the SO Pol blossoming and setting, a.- the potato may, even two or three times* But let it cease to thrive and shrivel up, from whatever cause, its tops should be at once destroyed, and save what growth of tubers is attained at such time, that the same may be and remain sound for the table, or for planting, with less trouble of picking over, and no loss from dig The potato should ripen before, or alter the month of August, as Par as it is possible. 1 planted 24 hills of white kidneys last May, a variety much inclined to the rot. I planted 24 hills of early blues at the same time, a variety not much subject to the rot. On the 20th of August 1 pulled the tops of 12 hills of each of these varieties, being fully ripe, and the other 12 hills of each I let stand till the 12th of September, when the stalks were both dead and dry. The kidneys not pulled on the 20th of August, had 72 diseased tubers, those pulled had but 23 defective ones. Of the blues not pulled on the 20th of August, five tubers were found defective, September 12th, of those 12 hills, but those pulled on the 20th, were all sound. In the first experiment of the defective tubers were six to two in a hill; the other, two to nothing. Numerous experiments of this kind have been made on more than a dozen varieties of potatoes, and they have 'been attended with the same general re- • suits, [f any one will test this principle by experiments in ISCO, it will confirm this theory of the potato disease M the onl\ rect one. and give the world the long-Bought remedy against its early ravages. I planted seed from the potato balls in the fall of lSf)8, and sowed seed in beds in the spring of 1859, and the plants, many of them, grew very thriftily, and in September budded and flowered and formed embryo [balls, which soon fell off the stem- which had been twice transplanted. ! not this demonstrate the practicability of obtaining full grown potatoes the first year [from the seed itself? What, indeed, will 176 THE SOUTHERN PLANTER. [March become of the theory that high manuring rots the potato, or that "flowering is a sign of their growing out?" Give the potato a warm, dry soil, rich manure from the hog- pen or hen roost, spread broadcast or put in the hill, or used as a top-dressing, or in all these ways, with clean culture, and I can warrant potatoes of any kind to grow to ripeness without disease, if the tops are de- stroy ea\at that period. — Cor. In summing up the results of our corres- pondent's valuable experience as related in the above article, we find that in years when he dug the potato before it reached maturity, or at least as soon as ripe, it has been preserved comparatively sound and free from rot; on the contrary, when it has laid in the ground for a time after ripening, rot has ensued, as in the case mentioned, in which the potato was ripe August 20th, yet not pulled until twenty-three days later, on the 12th of September. The sentence in which our correspondent recommends avoid- ing the necessity of digging in August, ow- ing to its juxtaposition to the statement of his successful experiments, in which August potatoes came out better than September ones, seems at first thought somewhat con- tradictory ; but the experiment has no con- nection with the previous recommendation, and it is cited to show, that in spite of what was regarded as an unfavourable ripening season, the potatoes were preserved from disease by their not being suffered to remain in the earth, longer than barely up to the time of ripening. It is obvious that these and " numerous other experiments" pointing in the same direction, seem to show how the rot may be partly avoided in the ripe potato; but it does not appear to cover the whole subject, as this theory does not affect the condition of unripe tubers, for it will be conceded, we suppose, that many potatoes have been sub- ject to the ravages of disease before they have arrived at maturity. — Editors Boston Cultivator. From the Rural Register. Plaster of Paris— Gypsum— How it Acts upon Growing Crops. Ever since that German workman, in his daily walk across the fields from the Gyp- sum Quarry in which he was employed, dis- covered the fertilizing properties of what is now commonly called Plaster of Paris, by the ranker growth of the herbage, which had gleaned the dust from his footsteps, there have been many contradictory opinions advanced with respect to its mode of action. Even the best agricultural chemists have disagreed upon this point. In this country, our own Franklin, first, practically demon- strated the astonishing effects produced by this substance upon a certain class of plants, and Judge Peters, of Pennsylvania, has the honor of having brought it into general use; but, to this day, the manner in which it ope- rates is as little understood by our farmers as it was when first introduced. We pro- pose therefore to clear away some miscon- ceptions which have arisen with respect to its peculiar -properties, and shall endeavor to reconcile at the same time some of the con- tradictory theories which have been ad- vanced. Many years ago Doctor Muse, of our State, expressed the opinion that the chief, if not the only cause of the efficacy of plas- ter in promoting vegetation, arose from its tendency to produce phosphoric acid. Sir Humphrey Davy, on the contrary, imagined that its fertilizing properties were derived from the sulphur, which it supplied to the soil; whilst Liebig, contends that its chief virtue consists in the fact that it fixes the ammonia which chemists have discovered in rain water, in the same manner as it arrests it during the fermentation of farm-yard dung. Neither of these theories are irre- concilable with each other — the apparent error of Muse, Davy and Liebig, being that each of them regarded plaster as having but one single fertilizing property, instead of possessing, as we believe, a combination of properties. In other words, we feel satis- fied that plaster lias two distinct and sepa- rate functions; and that while it acts di- rectly as food upon a certain class of plants, it indirectly furnishes additional food to the same plants by fixing the ammonia contained in the atmosphere, and in the dew, and rain, and snow, which is thence derived. When the physiology of plants comes to be better understood, it will be found that their leaves play a much more important part in the vegetable economy than is generally ascribed to them ; and that they serve not merely as lungs, but as mouths also; absorbing the food supplied by the atmosphere, just as the fine fibrous roots collect the food supplied by the soil. How" else can we account for the fact, that plaster acts most beneficially I860.] THE SOUTHERN PLANTEIt. 177 upon clover when its leaves have fairly ex- panded, and with the least advantage when applied directly to the soil. . Indeed, the old notion that leaves are nothing- more than the respiratory oagans of plants, has already been exploded by the best informed bota- nists, who contend - , and very justly too, that they are likewise absorbents. Admit this to be true and it will be seen immediately what important results may be derived from acting upon this knowledge. It shows that the animal and vegetable kingdoms are gov- erned by the same general laws, and that the more vigorous in the earlier stages of its growth the plant or animal may be, the greater are it s powers for the absorption and the assimilation of its peculiar food. Sir Humphrey Davy established the impor- tant fact, that b} 7 the comparative energy with which different soils attract and retain the moisture of the atmosphere, the mea- sure of their fertility may be ascertained — those that are the most fertile possessing this power of absorption in the highest de- gree, while those that are naturally poor, or have been exhausted by frequent cropping, evince it the least of all. The same rule will apply to plants. A feeble and sickly plant can no more collect and assimilate from the atmosphere the large store of nutriment it invariably contains, than a feeble and sickly animal can digest the food that is offered it. Stimulants and tonics are required in both cases to restore the system to its natural vigour, and these are offices of Plaster of Paris, so far as a certain class of plants is concerned. Now, when Doctor Muse attributed the efficacy of Plaster to its tendency to become phospho- ric, by exposure to the atmosphere, and proved that phosphorus exists in vegetables, he was perfectly correct as far as his state- , ment went. So was Davy, when he claimed that the fertilizing properties of Plaster were derived from the sulphur it contained;! and so was Liebig, when he contended that j its beneficial influence upon growing plants! arose from its power to arrest and fix the j ammonia descending in dew, and rain, and snow, from the atmosphere. They were each of them wrong — right in attributing its efficacy to a certain property contained in, or belonging to Plaster, but wrong in claiming that its sole power was derived from the exhibition of a single property, when in reality it exerts a combined action, and its beneficial influence is attributable 12 not only to its tendency to become phos- phoric, but also to the sulphur which it I contains, and to the ammonia which it col- lects from the atmosphere, and fixes in the soil, and which is recognized as the most powerful of all manures for vegetables con- taining nitrogen. An analysis of Plaster shows that it is composed as follows : Sulphuric acid, 43 parts. Lime, .... 33 « Water, 24 " 100 Now, every farmer knows how striking are the effects of an application to clover, and the philosophy of its action may be very readily understood by the following analysis of the ashes of Red Clover. An acre of good clover furnishes when dried : OUR COMMENTS. Drawn in part by the Plaster from the atmos- Nitrogen, 78 lbs. phere in the shape of ammonia. Potash } and > 77 Soda, ) Lime, 70 Magnesia, 18 Sulphuric acid, 7 Phosphoric acid Chlorine, 7 -contained in the Plaster. 7 " — contained in the Plaster. f ascribed by Dr. JVlu?e. j to the conversion of" { Plaster into a phos- | phate by atmospheric influences. Silica, Iron, Manganese, Oxygen, and Hydrogen, make up the remainder. Analyses of Sainfoin, Peas, Beans, Vetches, Turnips, Beets, and Carrots, show that they are composed, though in varying proportions of similar inorganic substances, and hence that Plaster will act beneficially upon them. Plaster acts principally upon the leaves of plants, increasing the stem and foliage, and is therefore much better adapted to forage crops than to the cereals. It produces but little effect when buried in the soil, except when it is spread upon a clover ley before it is turned down, when by arresting the volatile ammonia that is disengaged during fermentation, it exerts a remarkable influence upon the following wheat crop. There are, however, certain soils, as there are certain plants, upon which Plaster pro- 178 THE SOUTHERN PLANTER. [March duces no sensible effect. It succeeds best on tolerable fertile sands, or gravelly loams, or upon any soils that are not too stiff or too moist. When a soil already possesses a sufficiency of sulphate of lime, the addi- tional application of Plaster is not of very material service. The best season for ap- plying Plaster, is in the early spring, when the young clover is about th high nches and during warm, moist weather, when the fine dust will adhere to the leaves •> for some time. In a soil wholly deficient in Sulphate of Lime, Plaster has produced : superior effects by broadcasting the field at the time of sowing the clover seed, and ! repeating the application the following, spring. A field once Plastered with from ! 250 to 400 lbs. per acre, will not need a similar top-dressing for four years. Rural Register. For the Southern Planter. Vegetable Physiology. In one of the late numbers of the South- ern Planter is an interesting article by 'Pro- fessor Campbell, on Vegetable Physiology.' The science of vegetable physiology is, at this time, an appropriate study; the botan- ist and the agriculturist are alike interested. The more we know of the structure of plants, and their manner of growth, the better are we enabled to promote their growth and to answer their requirements. There is, however, one part of his article that certainly is founded on theory alone — unsupported by facts. This theory — I mean the downward circulation of sap in plants — was advanced in the early study of botany as a science, and was taken from the sup- posed analogy of the circulation of blood in animals. All writers agree that ' the sap ascends from the root to the leaf, and carries with it in solution a portion of the material necessary for the nourishment of the growing plant.' It is also generally ad- mitted, that 'plants derive a large portion of their nourishment from the air, through their leaves, in the form of carbonic acid gas - ' * * 'As the carbonic acid gas en- ters the leaf, it is at once dissolved by the sap, and carried through the circulating vessels of the leaf where it is decomposed, its carbon being retained, and i*s oxygen thrown back into the air.' As gas is in the smallest division into which matter is yet known to pass, it certainly is not correct to say itis 'dissolved' on entering the sap, it is mixed with it, as it is well known that water has a great affinity for that gas, and will imbibe several times its bulk of it without pressure, and many more times with pressure. The preparation that the gas undergoes is called 'digestion.' 'When the sap has thus been prepared for nourishing the plant, it is called 'latex' or true sap. It is then conveyed by the circulating organs to the various por- tions of the plant, and in some mysterious way, under the guiding finger of Omnipo- tence, assumes various forms of organic structure, producing stems and leaves, flow- ers and fruits. Here we have a beautiful analogy between the circulation of sap in plants, and the circulation of blood in ani- mals.' This downward circulation, to say the least of it, is a round about way of attain- ing an object, and is contrary to timt sim- plicity we see in all the operations of nature with which we are acquainted. Why should it be supposed necessary to send the sap first to the leaf, before the matters in its solu- tion, could be used in building up the plant? How do we know that those matters are not sufficiently vitalized, on entering the roots, to be used at once ? Are there no other known processes by which carbonic acid gas can be decomposed but by sunlight ? Were a chemist in this day wishing to release oxy- gen from its compounds, he would employ electricity and not sunlight; and may not that subtle and powerful agent be the prin- cipal cause of the decomposition of that gas in plants?- We know that the differing states of positive and negative electricity between the earth and the air, are continually changing, and plants are precisely in that position to make them the medium between the two for the conveyance of that fluid, and more particularly through the water of the sap, where it meets the gas. Experi- ments have been made by erecting wires in an open space, and extending them under growing plants beneath the surface of the earth, thereby largely increasing growth. This increase must have been caused by a more rapid decomposition of the carbonic acid gas in the plant than would otherwise have taken place, for electricity -contained in itself nothing that could be made sub- servient to growth. In the ' New American Encyclopaedia,' now in the course of publication, article Bo- tany, the downward flow of sap is rejected, and arguments used to show that though the I860.] THE SOUTHERN PLANTER. 179 amount of matter for growth in the ascending sap is small; yet, considering the great amount of water given off from the loaves of plants, there is abundant room to conclude that matter sufficient for growth is brought up by the sap. Electricity is also considered as playing an important part in vegetable growth. The philosophic editor of the ' Flore des Ceres,' of Belgium, in an article not long since, asserted that 'the office of the leaves was chiefly perspiratory, and that this ere long would be generally acknowl- edged.' He also asserted that a downward flow of sap did not exist. It would be well for those who are pre- paring elementary works, to examine into all recent discoveries in science, and profit thereby. Few of the theories put forth in the first investigations of science, in its different departments, are now retained; later experiments have set many of them aside, and substituted others more in accord- ance with known facts. How much more consistent with the simplicity of nature, and with what we know of facts, to suppose that the matters brought up by the sap for growth are distributed in passing up, than to sup- pose they must all be first conveyed to the leaves to be vitalized ! Were this the case, it is reasonable to infer that the matters would be more deposited near the leaves than they are, thus making the top grow 1 faster than the body; this we know is not the case. But as they come up in a condi- tion to be assimilated, they are deposited in much larger quantities near the ground than higher up — a beautiful provision of nature, to give the plant increased strength at the base, and make its body more valuable. It is just as easy to suppose that the mat- ters for growth are 'conveyed by the' up ward 'circulating organs to the various por- tions of the plant/ a^ to supp isc that this is done by a downward circulation. It would, be just as much 'under the guiding finger of Omnipotence' in the one case as the other, and would set aside the necessity of resorting to 'some mysterious way* of Omnipotence to help us out of our difficulty. It would be a 'mysterious way,' indeed, to suppose a downward as well as upward movement of the sap; the downward being much thick- ened by the evaporation of the superabun- dant water at first contained in it. This difficulty is not overcome by supposing the descent, beneath the bark, where most of the growth is made, for it must pass through. the stem of the leaf where there is no known evidence of theii passing each other. Ac- cording to this theory, it must pais through the pores of the Bap-WOod too, for it is well known that these pores gradually become more and more filled up by matter, until the texture of the heart-wood is assumed. How does this matter uet th Is there 1 a downward flow there too ? Here is a dif- ficulty that cannot readily be gotten over. But by allowing electricity to act a promi- nent part in the decomposition of the car- bonic acid gas in the sap of plants, and thus making matters ready for assimilation through an upward circulation alone, wo have a theory for growth that accords well with the simplicity of nature's laws, and will account for all we see, without bringing in mysteries to our aid. The laws of nature arc all mysteries to man, while ignorant of them ; but it is his province to make him- self acquainted with these laws, and the more he does so, the more will he see of the be- neficent designs of a gra-cious Providence. Yardley Taylor. For the Southern Planter. Will Merino Sheep Pay a Profit on a Breeding Stock, Costing $20 a Head. Mr. Editor — In compliance with your request, that I should send you a communi- cation on stock-breeding, I have concluded to furnish you with a short article on the rearing of sheep. Will Mcrtnuca pay at the cost of 8-0 per head? From the day that Abraham was about to sacrifice his son Isaac, down to the present time, sheep have been dependent upon man for protection, and provision for their sup- port. But, as they are everywhere adapted to the abodes of man, and at the same time furnish him with comfortable and luxurious clothing, as well as the cheapest, most healthy, and nutritious flesh, they arc far from being burdensome; on the contrary, they amply remunerate the expense and care, which their sustenance and protection involve. If the southern planter would but consider how fertile his southern home would become, if he raised less tobacco and cotton, and gave more attention to sheep husbandry,] am sure he would readily see the propriety and importance of a change of the existing policy of his farming opera- tions. But he will perhaps at. first object that the price of Merinoes at S20 per head, 180 THE SOUTHERN PLANTER, [March is too high as an investment for profit. Let us see : Any investment of capital, pay- ing a net profit of 6 per cent, is ordinarUy considered not a bad one. Now, obsVVe how the account will stand on reducing tjt to the test of close calculation : 20 Merino sheep, at $20 per head, - - $400 Interest on cost for one year, - - $24 Expense of keeping them one year, @ 75 cts., 15 39 From these 20 sheep he may calculate on 100 lbs. of wool, which, at 50 cts. per ft)., is - Which, after paying interest and keeping for one year, Leaves a net gain on wool of - Now, from this flock an ordi- nary flock-master would raise 15 lambs, besides keeping up the stock. These, when one year old, will produce the value of $2.50 in wool, from which, deducting 75 cts., as the cost of keeping, leaves $1.75 net for each, which, multiplied by 15, is equal to 50 39 $ 11 26 25 Making the aggregate net value of wool, - - - $3 7 25 This amount deducted from the $400, reduces the cost of the flock, now increased 75 per cent in number, to $362 75, or t $10 36 per head on 35 sheep, the number of the flock. Pursuing this line of calculation, it is easy to perceive how soon the profits will liquidate the cost and expenses, and leave the owner in possession of a large and con- tinually growing flock, feeding him with its fat carcass, clothing him with its soft fleece, and yielding him a handsome pecuniary in- come, while its manure is enriching his worn out fields, and increasing their capacity for rich and abundant returns in their pro- ductions, for the labor bestowed upon them. J. S. Goe. Near Brownsville, Pa January, 1860. For the Southern Planter. i ■ *. * Culture of Broom Corn. • My experience in cultivating broom corn has only been for two years, yet I will give my mode of culture, which may be of some service to those who have never attempted it. I deem it very important to plough the land in the fall, that it may pulverize well by the spring. Plough the land again just before the planting season, using the harrow freely, that the soil be thoroughly prepared to receive the seed corn. I have the rows laid off three feet apart, and plant as other corn. On high land I leave the corn four inches apart, but on low grounds, which is preferable, I put it at two inches in the step. Land of moderate fertility will afford a pretty good crop of broom corn j yet to obtain a very good result the land should be strong. After thinning, I use a coulter, and never touch it with a hoe except in thinning. I coulter the land twice, and then lay it by with a small turning plough ; rely upon this mode, and I will ensure a good crop, according to the quality of the soil. You shall hear from me again in regard to the mode of cutting and curing the crop, preparatory to the manufactory of brooms. C. E. Little. Scottsville, Feb. 15, 1860. Profits of Sheep Raising. I noticed in the Farmer of January 7th, an article from R. F. Bingham, on "Profi- table Sheep Husbandry." He says that John and E. W. Bingham have sold, the past season, a certain amount of sheep and wool; and wishes to hear from any one that has done better. I will here give a few facts and figures for his benefit. Last sea- son I clipped 250 sheep j the wool sold for $552. I have sold within the year 74 sheep, which is equal to the number of lambs raised, for $814; making $1,366. My sheep are of the Spanish Merino breed, and mostly ewes ; a few bucks and wethers. I have kept sheep for the last twenty years, and consider it the most profitable business the farmer can engage in. — Joseph W. Worcester, Pittsfield, Lorain Co., Ohio, January 11th, 1860. I860.] THE SOUTHERN PLANTER. 181 %\t jjnuijjtrit jpianttr. RICHMOND, VIRGINIA. Gas Lime. We are frequently asked the question, " Is Gas Lime good for anything as a fertilizer'?'' and as many of our subscribers are directly interested in a thorough understanding of the subject, we will give our opinion of its value, and the reasons which liave led to our conclusions. The Gas Works of the city afford an abund- ant supply of this article to those who are "in striking distance of them, and at about half the cost of fresh lime. However, they ask for it, per bushel, several cents more than is demanded for it at the Gas Works of other cities. The gas, after being manufactured of bitu- minous coal, contains (we believe) a trace of iron, as well as sulphur and ammonia. To free it from them, and to render it pure, shell lime is employed, and after this process of purification is completed, the lime, of course, contains these articles in a certain degree — of which we shall speak more definitely by and by. The lime is used in the following manner at the works. Four bars of iron are laid across each other at the corners, (like a log-pen,) and on the top of them is placed a piece of perforated sheet iron. This sheet iron is covered over with shell lime — which being done, four more iron bars are laid on top of it, and the perforated plates of sheet iron and lime applied in the same man- ner, until they are run up to the desired height. The whole of them are then covered in by a large cast iron bell, just as a clock is covered by a glass case, and the gas is forced up under it, until the lime absorbs its impurities, after which it is fit for use. The lime, when taken out, has a dark, green- ish color, and is very caustic. In this fresh con- dition, we do not think it well to apply it, ex- cept in small quantities, or during the cold weather of winter, when it will rapidly absorb oxygen — by means of which it is very materi- ally altered in its effects upon the soil. "The refuse matters which are produced dur- ing the uistillation of pit coal in the Gas Work;-, consists of three substances: the ammoniaca'. liquor, the hydro-sulphuret of lime, formed by passing the gas through lime to deprive it of ixa sulphuretted hydrogen and the coal tar." In some parts of Europe, the lime is bought up readily by farmers near, the Gas Works. By the process through which it goes as ft purifier of the gas, the lime is converted (in part) into the hydro-sulphuret— -while the rest of it is free or uncombined lime. "When mixed with the soil, or spread upon the surface, it gradually decomposes, a portion of hydrogen separates from it, and it is con- verted into sulphuret of lime, which, by absorb- ing oxygen f.om the atmosphere, finally becomes a sulphate of lime or gypsum. We have other analyses of this article, but we believe there is no appreciable difference in them. When fresh from the works, it may be ap- plied to corn land during the winter, or on land devoted to raising vegetables, such as cabbage, potatoes, &c, without fear of burning the soil — since the rapid absorption of oxygen during this season, when it is exposed to the action of the atmosphere, converts a considerable per cent, of its bulk into sulphate of lime. Our own practice has been to expose it to the air as much as possible, and to effect this we have let it "lay out" for several months before using. In applying it to to the land, we have plowed it in, with wheat straw, early in spring, on land intended for corn and tobacco, and plowed it out, as far as practicable, during the succeeding autumn; the ground was then sowed in wheat — and with clover the spring after. We have secured "a good stand" of clove* on every piece so treated; and we continue to sow it, broadcast, over our clover lots, and as much of the land in wheat as we can get over. Some of the farmers in Scotland think the gas lime a protection against the ravages of in- sects — but of the truth of their opinion, we can say nothing, as we have found nothing to de- stroy the chinch bug, which has committed such devastation in this part of the country, that would not also destroy the crop, and prove " the remedy as bad as the disease." We have in fresh gas lime, as the constituent 182 THE SOUTHERN PLANTER. [March of its bulk, the hydro-sulphuret of lime, and a portion of uncombined — with from one, to one and a half per cent, of ammonia, (which it rapidly loses by exposure,) and perhaps a trace of iron. This last, if it exists at all, would, we sup- pose, be acted on by the sulphur contained in it, in the same manner as the lime, and be con- verted, in its turn, to the sulphate, or copperas. We shall be glad to hear from our Henrico friends, who have used it, the result of their experience. Agricultural Statistics. Among the intelligent and reflecting agricul- turists of Virginia, the desire is almost universal that measures should at once be taken, under legislative authority, to collect, annually, the agricultural statistics of the State, and to dis- seminate them widely for public information. We say — public information — because while it is a subject of primary importance to the agricultu- rist, it concerns every department of the busi- ness of the country, and is subsidiarylo them all. For all are either producers or consumers of the fruits of agricultural industry, and it is of the highest importance to both seller and buyer that the prices for its productions should be adjusted, as nearly as may be, to the quantity produced of any given article, to supply the de- mand (whether domestic, or foreign, or both,) when brought into market. This adjustment of price and demand to the supply of the article can only be effected with any approximation to accuracy by statistical information, so carefully collected and digested as to inspire general con- fidence in the aggregate results deduced from the returns which should be required to be ren- dered from every section of the producing region. This accomplished, — the price will be regulated by the supply, in obedience to the well-known ancl. invariable law of supply and demand, and the producer, the consumer, and the trader, will be alike protected from the spas- modic fluctuations to which the market is al- ways subjected when any considerable degree of uncertainty prevails as to the proper statisti- cal basis upon which prices should rest. The general importance of this subject will be seen by the following considerations: The ultimate i'.e*ign of all business pursuits, beyond the pro- ( urement of a livelihood to those who engage in them, is accretion or the accumulation of pro- perty. All the surplus earnings of labor flow) by an irreversible law, into the currents of trade. Each department of social life — itself depen- dent upon and subservient to every other — is furnished by the exchanges effected through the mediation of commerce with the means of dis- posing of its surplus productions, and of ac- quiring, with the proceeds, from the excess of the productions of the labor of others, such articles of necessity, comfort, taste or luxury, as may be needed or desired ; such commodities as add to the store of accumulated wealth; or such property — serving for capital — as may promote the increase of future production and add to the means of further accumulation. Thus every department of human pursuit is in a measure connected with all others, and "the whole body, by joints and bands, having nourishment ministered and knit together, 1 ' is it) cooperative harmony with all the members, in promoting the proportionate increase of every part, according to its measure in the relations which it bears to the whole. But while this mutual dependence is seen to exist in all the de- partments of productive industry, agriculture is the principle of life that pervades and sustains them all. " Agriculture feeds, to a great extent it clothes us; without it we should have no manufactures, we should have no commerce. They all stand together like pillars in a cluster, the largest in the centre ; and that largest is Agriculture."' — ( Webster.) Says Mr. Jay, in his masterly address present- ing a statistical view of American Agriculture, &c, "Agriculture is the largest national interest of this Republic ; involving, more than any other bi-anch of industry, the wealth and wel- fare of the country, and the labour and happi- ness of the greatest number," If then, as has been seen, agriculture is of such overshadowing importance, as one of the chief sources of national wealth and pros- perity, and as supplying so large a part of the commerce of the country, its claims upon the Legislature for its intervention in its behalf, for the speedy accomplishment of so desirable — nay, so necessary a result, as the truthful regis- tration of all the principal elements of her pro- duction, ought not for a moment to be denied, nor be further postponed by the Legislative au- thorities of the Commonwealth. Petitions on this subject have been, or will be presented to the Legislature emanating from the Lynchburg, the Virginia Central, and the Virginia State Agricultural Societies. These bodies repre- I860.] THE SOUTHERN PLANTER 183 sent the agricultural interest of the State, and no doubt reflect the wishes of the entire agricultu- ral population on this import an I subject. For the Southern Pla?iter. Salt and Lime. Mr. Editor : In reading the January number of the Plan- ter, I observed an extract headed "Salt and Lime." Well, that was a subject upon which I have of late been thinking much, but the ex- tract alluded to, did not altogether satisfy my mind. My thoughts have been directed to that sub- ject, because of an experiment made by a neigh- bour of mine, of sowing salt, broadcast, in a very limited quantity, upon what is usually termed in our section, over-marled or lime- burnt land. This neighbour — a gentleman of undoubted veracity — stated to me that he had some spots in his field which had been, some years ago, ove'rmarled by his father, so heavily indeed, that but little or no grain of any kind could be produced ; the corn would look well until about knee high, and then assume a sickly, yellow appearance, and the blades finally moulder away. After much reflection upon the subject, lie de- termined to sow a few bushels of refuse fish salt upon the worst portion, and see what effect, if any, that application would have. He had to wait but a short time, as he relates, before the appearance of the corn was changed from a yellow to a flourishing green; in fact, the blades, the ends of which had mouldered away, took a second growth. I asked this neighbour what chemical change, he supposed, had taken place between the salt and lime. His reply was, .he did not know — but one thing he did know, that the effect was so manifest that the most casual observer could not fail to perceive it. Thus stand the facts in the case. Now, facts are stubborn things, and though we cannot readily account for them, still they cannot be denied. The extract alluded to positively asserted, that by mixing lime and common salt, a mutual decomposition of the two is effected, and two new compounds entirely different in their na.- ture. are the result, viz : carbonate of soda and chloride of lime. Now, chemists tell us, that common salt, in chemical language, is a chloride of the metal sodium ; that chlorine has a strong affinity for the metals, but shows little disposition to unite with alkalies. They say, too. that lime is an oxide of the metal calcium, found as a natural product in great abundance in the shape of marble and common limestone, which are car- bonates of lime ; that the carbonic acid is driven off' by heat, when it becomes caustic, or what is called quicklime, which, upon exposure to the air. readily combines again with carbonic acid and forms a carbonate of lime, or limestone. Now, the question arises, will one of these two substances, salt and lime, decompose the other, and consequently form two new com- pounds, entirely different in their nature from the originals'? Has the chlorine — one of the elements in the composition of salt — a greater affinity for the calcium of the lime than it has for the sodium of the salt? Has the carbonic acid of the lime, (for the oxide of calcium readily combines with the carbonic acid of the air) a greater affinity for the soda than it has for the lime'? If it has, then it will leave the lime and unite with the soda and so form a car- bonate of soda ; the chlorine being set free would unite with the lime and form a chloride of lime. Salt is recommended by some as a valuable manure. If it be a manure at all it can only be rendered so, we presume, by some decomposing agent, so that the soda, of which it is partly- composed, may be set free and rendered avail- able to the roots of plants. If lime be this agent, then we have the means at hand of rendering the vast tracts of arable land now almost worthless from too heavy applications of marl, capable of producing fine crops at a cost of a few cents per acre. Now, with a request that you will give us farther light on this subject, I will close by wishing a long life and brilliant course to my old friend, the Planter. SCHOLASTICOS. Gloucester, Feb. 6th, 1860. REMARKS BY THE EDITOR. In reply to the quearies of our correspondent, we will, with great pleasure, give him our view* on the subject, although we fear they will do him very little good. These we beg leave to give him. in mercantile parlance, with (; errors and omissions excepted/' Some years have elapsed (we don't like to remember how many) since the study of chem- istry was a part of our daily business, and even then, we don't think our proficiency would have entitled us to the honourable distinction of : ' Professor." We are certain, however, that if we were at that time, not particularly " brighi" as regards a knowledge of the science, we were not so " rusty" as we are now. The celebrated Dr. Chapman used to say he " had not read a book on chemistry for thirty years, and he thanked God for it." We have been posted up on the subject at a much shorter pe- riod than this, but still we are not so certain of the orthodoxy of our views, as to be able " to swear to our account." The slaking of lime with salt-water is no new thing, — and those who have tried the experi- ment have, we believe, invariably spoken well of it. Lime thus prepared, has been confidently 184 THE SOUTHERN PLANTER. [March recommended as a good application around the roots of fruit trees, and for agricultural and horticultural purposes. We think our correspondent is right in sup- posing "a double decomposition" takes place in a mixture of " lime and salt." Lime has a very strong affinity for carbonic acid, (which he can readily perceive by breathing for a few moments into a glass filled with a solution of lime, when a precipitation of carbonate of lime rapidly takes place,) but we believe that soda has a stronger affinity for carbon than lime has. Salt is a "chloride," " hydrochlorate," or • : muriate" of soda : (for these three different names are given to the same acid,) which is composed of one pait of chlorine and one part of hydrogen, added to the "oxide of so- dium." Carbonate of lime (or chalk) is composed of carbonic acid (containing one part of carbon and two of oxygen,) added to the oxide of cal- cium. Thus it contains, of carbon one part, oxygen three parts, added to calcium. We believe that a mixture of lime and salt would undoubtedly produce a chloride of lime and carbonate of soda — the former of which is very easily soluble, and combines rapidly with water. A weak solution of the chloride of lime, is said by some persons who have often tried the experiment,. greatly to promote the speedy ger- mination of seeds, and one gentleman of our acquaintance always soaks his garden seed in it for twelve or fifteen hours before sowing. Salt is so easily soluble, that we do not sup- pose it is necessary that any " decomposing agent," should be brought to bear upon it to make it available plant food. We cannot account for its action satisfactorily to our- selves in preventing "firing" in broad-leafed crops ; but we commend to our correspondent the articles in our November and present num- bers, furnished by two experienced tobacco growers, on its use as a manure for that crop, and recommended by them as a specific rem- edy for the "firing" which is so apt to injure the leaves when guano is applied to the land. The experiment alluded to by our correspon- dent, in which he speaks of the beneficial ap- plication of salt to "lime-burnt" land, we are very glad to receive. It is a troublesome and tedious job to restore land labouring under an excess of lime, to a fertile condition. We don' know that an application of salt to such soils would remedy the evil; but we believe it would, on the supposition that the lime would be thus converted, in part, to the chloride, which is more easily soluble, and could by moisture be carried down to the roots of plants all ready for immediate assimilation. It is well known that lime-burnt land bakes hard, and becomes too hot in time of drouth. Salt is deliquescent, or absorbs moisture, and thus its presence in such soils would subserve the double purpose of moistening and cooling it,' since cold is produced by it, when from the addition of mois- ture, it passes from a solid to a liquid state. We append the following notes, taken from a Compendium of "Hare's Lectures on Chem- istry : " " Berzlius divided inorganic bodies into Halo- gen, (or generators of salt,) Amphigen, (or such as unite to form either acids or the base of a salt,) and Radicals (or such as unite with other bodies to form acids or bases, but do not form acids or bases with each other. "Dr. Hare, of Philadelphia included the Hal- ogen and Amphigen bodies in one class, and denominated them ' Basacigen bodies,' viz: Oxy- gen, Chlorine, Bromine, Iodine, Fluorine, Sul- phur, Selenium, and Tellurium. Of those, Chlorine, Bromine, Iodine, and Fluorine, be- long to the class of Halogen bodies — the other to the Amphigen. "The compounds of chlorine are divided into chloro-acids, and chloro-bases, and the termi- nation is given to the latter of ide, as, for ex- ample, chloride of calcium. " Chlorine with Hydrogen, forms the acid called Muriatic, composed of equal volumes of the two. Salt is a chloride of Sodium.'" For the Southern Planter. Enquiry as to Salt on Tobacco Land. Mr. Editor, — I read with interest an article in the Nov. number of the Southern Planter, under the caption, "Salt a Preventive of the Firing of Tobacco," by W. M. Watkins. Feeling desirous to learn something more definite upon the sub- ject, so that I may avail myself of the benefit of an experiment, I make the following enqui- ries, and would be much obliged to Mr. Watkins if he would respond to them: 1st. How much salt (if applied alone) would be sufficient to the acre — i. e., to a light (tolera- bly) sandy soil ? 2d. If applied with a concentrated manure, what told? and in what proportions'? and how much of the mixture should be applied to the acre? 3d. At what time should the application be made, and how? — i. e., whether broadcast or in drill? If broadcast, should it be harrowed or ploughed in? Not knowing Mr. Watkins' address, I ask the I860.] THE SOUTHERN PLANTER. 185 insertion of this in your valuable monthly, hoping It is eye may Tail upon it. and that the informa- tion desired maf be obtained in time for the coming crop. Should he not observe this, per- haps you, Mr. Editor, could give the desired in- formation. R. Y. Henley. KingS,- Queen Co., Va., Jan. 23d, 1860. As considerable time must elapse before our correspondent. Mr. Henley, can hear from Mr. Watkins, through the columns of the Planter, it may be desirable that the information which he seeks should be communicated at an earlier date — not that we would supersede the commu- nication asked from Mr. Watkins, which we hope to receive in time for our April number — but that the inquirer, in the mean time, may avail him- self of the experience of another successful to- bacco planter. Dr. R. H. Nelson, of Hanover, corroborates the opinions expressed by Dr. Sprag- gins and Mr. Watkins, on the efficacy of salt in preventing the firing of tobacco while standing on the hill. He ploughs his land for tobacco as early in the fall or winter as practicable, that the ameliorating influence of freezing may be exerted upon it. In the spring he again ploughs it, and after a thorough harrowing, he lays it out by furrows run at the distance of three feet three inches apart; and taking three of these as affording a convenient width for the sower, ground alum salt is sown at the rate of one bushel to the acre. The land is then thrown into beds between the furrows above described; and with no other attention except what is re- quired to keep down weeds, it so remains until the planting season, when it is thoroughly pre- pared for receiving the plants. Dr. Nelson has pursued this plan for several years, with entire success, even on land which before had nearly always produced tobacco injured by firing. He uses salt upon all his ploughed, land to which he applies manure.- -[Editor. The Weekly Southern Planter. Published at Jackson, Mississippi. /By Powers & Cadwai- lader. Terms: $2 a year. Wilson A. Parker, Editor. We place on our exchange list this new and promising Weekly, with whose first numbers we are much pleased. We wish it % 'good luck," and as it bears all of our name, and more besides, we cordially greet it as "one of the family." Our own interests, as well as the feelings of our heart, combine to induce the wish for unmea- sured prosperity to all Southern Planters. Broom Corn and Corn Brooms. Mr. P. Horton Keach, of this city, is about establishing a factory to supply us with brooms, and consequently he will wish to purchase broom corn enough to supply us with the genu- ine home-made article. We are promised an article on the culture and preparation of broom corn for market, which as soon as we receive it, we will lay before our readers. Hon. Judge Mason, of Iowa, who made him- self so popular with the inventors of the coun- try, while he held the office of Commissioner of Patents, has, we learn, associated himself with Munn & Co., at the Scientific American office, New York. Scientific Artisan. This is a highly valuable paper, particularly for machinists and mechanics of every kind. To their notice we especially commend it. It is liberally ornamented with engravings of new inventions. Accounts. The book-keeper desires us to say that he will next month send out his bills for amounts due •by subscribers, and that he has already sent out a good many — to all of which he invites a speedy response. The bills will be found in the first leaf of the Planter, and if any errors are detected in them, we are always ready to rectify them. Our Office, 148 Main Street. We are glad to see our subscribers and friends here, whenever they are disposed to pay us a visit or — a subscription Let them come on business or pleasure, we have a welcome for them, and should be glad to make the personal acquaintance of every good man among them, or that they may bring with them. Our neighbor, Jos. Stern, (a scientific optician) occupies a part of the building, and can supply everybody in want, with spectacles, stereoscopes, microscopes, &c, &c. He kindly allows us to show to our friends his stock of pretty things^ which is extensive and varied; so then the friends of the Planter will please remember (if they are fond of pictures) that they can pass a part of their time here in amusement, free of cost. . 186 THE SOUTHERN PLANTER [March Our Journal. Our thanks are due to several friends for the increase of our subscription list lately. We have been gratified to see it growing, and are encouraged to say of our paper, that its pros- pects are brightening every month. While we do not stand upon the house-tops and proclaim our own as "the best agricultural paper in the world," we try hard to make it, so far as we can, as good as the best, and we are grateful to all of our friends, who think well enough of our efforts to induce them to recom- mend us to others, for their good will and friend- ly aid. To our brethren of the press we return our cordial thanks for their kindly notices of The Southern Planter. To render it acceptable and reliable to the public, as an agricultural journal, is simply our duty, and shall be also our plea- sure; and every mark of approbation we receive? cheers us on in our work. Agents. Mr. A. T. MUCHLER, of Aylett's, King Wil- liam county, Virginia, is authorised to receive subscriptions for us, and to receipt for them in our name. The bills due us in the counties of King Wil- liam, Caroline, Essex, and the lower part of Hanover, (Old Church and the Court-House.) are now in his hands, and we will be greatly obliged to our subscribers, with whom Mr. M. may meet, to settle their accounts promptly. Mr. T. B MONTAGUE is our Agent at Glou- cester Court-House. Subscribers in that county will find their bills in his hands. American Guano. Will any of our subscribers, who have tried this article of manure, give us the result of their experiments for publication ? We observe in some of our Southern exchanges commendation of it as suitable to corn and cotton. • We tried it (on a small scale) on our oat crop in 1858, and perceived no good effect from it whatever. We shall try it again the present spring on corn, and we hope it will be cautiously used by a good many of our farmers, so that we may be assured of its merits. Below we give the opinion both of the editor of the New England Farmer and the Maine Farmer, who are practical agriculturists. The opinions of both these gentlemen have great weight with us, and while we would advise caution in its use, we think it should have a fair trial, as it may prove a valuable aid to some of our crops, and we are in favor of using any kind of manure on our farms, " if i r will pay " to do so. Letter from Dr. Holmes, Editor of the Maine Far mer. OPINIONS OF THE AMERICAN GUANO. Winthrop, Me., Oct. 19, ]859. Dear Sir: — I have made use of the American Guano that I purchased last spring, and am well pleased with it as a fertilizer. I tried a com- parative experiment with it in the following manner. A portion of a cornfield w T as marked off. The American guano was used in the hill, say a gill to each hill ; beside this I applied the Peruvian guano in the same way and quantity, and beside this the fish guano in the same man- ner and quantity. All the rows of corn did w r ell, and I could see no particular difference be- tween them. This proves your American guano to be equally as good as other kinds ; or, in other words, equally as good as what has hitherto been considered the best. I have not had opportunity to give it a fair trial as a top-dressing to grass land, but intend to do it next spring. There does not appear to be so much free ammonia escaping from the American guano as from the Peruvian, but it seems to contain enough of it, and as far as I can judge from its action on crops, and not by actual chemical analysis, it contains as much of the other fertilizing ingredients,, such as phos- phates and other salts, if not more than the Pe- ruvian. With much respect, yours truly, E Holmes. Remarks. — In confirmation of the opinion which Dr. Holmes has formed of the value of the American guano, we will state that we have used it for two seasons with the happiest re- results. The first trial of it was on corn where its effects were distinct through the season ; the corn coining on earlier in the spring, growing faster, with a dark green color, and producing abundantly in the ear. This last season we tried it through the centre of a field of corn with similar results.' It also produced carrots and potatoes, without other manure, of most excel- lent quality, and liberal in quantity. On beats and parsnips the result was equally marked. But the point to which we attach the most im- portance is, that it may be used on any crops as a stimulant and fertilizer in the hill, without endangering the germination of the seed, and thus give corn, or other plants requiring a long season, an early start, and secure their perfec- tion before the time of frosts. In our short, cold and wet springs, it is essential to give the corn crop an early growth, and this we have secured by the use of the American guano, better than in any other way. We hope our farmers will generally try it, and I860.] Til B SO ITU Bfi N PL A NTK R. 187 that the I'll.-.- will be kept within moderate lim- thai nil may avail tln-m-el vc> o£ it- ad van!:i. W* ] >n l> I i r- li the following circular, re from the Commissioner Of patents, that our ITS, who have heen accustomed to receive from that department, may know that for rc.-ix.ii3 stated belOW, there will be no distribu- tion of them this year: United Statks Patknt OrriCI February 2, I860. '•Sir: — The following extract from the forth* coming agricultural report of the Commissioner of patents will explain the reason why the dis- tribution Of the various kinds of domestic seeds. which have heretofore heen sent out from this officd is dispensed with during the present fiscal year : 'Owing to the reduced appropriation made by Congress for agricultural purposes for the fiscal year, ending Jane 30, I860, the Office has beee compelled to reduce its expenses and confine its action to a more limited sphere than heretofore.! In doing this, it was found necessary either to decline purchasing for distribution the usual va- rieties of garden and field seeds, or to abandon i the experiment of propagating the tea and va- rious other foreign plants and grape-cuttings for i which orders had been given. The expenses which had already been incurred in their pro- curement would hardly justify the office in throwing them aside. It was accordingly deem- ed advisable to apply the remainder of the funds solely to the procuring of information and pre- paring the material for the agricultural report, and to the propagation and distribution of such varieties of foreign seeds and cuttings as had been already engaged. These were of such na- ture, that if they had been distributed through- out the country immediately upon their receipt the probability is, that very few of them would have reached their destination in a lit state for propagation. The tea-seed-, more particularly, arrived in SUOh a condition, that it was of the Utmost importance to plant them at once. For this purpose, large propagating hou-es were erected upon the Government grounds, north of the canal, between 4$ and 6th streets. These structures now answer well the purposi which they were intended, as ifl exhibited by the fact that we have ready for distribution over 1 30,000 well rooted tea-plant-: 12.IHM) foreign and domestic grape-vines; 900 rpON pomegranate cuttings, ami various foreign, me- dicinal, and ornamental plants. These will be ready for distribution during the present winter, and the ensuing spring.' •Yours, very respectfully, u Wm. D. Bishop, Comm'r.'' We are indebted to the Commissioner also for the following letter, published in "the Consti- tution, " (a newspaper published in the city of of Washington,) on :, Rich cann to interest our rea< Italian Bees. Paius. January 1'.', 1 I In accordance with my instructions from the Patent Office, I arrived in the country of the Italian Lakes in April, 1899, and COfntli Searching for Italian I' I wandered about among the hill.- of thi lightful region and examined many hive.-, but could not frel satisfied that any of them were o| the pure LigUriah stock. The Italians are not a careful people, and it is difficult to find among them sufficient knowledge or skill to keep pure any kind of Stock. The approach of hostile ar- mies stopped my further researches for the time, and I was obliged to wait until the conclusion of peace for fin ther elfortS. In the following September, as I was about leaving my Swiss home for another trip into Italy, I learned that an intelligent Bavarian, named Hermann, had established himself in the Grisons, and had devoted himself with much enthusiasm to the culture of pure Italian which he collected wherever he could find them, but mostly from the vattclin. I visited him at once, examined his hives, and was convinced that they were pure. I pur- chased of him for the Department to the full amount I was authorized to expend, and ordered them to be sent by tin? Arago on the 10th of Oc- tober from Havre. By ,-oine unaccountable de- lay-eWy were not shipped until December '-28th from Genoa. They are doubtless now on their way, and will, on their arrival in New York, he forwarded at once to Washington. I sent by ili.' -anii? vessel a few hives for my own use, and, in order to ensure the thorough introduc- tion of this breed, I have purchased one hun- dred additional hives for myself, which will be shipped next month, and from which, during the ensuing summer, I shall be able to supply many who may desire them. Since I last communicated with the Depart- ment, I have hail additional intercourse with European agriculturists, and am increasingly impressed with the great value of this species. It was not introduced into Northern Europe un- til [853, and its introduction is every year more appreciated n- a new era in bee culture. Its introduction into the United Slate- may no less constitute a new era. and the Patent Office will deserve the gratitude i>i the country for it- ef- forts to obtain it. This will be the better un- derstood when the profits of bee culture shall be nerally appreciated that every farmer will have his hundred hives, the inmates of which will gather up the multitude of sweets which now are last, and yield to their owner, accord- ing to hi- care, from three to ten thou. -and pounds of honey, or. according to Lang-troth's lowest estimate, five hundred dollars per annum profit. It cannot be doubted that the Italian bees will entirely take the place of our common species, for the reasons: tirst, that they will endure the cold better; 2d, that they swarm twice as often ; 3d, that their queens are abundantly more prolific ; 188 THE SOUTHERN PLANTER [March 4th, that the working bees begin to forage earlier and are more industrious ; 5th, that they are less apt to sting, and may be easily tamed by kind treatment; 6th, that the queen may be so edu- cated as to lay her eggs in any hive in which she is placed, while the bees of such a hive, de- prived of their own queen, will readily receive her; 7th, that its proboscis is longer, and it can reach the depths of flowers which are entirely beyond the efforts of the common bee. The im- portance of 'this last superiority cannot be too highly appreciated; 8th, that a young queen, once impregnated, will conti: ue fertile during her life — from four to seven years. This quality will insure pure brood, till the whole country is filled with them; 9th, that they are far more brave and active than the common bee, will fight with great fierceness, and more effectually keep the moth out of the hive. They can be easily distinguished by a broad yellow band around the abdomen. I feel assured of their susceptibility to entire domestication, for I went in among them with- out any protection, unless a cigar could be con- sidered such. My companion uncovered the hives and took out the bees, which swarmed around me in great numbers, but did no harm, except one, whom 1 treated rather roughly when he alighted on my finger. It is the custom of the Italians to take them up on the highest Alps, and I therefore feel cer- tain of their great hardiness. I believe that this bee will soon prevail in the United States and drive all others out of culture. This will result from a conviction everywhere of the large profits to be derived from its propa- gation and its labor. To import a hive of full size from Europe will cost from twenty to twen- ty-five dollars. It may be, therefore, safely assumed that, for a couple of years to come, the demand for these bees will be very great, at t3n dollars for a queen impregnated, which will produce thirty thou- sand workers and at least fifty queens in one sea- son. For, perhaps, three years more, their value will be five dollars, and less, until the country is fully stocked with them. As soon as the demand fails, the possessor of them is thrown back upon their labor for his profit. Their labor will be more productive than that of the common bee, and Langstroth gives the produce of the latter from thirty to a hundred pounds of honey for each hive, besides the wax. His lowest estimate is five dollars profit per hive. A German writer says, that from one Italian queen he obtained more than one hundred and thirty fertile young queens, but T state fifty as a safer number. The great value of this breed is the safety and ease with which they can be handled and divided up. When it is recollected that each hive will make fifty others in the first year, and consequently, twenty-five hundred other the second year, and then, when the de- mand fails, each colony or hive will produce honey to the value of five dollars, it will be readily conceded that its money power will speedily settle the question of its general intro- duction. It must not be forgotten, however, that suc- cess in this, as in all high breeding, requires care and attention, and for want of this sortie may be disappointed in their results. The facts I have stated are asserted by the best agricul- turists in Europe, and may be considered re- liable. With repard to some other points in the de-~ scription of Italian bees I find my notes confirm entirely the remarks and letters given in Lang- stroth's valuable book, and will, therefore, not repeat what you can read better there. Every one interested in bees should not fail to buy this book and read it. In no other can he find so much valuable information, or learn so well what veritable slaves of the lamp these little insects are, giving to their masters three- qnarters of their earnings, and demanding in re- turn no food a'nd but little more attention than a woman or intelligent child can give. To this book I must also refer you for the best mode of introducing Italian queens to our na- tive stock, or dividing up whole Italian colo- nies. I cannot perceive that the German or Italian mode differs materially from it. Trusting that the bees will reach Y ou safely, I remain, very respectfully, S. B. PARSONS. William D. Bishop, Commissioner of Patents. Commercial and Agricultural Value of Certain Phosphatic Rocks of the Angu- illa Isles, in the Leeward Islands. To the Editor of the Mark-Lane Express. Sir, — A few weeks ago I perceived in your journal a communication from Sir Roderick Impey Murchison, V. P. R. S., to the Journal of the Royal Agricultural So- ciety of England, respecting the commer- cial and agricultural value of certain phos- phatic rocks of the Anguilla Isles in the Leward Islands; conveying information which cannot be made too generally known, nor too highly appreciated, either in a com- mercial or national point of view. For no sooner had the researches in organic che- mistry during - the last twenty years ex- plained the elaborations of vegetable econo- my, and reduced agricultural operations comparatively to definite laws, by defining the nature and determining the relative pro- . portions of these elementary and compound bodies ever present and indispensable to the mature development of whatever crop it is the object of the farmer to cultivate, then arose the question, from whence was an ade- quate supply of those indispensable inor- ganic constituents to be derived. For, not- withstanding there are many subjects con- nected with the daily operations of the farm ^ I860.] Til E SOUTH BUN PLANTKIt. 189 yet to be disc nesed, it is generally admitted by all acquainted with tin; great achieve- ment! in modern agriculture, that wherever a oommensarate amount of capital and Bcienee are brought into operation in this important field of national industry, few in- vestments an> calculated to ensure more cer- tain ami remunerative returns; ami none conferring more permanent good upon the country at large, as it directs the energies ami enterprise of a vast portion of the com- munity to be expended in a cause which must inevitably expedite the general de- velopment of our agricultural resouices, and augment to an indefinite extent the annual produce, of the soil. Now 7 , to render the present refined state of chemical analysis subservient to the daily operations of practi- cal husbandry, it is not only essentially necessary that the farmer should know the nature of the mineral and saline ingredients extracted from the soil by the crops raised, but that he should have the means of re- storing to the land any of those ingredients indispensable to the proper development of a crop of which it may be deficient. For example, I need only remark that either roots or cereals will vegetate with considera- ble luxuriance up to a certain period of their growth, during which time they had ex- pended their sustenence in the formation of cellular tissue: and for the want of alkaline and earthy phosphates, and azotized matter, the plants cannot attain proper maturity, and we obtain bulk with little nutritious virtue. To enable the practical fanner to fully comprehend the important mission assigned to inorganic matter in the economy of vege- table physiology, it is only necessary to esti- mate the quantity of these substances re- moved from the soil by a ton of each of the following grasses: Inorganic Sub- I Italian stances. 'Ryegrass Phosphoric acid Potash Soda Lime Magnesia .... Oxide of Iron . . Sulphuric acid Chlorine Silica Alumina Total quantity Lbs. 17.00 1 :!.-.'.'. 1.00 4.25 2.00 81.73 Trace. 138.75 Clover Hay. A Red. White. Lbs. Lbs. 10.00 . 26.00 24.70 1D.7II 55.60 45.28 17. -jo 14.00 1.60 3.50 6.75 12. 10 4.00 5.10 5.10 6.00 Trace. Trace. 129.65 141.65 Lucerne Hay. Lbs. 29.00 30.00 13.70 107.75 7.25 .75 9.00 6.75 7.40 Trace. 211.60 From the above utatement it appears that the mineral and aaline ingredient* extracted from the soil by the different eited consists, in the aggregate, of alkaline and earthy phosphates, but assimilated in very different proportions by the respective plants named. Thus we find, by contrasting lucerne with rye-grass, that the former extracts from the soil close upon 380 per cent, more of these materials than the latter, showing that one species of grass may be cultivated with ad- vantage upon a soil totally incompetent to produce the other, without the agriculturist can avail himself of the means to correct the defect. And the history of all ancient states establishes the fact, that no system of culture can compensate for the inordinate quantities of these valuable substances re- moved from the soil in remote parts of the country in the form of milk, corn, cattle, or any other form the produce may assume, without we return the quantities equivalent to those removed. As soon as the great fer- tilizing power of phosphatic compounds was known, the attention of many of the lead- ing scientific men of the day was directed towards discovering a source from whence a permanent supply could be had. And at that time it was currently reported that a considerable deposit of phosphate of lime existed in the Spanish province of Estre- madura; but after a personal survey of the deposit by Dr. Daubeny, it was found una- vailable to the purposes of British agricul- ture, chiefly arising from the expense of transport. Indeed, various and extensive explora- tions have been made by many eminent pro- fessional and scientific gentlemen through- out the entire range of the cretaceous series of strata; and although many of these de- posits contained phosphoric acid, except the phosphatic fossils of Suffolk and Essex, dis- covered by Professor Ilenslow, and now ex- tensively used as a substitute for bones in the manufacture of superphosphate of lirue, little was effected to promote the interest of agriculture. And however much an ade- quate supply of mineral manure was felt at that time, its value in agricultural opera- tions has much increased since the passing of the Corn Law, inasmuch as the farmer has been compelled, from the low price of grain, to turn his attention more to grazing. And if attention is directed to the rearing and fattening of cattle and sheep, an ade- 190 THE SOUTHERN PLANTER, [March quate supply of earthy and alkaline phos- phates becomes more imperative, as they enter largely into the structure of all ani- mals, and necessarily form the most valuable portion of the food they consume. For in- stance, phosphate of lime forms from 50 to GO per cent, of all the bone reared and ex- ported from the farm ; and the alkaline phosphates constitute from 70 to 75 per cent, of the ashes of both flesh and blood, also forming about 80 per cent, of the ashes of the most valuable food for cattle and sheep. After chemistry had elicited the import- ant part assigned to these phosphatic com- pounds in both animal and vegetable life, it will be admitted that a plentiful supply of those ingredients is of the greatest import- ance to practical agriculture. And it is with that view that I now point out the Island of Sombrero as the means of supply- ing these necessary requirements of the day. The Island of Sombrero was visited as early as 1814 by an English gentleman, and again about 1825, on which occasion a re- port was made to the British Government; but it was not until 1856 that the Ameri cans discovered this extraordinary deposit of pliozphatic guano, and at once took posses- sion of the island, and since that time large quantities have been imported into the Southern States to replenish the exhausted tobacco and cotton fields, and which has been attended with surprising effect. Since Sir R. I. Murchison's communica- tion appeared in your journal, I have had an opportunity of examining a cargo of a thousand tons discharged in the port of London, ex " Rochambeau," from which the accompanying specimens are selected, and are equally rich in phosphatic compounds as those which Sir Roderick had analyzed from the same island, varying from 75 to 90 per cent., according to the nature and lo- cality of the strata from which the speci- men is taken. The geological formation of the island appears to be marine and phos- phatic breccia, and constitutes the most valuable source of mineral manure at present available to the agricultural requirements of the age; and fully impressed with the be- lief that good will result from its peculiar properties being generally known through- out our agricultural districts, I have ventured to submit these observations for your con- sideration, if you deem them worthy a place in 3 our widely-circulated journal. A Modern Agriculturist. Is it Anybody's Picture? There's neighbour S- . He's content with his farm, and believes that draining is too costly to be practiced, and sheds will not pay as protection to stock. He leaves a di- lapidated fence in front of his dwelling, backed by a row of scraggy peach trees. His wood-yard is the space in front of the house, consisting of an unsightly pile of green logs, to be cut up as occasion requires. His barn ! the roof decayed and ragged, with the boards here and there missing from the sides ; an open yard, where all winter a herd of lowing cattle may be seen, pinched with i(old, and trampling his fodder under their feet. His farming implements ! are few and simple. Go into the road, and there* by the fence where they are carefully placed when not in use — you will see them. An old wagon with an older box stands there ready to drop to pieces by its own weight, a three cornered drag rests confidingly against it, while a little away off is the plow which by the wear and tear it has been subjected to might be referred to any age since Methusa- leh. Neighbour S , believes one plow will answer for all purposes, and all soils, and thinks new inventions in this line hum- bugs. In the spring he yokes a pair of poor starved oxen, that have lain out to freeze in the open yard last winter, hitches them to his plow and proceeds to spring plowing. He usually gets into his field by letting down the fence; an easy task by the way, for the corners are all down, or thrown this way and that, till he cannot easily make it worse. He usually begins in wet weather, as his team is too light to plow when it is dry. He plows shallow, his teams are not strong enough to plow deep. He don't sub- soil, it would take another team. When har- vest comes, he-wonders why his fields yield but half a crop ! Such are men-— I will not say farmers who disgrace the pursuit of agriculture. But their number is lessening. Stupid must be the man indeed who does not improve in this age. Every appliance science and art can bring is placed in the hand of the farm- er. He has but to signify his wants, and the inventor is ready to devote years in his service. He but asks and he receives. The leaven in working, and the farmer for intel- ligence stands equal to the best. If he does not, then he is to blame. If he will not read and think, if he will not strive to im- T II E SOFT II i: II X PL A NT BR. L91 prove, then he meri ipt, and should I graded, do! only by other ] but by all true Ian: reproach oo the lienor of their calling. — Ohio Cultivator. Influence of the Surface Soil. There is something remarkable in tin- in- fluence on vegetable growth of the upper stratum of the soil. Take, for example, its on tlu- growth of young trees. W a young peaoh tree, fbr instance, is allowed to stand in a good toil, which from neglect be- hardened and erusted on the surface, it will make but a lew inrhes growth in a single season, lint if. Instead of becoming crusted, the surface of the soil for only an inch or two downwards, is kept mellow, and daily stirred, the growth oi' the tree will be mure than double, and sometimes more than quadrupled, although the roots may all be below the stirred portion. A more striking difference occurs when the surface is allowed in one instance to become coated with grass, and in the other is kept mellow. Although the roots of tie itended downwards but a few inches, yet we have known this mere surimoe-coating so to retard the growth of large peach trees, that they would not make more than three Or four inches growth, while similar tr ling in mellow culti- vated ground, grew from two to three feet in «i season. The roots of the trees were mostly a foot below the surf ce. We do not propose here to discuss the theory of this remarkable surface influence, but merely to point out the facts, and t some important practical hints. Manure for trees ai. 1 crops operates in important ways. The first and most ob- - is by its direct supplies to the small rootlets in the soil. To afford such supplies in the best manner, it should be finely pul- verised, and minutely diffused through the soil at just Mich a depth as the roots of the snd crops extend ; neither wholly bur- red deep, nor left wholly near the top ; but be intermixed through every part. This mode we do not pn ipeak id' si ent. The second way is its influence on the crUBl of the surface, as already alluded to. On very light Bandy or gravelly soils, this influence is less important* so far as the mel- lowing effect of manure mixed with the sur- face is concerned. On such soils, there is little to hold Ot retain its fertilizing portions, and it is soon dis-ipated and lost. Straw or fecaiSC litter, strictly as a mulch, is better here than manure merely. But on clayey soils manure become highly advanta It combines with and mellows the crust in a most efficient manner, 'i advantage which it possesses when thus applied to clay soils is not only in softening the bard i to which SUCh soils are liable, but in the ready combination which is ( ffected b( I the clay and the volatile manure. There are various ways in which surface manuring and mulching with straw benefits crops. Among others a most important one is shelter in winter. The soil about young snd plants, if perfectly bare and hard- ened by exposure, radiate.- heal Upwards to- wards a clear sky on a cold winter night with great rapidity. A very thin coating of man- j ure or litter is a great protection. Hence i the benefit derived from the winter mulch- ing of young fruit trees. In severe regions, the difference between t: ■ and fail- ure of dwarf pears, has sometimes resulted from this alone. Exposed crops of winter wheat have been saved from winter killing by surface manuring in autumn with thin coarse material. The protection which such a coating af- fords the soil and the plants upon the .sur- face from severe cutting winds, is frequently oi' great importance. A screen of trees, or a high, tight board fence, often saves young or plants from destruction; and to such a BCene is a mantle covering the bare earth. The great practical question arises, how much snd how frequently is it most profita- ble to manure tho Burface ? What propor- tion of the manure applied should be diffu- Sed through the soil, and what proportion left at the surface '.' At what SOaflOB of the should the work be performed? We have tried but a limited mind i r of experi- ments to determine tho-e points, and those not of much accuracy; but their general teaching was in favor of autumn or early- winter manuring, if to remain upon th. f unfilled land, or to be plowed in, in the spring; ai,d on tilled clay lands a small portion of the manure left on the BUrfhee, and only harrowed in in the spring or early summer, has had a good and BOmetim< cedent effect. On light soils, surface man- uring during the summer ha- proved but lit- tle benefit, even if harrowed in the top sofl. We believe the subject is one worthy of fur- thcrcxamination. — The Country Gtntaman. 19! THE SOUTHERN PLANTER. [March Ti Be A Man BY REV. JAMES W. HAMILTON. Cease your whining, cease your fretting, Cease your railing at your lot; lere's no time for useless dreaming, These complainings profit not. What if life is not all pleasure, Fretting won't relieve the pain ; Noble souls have never leisure At misfortunes to complain. Meet misfortunes, drooping willows, As the sailor meets the storm ; Just to ride upon its billows, Till they bear him to his bourne. Catch the breeze, or you'll succeed not ; Life's for labour, not for sport, Quiet seas thy way will speed not, Calm's won't bring thee into port. If you would yourself be happy, You must happiness impart; Bless your neighbours all around you, 'Twill return to your own heart. Let your sympathies flow outward, With the sorrowful condole ; Let your smiles be like the sunshine, Cheering every weary soul. All which you may be desiring, May not be within your power; Yet what God is now requiring, Is, do well the present hour. Go. relieve life's present sorrow, Let not indolence prevail ; He who waits until to-morrow To do good, will surely fail. - Let your aim be high and holy, And your motives strong and true ; Life has pleasures for the lowly, Life has something still to do. Idle hands are always weary, Selfish nature knows no joy ; Loving souls an: ever e.hcrry, Toiling spirits never cloy. Onward, upward, mounting higher On each wave-top as it rolls, Fill your heart with manly lire, Labour is for noble souls. Fight God's battles till your Master Bids you lay your armour down, He lias a reward prepared, Bear the cross and wear the crown. Make your Mark. toil. In the quarries should you Make your mark : Do you delve upon the soil, Make your mark : In whatever path you go, In whatever place you stand Moving swift or moving slow, With a firm and honest hand Make your mark. Should opponents hedge your way, Make your mark : Work by night and work by day, Make your mark : Struggle manfully and well, Let no obstacles oppose ; None, right-shielded, ever fell By the weapons of his foes: Make your mark. What, though born a peasant's son, Make your mark : Peasants' garbs may warm the cold, Peasants' words may calm a fear; Better far than hoarding gold Is the drying of a tear.' Make your mark. Life is fleeting as a shade, Make your mark : Marks of some kind must be made. Make your mark : Make it while the arm is strong, In the golden hours of youth; Never, never make it wrong: Make it with the stamp of truth : Make your mark. Live for Something. Live for something, be not idle. Look about thee for employ; ireaminsr- Sit not down to usele* Labour is the sweetest joy. Folded hands are ever weary, Selfish hearts are never gay; Life to thee hath many duties — Active be, then, while you may. Scatter blessings in thy pathway! Gentle words and cheering smiles Better are than gold and silver, With their grief dispelling wiles. As the pleasant sunshine falleth, As the dew descends on earth, So let thy sympathy and kindness, Gladden well the darkened hearth.