Several varieties of it are known, but for all practical purposes these resolve themselves into two kinds: one, a small grain, requiring five months to ripen, and a larger one, which takes seven to mature.

In some provinces of Java it yields a return of 400 or 500 fold. Mr.

Crawfurd found, from repeated trials, that in the soil of Mataram, in Java, an acre of land, which afforded a double crop, produced of the smaller grain 848 lbs. annually.

RICE.

This is one of the most extensively diffused and useful of grain crops, and supports the greatest number of the human race. The cultivation prevails in Eastern and Southern Asia, and it is also a common article of subsistence in various countries bordering on the Mediterranean. It is grown in the j.a.pan Islands, on all the sea coasts of China, the Philippine and other large Islands of the Indian Archipelago, partially in Ceylon, Siam, India, both sh.o.r.es of the Red Sea, Egypt, the sh.o.r.es of the Mozambique Channel, Madagascar, some parts of Western Africa, South Carolina, and Central America. Three species only are enumerated by Lindley:--_Oryza sativa_, the common rice, a native of the East; _O. latifolia_, a species having its habitat in South America; and _O. Nepalensis_, common in Nepaul. But there are a host of varieties known in the East; these, however, may for all practical purposes, be resolved into two kinds--the upland or mountain rice (_O. Nepalensis_, the _O. mutica_, of Roxburgh), and the lowland or aquatic species (_O. sativa_).

_Zizania aquatica_ is exceedingly prolific of bland, farinaceous seeds, which afford a kind of rice in Canada and North-West America, where it abounds wild in all the shallow streams. The seeds contribute essentially to the support of the wandering tribes of Indians, and feed immense flocks of wild swans, geese, and other water fowl.

Pinkerton says, this plant seems intended to become the bread-corn of the North. Two other species of Zizania are common in the United States of America.

Rice, the chief food, perhaps, of one-third of the human race, possesses the advantage attending wheat, maize, and other grains, of preserving plenty during the fluctuations of trade, and is also susceptible of cultivation on land too low and moist for the production of most other useful plants. Although cultivated princ.i.p.ally within the tropics, it flourishes well beyond, producing even heavier and better filled grain. Like many other plants in common use, it is now found wild [it is to be understood that the wild rice, or water oat (_Zizania aquatica_), already referred to, which grows along the muddy sh.o.r.es of tide waters, is a distinct plant from the common rice, and should not be confounded with it], nor is its native country known. Linnaeus considers it a native of Ethiopia, while others regard it of Asiatic origin.

The chief variety of this cereal is cultivated throughout the torrid zone, wherever there is a plentiful supply of water, and it will mature, under favorable circ.u.mstances, in the Eastern continent, as high as the 45th parallel of north lat.i.tude, and as far south as the 38th. On the Atlantic side of the Western continent, it will flourish as far north as lat.i.tude 38 degrees, and to a corresponding parallel south. On the Western coast of America, it will grow so far north as 40 or more degrees. Its general culture is princ.i.p.ally confined to India, China, j.a.pan, Ceylon, Madagascar, Eastern Africa, the South of Europe, the Southern portions of the United States, the Spanish Main, Brazil, and the Valley of Parana and Uruguay.

In 1834, 29,583 bags of rice were shipped from Maranham, but I am not aware what have been the exports since.

At the Industrial Exhibition in London, in 1851, there were displayed many curious specimens and varieties of rice, grown without irrigation, at elevations of three thousand to six thousand feet on the Himalaya, where the dampness of the summer months compensates for the want of artificial moisture. Among these American rice received not only honorable mention for its very superior quality, but the Carolina rice, exhibited by E.I. Heriot, was p.r.o.nounced by the jury "magnificent in size, color, and clearness," and it was awarded a prize medal. The jury also admitted that the American rice, though originally imported from the Old World, is now much the finest in quality.

This grain was first introduced into Virginia by Sir William Berkeley, in 1647, who received half a bushel of seed, from which he raised sixteen bushels of excellent rice, most or all of which was sown the following year. It is also stated that a Dutch brig, from Madagascar, came to Charleston in 1694, and left about a peck of paddy (rice in the husk), with Governor Thomas Smith, who distributed it among his friends for cultivation. Another account of its introduction into Carolina is, that Ashley was encouraged to send a bag of seed rice to that province, from the crops of which sixty tons were shipped to England in 1698. It soon after became the chief staple of the colony.

Its culture was introduced into Louisiana in 1718, by the "Company of the West."

The present culture of rice in the United States is chiefly confined to South Carolina, Georgia, Florida, Alabama, Mississippi, and Texas.

The yield per acre varies from twenty to sixty bushels, weighing from forty-five to forty-eight pounds when cleaned. Under favorable circ.u.mstances as many as ninety bushels to an acre have been raised.

Judge Dougherty, who resides near the borders of Henderson county, Texas, has raised a crop of several hundred bushels of upland rice.

The crop averages thirty bushels to the acre. He thinks rice can be raised there as easily as Indian corn, and will be far more profitable.

Another variety is cultivated in America to a limited extent, called Cochin-China, dry, or mountain rice, from its adaptation to a dry soil, without irrigation. It will grow several degrees further north or south than the Carolina rice, and has been cultivated with success in the Northern provinces of Hungary, China, Westphalia, Virginia and Maryland; but the yield is much less than that already stated, being only fifteen to twenty bushels to an acre. It was first introduced into Charleston, from Canton, by John Brodly Blake, in 1772.

The American crop of rice in 1848, reached 162,058 tierces in market, and of these 160,330 tierces were exported from South Carolina. The largest rice crop grown in South Carolina for the past thirty years, was in 1847, when 192,462 tierces were raised; 140,000 to 150,000 is about the average, and it has only exceeded 170,000 on four occasions.

The amount of rice exported from South Carolina in 1724, was 18,000 barrels; in 1731, 41,957 barrels; in 1740, 90,110 barrels; in 1747-48, 55,000 barrels; in 1754, 104,682 barrels; in 1760-61, 100,000 barrels; from Savannah, in 1755, 2,299 barrels, besides 237 bushels of paddy or rough rice; in 1760, 3,283 barrels, besides 208 bushels of paddy; in 1770, 22,120 barrels, besides 7,064 bushels of paddy; from Philadelphia, in 1771, 258,375 pounds. The amount exported from the United States, in 1770, was 150,529 barrels; in 1791, 96,980 tierces; in 1800, 112,056 tierces; in 1810, 131,341 tierces; in 1820-21, 88,221 tierces; in 1830-31, 116,517 tierces; in 1840-41, 101,617 tierces; in 1845-46, 124,007 tierces; in 1846-47, 144,427 tierces; in 1850-51, 105,590 tierces.

According to the census of 1840, the rice crop of the United States amounted to 80,841,422 lbs.; in 1850, 215,312,710 lbs.

Rice being an aquatic plant, is best grown in low moist lands, that are easily inundated.

The ground is ploughed superficially, and divided into squares of from twenty to thirty yards in the sides, separated from each other by d.y.k.es of earth about two feet in height, and sufficiently broad for a man to walk upon. These d.y.k.es are for retaining the water when it is required, and to permit of its being drawn off when the inundation is no longer necessary. The ground prepared, the water is let on, and kept at a certain height in the several compartments of the rice field, and the seedsman goes to work. The rice that is to be used as seed must have been kept in the husk; it is put into a sack, which is immersed in the water until the grain swells and shows signs of germination; the seedsman, walking through the inundated field, scatters the seed with his hand, as usual; the rice immediately sinks to the bottom, and many even penetrate to a certain depth in the mud.

In Piedmont, where the sowing takes place at the beginning of April, they generally use about fifty-five pounds of seed per acre. The rice begins to show itself above the surface of the water at the end of a fortnight; as the plant grows, the depth of the water is increased, so that the stalks may not bend with their own weight. About the middle of June this disposition is no longer to be apprehended; the rice is not so flexible as it was, so that the water can be drawn off for a few days to permit hoeing; after which the water is again let on, and maintained to the height of the plant. In July it is usual to top the stalks, an operation which renders the flowering almost simultaneous.

Rice generally flowers in the beginning of the month of August, and a fortnight later the grain begins to form. It is at this period especially that the stalks require to be supported, and this is effectually done by keeping the water at about half their height. The rice field is emptied when the straw turns yellow. The harvest generally takes place at the end of September. In the Isle of France rice is cultivated in very damp soils, upon which a great deal of rain falls, but which are not flooded, as in other tropical countries: but the process is not so certain nor the crop so great, as when inundation is employed. In Piedmont the usual return of a rice field is reckoned at about fifty for one. At Munzo, in New Granada, the paddy fields which are not inundated, under the influence of a mean temperature of 26 deg. centrigrade (79.0 deg. Fahrenheit), yield 100 for 1.--(Simmonds's "Colonial Magazine," vol. xi., p. 92.)

The rice now grown about New Orleans is as sweet, if not sweeter, than that imported from South Carolina, but it is deficient in hardness and brightness when ready for market, a defect owing entirely to two causes, neither of which is beyond the control of the planter.

The one cause is the mode of culture, it being generally grown without due attention to the seed--seeded at too late a period of the season, and allowed to become _rare-ripe_ upon the stalk. The other cause is the very imperfect mode of its preparation for market; this being invariably accomplished by the primitive pestle and mortar, or the old-fashioned "p.e.c.k.e.r mill." The same seed is planted in the same soil from year to year, a system which, it is generally conceded, will deteriorate the quality and production of any grain crop. A very large proportion of the rice grown in Carolina is prepared for market at the steam toll-mills, in the vicinity of Charleston; and a mill of this description near New Orleans, would remedy the greatest defect in the rice of the country, greatly increase the demand for the article, and undoubtedly yield a large return for the investment. The toll mills at and around Charleston are, and always have been, prosperous. The mills of Mr. Lucas, in England, erected to clean "paddy," _i.e._ "rough rice," sent there in bulk from Carolina, have succeeded also, and have increased the consumption of the article in that country. The "rough rice," "paddy," or grain, as it comes from the ear, is composed, first, of a rough, silicious outer covering, impervious to water, which is very useful in the neighbourhood of cities, for filling up low lots or pools, for horse beds, and for packing crockery and _ice_, being far better for the latter purpose than the sawdust used; second, a brown flour or bran, lying directly under the outer covering; and third, of the clean or white rice. There is no question that, as a common diet, it is better adapted to the climate of Louisiana than Indian corn; and it can be grown on the hitherto _waste lands of the sugar plantations_; it is always subst.i.tuted by the physician, when practicable, as the food best adapted to the laborer, in seasons of diarrhoea and other similar diseases, is _preferred_ before any other grain by the negro; and if the clean rice be ground and bolted, a meal is produced which can be made up into various forms of cake and other bread, of unrivalled sweetness and delicacy. The outer flour, or brown bran, which is separated from the chaff at the toll mill, is known as "rice flour," and corresponds to the "bran" of wheat, it is a most excellent food for horses, poultry, pigs and _milch cows_, and would always command a ready sale in New Orleans. It is used extensively for these purposes at and around Charleston, and is shipped thence, by the cargo, to Boston and other Northern ports.

No portion of the globe is better adapted to the growth of this grain than the delta of the Mississippi. The river is _always_ "up and ready" to do the all-important duty of irrigation in March, April, May, and June, in which period of the year the crop ought to be made; and I am informed, and doubt not, that _two_ cuttings can be obtained from the same plants, between March and the killing frosts of the succeeding November.

An interesting report by Dr. E. Elliot, on the Cultivation of Rice, was read before the Pendleton Farmer's Society, South Carolina, at a recent annual meeting, from which I shall make an extract.

In "Ramsay's History of South Carolina" it is stated:--"Landgrave Thomas Smith, who was Governor of the Province in 1693, had been at Madagascar before he settled in Carolina. There he observed that rice was planted and grew in low moist ground. Having such ground in his garden, attached to his dwelling in East Bay, Charleston, he was persuaded that rice would grow therein, if seed could be procured.

About this time a vessel from Madagascar, being in distress, came to anchor near Sullivan's Island. The master inquired for Mr. Smith, as an old acquaintance. An interview took place. In the course of conversation Mr. Smith expressed a wish to obtain some seed rice to plant in his garden. The cook being called, said that he had a small bag of rice suitable for the purpose. This was presented to Mr.

Smith, who sowed it in a low spot in Longitude Lane. From this small beginning did one of the great staple commodities of South Carolina takes its rise, which soon became the chief support of the colony, and its great source of opulence."

"Such is the historical account of the introduction of rice into South Carolina; and from that day to this, it has const.i.tuted one of her staple articles of production. Although the climate and soil were found admirably suited to the plant, the planters encountered incredible difficulty in preparing or dressing the rice for market.

From the day of its introduction, to the close of the Revolution, the grain was milled, or dressed, partly by hand and partly by animal power. But the processes were imperfect, very tedious, very destructive to the laborer, and very exhausting to the animal power.

The planter regarded a good crop as an equivocal blessing, for as the product was great so in proportion was the labor of preparing it for market. While matters stood thus, the planters were released from their painful condition by a circ.u.mstance so curious that it deserves a place in the history of human inventions. A planter from the Santee, whilst walking in King-street, Charleston, noticed a small windmill perched on the gable end of a wooden store. His attention was arrested by the beauty of its performance. He entered the store and asked who the maker was. He was told that he was a Northumbrian, then resident in the house--a man in necessitous circ.u.mstances, and wanting employment. A conference was held; the planter carried the machine to the Santee, pointed out the difficulties under which the planters labored, and the result was the rice pounding-mill. This man was the first Mr. Lucas, and to his genius South Carolina owes a large debt of grat.i.tude. For what the cotton planter owes to Eli Whitney, the rice planter owes to Mr.

Lucas. His mills were first impelled by water, but more recently by steam, and though much mechanical ingenuity and much capital have been expended in improving them, the rice pounding-mill of this day, in all essential particulars, does not differ materially from the mill as it came from the hands of Mr. Lucas.

This great impediment being removed, one formidable difficulty still remained in the way of the rice planters, and that was the threshing of the crop by flail. The labor requisite to accomplish this was so great, that we once heard a distinguished planter say, while having one large crop threshed out by flail, that he would regard another large crop as a calamity. Previous to 1830 threshing mills had been tried by various individuals, but with no apparent success. In that year the attempt was renewed, and we were present and witnessed the first trial of a thresher, constructed in New York, and which was tested on Savannah river, under the auspices of General Hamilton.

The machinery was driven by apparatus similar to that employed for driving the cotton gin. The result was not very satisfactory, but there was ground for hope, and after an outlay of very large sums, and after many disappointments, the happy expedient was thought of, of testing the mill with steam instead of animal power. The experiment was completely successful, and it was manifest at once that the difficulties had not been in the imperfect construction, of the thresher, but in the insufficiency of the moving power.

It is now twenty years since we witnessed the working of the small mill alluded to, and the rice threshing-mill, with steam-engine attached, is now a splendid piece of operative machinery. The rice in sheaf is taken up to the thresher by a conveyor, it is threshed, the straw taken off, then thrice winnowed and twice screened, and the result in some cases exceeds a thousand bushels of clean rough rice, the work of a short winter day.

Humanity rejoices at these inventions--at this transfer to water and steam, of processes so slow and so exhausting to the human as well as to the animal frame--and in this feeling we are confident every planter deeply sympathises. Moreover, the relief they have afforded in other respects has been perfectly indescribable. Previous to these improvements all the finer portions of the winter were appropriated exclusively to the milling and the threshing of the crop with the flail, yet it is manifest they added not one particle to the value of the property; indeed, while going on, all other work, and all preparation for another crop had to be suspended, so that the condition of the plantation was not progressive, but retrograde.

A short recapitulation will show what has been accomplished by the enterprise of our planters in the last seventy years. At the close of the Revolution it is believed the rice fields were poorly drained, and when broken up were chiefly turned with the hoe, then trenched with the hoe; then came three or four hoeings and as many pickings. The rice was then cut with the sickle and carried in on the head, then threshed with the flail, then milled and dressed, in some cases wholly by human labor, and in others by a rude machine, called a p.e.c.k.e.r mill. Now, in 1852, the hoeing, the pickings, and the cutting with the sickle remain unchanged; but the lands are better drained, and in the turning the plough has superseded the hoe; the trenching, when, necessary, is done by animal power; the rice, when cut, is carried in on a flat and wagon, then threshed and milled by machinery, so perfect that it is difficult to imagine how it can be surpa.s.sed.

It is one hundred and fifty-nine years since the introduction of rice into Carolina, and there are grounds for supposing that our people have accomplished more during that period, in the cultivation and preparation of this grain, than has been done by any of the Asiatic nations who have been conversant with its growth for many centuries. We had the rare opportunity, a few years since, of seeing a Chinese book on rice planting, which contained many engravings.

The language we could not read, but we comprehended a sufficient number of the engravings to inst.i.tute a comparison between their system and our own, and the result was, in our method of irrigation we were their equals, while in economy of cultivation, and in the preparation of the grain for market and for use, we are greatly their superiors. Again, some six or seven years since the East India Company, of London, sent an agent to this country to procure American cotton seed, gins, and overseers, for the purpose of testing the practicability of raising cotton by our method in India.

This agent, Captain Bayles, when in Savannah, was heard to say that he had especial directions from the Company to inform himself minutely of our system of rice culture. Here, then, was an emba.s.sage from the banks of the Ganges, a spot where rice has been cultivated probably for twenty centuries, to inquire into the method of cultivation and preparation, of a people amongst whom the grain had no existence one hundred and sixty years ago."

The following is the mode of culture for rice in Carolina:--It is sowed as soon as it conveniently can be after the vernal equinox, from which period until the middle, and even the last of May, is the usual time of putting it in the ground. It grows best in low marshy land, and should be sowed in furrows twelve inches asunder; it requires to be flooded, and thrives best if six inches under water; the water is occasionally drained off, and turned on again to overflow it, for three or four times.

When ripe the straw becomes yellow, and it is either reaped with a sickle, or cut down with a scythe and cradle, some time in the month of September; after which it is raked and bound, or got up loose, and threshed or trodden out, and winnowed in the same manner as wheat or barley.

Husking it requires a different and particular operation, in a mill made for that purpose. This mill is constructed of two large flat wooden cylinders, formed like mill-stones, with channels or furrows cut therein, diverging in an oblique direction from the centre to the circ.u.mference, made of a heavy and exceedingly hard timber, called lightwood, which is the knots of the pitch pine. This is turned with the hand, like the common hand-mills. After the rice is thus cleared of the husks, it is again winnowed, when it is fit for exportation.

A bushel of rice will weigh about sixty or sixty-six pounds, and an acre of middling land will produce twenty-five bushels.

Various machines have been contrived for cleaning rice, of which one secured by patent to Mr. M. Wilson, in 1826, and thus described by Dr.

Ure, may be regarded as a fair specimen:--It consists of an oblong hollow cylinder, laid in an inclined position, having a great many teeth stuck in its internal surface, and a central shaft, also furnished with teeth. By the rapid revolution of the shaft, its teeth are carried across the intervals of those of the cylinder, with the effect of parting the grains of rice, and detaching whatever husks or impurities may adhere to them. A hopper is set above to receive the rice, and conduct it down into the clean cylinder. About eighty teeth are supposed to be set in the cylinder, projecting so as to reach very nearly the central shaft, in which there is a corresponding number of teeth, that pa.s.s freely between the former.

The cylinder may also be placed upright, or horizontal if preferred, and mounted in any convenient framework. The central shaft should be put in rapid rotation, while the cylinder receives a slow motion in the opposite direction. The rice, as cleaned by that action, is discharged at the lower end of the cylinder, where it falls into a shute, and is conducted to the ground. The machine may be driven by hand, or by any other convenient motive power.[43] The growth of rice in North America is almost wholly confined to two States; nine-tenths of the whole product, indeed, being raised in the States of South Carolina and Georgia. A little is grown in North Carolina, Louisiana, and Mississippi.

The aggregate crop, for 1843, amounted to 89,879,185 lbs., while in 1847 it had risen to 103,000,000 lbs.

Besides the rice which is raised in the water, there is also the dry, or mountain rice, which is raised in some parts of Europe on the sides of the hills. It is said to thrive well in Cochin China, in dry light soils, not requiring more moisture than the usual rains or dews supply. By long culture the German rice, raised by the aid of water, is stated to have acquired a remarkable degree of hardness and adaptation to the climate. The upland rice of the United States is thought by some to be only a modified description of the swamp rice.

It will grow on high and poor land, and produce more than Indian corn on the same land would do, even fifteen bushels, when the corn is but seven bushels. The swamp rice was originally cultivated on high land, and is not so now, because it is more productive in the swamp, in the proportion, as is said, of twenty to sixty bushels per acre; and the use of water likewise, it is stated, makes it easier of cultivation, by enabling the planter to kill the gra.s.ses. It is thought that on rich high land, rice may be made to produce twenty-five or thirty bushels to an acre in a good season. A letter from a gentleman in North Carolina gives the following account of some rice raised there.

He says:--

"I have planted it the two past years with a view to private consumption only; not, however, with the success of my neighbours, who are famous, and have the things under their own management. They make from forty to fifty, and some, sixty bushels to the acre, on fine land that produces ordinarily from ten to fifteen bushels of Indian corn or maize. It is a larger grain than the gold or swamp rice, and very white; hence it is commonly called here the 'white rice.' It is planted generally about the middle of March, or 1st of April, in small ridges two-and-a-half feet apart, in chops at intervals of about eighteen inches, on the top of the ridge, ten or twelve seeds in each chop. A season that will make Indian corn, will, if long enough, make this rice; but it requires about four or five weeks more than the corn to mature. It ought to be cut before quite ripe, as it threshes off very easily, and is liable to great waste. Instead of the flail, we take the sheaf in the hand, and whip it across a bench in a close room until the rice leaves the straw.

It does not stand the pestle as well as the swamp rice, but breaks a good deal in the beating; this, however, I have heard attributed to the dry culture."

A new variety of rice is mentioned as having been discovered in South Carolina, in 1838, called the big-grained rice. It has been proved to be unusually productive. One gentleman, in 1840, planted not quite half an acre with this seed, which yielded forty-nine and a half bushels of clean winnowed rice. In 1842, he planted 400 acres, and in 1843, he sowed his whole crop with this seed. His first parcel when milled, was eighty barrels, and netted half a dollar per cwt. over the primest rice sold on the same day. Another gentleman also planted two fields in 1839, which yielded seventy-three bushels per acre. The average crop before from the same fields of fifteen and ten acres, had only been thirty-three bushels per acre.

The following were the returns of produce on some of the leading estates of South Carolina, in 1848:--

-----------------+----------+-----------+---------+------------+---------- | Barrels | | | | | Shipped | Barrels | |Average Net |Net Income Plantation |__________| of | | Produce | Amount |Whole|Half|600 lbs.net| Weight |per barrel. | Dollars -----------------+-----+----+-----------+---------+------------+---------- 1. Prospect Hill |1,387| 10 | 1,495 | 897,166|16 08-100ths| 24,001 2. Springfield | 737| 5 | 801 | 480,937|16 60-100ths| 13,264 3. Brook Green |1,571| 15 | 1,716 |1,026,405|16 53-100ths| 28,261 4. Longwood |1,113| 4 | 1,227 | 736,413|15 53-100ths| 19,021 5. Alderly | 484| 6 | 533 | 319,912|16 68-100ths| 8,851 -----------------+-----+----+-----------+---------+------------+---------- Total |5,292| 40 | 5,773 |3,460,833| | 93,398 -----------------+-----+----+-----------+---------+------------+----------